From owner-ibis  Mon Jun 10 16:12:10 1996
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Date: Mon, 10 Jun 96 15:58:24 PDT
From: jonp@qdt.com (Jon Powell)
Message-Id: <9606102258.AA18569@hal.qdt.com>
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	id AA17196; Mon, 10 Jun 96 15:58:23 PDT
To: ibis@vhdl.org
Subject: Multi-Driver vs Rise Time Control

At the Friday Face to Face I volunteered to give an example of a
driver that could be modeled with a mutl-driver construct but could
not be modeled using the VT array (which I call RTC for Rise Time
Control).

The following is a sharfile that contains a WORD doc of that example.
If you can't read this, email me your fax number and I will send 
hard copy.

regards,
jon

#------ cut here ------ cut here ------ cut here ------ 
#!/bin/csh -f
# a shar file for an entire directory
# To recreate:
# 1) cut at the line above
# 2) cd to destination directory
# 3) run this file as follows:
#         csh <file name>
cat << \SOURCE_END_BIG_LONG_STRING | uudecode
begin 666 SOURCE_FILE
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+F RP1O8H:X  FR.3
 
end
\SOURCE_END_BIG_LONG_STRING
cat SOURCE_FILE | uncompress -c | tar xf -
unalias rm
rm -f SOURCE_FILE
exit ( 0 )

From owner-ibis  Mon Jun 10 23:15:29 1996
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From owner-ibis  Wed Jun 12 10:07:23 1996
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Please unsubscribe me from your mailing list.

Thanks

From owner-ibis  Wed Jun 12 11:06:56 1996
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Date: Wed, 12 Jun 96 11:00 PDT
From: bob@icx.com ( Bob Ross)
To: ibis@vhdl.org
Subject: IBIS MINUTES 6/7/96

 DATE: June 12, 1996

 SUBJECT: 6/7/96 EIA IBIS Open Forum Minutes
 
 VOTING MEMBERS AND 1996 PARTICIPANTS LIST:
 AMP                            Hank Herrmann*, Tim Minnick (phone)*, 
				Russ Moser*
 Cadence Design                 C. Kumar*
 Contec CAE, Ltd.               Dileep Divekar, Norio Matsui, 
				Antonis Orphanou*
 Cypress                        Bruce Wenniger
 Hewlett Packard, EEsof         Karl Kachigan*, Henry Wu
 HyperLynx                      Kellee Crisafulli
 INCASES                        Olaf Rethmeier, Ralf Bruening*
 Intel Corporation              Stephen Peters, Will Hobbs*, Arpad Muranyi*,
				John Keifer, Aaron Tang, Duane Quiet,
				Donald Telian, Jim Kruchowski
 Interconnectix, Inc.           Bob Ross*
 Meta-Software                  (Sanjay Gangal)
 Mitsubushi                     Tam Cao, Hoang Nguyen*
 Motorola                       Ahmed Omer*
 National Semiconductor         Syed Huq*, Donald Snyder, Chune-Sin Yeh,
				Bill Aronson*
 NCR (formerly ATT-GIS)         Dave Moxley (phone)*, Richard Mellitz
 NEC                            (Hiroshi Matsumoto),
 Quad Design                    Jon Powell*, Chris Rokusek*
 Texas Instruments              Roger Cline, Ben Andresen, Sri Jandhyala,
				Tareq Shahwan, Dan Phipps
 Thomson-CSF/SCTF               (Jean LeBrun)
 UniCAD Canada Ltd.             Celso Faia*
 VLSI Technology                Dick Ulmer*, Sung Oh, Swami Gangadharan,
				Daniel Kim, Tom Dockery, D.C. Sessions*
 Zuken-Redac                    (John Berrie)
 
 OTHER PARTICIPANTS IN 1996:
 Alcatel                        John Fitzpatrick
 Altera                         Vadim von Brzeski
 Apteq Design System            Dan FitzPatrick 
 Compaq                         Mark Leonard
 Digital Equipment Corp.        Jeff Chu
 EIA                            Patti Rusher*
 IC Works                       Eric Chen
 Micron Technology              Brian Johnson                       
 MicroSim                       Ralph Perez
 Molex                          Gus Panella
 North Carolina State U.        (Michael Steer)
 Oki Semiconductor              Tom Chao
 Philips Semiconductor          Mike Magdaluyo
 Rockwell Collins               Thomas Thurman
 S3, Inc.                       Sarathy Sribhashyam*, Phap Duong    
 Seimans Nixdorf                Arnaud Lacariere
 Symmetry                       Andy Hughes*
 Tektronix, Inc.                Brock Hannibal
 TRW & Free Model Foundation    Robert Harrison
 Veribest                       Ian Dodd*, David Wiens
 VTC, Inc.                      Bob Ward*
 Zeelan Technology              George Opsahl

 In the list above, attendees at the meeting are indicated by *.  Principle
 members or other active members who have not attended are in parentheses.
 
 Upcoming Meetings: The bridge numbers for future IBIS teleconferences are as 
 follows:

      Date       Bridge Number    Reservation #    Passcode  
      6/28/96    (916) 356-9200   2-78902          4366478 
      7/19/96    (916) 356-9200   2-78903          6186335  
		 
 All meetings are 8:00 AM to 9:55 AM Pacific Time.  We try to have agendas out 
 7 days before each open forum and meeting minutes out within 7 days after.  
 When you call into the meeting, ask for the IBIS Open Forum hosted by Will 
 Hobbs and give the reservation number and passcode.
 
 NOTE: "AR" = Action Required.
 
 -------------------------------- MINUTES -------------------------------------

 INTRODUCTIONS
 Will Hobbs called the meeting to order and complemented Jon Powell for the
 Buttons and Placards.  The attendees introduced themselves.  New attendees
 for 1996 included D.C. Sessions of VLSI, Bob Ward of VTC, Inc., Russ Moser
 of AMP, Bill Aronson of National Semiconductor, Antonis Orphanou of Contec,
 Andy Hughes of Symmetry, Hoang Nguyen of Mitsubishi, and Ralf Brueing of
 INCASES.  Twenty five people attended from eighteen different organizations.
 
 
 EIA MEMBERSHIP AND TREASURER'S REPORT
 Patti Rusher did not have updated figures, but estimates the treasury at
 about $6000 after DAC expenses.  She has requested a formal monthly report.
 Both Veribest and Digital Equipment Corporation are expected to join as soon
 as payment is received on their invoices.  Payment has not been received from
 Quantic and Tanner, so they have been dropped from membership status.


 MINUTES REPORT, MISC.
 No Corrections.  
 

 MISCELLANY/ANNOUNCEMENTS
 None.


 PRESS AND WEB PAGE UPDATES
 The 1996 Proceedings of the 46th Electronic Components & Technology Conference,
 May 28-31, 1996 contains a paper by Peivand Tehraini, Yuzhe Chen, and Jiayuan
 Fang on "Extraction of Transient Behavioral Model of Digital I/O Buffers from
 IBIS".

 VLSI is considering Web access for their models, but they are currently
 available through direct contact.  Also, ICS, Inc. has IBIS models.


 NEW MODELS
 None reported.


 OPENS FOR NEW ISSUES
 Will Hobbs for International Efforts
 Patti Rusher for DAC97

 
 INTERNATIONAL STANDARDIZATION
 Will Hobbs summarized the recent international efforts to date.  An Express
 representation is required to move forward.  The experts at the University
 of Manchester estimate an upper limit of 2 months effort to upgrade IBIS
 Version 2.0 to Version 2.1 with documentation suitable for review.  The
 rate for such effort is $6000 per month.  Patti Rusher said that there were
 efforts to obtain this money.
 
 Patti summarized the steps toward international standardization.  Since
 IBIS is a formal ANSI standard it is ready to be forwarded as a new work
 item proposal to IEC once an Express representation is available.  Then it
 will be assigned to a working group and would probably take about 2-1/2
 years to reach adoption because of the time necessary to poll the member
 countries.  A faster model for standardization is being adopted since
 technology life cycles can be much shorter.
 
 Ian Dodd mentioned that David Wiens submitted concerns about IBIS inclusion
 of EDIF 4 0 0.  Patti reported that the comments had been received.


 DAC97 (DESIGN AUTOMATION CONFERENCE)
 Patti Rusher reported much interest in IBIS at the Standards booth and will
 forward the names of people requesting information.  The IBIS sign attracted
 attention and the unified appearance promoted unity among standards.  The
 booth was professionally designed as opposed to the ad-hoc appearance of last
 year.  Thank you Patti for a job well done.  Jon Powell would like to see EIA
 IBIS members listed next year, and Patti thought that would fit in well.

 We generally agreed to participate in the Standards Booth in 1997.  Jon 
 mentioned other ideas including a separate static display for IBIS and hot
 Web page links.  Karl Kachigan stated that that was effective at DAC.
 

 EIA AWARDS
 The following organizations received award placards for outstanding service 
 in promoting IBIS Models and Utilities.
 
 National Semiconductor for providing IBIS models, presented to Syed Huq
 Intel Corporation for providing IBIS models, presented to Arpad Muranyi
 HyperLynx for providing the "winibis" plotting utility (Kellee Chrisafulli)
 North Carolina State University for providing "s2ibis" and "s2iplt" utilities
    (Steve Lipa, Alan Glaser, Michael Steer, Paul Franzon)
 
 Also, Will Hobbs received a placard for outstanding service as chair of the
 EIA/IBIS Committee.

 
 ELECTIONS OF OFFICERS FOR 1996/1997
 Will Hobbs indicated that he will be on sabbatical for several months and
 and declined to serve as chair for next year.  He summarized the duties
 of all positions and asked for nominations.

 The following new officers were nominated and elected:

 Chair:  Bob Ross, Interconnectix, Inc.
 Vice-Chair: Syed Huq, National Semiconductor
 Secretary: None
 Librarian: Jon Powell, Quad Design

 Bob indicated that we are searching for a Secretary, but some of the duties
 can be divided among the officers.  Syed will continue his fine work managing
 and upgrading the EIA IBIS Web site, and Jon indicated that he plans to expand
 the Librarian role to provide links to other IBIS model locations.

 
 BIRD36 - BOARD LEVEL COMPONENT DESCRIPTION (To Be Submitted)
 Will Hobbs started the discussion by stating the Stephen Peters held an
 on site Package Committee meeting on 6/6/96 with Jon Powell, Hank Herrmann,
 C. Kumar, Ian Dodd, and Bob Ross.  Stephen had to return home, but the
 meeting continued.  The subsequent discussion changed the direction of
 BIRD36 back to a prior position.

 Bob Ross started the technical discussion by presenting an overview:

 1.  Currently IBIS deals with electrical component descriptions to be used
 with physical board descriptions (PBD).  Typically a number of vendor specific 
 formats are used for PBDs, but EDIF 4 0 0 also provides a standardized format.
 Most EDA tools provide electrical processing of PBDs and IBIS models.  The
 .ibs file contains package information which can exist within the .ibs file
 or can exist in a separate .pkg file for Version 2.1 matrices and BIRD28.3
 extensions.  Even with extensions, the package description is for a single
 pin only.

 2.  There are two overlapping proposals regarding extensions.  The first is
 BIRD36 covering the other extreme - an electrical board description (EBD).
 It deals with PATHS which can connect multiple pins and internal nodes.  These
 internal nodes can reference IBIS model pins.  The EBD is intended to provide
 electrical characteristics of SIMMs, MCMs, and also electrical stubs where the
 physical board has not been designed.  At the lowest level, the EBD can be
 used for connector, cable and socket models because they are usually direct
 two-pin paths.

 The second is BIRD31.3, the Mated Models proposal which extends BIRD28.3 to
 cover direct, two-pin paths only.   It would not require the addition of
 PATH syntax, but would be limited in its scope.  Because of some advanced
 connector designs, Hank Herrmann favors the BIRD36 approach to avoid having
 two methods to provide the same information.  

 So the Package Committee proposal is to focus on BIRD36 and have it include
 mated models.

 3. Both the .pkg file and the EBD (.ebd) handle discrete LRC components,
 distributed LRC components, MATRIX functionality (including coupling), and
 sections.  The EBD also adds PATHS, PINS, NODES, FORKS, Tedge_rate and Cpad. 
 Stephen Peters has indicated that he would like FORKS added to the .pkg
 file.  The EBD would reside in a separate file.  However, it could contain
 IBIS components within, or it could reference IBIS components in .ibs files
 in the same directory.  (Simulator companies could extend this to include
 search paths to other directories.)   So it is possible that a .ebd file
 references a component in a .ibs file which references a package description
 in a .pkg file.   The details and BIRD36 syntax need to be worked out.  Even
 internal paths between components are permitted within EBDs.

 4.  EBDs can connect to other EBDs and to PBDs.  It is permitted to have
 PBDs connected by connector EBDs.  Or connector EBDs can connect other EBDs
 EBDs and PBDs.  Or EBDs can contain within it the connector or socket EBD.
 Currently, the PentiumPro IBIS model has a package description that includes
 its always present socket.  However, this device could also be attached
 through an EBD socket.  The boundaries of all physical connections extend
 to the physical surfaces of the devices.

 5.  There is still a need to investigate all of the possible connection
 scenarios to be sure that all the cases are covered.  There are limits to
 how well the EBD will characterize MCMs and complicated boards since its
 individual coupled matrix capability is limited.  In such cases, the PCB
 approach should be used.  The EBD is not intended for large boards.

 In the discussion that followed, Hank Herrmann mentioned the need to support
 unloaded sockets, such as an unpopulated SIMM socket.  Hank also stressed
 that Tedge_rate be defined in BIRD36 similar to BIRD31.3 to set the accuracy
 range.  Distributed models need to be used, if specified, so that the 
 structurally smallest Tedge_rate limit can be applied without numerical
 degradation.  The 20-80% definition should be used.  C. Kumar added that
 Tedge_rate can be used for optimal model selection.


 AR - Stephen Peters (and Bob Ross) submit BIRD36.1 with changes reflecting
 the Package Committee agreement and ensuring that the BIRD31.3 functionality 
 is fully included.

 AR - Stephen Peters submit an upgrade to approved BIRD28.3 to include forks
 and endforks.

 The other Package Birds were discussed briefly.

 BIRD31.3 - Mated Models is expected to be dropped pending the outcome of
 BIRD36.1.

 BIRD32 - Additional Enhancement to the Package Model contains some technical 
 complexities which are currently being shelved.

 BIRD33 - Physical representation was voted NO.  The IBIS committee had already
 agreed upon a position recommended by the Package Committee that EDIF 4 0 0 
 should be supported as the physical description format.


 PRIORITIES AND WISHES FOR VERSION 3.0
 Will Hobbs used some available time for discussion of this topic with respect
 to the proposed Version 3.0 release by the end of the year.  Arpad Muranyi
 asked what was needed for Version 3.0.  The discussion included model selection
 (BIRD 30.2 - approved), package extensions (BIRD28.3+), electrical board
 descriptions (BIRD36), multi-staged switching (pending BIRD35), stored charge
 effects (pending BIRD 34.1), and possibly feedback, scaling, and thresholds.

 Feedback can be voltage or time based.  It could be time or voltage related.
 However, the mechanisms tend to be proprietary, making formulating a proposal
 difficult.  There was some discussion on whether some scaling mechanism coupled
 with voltage or resistor sensing could provide static or controlled feedback.

 Threshold extensions including overshoot limits could be added via the BIRD
 process.

 Bus-hold effects were also mentioned.  At the January IBIS summit we learned
 that these effects produced almost insignificant corrections in the 100 uA
 range.  If they are time based, they might be included in BIRD35 Multi-staged
 extensions.

 
 VALIDATION DISCUSSION
 Russ Moser presented a position that by corporate policy AMP and other
 companies must give the best models possible.  This forces internal validation
 policies.  It is difficulty to validate "IBIS" connector models without
 internal IBIS processing tools.  He speculated that other companies might be
 reluctant to release models that have not been validated.

 
 BIRD35 - MULTI-STAGED OUTPUTS
 Bob Ross briefly discussed this proposal for providing within a single 
 model the ability to have multiple V/I and V/T tables.  All the V/T tables
 would have the same reference time.  This proposal reflects actual device
 architecture, although creating actual tables might be difficult because
 of interactions.  Arpad Muranyi questioned whether the existing V/T method
 was adequate.  Jon Powell will provide specific examples where multi-
 staged models are necessary to give the correct answer.  One example has the
 switching outputs drawn from one voltage reference, and the stable DC level
 from another voltage reference.  C. Kumar argued that it is possible to link
 existing models together to create effective multi-staged switching through
 scripts.  However, D.C. Sessions and Dick Ulmer preferred that all of the
 switching mechanisms be contained within a single model.

 AR - Jon Powell submit examples of simulation behaviors that require
 multi-staged models [Done].


 BIRD34.1 - STORED CHARGE EFFECTS
 Bob Ross summarized the Spice program differences sent out.  Both programs
 cover identical cases, but one program uses a transmission line model similar
 to actual situations where glitches are produced, while the other represents
 a 50 ohm source and load test circuit which would be easier to extract the
 data.  The first circuit shows nearly exact agreement, while the second
 circuit has more error when clamp tables are used due to some numerical
 artifacts related to derivative sensitivity.

 Effective TT parameters are proposed for [Gnd Clamp] and [Power Clamp]
 tables, and BIRD34.1 shows mathematical relationships to the non-linear
 capacitance.

 Jon Powell had shown earlier that a TT and a voltage variable capacitance
 produced the same effects.  D.C. Sessions and others argued that perhaps a
 Capacitance vs. Voltage table would be preferred to supplement or replace
 C_comp.


 EGG10 - PARSER ADDITIONS FOR NUMERICAL CHECKING
 Chris Rokusek stated that he still plans to provide some numerical values for
 the proposed warning limits for ibischk2.


 NEXT MEETING:
 The next meeting is on Friday, June 28, 1996 8:00 A.M. to 10:00 A.M.  Syed
 Huq will Chair the meeting since Bob Ross will be out.

 ==============================================================================
				       NOTES
 
 IBIS CHAIR: Bob Ross (503) 603-2523, Fax (503) 639-3469
	     bob@icx.com
	     Modeling Engineer, Interconnectix, Inc.
	     10220 SW Nimbus Ave, K4, Portland, OR 97223

 VICE CHAIR: Syed Huq (408) 721-4874, Fax: (408) 721-4785
	     huq@rockie.nsc.com
	     Product Marketing Manager, National Semiconductor, M/S A-2595
	     2900 Semiconductor Drive, Santa Clara, CA 95052
 
 LIBRARIAN:  Jon Powell (805) 988-8250, Fax: (805) 988-8259
	     jonp@qdt.com
	     Transmission-Line Products Manager, Quad Design
	     1385 Del Norte Rd., Camarillo, CA 93010
 
 SECRETARY:  Vacant
 

 This meeting was conducted in accordance with the EIA Legal Guides and EIA
 Manual of Organization and Procedure.
 
 The following e-mail addresses are used:

   ibis-request@vhdl.org
       To join, change, or drop from either the IBIS Open Forum Reflector
       (ibis@vhdl.org), the IBIS Users' Group Reflector (ibis-users@vhdl.org)
       or both.  State your request.

   ibis-info@vhdl.org
       To obtain general information about IBIS, to ask specific questions
       for individual response, and to inquire about joining the EIA-IBIS
       Open Forum as a full Member.

   ibis@vhdl.org
       To send a message to the general IBIS Open Forum Reflector.  This
       is used mostly for IBIS Standardization business and future IBIS
       technical enhancements.

   ibis-users@vhdl.org
       To send a message to the IBIS Users' Group Reflector.  This is 
       used mostly for IBIS clarification, current modeling issues, and
       general user concerns.

   ibischk-bug@vhdl.org
       To report ibischk2 parser bugs.  The Bug Report Form Resides on
       vhdl.org in /pub/ibis/bugs/bugform.txt along with reported bugs.

 Information on IBIS technical contents, IBIS participants, and actual
 IBIS models are available on the IBIS Home page found by selecting the
 Electronic Information Group under:

   http://www.eia.org

 Check the pub/ibis directory on vhdl.org for more information on previous 
 discussions and results.  You can get on via ftp anonymous, "guest" login from 
 telnet or dial-in (415-335-0110), or send an e-mail request to the automatic 
 archive server, archive@vhdl.org.
 
 "IBIS Spoken Here" placards are available from Jon Powell (jonp@qdt.com) for 
 use at trade shows.
 ==============================================================================


From owner-ibis  Wed Jun 12 12:11:52 1996
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Received: from uucp6.UU.NET by relay5.UU.NET with SMTP 
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	id AA00863; Wed, 12 Jun 96 11:16:25 PDT
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	id AA02610; Wed, 12 Jun 96 11:16:26 PDT
Date: Wed, 12 Jun 96 11:16:26 PDT
From: jonp@qdt.com (Jon Powell)
Message-Id: <9606121816.AA02610@hal.qdt.com>
Received: by f14.qdt.com (4.1/SMI-4.1)
	id AA19338; Wed, 12 Jun 96 11:16:24 PDT
To: ibis@vhdl.org
Cc: jonp@qdt.com, bob@icx.com
Subject: Bird 35

Bob et al.

I just read bird 35 and have the following observations:

1)There is one functionality that appear to be missing and that is a way
to shut OFF a driver during a rising (or falling edge). There is a class of
drivers that turn on at 0 but then one driver turns off a few nanoseconds later.


2) I think that a much easier way of organizing this data would be for the
new construct to refer to existing device models (that already have their own
pull-ups and VT arrays) and then just specify their relative scheduling.


for instance: (with no particular syntax implied)

DRIVER MASTER_OUT
SUB_DRIVER FAST_OUT_1 turn_on_rising: .3ns  turn_off_rising: 1.0ns turn_on_falling: 0.0 turn_off_falling: NONE
SUB_DRIVER FAAST_OUT_2 turn_on_rising: 0.0 turn_off_rising: NONE turn_on_FALLING: 0.0 turn_off_falling: 1.0
etc

the NONE means that that device never turns off (until the next state change).

If sub_models only have pullup or pulldown components, then they would be defined the same as open-collector etc.

All parameters of each of the standard drivers are inherited (if they make sense) and this master driver would contain
the parameters that only make sense for the outside device (like the package paramters).

I think this is easier to understand and easier to model since now each of the sub_drivers can be extracted
using existing IBIS methodology.


regards,
jon





From owner-ibis  Wed Jun 12 18:04:18 1996
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Date: Thu, 13 Jun 1996 08:54:27 +0800 (SST)
From: Zhou Xing <exzhou@ntuix.ntu.ac.sg>
Message-Id: <199606130054.IAA23878@ntuix.ntu.ac.sg>
To: ibis@vhdl.org
Subject: unsubscribe
Cc: exzhou@ntuix.ntu.ac.sg

Please delete my name from the mailing list.
Thanks.

From owner-ibis  Wed Jun 12 18:59:27 1996
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Date: Wed, 12 Jun 96 18:52 PDT
From: bob@icx.com ( Bob Ross)
To: ibis@vhdl.org, jonp@qdt.com
Subject: Re:  Bird 35

Jon and IBIS Committee:

Eventually examples with numerical tables will be needed to support some
our observations.  A brief response to your comments is:

(1) While perhaps not stated, my intention was to support through individual
Waveform tables the capability of turning on and off a particular internal
driver.  Also, a particular stage could function in just the rising or
falling direction only.  The [Rising Waveform(x)] table of stage x could
go from low to high and then return to the low state.  The [Falling
Waveform(x)] table could just be held constant at the low state.

Also my intention was to allow [Pullup(x)] or [Pulldown(x)] only stages.

(2) You make a point that a scheduling table could be considered to define
the relative phasing of the stages.  It would be clearer to have this
information in one area and allow easier adjustment to match the internal
phasing activity with a know external response.  The actual rise/fall time
shapes are still in the Waveform tables.  So I expect to have some scheduling
syntax.  The scheduling could still work withing the BIRD35 proposal to
schedule the internal stages.  One stated preference was to group the
information in one [Model] versus just scheduling several existing models.

One of the aspects of the proposed grouping and restrictions is to avoid
having duplicate characteristics in the model.  Thus the [Power Clamp]
and [Gnd Clamp] tables appear only once.  Similarly for the [Model] 
subparameters.  The package characteristics would apply just to the
total model.

Bob Ross
Interconnectix, Inc.


> Date: Wed, 12 Jun 96 11:16:26 PDT
> From: jonp@qdt.com (Jon Powell)
> To: ibis@vhdl.org
> Cc: jonp@qdt.com, bob@icx.com
> Subject: Bird 35

> Bob et al.

> I just read bird 35 and have the following observations:

> 1)There is one functionality that appear to be missing and that is a way
> to shut OFF a driver during a rising (or falling edge). There is a class of
> drivers that turn on at 0 but then one driver turns off a few nanoseconds later.


> 2) I think that a much easier way of organizing this data would be for the
> new construct to refer to existing device models (that already have their own
> pull-ups and VT arrays) and then just specify their relative scheduling.


> for instance: (with no particular syntax implied)

> DRIVER MASTER_OUT
> SUB_DRIVER FAST_OUT_1 turn_on_rising: .3ns  turn_off_rising: 1.0ns turn_on_falling: 0.0 turn_off_falling: NONE
> SUB_DRIVER FAAST_OUT_2 turn_on_rising: 0.0 turn_off_rising: NONE turn_on_FALLING: 0.0 turn_off_falling: 1.0
> etc

> the NONE means that that device never turns off (until the next state change).

> If sub_models only have pullup or pulldown components, then they would be defined the same as open-collector etc.

> All parameters of each of the standard drivers are inherited (if they make sense) and this master driver would contain
> the parameters that only make sense for the outside device (like the package paramters).

> I think this is easier to understand and easier to model since now each of the sub_drivers can be extracted
> using existing IBIS methodology.


> regards,
> jon







From owner-ibis  Thu Jun 13 10:38:51 1996
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Subject: unsubscribe
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Please unsubscribe me from your list.

Thanks,
Dave DeLazzer

From owner-ibis  Thu Jun 13 11:34:33 1996
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Subject: Re: Bird 35


Text item: 

I like this suggestion.
Arpad

2) I think that a much easier way of organizing this data would be for the
new construct to refer to existing device models (that already have their own
pull-ups and VT arrays) and then just specify their relative scheduling.



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From owner-ibis  Thu Jun 13 11:39:36 1996
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Please unsubscribe me from your mailing list.

From owner-ibis  Thu Jun 13 13:33:17 1996
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Attention: Potential Unsubscribers

It clearly states in the IBIS minutes that go out to everyone on the
mailing list that (and I quote):-

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Using this procedure would help everyone to avoid being flooded by 
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From owner-ibis  Thu Jun 13 13:56:01 1996
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Folks,

If you want to remove yourself from the IBIS reflector mailing list, 
send the request to ibis-request@vhdl.org. This will avoid the 
unnecessary copying of everyone on the list of your intention and will 
accomplish the same thing.

Will Hobbs
Intel Corp.

From owner-ibis  Mon Jun 17 12:36:39 1996
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From: huq@rockie.nsc.com (Syed Huq)
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Subject: New IBIS tools added to EIA/IBIS homepage
Cc: huq@rockie.nsc.com

IBISfans,

We have added a new section to our ANSI/EIA-656 IBIS homepage.
This is titled, 'IBIS Tools' and has links to the following:

	* IBIS parser
	* Visual IBIS Editor
	* SPICE-to-IBIS conversion
	* IBIS cookbook(v1.1)

The 'IBIS Tools' should help our model providers with the necessary
information for IBIS model generation.

We have also added more links on our virtual poster page to member
company web sites.

Visit the web site at: http://www.eia.org/eig/ibis/ibis.htm

Regards,
Syed
National Semiconductor



From owner-ibis  Tue Jun 18 16:52:12 1996
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Date: Tue, 18 Jun 1996 16:41:37 -0700
To: ibis@vhdl.org
From: Kellee Crisafulli <kellee@hyperlynx.com>
Subject: Thankyou for the plaque

Hi people,

  I would like to thank the IBIS group for the very
nice plaque (for Visual IBIS editor).  

  Also my thanks to Will Hobbs for all his hard work as 
past chairman.

Kellee Crisafulli, HyperLynx Inc.








Have a great day...Kellee Crisafulli, HyperLynx Inc.


From owner-ibis  Wed Jun 19 08:15:45 1996
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To: owner-ibis@vhdl.org, ibis@vhdl.org
Subject: Re: Thankyou for the plaque


Text item: 

Kellee,

Thank you for your generous offering of the use of Visual IBIS. This is the 
spirit that makes IBIS the positive force that it is.

And, thank you for your kind words regarding my work as chairman. With the 
incredible support and energy of such a great group of people that comprise the 
IBIS Open Forum, being chair was deeply satisfying. Few activities in my life 
have yelded such a high return of results, growth and satisfaction as did my 
tenure with IBIS. This is a testament to the intelligence, vision and dedication
of forum members. Thanks for the opportunity.

Will

Hi people,

  I would like to thank the IBIS group for the very
nice plaque (for Visual IBIS editor).

  Also my thanks to Will Hobbs for all his hard work as
past chairman.

Kellee Crisafulli, HyperLynx Inc.








Have a great day...Kellee Crisafulli, HyperLynx Inc.

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Subject: Thankyou for the plaque
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Date: Fri, 21 Jun 96 10:32 PDT
From: bob@icx.com ( Bob Ross)
To: ibis@vhdl.org
Subject: BIRD35.1 Multi-staged Outputs

To IBIS Committee:

In response to Jon Powell's comments and support by others, BIRD35.1 adds
the [Rising Sequence] and [Falling Sequence] tables to specify the times
each stage transitions (and possibly returns), relative to a common starting
reference time.  The example illustrates a conventional stage, a pulldown
stage, and a pullup stage (for a pulse only).

The pulldown stage and the pullup stage illustrate two different modes of
operation which the IBIS syntax would allow.  In the case of the pulldown
stage, the pulldown current is turned off during the rising transition
and turned on during the falling transition.  The pullup stage produces
additional pullup current only during the rising transition and then shuts
off.  It does not operate during the falling transition and remains in
a high impedance state.

Below is some of the original text for setting the context of BIRD35.1


The multi-staged switching functionality has been on the priority list for
Version 3.0 addtions.  Below is a proposal to start the discussion.

The key elements of this proposal are:

1.  The [Model] keyword and subparameters and all keywords under [Model] keep 
    their same definitions.  The existing [Pulldown], [Pullup] and [Ramp]
    keywords are still required for downward compatiblility.  

2.  Up to 10 new internal building blocks consisting of local [Pullup(n)],
    [Pulldown(n)], [Rising Waveform(n)] and [Falling Waveform(n)] keywords
    are permitted.

3.  There are some syntactical ordering restrictions that preserve readability
    and permit one-pass parsing.

4.  Only one of [Pulldown(n)] or [Pullup(n)] keywords is required to support 
    Open_source (Open_sink) and Open_drain configurations.  Both the [Rising 
    Waveform(n)] and [Falling Waveform(n)] keywords are required for each 
    stage.

5.  The [Gnd Clamp] and [Power Clamp] keywords are not split into sections.


Unlike exiting IBIS keywords, the new tables cannot be measured directly
or even be produced easily by direct decomposition and simulation of Spice 
elements because of too much internal interaction.  The actual construction 
would be by trial and validation and based on the known architectural intent.
 
I have not explored all possibilities and implications of this proposal.
However, I believe it is even possible to model bus hold effects using a
final delayed correction stage.

Bob Ross
Interconnectix, Inc.

******************************************************************************
******************************************************************************

BIRD ID#:      35.1
ISSUE TITLE:   Multi-staged Outputs
REQUESTER:     Bob Ross, Interconnectix, Inc.
DATE SUBMITTED:                       5/13/96, 6/21/96
DATE ACCEPTED BY IBIS OPEN FORUM:     Pending

******************************************************************************
******************************************************************************

STATEMENT OF THE ISSUE:

Modeling output transitions of buffers consisting of several sequentially
switched internal devices has been a long standing request.  The addition
of the [Rising Waveform] and [Falling Waveform] keywords partially addresses
the issue by waveform shaping control.  However, these keywords do not model
the dynamic impedance changes during transitions.  The more direct solution
is to add IBIS keywords which allow modeling the internal architecture more
closely.

******************************************************************************

STATEMENT OF THE RESOLVED SPECIFICATIONS:

An extension of the existing [Pullup], [Pulldown], [Rising Waveform] and
[Falling Waveform] syntax is proposed.  Up to ten sets (n=0,...,9) of keyword
groupings for [Pulldown(n)], [Pullup(n)], [Rising Waveform(n)], and [Falling
Waveform(n)] to describe modeling individually controlled switching.  The
summation of the new keywords override the existing [Pullup], [Pulldown],
[Rising Waveform] and [Falling Waveform] descriptions of the low to high and
high to low driver switching.  All Waveform tables are relative to a common
reference time, but their sequencing is controlled by a [Rising Sequence] and
[Falling Sequence] tables.  All other parameters and requirements for the
[Model] keyword remain the same.

Add the following keywords as a group after the [Falling Waveform] keyword
example:


|==============================================================================
| Keywords:     [Rising Sequence], [Falling Sequence]
| Required:     No
| Description:  Describes the sequencing of [Rising Waveform(n)] and [Falling
|               Waveform(n)] tables with respect to 0 nS.
|
| Usage Rules:  Each table contains three columns consisting of the table 
|               number n and two delays: Rise Delay and Fall Delay for the
|               [Rising Sequence] table, and Fall Delay and Rise Delay for the
|               [Falling Sequence table.  Rise Delay describes the starting
|               time for the stage n Rising Waveform(n), and Fall Delay
|               describes the starting time for the stage n Falling Waveform(n).
|               The Sequence table describes the time of a turn on and turn
|               off transition.  Use 'NA' when no transistion is applicable.
|               For each stage n, the Rising Sequence  starts at the final
|               state of the Falling Sequence, and visa-versa.
|
| Other Notes:  Up to ten (n=9) table number entries are permitted, but
|               the corresponding Pullup(n) or Pulldown(n) and [Rising
|               Waveform(n)] and [Falling Waveform(n)] tables must exist
|               for each n.  The table number entries must be in increasing
|               order starting with 0, but the time entries are constrained
|               only to be equal or greater than 0.
|
|               Even opposite polarity transitions can be described if only
|               the third column entries are specified or if they are less
|               than the second column entries.                         
|------------------------------------------------------------------------------
|
[Rising Sequence]
|
|  n    Rise Delay     Fall Delay
   0      0.0nS          NA   
   1      0.5nS          NA
   2      0.5nS          1.5nS         | Pulse on Rising portion only        
|
[Falling Sequence]
|
|  n    Fall Delay     Rise Delay
   0      0.0nS          NA 
   1      0.5nS          NA
   2      NA             NA            | No transition for Falling Waveform
|
|==============================================================================

|==============================================================================
|    Keywords:  [Pulldown(n)], [Pullup(n)], n=0,...,9
|    Required:  Yes, at least a [Pullup(n)] or [Pulldown(n) for each n in the
|               [Rising Sequence] and [Falling Sequence] tables
|
| Description:  Defines a partitioning of an output buffer into groupings
|               of [Pulldown(n)], [Pullup(n)], [Rising Waveform(n)], and
|               [Falling Waveform(n)] descriptions to be summed to form
|               the complete output response.
|
| Usage Rules:  The [Pulldown(n)], [Pullup(n)] tables follow the same rules
|               as the [Pulldown], [Pullup], but override them.  Either the
|               [Pulldown(n)] or the [Pullup(n)] or both may be given for (n).
|               Any number up n=9 (ten groups) of n tables are permitted.
|               Both the corresponding [Rising Waveform(n)] and [Falling 
|               Waveform(n)] descriptions are required.  These waveforms are
|               used to describe the switching on and off behavior.  The
|               outputs of all stages are connected to produce the total
|               response. 
|
|               The usage of [Voltage Range] and [Pullup Reference] and
|               [Pulldown Reference] apply to all of the [Pulldown(n)] and
|               [Pullup(n)] tables.
|
| Other Notes:  Refer to Other Notes for [Rising Waveform(n)], [Falling 
|               Waveform(n)] regarding a keyword grouping restriction.
|------------------------------------------------------------------------------
|
| Pulldown and Pullup Switch (0)
|
[Pulldown(0)]
|
|  Voltage   I(typ)    I(min)    I(max)
   -5.0V    -50.0m      NA        NA
    0.0V      0.0m      NA        NA
    5.0V     50.0m      NA        NA
   10.0V    100.0m      NA        NA
|
[Pullup(0)] 
|
|  Voltage   I(typ)    I(min)    I(max)
   -5.0V     50.0m      NA        NA
    0.0V      0.0m      NA        NA
    5.0V    -50.0m      NA        NA
   10.0V   -100.0m      NA        NA
|
|==============================================================================
| Keywords:     [Rising Waveform(n)], [Falling Waveform(n)], n=0...9
| Required:     Yes, for each n in the [Rising Sequence] and [Falling Sequence
|               tables
|
| Description:  Describes the shape of the rising and falling waveforms of a
|               driver component (n).
|
| Sub-Params:   R_fixture, V_fixture, V_fixture_min, V_fixture_max,
|               C_fixture, L_fixture, R_dut, L_dut, C_dut
|
| Usage Rules:  The [Rising Waveform(n)] and [Falling Waveform(n)] keywords
|               follow the same rules as [Rising Waveform] and [Falling
|               Waveform] keywords.  However, these timing descriptions
|               are used only with the corresponding [Pulldown(n)] and
|               [Pullup(n)] tables and are intiated based on the [Rising
|               Sequence] and [Falling Sequence] tables.
|
|               Several waveform descriptions are permitted for each (n).
|               The model components 0...n must grouped in sequential order
|               and must start with (0).  I.e., all table(0) keywords must
|               be placed before any table(1) keyword, and so forth.  Up to
|               ten such keyword groupings are permitted.  The sequential
|               ordering may differ from the switching sequence.  E.g., 
|               table(1) may switch before table(0).
|
| Other Notes:  While the R_dut, L_dut, and C_dut subparameters are 
|               allowed, they would normally not be used.
|   
|------------------------------------------------------------------------------
|
[Rising Waveform(0)]
R_fixture = 100
V_fixture = 0
|
|Time       V(typ)     V(min)    V(max)
   0.0ns     0.0        NA        NA
   2.0ns     2.5        NA        NA
   5.0ns     2.5        NA        NA
|
[Falling Waveform(0)]
R_fixture = 100
V_fixture = 5
|
|Time       V(typ)     V(min)    V(max)
   0.0ns     5.0        NA        NA
   2.0ns     2.5        NA        NA
   5.0ns     2.5        NA        NA
|
|
| Continuation of Complete Example for Two More Stages:

| Pulldown Switch (1)
|
[Pulldown(1)]
|
|  Voltage   I(typ)    I(min)    I(max)
   -5.0V    -50.0m      NA        NA
    0.0V      0.0m      NA        NA
    5.0V     50.0m      NA        NA
   10.0V    100.0m      NA        NA
|
[Rising Waveform(1)]
R_fixture = 100
V_fixture = 5
|
|Time       V(typ)     V(min)    V(max)
   0.0ns     2.5        NA        NA
   1.0ns     5.0        NA        NA
   5.0ns     5.0        NA        NA
|
[Falling Waveform(1)]
R_fixture = 100
V_fixture = 5
|
|Time       V(typ)     V(min)    V(max)
   0.0ns     5.0        NA        NA
   2.0ns     2.5        NA        NA
   5.0ns     2.5        NA        NA
|
| Pullup Switch (2)
|
[Pullup(2)]
|
|  Voltage   I(typ)    I(min)    I(max)
   -5.0V    -50.0m      NA        NA
    0.0V      0.0m      NA        NA
    5.0V     50.0m      NA        NA
   10.0V    100.0m      NA        NA
|
[Rising Waveform(2)]
R_fixture = 100
V_fixture = 0
|
|Time       V(typ)     V(min)    V(max)
   0.0ns     0.0        NA        NA  
   0.5ns     2.5        NA        NA 
   5.0ns     2.5       NA        NA
|
[Falling Waveform(2)]                  
R_fixture = 100
V_fixture = 0
|
|Time       V(typ)     V(min)    V(max) 
   0.0ns     2.5        NA        NA 
   0.5ns     0.0        NA        NA
   5.0ns     0.0        NA        NA
|

******************************************************************************

ANALYSIS PATH/DATA THAT LED TO SPECIFICATION:

The proposal is designed to add to the existing IBIS structures and retain
as much existing meaning as possible.  The new "stage" tables follow all of 
the conventions of the existing non-staged tables.  For that reason, 
even the subparameters R_dut, L_dut, and C_dut are permitted, although 
they are not relevant nor are expected to be used.  

The overall structure is to connect independently controlled stages to a
common output node.  The relative relationhips between waveform controls 
are used to produce phased turn-on and turn-off models.  The structure can
be also be used to model other internal artifacts.  These may include
providing an extra boost pulse or providing bus hold modeling.  

A general objection to these structures is that they do not relate to any
externally obtained extraction.  The intent of these structures is to give
a format for modeling a known architecture with behavioral blocks and 
to also add some detail to existing models.

BIRD35.1 introduces a [Rising Sequence] and [Falling Sequence] tables to
control the sequencing of individual stages.  This is in response to Jon
Powell's comment to make the sequencing of waveforms easier to understand
and modify.  So each [Rising Waveform(n)] and [Falling Waveform(n)] table
has its start time controlled by the Sequence tables.

One technical limitation is that the Sequencing is the same for typ, min,
and max columns.  Any internal shifting within the typ, min, and max columns
for the stage must be taken into account within the Waveform columns for that
stage.

******************************************************************************

ANY OTHER BACKGROUND INFORMATION:

******************************************************************************




From owner-ibis  Fri Jun 21 12:45:46 1996
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Message-Id: <m0uXC2c-000GjKC@icx.com>
Date: Fri, 21 Jun 96 12:38 PDT
From: bob@icx.com ( Bob Ross)
To: ibis@vhdl.org
Subject: IBIS AGENDA 6/28/96

                       IBIS Open Forum Meeting Agenda 
                                for 6/28/96
 
                  Bridge Number    Reservation #   Passcode
                  (916) 356-9200   2-78902         4366478 

 All meetings are 8:00 AM to 9:55 AM Pacific Time.  When you call into the 
 meeting, ask for the IBIS Open Forum hosted by Will Hobbs and give the
 Reservation Number and Passcode.
 

 8:00 Check-In, Intros, Announcements                         Huq

      - Intros of New IBIS Participants, Meeting Quorum       Huq
      - Membership Update and Treasurers Report               Rusher
      - Review of Previous Meeting's Minutes (and ARs)        Huq
      - Miscellany/Announcements                              All
      - Press & Web Page Updates                              Huq, All
      - New Models Available, Library Update                  All
      - Opens for New Issues                                  All

 8:25 Administrative and Project Discussions
 
      IEC Express Funding Progress                            Rusher

      New Administrative Issues                               All

 8:35 Technical Discussion

      EGG11 -  ABSOLUTE MAXIMUM VOLTAGE                       Fitzpatrick

      BIRD35.1 - MULTI-STAGED OUTPUTS                         Powell
             
      BIRD36 - ELECTRICAL BOARD DESCRIPTION                   Peters

      EGG10 -  PARSER TESTS  1-5                              Rokusek/Peters
         
      New Technical Issues                                    All

 9:50 Wrap Up and Next Meetings Plans                         Huq

 9:55 Sign Off
 



From owner-ibis  Mon Jun 24 10:22:25 1996
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Message-Id: <199606241710.KAA11170@ichips.intel.com>
To: ibis@vhdl.org
Subject: Bird 36
Date: Mon, 24 Jun 1996 10:12:48 -0700
From: Stephen Peters <speters@ichips.intel.com>




     Following is a proposal that defines a new file type called '.ebd'
(Electrical Board Description).  A .ebd file allows a simple, electrical
description of SIMM modules, connectors, and related type components. 
Specifically, it allows one to describe a PCB that mounts one or more
components that connect to the outside word thru a set of pins.  It
follows the same basic description format as the current .pkg file, and
as such retains the section based description and simple coupling
matrices.  A .ebd file is also used to describe connectors and sockets.  
BACKGROUND:
     A fundamental concept of IBIS is that a component description consists
of a set of pin that are in some way connected to a set of buffers.  In a 
standard .ibs file this pin-to-buffer mapping is established by the [Pin] 
keyword.  This connection can be a lumped L/R/C or the section based 
description ([Pin Numbers] keyword) of Bird 28.3.  However, even with 
Bird 28.3 the .pkg file still only allows a pin-to-buffer mapping as 
defined by the [Pin] keyword.  The BIRD allows two more mappings
to be defined - a pin to pin mapping that supports connectors, and
a pin to component(s) connection that supports SIMM models and the like.
=============================================================================

                 Buffer Issue Resolution Document  (BIRD)
BIRD ID#:        36
ISSUE TITLE:     Electric Descriptions of Boards and Connectors
REQUESTER:       Stephen Peters
DATE SUBMITTED:  June 23, 1996
DATE ACCEPTED BY IBIS OPEN FORUM:  Pending

******************************************************************************
******************************************************************************
STATEMENT OF THE ISSUE:  There is a need to describe SIMM modules and related
type components that consist of one or more ICs mounted on a PCB board that
connects to a system thru a set of pins.  The following bird proposes a new
type of file called '.ebd' (Electrical Board Description) that addresses this
need.  A '.ebd' file can also be used to describe connectors and sockets.

******************************************************************************
STATEMENT OF THE RESOLVED SPECIFICATIONS:  The following text is placed
in the specification after the .pkg file description and before the
[End] keyword description.

=======================  ELECTRICAL BOARD DESCRIPTION ========================

    A Board Level Component is defined as a module that contains
one or more IC packages that connect to another module or board thru a
set of user visible pins.  For example, a SIMM module is a board level
component in that it contains several DRAM packages that connect to a
PCB thru an edge connector.  To provide a simple electrical description
of the connection between the pins of the board level component and the
IC packages, an electrical board description file (a .ebd file) is defined.
The .ebd file is also used to describe the electrical characteristics of
connectors and sockets.

Usage Rules:
     A .ebd file is intended to be a stand alone file, not associated
with any '.ibs' file.  Board level component and connector descriptions 
are stored in a file whose name looks like <filename>.ebd, where 
<filename> must conform to the naming rules given in the general 
syntax section of this specification.  The '.ebd' extension is mandatory.

Contents:
    A .ebd file is structured similar to a standard IBIS file.  It must
contains the following keywords, as defined in the IBIS
specification: [IBIS Ver], [File name], [File rev], and [End].  It may
also contain the following optional keywords: [Comment char], [Date],
[Source], [Notes], [Disclaimer] and [Copyright].  The actual board level
component description is contained between the keywords [Begin Electrical
Description] and [End Electrical Description], and includes the keywords
listed below. 

[Begin Electrical Description]
[Connector Info]
[Manufacture]
[Number of Pins]
[Pin List]
[Path Description]
[Model Data]
[Resistance Matrix]
[Inductance Matrix]
[Capacitance Matrix]
[Bandwidth]
[Row]
[End Model Data]
[End Electrical Description]

  More than one [Begin Electrical Description]/[End Electrical Description] 
keyword pair is allows in a .ebd file.  

|=============================================================================
|    Keyword:  [Begin Electrical Description]
|   Required:  Yes
|Description:  Marks the beginning of a Electrical (board or connector)
               description.
|Usage Rules:  The keyword is followed by the name of the board level
|              component or connector.  If the .ebd file contains more than 
|              one [Begin Electrical Description] keyword, then each name must 
|              be unique.  The length of the component name must not exceed 40
|              characters in length, and blank characters are allowed.
|              For every [Begin Electrical Description] keyword there must be
|              a matching [End Electrical Description] keyword.
|-----------------------------------------------------------------------------
[Begin Electrical Description]  16Meg X 8 Simm Module
|
|=============================================================================
|    Keyword:  [Manufacture]
|   Required:  Yes
|Description:  Declares the manufacture of the part(s) that use this .ebd
|              file.
|Usage Rules:  Following the keyword is the manufactures name.  It must not
|              exceed 40 characters, and can include blanks characters.  Each
|              manufacture must use a consistent name in all .ebd files.
|-----------------------------------------------------------------------------
[Manufacturer] Quality SIMM Corp.
|
|=============================================================================
|    Keyword:  [Connector Info]
|   Required:  No
|Description:  This keyword is used if the .ebd file is describing a mated
|              connector model.  Using this keyword allows the user to include
|              several pieces of information specific to connector models into
|              an .ebd file.
|Sub-params:   Min_rise_time, Cpad1, Cpad2
|Usage Rules:  This keyword is followed by the three listed sub-parameters.
|              The Min_rise_time parameter is required, the Cpad1 and Cpad2
|              parameters are optional.  Each subparameter is followed by an 
|              equals sign (=), then a single numeric argument.
|
|              Cpad1 and CPad2 define default pad capacitances for both sides
|              of a mated connector model.  If omitted, the default value is
|              zero pF.  In all cases the simulator may override the
|              listed or default value with values extracted from the actual
|              pad dimensions provided in a physical board description.
|
|              The Min_rise_time parameter is used to specify the minimum
|              rise time of a signal for which a connector (or package) model
|              is still considered accurate under test fixture conditions.
|              This value is based on the smallest physical feature that is
|              modeled in the electrical description.  Note that a simulator
|              may choose to produce a warning message if a signal with a
|              faster edge stimulas the model.  Simulators should also
|              use this parameter in determining how to model a section
|              with non-zero length.
| 
|              The Min_rise_time parameter is followed by a single numeric
|              argument specifying the 20% to 80% rise time of the
|              fastest pulse the model will accuratly pass. This value will
|              be the minimum value where the signal line "impedance" is 
|              within 10% of the simulated impedance.  This impedance 
|              parameter is the dynamic ratio at the mated model input 
|              voltage to input current over time under the condition
|              that the signal line has a source and load termination of
|              of 50 ohms and all other lines are grounded.
|-----------------------------------------------------------------------------
[Connector Info]
Cpad1 = 1.0p
Cpad2 = 0.5p
Min_rise_time = 60p
|
|=============================================================================
|    Keyword:  [Number of Pins]
|   Required:  Yes
|Description:  Tells the parser the number of pins to expect
|Usage Rules:  The field must be a positive decimal integer.
|-----------------------------------------------------------------------------
[Number of Pins] 128
|
|=============================================================================
|    Keyword:  [Pin List]
|   Required:  Yes
|Description:  Tells the parser the set of names that are used for the package
|              pins and also defines pin ordering.  The first pin name given
|              is the "lowest" pin, and the last pin given is the "highest".
|              The pin names cannot exceed five characters in length. In the
|              case of a connector description the pins on both sides of
|              a connector are listed.  
|Usage Rules:  Following the [Pin Numbers] keyword, the names for the pins
|              are listed.  There must be as many names listed as there are
|              pins (as given by the preceding [Number of Pins] keyword.).
|-----------------------------------------------------------------------------
[Pin Numbers]
A1
A2
A3
| .
| .
A22
B1
| .
| .
|etc.
|
|=============================================================================
|    Keyword: [Path Description]
|   Required: Yes
|Description: This keyword allows the user to describe the connection between
|             the user accessible pins of a component and the pins of the ICs 
|             mounted on that component.  If describing a connector this 
|             keyword is used to describe the path from one pin of a connector  
|             to another.  This description is directly analogous to the 
|             section descriptions contained in a .pkg file, and uses a 
|             similar list of subparameters.  The major difference is the 
|             additional concept of an explicit pin and node.
| Sub-Params: Len, L, R, C, Matrix, Fork, Endfork, Pin, Node
|Usage Rules: Each individual connection path (user pin to node(s) description
|             or connector pin-to-pin description) begins with the 
|             [Path Description] keyword and a path name,
|             followed by the subparameters used to describe the path 
|             topology and the electrical characteristics of each section of
|             the path.  The path name must not exceed 40 characters,
|             blanks are not allowed, and each occurrence of the [Path
|             Description] keyword must be followed by a unique path
|             name.  The individual subparameters are broken up into those
|             that describe a sections electrical properties, and those
|             that describe the topology of a path.
|
|             Section Description Subparameters:
|             The Len, L, R, and C subparameters specify the length, 
|             inductance, capacitance and resistance of each section in
|             a path description. If a particular section exhibits 
|             coupling to an adjacent (same numbered) section of a
|             different path, then the Matrix subparameter is used.  
|             Len     The physical length of a section.  Lengths are given
|                     in terms of arbitrary 'units'.
|             L       The inductance of a section, in terms of
|                     'inductance/unit length'.  For example, if the total
|                     inductance of a section is 3.0nH and the
|                     length of the section is 2 'units', the inductance 
|                     would be listed as L = 1.5nH  (i.e. 3.0 / 2). 
|             C       The capacitance of a section, in terms of
|                     capacitance per unit length.
|             R       The DC (ohmic) resistance of a section, in
|                     terms of ohms per unit length.
|             Matrix  Use of this subparameter means that this sections
|                     electrical parameters are presented as part of
|                     a coupling matrix.  The data for the matrix is included
|                     between the [Model Data]/[End Model Data] keyword pairs
|                     as described below.
|
|             Topology Description Subparameters:
|             The Fork and Endfork subparameters denote branches from the 
|             main node-to-pin or pin-to-pin connection path.  The Node 
|             subparameter is used to reference an external component 
|             description file.  The Pin subparameter is used to indicate 
|             the point at which a path connects to a user visible pin. 
|             Fork    This subparameter indicates that the sections
|                     following (up to the Endfork subparameter) are part
|                     of a branch off of the main connection path.
|                     This subparmeter has no arguments.
|             Endfork This subparameter indicates the end point of a
|                     branch.  For every Fork subparameter there must be
|                     a corresponding Endfork subparameter.  As with the
|                     Fork subparameter, the Endfork subparameter has no
|                     arguments.
|             Node    pin.reference_designator
|                     This subparameter is used when the connection
|                     path connects to a pin of another, externally
|                     defined component.  The arguments of the Node 
|                     subparameter indicate the pin and reference designator 
|                     of the external component.  The pin and reference
|                     designator portions of the argument are separated by
|                     a period (".").  The method by which a reference
|                     designator is mapped to an external component
|                     description (usually another .ibs file) is
|                     simulator dependent.
|             Pin     This subparameter is used to mark the point at which
|                     a path description connects to a user accessible pin.
|                     Every path description must contain at least one 
|                     occurrence of the Pin subparameter.  The value of the 
|                     Pin subparameter must be one of the pin names listed 
|                     by the [Pin Numbers] keyword.
|             
|
|             Using The Subparameters to Describe Paths:
|             A section description begins with the Len subparameter and
|             end with the backslash (/) character.  The value of the Len, L,
|             R and C subparameters and the subparameter itself are 
|             separated by an equals sign (=); whitespace around the equals 
|             sign is optional.  The Fork, Endfork, Node and Pin subparameters
|             are placed between section descriptions (i.e. between the
|             concluding backslash of one section and the 'Len' parameters
|             that starts another) and are delimited from the section
|             descriptions by a backslash.  The arguments of the Pin and 
|             Node subparameter are separated by white space; no equal sign
|             is used.  All path descriptions must contain the same number 
|             of sections however, a particular section description can contain
|             no data (i.e. the description is given as 'Len = 0 /').
|             The first section that occurs after the [Path Description] 
|             keyword is section one.  Sections are numbered in ascending 
|             order as they are encountered in the path description.
|
|             Specifying a Len or L/R/C value of zero is allowed.  If
|             Len = 0 is specified, then the L/R/C values are the total
|             for that section.  If a non-zero length is specified, then
|             the total L/R/C for a section is calculated by multiplying 
|             the value of the Len subparameter by the value of the L,
|             R or C subparameter.  However, as noted below, if a non-
|             zero length is specified AND the [Connector Info] keyword
|             is used then the L/R/C of that section MUST be treated as a 
|             distributed elements.
|
|             Legal Subparameter Combinations for Section Descriptions:
|             A) A single Len = 0 subparameter, followed by a slash.
|             The is used to describe a section with no data.
|
|             B)  Len and a single Matrix subparameter, followed by a
|             backslash. The Len subparameter specifies the length of that
|             section while the Matrix subparameter indicates that this
|             section of this package stub is electrically coupled to the
|             corresponding (same numbered) section of an adjacent path
|             description and the coupling terms are listed in a matrix
|             format.  The matrix description must include both the 'self'
|             inductance/capacitance/resistance (as required) of a section
|             as well as the mutual coupling terms.  If one section is
|             described using the Matrix subparameter then the
|             corresponding (same numbered) sections on ALL other path
|             descriptions must use the Matrix subparameter.
|
|             C)  Len, and one or more of the L, R and C subparameters.  If
|             the Len subparameter is given as zero, then the L/R/C sub-
|             parameters represent lumped elements.  If the Len sub-
|             parameter is non-zero, then the L/R/C subparameters represent
|             distributed elements.  If the [Connector Info] keyword is used
|             the simulator MUST treat them as such.
|
|             D) The first subparameter following the [Path Description]
|             keyword must be 'Pin', followed by one or more section
|             descriptions.  The path description can terminate in a
|             node, section or another pin. 
|
|---------------------------------------------------------------------------
|              HERE FOLLOWS SOME EXAMPLES 
|---------------------------------------------------------------------------
|
|  A CONNECTOR DESCRIPTION
|
[Path Description]  J1-P1
Pin = J1 /
Len = 2.0 L=8.35n C=3.34p R=0.01 /
Len = 0.5 L=1.0n  C=2.7p  /
Pin = P1 /
|
|  A PATH ON A SIMM MODULE
|
[Path Description] CAS_2
Pin J25 /
Len = 0.5 L=8.35n C=3.34p R=0.01 /
Node 15.u21 /
Len = 0.5 L=8.35n C=3.34p R=0.01 /
Node 15.u22 /
Len = 0.5 L=8.35n C=3.34p R=0.01 /
Node 15.u23 /
|
|  A CONNECTOR WITH COUPLING
|
[Path Description]  xyz
Pin J5
Len = 0 L=1.2n / 
Len = 1.3 Matrix  / 
Len = 0.47 L=8.35n C=3.34p R=0.01 /
Pin P5
|
|
|  A DESCRIPTION USING THE FORK AND ENDFORK SUBPARAMETERS
|
[Path Description] PassThru1
Pin B5
Len = 0   L=2.0n /
Len = 2.1 L=6.0n C=2.0p /
 Fork /
 Len = 1.0 L= 1.0 C= 2p
 Node R15.3
 Endfork /
Len = 1.0 l = 6.0n c=2.0p /
Pin = A5
|
|
|=============================================================================
|    Keyword: [Model Data]
|   Required: Yes, if any of the path descriptions use the Matrix subparameter
|             to describe a section. 
|Description: Indicates the beginning of the matrix data used to describe
|             the coupling between path sections.  
|Usage Rules: [Model Data] keyword must be followed by the word 'section'
|             and the section number the matrix data applies to.  There
|             must be a [Model Data] keyword for every section in a
|             path description that uses the Matrix subparameter.
|             Note that if the [Path Description] keyword is used but no 
|             package stub sections use the Matrix subparameter then the 
|             [Model Data] and [End Model Data] keyword are not required.
|-----------------------------------------------------------------------------
[Model Data] section 2
|
|=============================================================================
|    Keyword: [End Model Data]
|   Required: Yes, if the [Model Data] keyword is present. 
|Description: Indicates the end of the matrix data used to describe
|             a section.  
|Usage Rules: In between the [Model Data] and [End Model Data] keywords is
|             the matrix data itself.  The data is a set of three matrices:
|             the resistance (R) , inductance (L) , and capacitance (C),
|             matrices.  Each matrix can be formatted differently (see
|             below).  Use one of the matrix keywords to mark the
|             beginning of each matrix.  As with the [Model Data] keyword
|             the [End Model Data] keyword is followed by the word 'section'
|             and the section number.
|-----------------------------------------------------------------------------
[End Model Data] Section 2
|
|=============================================================================
|   Keywords: [Resistance Matrix], [Inductance Matrix], [Capacitance Matrix]
|             [Bandwidth], [Row]
|   Required: Yes, if the [Model Data] keyword is present, following the
|             same rules and restrictions as detailed in the .pkg file
|             description 
|Description: These keywords contain the actual matrix data for each section
|             described by a matrix.  These keywords appear between the [Model
|             Data] and [End Model Data] Keywords.
|Usage Rules: The usage rules for these keywords in a .ebd file will follow
|             exactly the rules defined in the .pkg file description of this
|             specification.
******************************************************************************
ANALYSIS PATH/DATA THAT LED TO SPECIFICATION:


From owner-ibis  Mon Jun 24 11:10:18 1996
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Date: Mon, 24 Jun 96 11:03 PDT
From: bob@icx.com ( Bob Ross)
To: ibis@vhdl.org
Subject: BIRD 37  Enhancement To The Package Model Spec.

To All:

Below is BIRD37 from Stephen Peters which is a proposed update to BIRD28.3.

Bob Ross
Interconnectix, Inc.

=============================================================================

                 Buffer Issue Resolution Document  (BIRD)
BIRD ID#:        37
ISSUE TITLE:     Enhancement To The Package Model (.pkg file) Specification
REQUESTER:       Stephen Peters
DATE SUBMITTED:  June 23, 1996
DATE ACCEPTED BY IBIS OPEN FORUM:  Pending

******************************************************************************
******************************************************************************
STATEMENT OF THE ISSUE:  The current package model electrical description,
(as proposed in Bird 28.3 and accepted by the forum) has the restriction
that all the sections of a package stub connect in a series fashion, with 
no branches or stubs allowed.  This limits the usefulness of the
description when trying to describe BGA or other packages where branches
or forks off the main package stub may be present.  This BIRD corrects
this deficiency by adding two new subparameters to the [Pin Numbers] keyword
called 'Fork' and 'Endfork'
******************************************************************************
STATEMENT OF THE RESOLVED SPECIFICATIONS:  Following are the specific changes
to the specification (spec as amended by Bird 28.3).

1.  The Sub-params list of the [Pin Numbers] keyword is changed to that
shown below

|Sub-Params: Len, L, R, C, Matrix, Fork, EndFork

2.  The text following the first paragraph of the Usage Rules section of the
[Pin Numbers] keyword is replaced by the following:
|
|             Subparameters:
|             The Len, L, R, and C subparameters specify the length, 
|             inductance, capacitance and resistance of each section of
|             each stub on a package. If a particular section 
|             exhibits coupling to an adjacent (same numbered) section of 
|             a different package stub then the Matrix subparameter is used.
|             The Fork and Endfork subparameters are used to denote branches
|             from the main package stub. 
|             Len     The of a package stub section.  Lengths are given
|                     in terms of arbitrary 'units'.
|             L       The inductance of a package stub section, in terms of
|                     'inductance/unit length'.  For example, if the total
|                     inductance of a section is 3.0nH and the
|                     length of the section is 2 'units', the inductance 
|                     would be listed as L = 1.5nH  (i.e. 3.0 / 2). 
|             C       The capacitance of a package stub section, in terms of
|                     capacitance per unit length.
|             R       The DC (ohmic) resistance of a package stub section, in
|                     terms of ohms per unit length.
|             Matrix  Use of this subparameter means that this package stub
|                     section's electrical parameters are presented as part of
|                     a coupling matrix.  The data for the matrix is included
|                     between the [Model Data]/[End Model Data] keyword pairs
|                     as described below.
|             Fork    This subparameter indicates that the sections
|                     following (up to the Endfork subparameter) are part
|                     of a branch off of the main package stub.  This 
|                     subparameter has no arguments.
|             Endfork This subparameter indicates the end point of a
|                     branch.  For every Fork subparameter there must be
|                     a corresponding Endfork subparameter.  As with the
|                     Fork subparameter, the Endfork subparameter has no
|                     arguments.
|
|             Specifying a Len or L/R/C value of zero is allowed.  If
|             Len = 0 is specified, then the L/R/C values are the total
|             for that section.  If a non-zero length is specified, then
|             the total L/R/C for a section is calculated by multiplying 
|             the value of the Len subparameter by the value of the L,
|             R or C subparameter.
|
|             Using The Subparameters to Describe Package Stub Sections:
|             A section description begins with the Len subparameter and
|             end with the backslash (/) character.  The value of the Len, L,
|             R and C subparameters and the subparameter itself are 
|             separated by an equals sign (=); whitespace around the equals 
|             sign is optional.  The Fork and Endfork subparameters
|             are placed between section descriptions (i.e. between the
|             concluding backslash of one section and the 'Len' parameters
|             that starts another) and are delimited from the section
|             descriptions by a backslash.  All package stub descriptions must 
|             contain the same number of sections however, a particular 
|             section description can contain no data (i.e. the description 
|             is given as 'Len = 0 /').
|             
|             Legal Subparameter Combinations for Section Descriptions:
|             A) A single Len = 0 subparameter, followed by a slash.
|             The is used to describe a section with no data.
|
|             B)  Len and a single Matrix subparameter, followed by a
|             backslash. The Len subparameter specifies the length of that
|             section while the Matrix subparameter indicates that this
|             section of this package stub is electrically coupled to the
|             corresponding (same numbered) section of an adjacent package
|             stub (or stubs) and the coupling terms are listed in a matrix
|             format.  The matrix description must include both the 'self'
|             inductance/capacitance/resistance (as required) of a section
|             as well as the mutual coupling terms.  If one section is
|             described using the the Matrix subparameter then the
|             corresponding (same numbered) sections on ALL other package
|             stubs must use the Matrix subparameter.
|
|             C)  Len, and one or more of the L, R and C subparameters.  If
|             the Len subparameter is given as zero, then the L/R/C sub-
|             parameters represent lumped elements.  If the the Len sub-
|             parameter is non-zero, then the L/R/C subparameters represent
|             distributed elements.
|
******************************************************************************
ANALYSIS PATH/DATA THAT LED TO SPECIFICATION:
     This bird grew out of the need to describe a particular structure found
in BGA type packages.  In these packages, the trace that connects the die 
pad to the via for the 'ball' does not stop there.  For manufacturing
reasons the trace continues out to the edge of the board and thus forms
a 'stub' or branch off the main pad to ball (or pin) connection.  Because
of the need to stick with the existing section based description, the 
fork and endfork subparameters were chosen.


From owner-ibis  Mon Jun 24 12:57:21 1996
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Date: Mon, 24 Jun 1996 12:54:46 -0700
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To: ibis@vhdl.org
From: Jerry Rose <jerry.rose@tempe.vlsi.com>
Subject: IBIS Models Now Publicly Accessible

 From: Jerry Rose <jerry.rose@tempe.vlsi.com>
 Subject: IBIS Models Now Publicly Accessible
 Cc: alex.lange@sanjose.vlsi.com
 Status: RO

 Sorry about any duplicates, I wanted to make sure that every one was aware
 of the news!

 VLSI IBIS models are now accessible to the world at the below listed FTP
 site.  The site still needs a little cleaning and maintenance but the files
 are all now on line to the world at large!

 Please see the address below and add them to your bookmarks, make hyper
 links, etc.

 Jerry Rose




 >Subject: IBIS Models Now Publicly Accessible
 >Content-Length: 529
 >
 >Pleased to say the the IBIS models are now accessible by the world at
 >large; see
 >
 >  http://www.vlsi.com/vlsi/products/ibis/ibis.html
 >

 **************************************************************
 * Jerry Rose                       jerry.rose@tempe.vlsi.com *
 * Systems Engineer                                           *
 * Computing Products Group                                   *
 *                                                            *
 * VLSI Technology, Inc.            phone: (602) 752-6209     *
 * 8375 S. River Parkway, M/S 260   fax: (602) 752-6620       *
 * Tempe, AZ 85284                                            *
 **************************************************************






**************************************************************
* Jerry Rose                       jerry.rose@tempe.vlsi.com *
* Systems Engineer                                           *
* Computing Products Group                                   *
*                                                            *
* VLSI Technology, Inc.            phone: (602) 752-6209     *
* 8375 S. River Parkway, M/S 260   fax: (602) 752-6620       *
* Tempe, AZ 85284                                            *
**************************************************************


From owner-ibis  Wed Jun 26 11:35:48 1996
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From: dawiens@ingr.com
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Message-Id: <c=US%a=_%p=INTERGRAPH%l=HQ2-960626182420Z-44146@hq14.pcmail.ingr.com>
To: <ibis@vhdl.org>
Subject: RLC parameters for passive devices in EDIF
Date: Wed, 26 Jun 1996 13:24:20 -0500
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Encoding: 27 TEXT

Folks,

Preface :
- The IBIS packaging subcommittee has submitted a proposal to the EDIF
group to support :
  - Active part models using IBIS references within EDIF
  - Passive part models using RLC parameters within EDIF

In working through our proposal to the EDIF folks to support passive
devices, the following 
issues have come up :

- Are the following parameters sufficient : Resistance1, Resistance2,
Capacitance, Inductance
- Are there any illegal combinations of these parameters?
  - (e.g. valid combinations include Resistance1/Resistance2 for a
Thevenin terminator; 
    Resistance1/Capacitance for a RC terminator; Resistance1 for a
series resistor; etc.)
- What is the valid value range for these values? 
  - The Golden Parser currently allows any value for RLCs in IBIS.

Thanks for any input...

David Wiens
VeriBest Inc.
303-581-2306

From owner-ibis  Wed Jun 26 18:57:35 1996
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Date: Wed, 26 Jun 96 18:50 PDT
From: bob@icx.com ( Bob Ross)
To: dawiens@ingr.com, ibis@vhdl.org
Subject: Re:  RLC parameters for passive devices in EDIF

David:

The questions raised were good, and I am not sure I have an answer.
Here are some points to consider.

IBIS references in EDIF to Components or Models can also refer to 
Terminator Models which are composed of passive elements.  So some
more complicated terminator configurations that IBIS would allow
can be referenced.  These would include combination of elements,
package effects, and even internal clamps.  So values in the EDIF
format may not be available for these.

The Terminator Topology is fixed in IBIS.  IBIS does not format all possible
part part topologies.  Therefore, it makes sense to have values of 
components (single R, L, C) available individually.  Having 2 resistors
is a bonus.

To the extent that we would extract Terminator information, the 2 resistors
and 1 capacitor would cover the practical cases.  However, combined elements 
in the fixed topology could support up to 4 resistors ([Rgnd], [Rpower],
[Rac], R_pkg), 2 capacitors ([Cac], C_pkg), and 1 inductor (L_pkg).  I think
this would be to complicated.  The true Series resistor is not formmated
in IBIS, just an R_pkg element.

With respect to values, I could support having them restricted to greater
than or equal to 0.

At this point I am open to recommendations on how to proceed.  General
component value identification with some limited terminator topology
identification might be the best way to go.

Bob Ross
Interconnectix, Inc.


> From: dawiens@ingr.com

> To: <ibis@vhdl.org>
> Subject: RLC parameters for passive devices in EDIF
> Date: Wed, 26 Jun 1996 13:24:20 -0500


> Folks,

> Preface :
> - The IBIS packaging subcommittee has submitted a proposal to the EDIF
> group to support :
>   - Active part models using IBIS references within EDIF
>   - Passive part models using RLC parameters within EDIF

> In working through our proposal to the EDIF folks to support passive
> devices, the following 
> issues have come up :

> - Are the following parameters sufficient : Resistance1, Resistance2,
> Capacitance, Inductance
> - Are there any illegal combinations of these parameters?
>   - (e.g. valid combinations include Resistance1/Resistance2 for a
> Thevenin terminator; 
>     Resistance1/Capacitance for a RC terminator; Resistance1 for a
> series resistor; etc.)
> - What is the valid value range for these values? 
>   - The Golden Parser currently allows any value for RLCs in IBIS.

> Thanks for any input...

> David Wiens
> VeriBest Inc.
> 303-581-2306



From owner-ibis  Thu Jun 27 11:44:59 1996
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Date: Thu, 27 Jun 96 11:26:58 PDT
From: jonp@qdt.com (Jon Powell)
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	id AA28908; Thu, 27 Jun 96 11:26:57 PDT
To: ibis@vhdl.org
Subject: IBIS WWW pointers

Hey Guys,

I am putting together an IBIS Model Page for our
EIA web site. It will contain links to all know
repositories of IBIS models. Please forward to me
any links that you may know about for inclusion
on this web page.

thanks
jon

From owner-ibis  Thu Jun 27 15:11:17 1996
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Date: Thu, 27 Jun 96 15:04 PDT
From: bob@icx.com ( Bob Ross)
To: ibis@vhdl.org
Subject: BIRD36 COMMENTS - Electrical Board Description

To IBIS Committee:

BIRD36 looks well structured for the electrical board description.
I have just two initial comments.

(1) The Fork and EndFork and other new subparameters (Node, Pin) do not
need the /.  

(2) The Matrix subparameter appears to be referenced to the [Pin Numbers]
order.  For simple connectors and sockets with just single input/output
paths, this creates a double sized matrix.  I am wondering if the 
Matrix description should to be referenced to the path description
keyword order, where the path names would just be the pin numbers of one
side.

Bob Ross
Interconnectix, Inc.


From owner-ibis  Thu Jun 27 17:43:21 1996
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From: Chris Rokusek <awacs!crokusek@uunet.uu.net>
To: ibis@vhdl.org
Cc: crokusek@qdt.com
Subject: EGG10 - Stats of various parms

Hi all,

I had a chance to run some statistics on most of the ibis files
currently in my posession.  The goal of the analysis is to determine
appropriate ranges for some of the various fields.  We can discuss
this at meeting on 7/27 or push back discussion to next meeting.

The run included data the following files:

   2534v.ibs
   2535v.ibs
   2536v.ibs
   2537v.ibs
   2rfs.ibs
   700v.ibs
   701v.ibs
   82374eb.ibs
   82374sb.ibs
   82375eb.ibs
   82375sb.ibs
   82378ib.ibs
   82378zb.ibs
   82379ab.ibs
   82423tx.ibs
   82424zx.ibs   
   82425ex.ibs 
   82426ex.ibs 
   82433lx.ibs   
   82433nx.ibs
   82434lx.ibs
   82434nx.ibs
   b2525m.ibs
   b2525n.ibs
   b2528m.ibs
   b2528n.ibs
   b2528v.ibs
   b2529v.ibs
   b303m.ibs
   b303n.ibs
   b303v.ibs
   b304m.ibs
   b304n.ibs
   b304v.ibs
   b305m.ibs
   b305n.ibs
   b305v.ibs
   c2525m.ibs
   c2525n.ibs
   c2526m.ibs
   c2526n.ibs
   cdc.ibs   
   ct2524m.ibs
   ct2524n.ibs
   ct2525m.ibs
   ct2525n.ibs
   ct2526m.ibs
   ct2526n.ibs
   ct2527v.ibs
   dp8440vj.ibs
   dp8441vj.ibs
   dpu.ibs   
   ds26c31.ibs   
   ds26c32.ibs   
   dx4pga.ibs
   esc.ibs   
   g612mea.ibs
   g612mtd.ibs
   gp612mea.ibs
   gp612mtd.ibs
   lbx.ibs   
   lct2524m.ibs
   lct2524n.ibs
   pc87306.ibs
   pceb.ibs   
   pcmc.ibs   
   pp100sem.ibs
   pp66sem.ibs
   sio.ibs   


I apologize for some of the files not being the most current version
although 95% should be.

The report is in 2 sections:

  1) the histogram results
  2) compressed results including raw data used to create histograms

(( If you decide to print this out, be sure and cut out the compressed
messy stuff at the end!! )

Regards,

-Chris


---------------------------------------------------------------------


SHUNT CURRENT at V = -0.50 (GND CLAMP)
            PERCENT (of 307) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.0019 |********** 
   0.0039 |********* 
   0.0058 |** 
   0.0078 |* 
   0.0097 |* 
   0.0116 |* 
   0.0136 |* 
   0.0155 |* 
   0.0175 |* 
   0.0194 |* 
   0.0214 |* 
   0.0233 |* 
   0.0252 |* 
   0.0272 |* 
   0.0291 |* 
   0.0311 |* 
   0.0330 |* 
   0.0349 |* 
   0.0369 |* 
   0.0388 |* 
   0.0408 |* 
   0.0427 |* 
   0.0446 |* 
   0.0466 |* 
   0.0485 |* 
   0.0505 |* 
   0.0524 |* 
   0.0544 |* 
   0.0563 |* 
   0.0582 |* 
   0.0602 |* 
   0.0621 |* 
   0.0641 |* 
   0.0660 |* 
   0.0679 |* 
   0.0699 |* 
   0.0718 |* 
   0.0738 |* 
   0.0757 |* 


SHUNT CURRENT at V = -0.50 (POWER CLAMP)
            PERCENT (of 303) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.0259 |* 
   0.0517 |* 
   0.0776 |* 
   0.1034 |* 
   0.1293 |* 
   0.1551 |* 
   0.1810 |* 
   0.2068 |* 
   0.2327 |* 
   0.2586 |* 
   0.2844 |* 
   0.3103 |* 
   0.3361 |* 
   0.3620 |* 
   0.3878 |* 
   0.4137 |* 
   0.4396 |* 
   0.4654 |* 
   0.4913 |* 
   0.5171 |* 
   0.5430 |* 
   0.5688 |* 
   0.5947 |* 
   0.6205 |* 
   0.6464 |* 
   0.6723 |* 
   0.6981 |* 
   0.7240 |* 
   0.7498 |* 
   0.7757 |* 
   0.8015 |* 
   0.8274 |* 
   0.8532 |* 
   0.8791 |* 
   0.9050 |* 
   0.9308 |* 
   0.9567 |* 
   0.9825 |* 
   1.0084 |* 


SHUNT CURRENT at V = -1.00 (GND CLAMP)
            PERCENT (of 307) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.7575 |*** 
   1.5150 |** 
   2.2725 |** 
   3.0300 |** 
   3.7875 |** 
   4.5450 |* 
   5.3025 |* 
   6.0600 |* 
   6.8175 |* 
   7.5750 |* 
   8.3325 |* 
   9.0900 |* 
   9.8475 |* 
  10.6050 |* 
  11.3625 |* 
  12.1200 |* 
  12.8775 |* 
  13.6350 |* 
  14.3925 |* 
  15.1500 |* 
  15.9075 |* 
  16.6650 |* 
  17.4225 |* 
  18.1800 |* 
  18.9375 |* 
  19.6950 |* 
  20.4525 |* 
  21.2100 |* 
  21.9675 |* 
  22.7250 |* 
  23.4825 |* 
  24.2400 |* 
  24.9975 |* 
  25.7550 |* 
  26.5125 |* 
  27.2700 |* 
  28.0275 |* 
  28.7850 |* 
  29.5425 |* 


SHUNT CURRENT at V = -1.00 (POWER CLAMP)
            PERCENT (of 303) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.2109 |************ 
   0.4218 |******* 
   0.6327 |***** 
   0.8436 |** 
   1.0544 |* 
   1.2653 |* 
   1.4762 |* 
   1.6871 |* 
   1.8980 |* 
   2.1089 |* 
   2.3198 |* 
   2.5307 |* 
   2.7415 |* 
   2.9524 |* 
   3.1633 |* 
   3.3742 |* 
   3.5851 |* 
   3.7960 |* 
   4.0069 |* 
   4.2178 |* 
   4.4286 |* 
   4.6395 |* 
   4.8504 |* 
   5.0613 |* 
   5.2722 |* 
   5.4831 |* 
   5.6940 |* 
   5.9049 |* 
   6.1158 |* 
   6.3266 |* 
   6.5375 |* 
   6.7484 |* 
   6.9593 |* 
   7.1702 |* 
   7.3811 |* 
   7.5920 |* 
   7.8029 |* 
   8.0137 |* 
   8.2246 |* 


SHUNT CURRENT at V = -1.50 (GND CLAMP)
            PERCENT (of 307) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.7575 |************* 
   1.5150 |******** 
   2.2725 |*** 
   3.0300 |** 
   3.7875 |** 
   4.5450 |** 
   5.3025 |** 
   6.0600 |** 
   6.8175 |** 
   7.5750 |** 
   8.3325 |** 
   9.0900 |** 
   9.8475 |** 
  10.6050 |** 
  11.3625 |** 
  12.1200 |** 
  12.8775 |** 
  13.6350 |* 
  14.3925 |* 
  15.1500 |* 
  15.9075 |* 
  16.6650 |* 
  17.4225 |* 
  18.1800 |* 
  18.9375 |* 
  19.6950 |* 
  20.4525 |* 
  21.2100 |* 
  21.9675 |* 
  22.7250 |* 
  23.4825 |* 
  24.2400 |* 
  24.9975 |* 
  25.7550 |* 
  26.5125 |* 
  27.2700 |* 
  28.0275 |* 
  28.7850 |* 
  29.5425 |* 


SHUNT CURRENT at V = -1.50 (POWER CLAMP)
            PERCENT (of 303) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.7575 |*********** 
   1.5150 |******* 
   2.2725 |** 
   3.0300 |* 
   3.7875 |* 
   4.5450 |* 
   5.3025 |* 
   6.0600 |* 
   6.8175 |* 
   7.5750 |* 
   8.3325 |* 
   9.0900 |* 
   9.8475 |* 
  10.6050 |* 
  11.3625 |* 
  12.1200 |* 
  12.8775 |* 
  13.6350 |* 
  14.3925 |* 
  15.1500 |* 
  15.9075 |* 
  16.6650 |* 
  17.4225 |* 
  18.1800 |* 
  18.9375 |* 
  19.6950 |* 
  20.4525 |* 
  21.2100 |* 
  21.9675 |* 
  22.7250 |* 
  23.4825 |* 
  24.2400 |* 
  24.9975 |* 
  25.7550 |* 
  26.5125 |* 
  27.2700 |* 
  28.0275 |* 
  28.7850 |* 
  29.5425 |* 


SHUNT CURRENT at V = -2.00 (GND CLAMP)
            PERCENT (of 307) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.7575 |********************* 
   1.5150 |*********** 
   2.2725 |******** 
   3.0300 |**** 
   3.7875 |*** 
   4.5450 |** 
   5.3025 |** 
   6.0600 |** 
   6.8175 |** 
   7.5750 |** 
   8.3325 |** 
   9.0900 |** 
   9.8475 |** 
  10.6050 |** 
  11.3625 |** 
  12.1200 |** 
  12.8775 |** 
  13.6350 |** 
  14.3925 |** 
  15.1500 |** 
  15.9075 |** 
  16.6650 |** 
  17.4225 |** 
  18.1800 |** 
  18.9375 |** 
  19.6950 |** 
  20.4525 |** 
  21.2100 |** 
  21.9675 |** 
  22.7250 |* 
  23.4825 |* 
  24.2400 |* 
  24.9975 |* 
  25.7550 |* 
  26.5125 |* 
  27.2700 |* 
  28.0275 |* 
  28.7850 |* 
  29.5425 |* 


SHUNT CURRENT at V = -2.00 (POWER CLAMP)
            PERCENT (of 303) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.7575 |************ 
   1.5150 |*********** 
   2.2725 |******* 
   3.0300 |***** 
   3.7875 |** 
   4.5450 |* 
   5.3025 |* 
   6.0600 |* 
   6.8175 |* 
   7.5750 |* 
   8.3325 |* 
   9.0900 |* 
   9.8475 |* 
  10.6050 |* 
  11.3625 |* 
  12.1200 |* 
  12.8775 |* 
  13.6350 |* 
  14.3925 |* 
  15.1500 |* 
  15.9075 |* 
  16.6650 |* 
  17.4225 |* 
  18.1800 |* 
  18.9375 |* 
  19.6950 |* 
  20.4525 |* 
  21.2100 |* 
  21.9675 |* 
  22.7250 |* 
  23.4825 |* 
  24.2400 |* 
  24.9975 |* 
  25.7550 |* 
  26.5125 |* 
  27.2700 |* 
  28.0275 |* 
  28.7850 |* 
  29.5425 |* 


SHUNT CURRENT at V = -2.50 (GND CLAMP)
            PERCENT (of 307) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.7575 |*********************** 
   1.5150 |************* 
   2.2725 |*********** 
   3.0300 |******** 
   3.7875 |***** 
   4.5450 |**** 
   5.3025 |*** 
   6.0600 |*** 
   6.8175 |** 
   7.5750 |** 
   8.3325 |** 
   9.0900 |** 
   9.8475 |** 
  10.6050 |** 
  11.3625 |** 
  12.1200 |** 
  12.8775 |** 
  13.6350 |** 
  14.3925 |** 
  15.1500 |** 
  15.9075 |** 
  16.6650 |** 
  17.4225 |** 
  18.1800 |** 
  18.9375 |** 
  19.6950 |** 
  20.4525 |** 
  21.2100 |** 
  21.9675 |** 
  22.7250 |** 
  23.4825 |** 
  24.2400 |** 
  24.9975 |** 
  25.7550 |** 
  26.5125 |** 
  27.2700 |** 
  28.0275 |** 
  28.7850 |** 
  29.5425 |** 


SHUNT CURRENT at V = -2.50 (POWER CLAMP)
            PERCENT (of 303) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.7575 |************ 
   1.5150 |*********** 
   2.2725 |******* 
   3.0300 |******* 
   3.7875 |******* 
   4.5450 |**** 
   5.3025 |* 
   6.0600 |* 
   6.8175 |* 
   7.5750 |* 
   8.3325 |* 
   9.0900 |* 
   9.8475 |* 
  10.6050 |* 
  11.3625 |* 
  12.1200 |* 
  12.8775 |* 
  13.6350 |* 
  14.3925 |* 
  15.1500 |* 
  15.9075 |* 
  16.6650 |* 
  17.4225 |* 
  18.1800 |* 
  18.9375 |* 
  19.6950 |* 
  20.4525 |* 
  21.2100 |* 
  21.9675 |* 
  22.7250 |* 
  23.4825 |* 
  24.2400 |* 
  24.9975 |* 
  25.7550 |* 
  26.5125 |* 
  27.2700 |* 
  28.0275 |* 
  28.7850 |* 
  29.5425 |* 


C_comp Values
            PERCENT (of 488) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
     C(pF)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.4318 |*********************************************** 
   0.8636 |***************************** 
   1.2953 |************************ 
   1.7271 |************************ 
   2.1589 |*********************** 
   2.5907 |*********************** 
   3.0224 |********************* 
   3.4542 |******************* 
   3.8860 |**************** 
   4.3177 |************ 
   4.7495 |*********** 
   5.1813 |******** 
   5.6131 |******** 
   6.0448 |**** 
   6.4766 |**** 
   6.9084 |**** 
   7.3402 |** 
   7.7720 |* 
   8.2037 |* 
   8.6355 |* 
   9.0673 |* 
   9.4991 |* 
   9.9308 |* 
  10.3626 |* 
  10.7944 |* 
  11.2262 |* 
  11.6579 |* 
  12.0897 |* 
  12.5215 |* 
  12.9532 |* 
  13.3850 |* 
  13.8168 |* 
  14.2486 |* 
  14.6804 |* 
  15.1121 |* 
  15.5439 |* 
  15.9757 |* 
  16.4074 |* 
  16.8392 |* 


PIN C Values
            PERCENT (of 1684) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
     C(pF)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   2.5250 |************ 
   5.0500 |** 
   7.5750 |* 
  10.1000 |* 
  12.6250 |* 
  15.1500 |* 
  17.6750 |* 
  20.2000 |* 
  22.7250 |* 
  25.2500 |* 
  27.7750 |* 
  30.3000 |* 
  32.8250 |* 
  35.3500 |* 
  37.8750 |* 
  40.4000 |* 
  42.9250 |* 
  45.4500 |* 
  47.9750 |* 
  50.5000 |* 
  53.0250 |* 
  55.5500 |* 
  58.0750 |* 
  60.6000 |* 
  63.1250 |* 
  65.6500 |* 
  68.1750 |* 
  70.7000 |* 
  73.2250 |* 
  75.7500 |* 
  78.2750 |* 
  80.8000 |* 
  83.3250 |* 
  85.8500 |* 
  88.3750 |* 
  90.9000 |* 
  93.4250 |* 
  95.9500 |* 
  98.4750 |* 


PIN L Values
            PERCENT (of 1684) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
     L(nH)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   2.5250 |****************************************** 
   5.0500 |*************************** 
   7.5750 |******************** 
  10.1000 |***************** 
  12.6250 |******* 
  15.1500 |* 
  17.6750 |* 
  20.2000 |* 
  22.7250 |* 
  25.2500 |* 
  27.7750 |* 
  30.3000 |* 
  32.8250 |* 
  35.3500 |* 
  37.8750 |* 
  40.4000 |* 
  42.9250 |* 
  45.4500 |* 
  47.9750 |* 
  50.5000 |* 
  53.0250 |* 
  55.5500 |* 
  58.0750 |* 
  60.6000 |* 
  63.1250 |* 
  65.6500 |* 
  68.1750 |* 
  70.7000 |* 
  73.2250 |* 
  75.7500 |* 
  78.2750 |* 
  80.8000 |* 
  83.3250 |* 
  85.8500 |* 
  88.3750 |* 
  90.9000 |* 
  93.4250 |* 
  95.9500 |* 
  98.4750 |* 


PIN R Values
            PERCENT (of 1684) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   R(Ohms)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.0992 |************************* 
   0.1985 |***** 
   0.2977 |**** 
   0.3969 |**** 
   0.4962 |**** 
   0.5954 |**** 
   0.6946 |**** 
   0.7939 |**** 
   0.8931 |** 
   0.9923 |** 
   1.0916 |** 
   1.1908 |** 
   1.2900 |* 
   1.3893 |* 
   1.4885 |* 
   1.5877 |* 
   1.6870 |* 
   1.7862 |* 
   1.8854 |* 
   1.9847 |* 
   2.0839 |* 
   2.1831 |* 
   2.2823 |* 
   2.3816 |* 
   2.4808 |* 
   2.5800 |* 
   2.6793 |* 
   2.7785 |* 
   2.8777 |* 
   2.9770 |* 
   3.0762 |* 
   3.1754 |* 
   3.2747 |* 
   3.3739 |* 
   3.4731 |* 
   3.5724 |* 
   3.6716 |* 
   3.7708 |* 
   3.8701 |* 


Ramp Times
            PERCENT (of 2184) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
     t(ns)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.1174 |*********************************************** 
   0.2348 |****************************************** 
   0.3522 |************************************* 
   0.4697 |********************************** 
   0.5871 |******************************** 
   0.7045 |************************** 
   0.8219 |****************** 
   0.9393 |************* 
   1.0567 |********** 
   1.1741 |********* 
   1.2915 |****** 
   1.4090 |**** 
   1.5264 |*** 
   1.6438 |** 
   1.7612 |** 
   1.8786 |* 
   1.9960 |* 
   2.1134 |* 
   2.2308 |* 
   2.3483 |* 
   2.4657 |* 
   2.5831 |* 
   2.7005 |* 
   2.8179 |* 
   2.9353 |* 
   3.0527 |* 
   3.1701 |* 
   3.2876 |* 
   3.4050 |* 
   3.5224 |* 
   3.6398 |* 
   3.7572 |* 
   3.8746 |* 
   3.9920 |* 
   4.1094 |* 
   4.2269 |* 
   4.3443 |* 
   4.4617 |* 
   4.5791 |* 


Ramp Volts
            PERCENT (of 2184) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
     Volts|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.1161 |*********************************************** 
   0.2323 |*********************************************** 
   0.3485 |*********************************************** 
   0.4646 |*********************************************** 
   0.5807 |*********************************************** 
   0.6969 |********************************************** 
   0.8130 |********************************************** 
   0.9292 |********************************************* 
   1.0453 |******************************************** 
   1.1615 |******************************************* 
   1.2776 |**************************************** 
   1.3938 |************************************ 
   1.5100 |********************************** 
   1.6261 |***************************** 
   1.7422 |*************************** 
   1.8584 |*********************** 
   1.9746 |******************** 
   2.0907 |******************* 
   2.2069 |***************** 
   2.3230 |*************** 
   2.4392 |************* 
   2.5553 |********* 
   2.6714 |******** 
   2.7876 |**** 
   2.9037 |**** 
   3.0199 |*** 
   3.1360 |* 
   3.2522 |* 
   3.3684 |* 
   3.4845 |* 
   3.6007 |* 
   3.7168 |* 
   3.8329 |* 
   3.9491 |* 
   4.0652 |* 
   4.1814 |* 
   4.2976 |* 
   4.4137 |* 
   4.5299 |* 




#------ cut here ------ cut here ------ cut here ------ 
#!/bin/csh -f
# a shar file for an entire directory
# To recreate:
# 1) cut at the line above
# 2) cd to destination directory
# 3) run this file as follows:
#         csh <file name>
cat << \SOURCE_END_BIG_LONG_STRING | uudecode
begin 666 SOURCE_FILE
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end
\SOURCE_END_BIG_LONG_STRING
cat SOURCE_FILE | uncompress -c | tar xf -
unalias rm
rm -f SOURCE_FILE
exit 0


From owner-ibis  Fri Jun 28 08:49:08 1996
Received: from marceau.fm.intel.com (marceau.fm.intel.com [132.233.247.8]) by vhdl.vhdl.org (8.7.3/8.7.3) with ESMTP id IAA21072 for <ibis@vhdl.org>; Fri, 28 Jun 1996 08:49:07 -0700 (PDT)
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Received: by ccm.fm.intel.com (ccmgate 3.2 #2) Fri, 28 Jun 96 08:40:32 PDT
Date: Fri, 28 Jun 96 08:35:00 PDT
From: Arpad Muranyi <Arpad_Muranyi@ccm.fm.intel.com>
Message-ID: <Fri, 28 Jun 96 08:40:31 PDT_1@ccm.fm.intel.com>
To: owner-ibis@vhdl.org, ibis@vhdl.org
Subject: Re: IBIS MINUTES 6/7/96


Text item: 

Please take Donald Telian's name off from the list under Intel Corporation.  He 
is no longer working with Intel.

Thanks,

Arpad
================================================================================

 DATE: June 12, 1996

 SUBJECT: 6/7/96 EIA IBIS Open Forum Minutes

 VOTING MEMBERS AND 1996 PARTICIPANTS LIST:
 AMP                            Hank Herrmann*, Tim Minnick (phone)*,
                    Russ Moser*
 Cadence Design                 C. Kumar*
 Contec CAE, Ltd.               Dileep Divekar, Norio Matsui,
                    Antonis Orphanou*
 Cypress                        Bruce Wenniger
 Hewlett Packard, EEsof         Karl Kachigan*, Henry Wu
 HyperLynx                      Kellee Crisafulli
 INCASES                        Olaf Rethmeier, Ralf Bruening*
 Intel Corporation              Stephen Peters, Will Hobbs*, Arpad Muranyi*,
                    John Keifer, Aaron Tang, Duane Quiet,
                    Donald Telian, Jim Kruchowski
 Interconnectix, Inc.           Bob Ross*
 Meta-Software                  (Sanjay Gangal)
 Mitsubushi                     Tam Cao, Hoang Nguyen*
 Motorola                       Ahmed Omer*
 National Semiconductor         Syed Huq*, Donald Snyder, Chune-Sin Yeh,
                    Bill Aronson*
 NCR (formerly ATT-GIS)         Dave Moxley (phone)*, Richard Mellitz
 NEC                            (Hiroshi Matsumoto),
 Quad Design                    Jon Powell*, Chris Rokusek*
 Texas Instruments              Roger Cline, Ben Andresen, Sri Jandhyala,
                    Tareq Shahwan, Dan Phipps
 Thomson-CSF/SCTF               (Jean LeBrun)
 UniCAD Canada Ltd.             Celso Faia*
 VLSI Technology                Dick Ulmer*, Sung Oh, Swami Gangadharan,
                    Daniel Kim, Tom Dockery, D.C. Sessions*
 Zuken-Redac                    (John Berrie)

 OTHER PARTICIPANTS IN 1996:
 Alcatel                        John Fitzpatrick
 Altera                         Vadim von Brzeski
 Apteq Design System            Dan FitzPatrick
 Compaq                         Mark Leonard
 Digital Equipment Corp.        Jeff Chu
 EIA                            Patti Rusher*
 IC Works                       Eric Chen
 Micron Technology              Brian Johnson
 MicroSim                       Ralph Perez
 Molex                          Gus Panella
 North Carolina State U.        (Michael Steer)
 Oki Semiconductor              Tom Chao
 Philips Semiconductor          Mike Magdaluyo
 Rockwell Collins               Thomas Thurman
 S3, Inc.                       Sarathy Sribhashyam*, Phap Duong
 Seimans Nixdorf                Arnaud Lacariere
 Symmetry                       Andy Hughes*
 Tektronix, Inc.                Brock Hannibal
 TRW & Free Model Foundation    Robert Harrison
 Veribest                       Ian Dodd*, David Wiens
 VTC, Inc.                      Bob Ward*
 Zeelan Technology              George Opsahl

 In the list above, attendees at the meeting are indicated by *.  Principle
 members or other active members who have not attended are in parentheses.

 Upcoming Meetings: The bridge numbers for future IBIS teleconferences are as
 follows:

      Date       Bridge Number    Reservation #    Passcode
      6/28/96    (916) 356-9200   2-78902          4366478
      7/19/96    (916) 356-9200   2-78903          6186335

 All meetings are 8:00 AM to 9:55 AM Pacific Time.  We try to have agendas out
 7 days before each open forum and meeting minutes out within 7 days after.
 When you call into the meeting, ask for the IBIS Open Forum hosted by Will
 Hobbs and give the reservation number and passcode.

 NOTE: "AR" = Action Required.

 -------------------------------- MINUTES -------------------------------------

 INTRODUCTIONS
 Will Hobbs called the meeting to order and complemented Jon Powell for the
 Buttons and Placards.  The attendees introduced themselves.  New attendees
 for 1996 included D.C. Sessions of VLSI, Bob Ward of VTC, Inc., Russ Moser
 of AMP, Bill Aronson of National Semiconductor, Antonis Orphanou of Contec,
 Andy Hughes of Symmetry, Hoang Nguyen of Mitsubishi, and Ralf Brueing of
 INCASES.  Twenty five people attended from eighteen different organizations.


 EIA MEMBERSHIP AND TREASURER'S REPORT
 Patti Rusher did not have updated figures, but estimates the treasury at
 about $6000 after DAC expenses.  She has requested a formal monthly report.
 Both Veribest and Digital Equipment Corporation are expected to join as soon
 as payment is received on their invoices.  Payment has not been received from
 Quantic and Tanner, so they have been dropped from membership status.


 MINUTES REPORT, MISC.
 No Corrections.


 MISCELLANY/ANNOUNCEMENTS
 None.


 PRESS AND WEB PAGE UPDATES
 The 1996 Proceedings of the 46th Electronic Components & Technology
Conference,
 May 28-31, 1996 contains a paper by Peivand Tehraini, Yuzhe Chen, and Jiayuan
 Fang on "Extraction of Transient Behavioral Model of Digital I/O Buffers from
 IBIS".

 VLSI is considering Web access for their models, but they are currently
 available through direct contact.  Also, ICS, Inc. has IBIS models.


 NEW MODELS
 None reported.


 OPENS FOR NEW ISSUES
 Will Hobbs for International Efforts
 Patti Rusher for DAC97


 INTERNATIONAL STANDARDIZATION
 Will Hobbs summarized the recent international efforts to date.  An Express
 representation is required to move forward.  The experts at the University
 of Manchester estimate an upper limit of 2 months effort to upgrade IBIS
 Version 2.0 to Version 2.1 with documentation suitable for review.  The
 rate for such effort is $6000 per month.  Patti Rusher said that there were
 efforts to obtain this money.

 Patti summarized the steps toward international standardization.  Since
 IBIS is a formal ANSI standard it is ready to be forwarded as a new work
 item proposal to IEC once an Express representation is available.  Then it
 will be assigned to a working group and would probably take about 2-1/2
 years to reach adoption because of the time necessary to poll the member
 countries.  A faster model for standardization is being adopted since
 technology life cycles can be much shorter.

 Ian Dodd mentioned that David Wiens submitted concerns about IBIS inclusion
 of EDIF 4 0 0.  Patti reported that the comments had been received.


 DAC97 (DESIGN AUTOMATION CONFERENCE)
 Patti Rusher reported much interest in IBIS at the Standards booth and will
 forward the names of people requesting information.  The IBIS sign attracted
 attention and the unified appearance promoted unity among standards.  The
 booth was professionally designed as opposed to the ad-hoc appearance of last
 year.  Thank you Patti for a job well done.  Jon Powell would like to see EIA
 IBIS members listed next year, and Patti thought that would fit in well.

 We generally agreed to participate in the Standards Booth in 1997.  Jon
 mentioned other ideas including a separate static display for IBIS and hot
 Web page links.  Karl Kachigan stated that that was effective at DAC.


 EIA AWARDS
 The following organizations received award placards for outstanding service
 in promoting IBIS Models and Utilities.

 National Semiconductor for providing IBIS models, presented to Syed Huq
 Intel Corporation for providing IBIS models, presented to Arpad Muranyi
 HyperLynx for providing the "winibis" plotting utility (Kellee Chrisafulli)
 North Carolina State University for providing "s2ibis" and "s2iplt" utilities
    (Steve Lipa, Alan Glaser, Michael Steer, Paul Franzon)

 Also, Will Hobbs received a placard for outstanding service as chair of the
 EIA/IBIS Committee.


 ELECTIONS OF OFFICERS FOR 1996/1997
 Will Hobbs indicated that he will be on sabbatical for several months and
 and declined to serve as chair for next year.  He summarized the duties
 of all positions and asked for nominations.

 The following new officers were nominated and elected:

 Chair:  Bob Ross, Interconnectix, Inc.
 Vice-Chair: Syed Huq, National Semiconductor
 Secretary: None
 Librarian: Jon Powell, Quad Design

 Bob indicated that we are searching for a Secretary, but some of the duties
 can be divided among the officers.  Syed will continue his fine work managing
 and upgrading the EIA IBIS Web site, and Jon indicated that he plans to expand
 the Librarian role to provide links to other IBIS model locations.


 BIRD36 - BOARD LEVEL COMPONENT DESCRIPTION (To Be Submitted)
 Will Hobbs started the discussion by stating the Stephen Peters held an
 on site Package Committee meeting on 6/6/96 with Jon Powell, Hank Herrmann,
 C. Kumar, Ian Dodd, and Bob Ross.  Stephen had to return home, but the
 meeting continued.  The subsequent discussion changed the direction of
 BIRD36 back to a prior position.

 Bob Ross started the technical discussion by presenting an overview:

 1.  Currently IBIS deals with electrical component descriptions to be used
 with physical board descriptions (PBD).  Typically a number of vendor
specific
 formats are used for PBDs, but EDIF 4 0 0 also provides a standardized format.
 Most EDA tools provide electrical processing of PBDs and IBIS models.  The
 .ibs file contains package information which can exist within the .ibs file
 or can exist in a separate .pkg file for Version 2.1 matrices and BIRD28.3
 extensions.  Even with extensions, the package description is for a single
 pin only.

 2.  There are two overlapping proposals regarding extensions.  The first is
 BIRD36 covering the other extreme - an electrical board description (EBD).
 It deals with PATHS which can connect multiple pins and internal nodes.  These
 internal nodes can reference IBIS model pins.  The EBD is intended to provide
 electrical characteristics of SIMMs, MCMs, and also electrical stubs where the
 physical board has not been designed.  At the lowest level, the EBD can be
 used for connector, cable and socket models because they are usually direct
 two-pin paths.

 The second is BIRD31.3, the Mated Models proposal which extends BIRD28.3 to
 cover direct, two-pin paths only.   It would not require the addition of
 PATH syntax, but would be limited in its scope.  Because of some advanced
 connector designs, Hank Herrmann favors the BIRD36 approach to avoid having
 two methods to provide the same information.

 So the Package Committee proposal is to focus on BIRD36 and have it include
 mated models.

 3. Both the .pkg file and the EBD (.ebd) handle discrete LRC components,
 distributed LRC components, MATRIX functionality (including coupling), and
 sections.  The EBD also adds PATHS, PINS, NODES, FORKS, Tedge_rate and Cpad.
 Stephen Peters has indicated that he would like FORKS added to the .pkg
 file.  The EBD would reside in a separate file.  However, it could contain
 IBIS components within, or it could reference IBIS components in .ibs files
 in the same directory.  (Simulator companies could extend this to include
 search paths to other directories.)   So it is possible that a .ebd file
 references a component in a .ibs file which references a package description
 in a .pkg file.   The details and BIRD36 syntax need to be worked out.  Even
 internal paths between components are permitted within EBDs.

 4.  EBDs can connect to other EBDs and to PBDs.  It is permitted to have
 PBDs connected by connector EBDs.  Or connector EBDs can connect other EBDs
 EBDs and PBDs.  Or EBDs can contain within it the connector or socket EBD.
 Currently, the PentiumPro IBIS model has a package description that includes
 its always present socket.  However, this device could also be attached
 through an EBD socket.  The boundaries of all physical connections extend
 to the physical surfaces of the devices.

 5.  There is still a need to investigate all of the possible connection
 scenarios to be sure that all the cases are covered.  There are limits to
 how well the EBD will characterize MCMs and complicated boards since its
 individual coupled matrix capability is limited.  In such cases, the PCB
 approach should be used.  The EBD is not intended for large boards.

 In the discussion that followed, Hank Herrmann mentioned the need to support
 unloaded sockets, such as an unpopulated SIMM socket.  Hank also stressed
 that Tedge_rate be defined in BIRD36 similar to BIRD31.3 to set the accuracy
 range.  Distributed models need to be used, if specified, so that the
 structurally smallest Tedge_rate limit can be applied without numerical
 degradation.  The 20-80% definition should be used.  C. Kumar added that
 Tedge_rate can be used for optimal model selection.


 AR - Stephen Peters (and Bob Ross) submit BIRD36.1 with changes reflecting
 the Package Committee agreement and ensuring that the BIRD31.3 functionality
 is fully included.

 AR - Stephen Peters submit an upgrade to approved BIRD28.3 to include forks
 and endforks.

 The other Package Birds were discussed briefly.

 BIRD31.3 - Mated Models is expected to be dropped pending the outcome of
 BIRD36.1.

 BIRD32 - Additional Enhancement to the Package Model contains some technical
 complexities which are currently being shelved.

 BIRD33 - Physical representation was voted NO.  The IBIS committee had already
 agreed upon a position recommended by the Package Committee that EDIF 4 0 0
 should be supported as the physical description format.


 PRIORITIES AND WISHES FOR VERSION 3.0
 Will Hobbs used some available time for discussion of this topic with respect
 to the proposed Version 3.0 release by the end of the year.  Arpad Muranyi
 asked what was needed for Version 3.0.  The discussion included model
selection
 (BIRD 30.2 - approved), package extensions (BIRD28.3+), electrical board
 descriptions (BIRD36), multi-staged switching (pending BIRD35), stored charge
 effects (pending BIRD 34.1), and possibly feedback, scaling, and thresholds.

 Feedback can be voltage or time based.  It could be time or voltage related.
 However, the mechanisms tend to be proprietary, making formulating a proposal
 difficult.  There was some discussion on whether some scaling mechanism
coupled
 with voltage or resistor sensing could provide static or controlled feedback.

 Threshold extensions including overshoot limits could be added via the BIRD
 process.

 Bus-hold effects were also mentioned.  At the January IBIS summit we learned
 that these effects produced almost insignificant corrections in the 100 uA
 range.  If they are time based, they might be included in BIRD35 Multi-staged
 extensions.


 VALIDATION DISCUSSION
 Russ Moser presented a position that by corporate policy AMP and other
 companies must give the best models possible.  This forces internal validation
 policies.  It is difficulty to validate "IBIS" connector models without
 internal IBIS processing tools.  He speculated that other companies might be
 reluctant to release models that have not been validated.


 BIRD35 - MULTI-STAGED OUTPUTS
 Bob Ross briefly discussed this proposal for providing within a single
 model the ability to have multiple V/I and V/T tables.  All the V/T tables
 would have the same reference time.  This proposal reflects actual device
 architecture, although creating actual tables might be difficult because
 of interactions.  Arpad Muranyi questioned whether the existing V/T method
 was adequate.  Jon Powell will provide specific examples where multi-
 staged models are necessary to give the correct answer.  One example has the
 switching outputs drawn from one voltage reference, and the stable DC level
 from another voltage reference.  C. Kumar argued that it is possible to link
 existing models together to create effective multi-staged switching through
 scripts.  However, D.C. Sessions and Dick Ulmer preferred that all of the
 switching mechanisms be contained within a single model.

 AR - Jon Powell submit examples of simulation behaviors that require
 multi-staged models [Done].


 BIRD34.1 - STORED CHARGE EFFECTS
 Bob Ross summarized the Spice program differences sent out.  Both programs
 cover identical cases, but one program uses a transmission line model similar
 to actual situations where glitches are produced, while the other represents
 a 50 ohm source and load test circuit which would be easier to extract the
 data.  The first circuit shows nearly exact agreement, while the second
 circuit has more error when clamp tables are used due to some numerical
 artifacts related to derivative sensitivity.

 Effective TT parameters are proposed for [Gnd Clamp] and [Power Clamp]
 tables, and BIRD34.1 shows mathematical relationships to the non-linear
 capacitance.

 Jon Powell had shown earlier that a TT and a voltage variable capacitance
 produced the same effects.  D.C. Sessions and others argued that perhaps a
 Capacitance vs. Voltage table would be preferred to supplement or replace
 C_comp.


 EGG10 - PARSER ADDITIONS FOR NUMERICAL CHECKING
 Chris Rokusek stated that he still plans to provide some numerical values for
 the proposed warning limits for ibischk2.


 NEXT MEETING:
 The next meeting is on Friday, June 28, 1996 8:00 A.M. to 10:00 A.M.  Syed
 Huq will Chair the meeting since Bob Ross will be out.

 ==============================================================================
                           NOTES

 IBIS CHAIR: Bob Ross (503) 603-2523, Fax (503) 639-3469
          bob@icx.com
          Modeling Engineer, Interconnectix, Inc.
          10220 SW Nimbus Ave, K4, Portland, OR 97223

 VICE CHAIR: Syed Huq (408) 721-4874, Fax: (408) 721-4785
          huq@rockie.nsc.com
          Product Marketing Manager, National Semiconductor, M/S A-2595
          2900 Semiconductor Drive, Santa Clara, CA 95052

 LIBRARIAN:  Jon Powell (805) 988-8250, Fax: (805) 988-8259
          jonp@qdt.com
          Transmission-Line Products Manager, Quad Design
          1385 Del Norte Rd., Camarillo, CA 93010

 SECRETARY:  Vacant


 This meeting was conducted in accordance with the EIA Legal Guides and EIA
 Manual of Organization and Procedure.

 The following e-mail addresses are used:

   ibis-request@vhdl.org
       To join, change, or drop from either the IBIS Open Forum Reflector
       (ibis@vhdl.org), the IBIS Users' Group Reflector (ibis-users@vhdl.org)
       or both.  State your request.

   ibis-info@vhdl.org
       To obtain general information about IBIS, to ask specific questions
       for individual response, and to inquire about joining the EIA-IBIS
       Open Forum as a full Member.

   ibis@vhdl.org
       To send a message to the general IBIS Open Forum Reflector.  This
       is used mostly for IBIS Standardization business and future IBIS
       technical enhancements.

   ibis-users@vhdl.org
       To send a message to the IBIS Users' Group Reflector.  This is
       used mostly for IBIS clarification, current modeling issues, and
       general user concerns.

   ibischk-bug@vhdl.org
       To report ibischk2 parser bugs.  The Bug Report Form Resides on
       vhdl.org in /pub/ibis/bugs/bugform.txt along with reported bugs.

 Information on IBIS technical contents, IBIS participants, and actual
 IBIS models are available on the IBIS Home page found by selecting the
 Electronic Information Group under:

   http://www.eia.org

 Check the pub/ibis directory on vhdl.org for more information on previous
 discussions and results.  You can get on via ftp anonymous, "guest"
login from
 telnet or dial-in (415-335-0110), or send an e-mail request to the automatic
 archive server, archive@vhdl.org.

 "IBIS Spoken Here" placards are available from Jon Powell (jonp@qdt.com) for
 use at trade shows.
 ==============================================================================

Text item: External Message Header

The following mail header is for administrative use
and may be ignored unless there are problems.

***IF THERE ARE PROBLEMS SAVE THESE HEADERS***.

Subject: IBIS MINUTES 6/7/96
To: ibis@vhdl.org
From: bob@icx.com ( Bob Ross)
Date: Wed, 12 Jun 96 11:00 PDT
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From: Chris Rokusek <awacs!crokusek@uunet.uu.net>
To: ibis@vhdl.org
Subject: EGG10 - Resend, uncompressed

Hi all,

Here is a resend of previously sent data, uncompressed...

-Chris R.

--------------------------------------------------------------


SHUNT CURRENT at V = -0.50 (GND CLAMP)
            PERCENT (of 307) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.0019 |********** 
   0.0039 |********* 
   0.0058 |** 
   0.0078 |* 
   0.0097 |* 
   0.0116 |* 
   0.0136 |* 
   0.0155 |* 
   0.0175 |* 
   0.0194 |* 
   0.0214 |* 
   0.0233 |* 
   0.0252 |* 
   0.0272 |* 
   0.0291 |* 
   0.0311 |* 
   0.0330 |* 
   0.0349 |* 
   0.0369 |* 
   0.0388 |* 
   0.0408 |* 
   0.0427 |* 
   0.0446 |* 
   0.0466 |* 
   0.0485 |* 
   0.0505 |* 
   0.0524 |* 
   0.0544 |* 
   0.0563 |* 
   0.0582 |* 
   0.0602 |* 
   0.0621 |* 
   0.0641 |* 
   0.0660 |* 
   0.0679 |* 
   0.0699 |* 
   0.0718 |* 
   0.0738 |* 
   0.0757 |* 


SHUNT CURRENT at V = -0.50 (POWER CLAMP)
            PERCENT (of 303) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.0259 |* 
   0.0517 |* 
   0.0776 |* 
   0.1034 |* 
   0.1293 |* 
   0.1551 |* 
   0.1810 |* 
   0.2068 |* 
   0.2327 |* 
   0.2586 |* 
   0.2844 |* 
   0.3103 |* 
   0.3361 |* 
   0.3620 |* 
   0.3878 |* 
   0.4137 |* 
   0.4396 |* 
   0.4654 |* 
   0.4913 |* 
   0.5171 |* 
   0.5430 |* 
   0.5688 |* 
   0.5947 |* 
   0.6205 |* 
   0.6464 |* 
   0.6723 |* 
   0.6981 |* 
   0.7240 |* 
   0.7498 |* 
   0.7757 |* 
   0.8015 |* 
   0.8274 |* 
   0.8532 |* 
   0.8791 |* 
   0.9050 |* 
   0.9308 |* 
   0.9567 |* 
   0.9825 |* 
   1.0084 |* 


SHUNT CURRENT at V = -1.00 (GND CLAMP)
            PERCENT (of 307) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.7575 |*** 
   1.5150 |** 
   2.2725 |** 
   3.0300 |** 
   3.7875 |** 
   4.5450 |* 
   5.3025 |* 
   6.0600 |* 
   6.8175 |* 
   7.5750 |* 
   8.3325 |* 
   9.0900 |* 
   9.8475 |* 
  10.6050 |* 
  11.3625 |* 
  12.1200 |* 
  12.8775 |* 
  13.6350 |* 
  14.3925 |* 
  15.1500 |* 
  15.9075 |* 
  16.6650 |* 
  17.4225 |* 
  18.1800 |* 
  18.9375 |* 
  19.6950 |* 
  20.4525 |* 
  21.2100 |* 
  21.9675 |* 
  22.7250 |* 
  23.4825 |* 
  24.2400 |* 
  24.9975 |* 
  25.7550 |* 
  26.5125 |* 
  27.2700 |* 
  28.0275 |* 
  28.7850 |* 
  29.5425 |* 


SHUNT CURRENT at V = -1.00 (POWER CLAMP)
            PERCENT (of 303) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.2109 |************ 
   0.4218 |******* 
   0.6327 |***** 
   0.8436 |** 
   1.0544 |* 
   1.2653 |* 
   1.4762 |* 
   1.6871 |* 
   1.8980 |* 
   2.1089 |* 
   2.3198 |* 
   2.5307 |* 
   2.7415 |* 
   2.9524 |* 
   3.1633 |* 
   3.3742 |* 
   3.5851 |* 
   3.7960 |* 
   4.0069 |* 
   4.2178 |* 
   4.4286 |* 
   4.6395 |* 
   4.8504 |* 
   5.0613 |* 
   5.2722 |* 
   5.4831 |* 
   5.6940 |* 
   5.9049 |* 
   6.1158 |* 
   6.3266 |* 
   6.5375 |* 
   6.7484 |* 
   6.9593 |* 
   7.1702 |* 
   7.3811 |* 
   7.5920 |* 
   7.8029 |* 
   8.0137 |* 
   8.2246 |* 


SHUNT CURRENT at V = -1.50 (GND CLAMP)
            PERCENT (of 307) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.7575 |************* 
   1.5150 |******** 
   2.2725 |*** 
   3.0300 |** 
   3.7875 |** 
   4.5450 |** 
   5.3025 |** 
   6.0600 |** 
   6.8175 |** 
   7.5750 |** 
   8.3325 |** 
   9.0900 |** 
   9.8475 |** 
  10.6050 |** 
  11.3625 |** 
  12.1200 |** 
  12.8775 |** 
  13.6350 |* 
  14.3925 |* 
  15.1500 |* 
  15.9075 |* 
  16.6650 |* 
  17.4225 |* 
  18.1800 |* 
  18.9375 |* 
  19.6950 |* 
  20.4525 |* 
  21.2100 |* 
  21.9675 |* 
  22.7250 |* 
  23.4825 |* 
  24.2400 |* 
  24.9975 |* 
  25.7550 |* 
  26.5125 |* 
  27.2700 |* 
  28.0275 |* 
  28.7850 |* 
  29.5425 |* 


SHUNT CURRENT at V = -1.50 (POWER CLAMP)
            PERCENT (of 303) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.7575 |*********** 
   1.5150 |******* 
   2.2725 |** 
   3.0300 |* 
   3.7875 |* 
   4.5450 |* 
   5.3025 |* 
   6.0600 |* 
   6.8175 |* 
   7.5750 |* 
   8.3325 |* 
   9.0900 |* 
   9.8475 |* 
  10.6050 |* 
  11.3625 |* 
  12.1200 |* 
  12.8775 |* 
  13.6350 |* 
  14.3925 |* 
  15.1500 |* 
  15.9075 |* 
  16.6650 |* 
  17.4225 |* 
  18.1800 |* 
  18.9375 |* 
  19.6950 |* 
  20.4525 |* 
  21.2100 |* 
  21.9675 |* 
  22.7250 |* 
  23.4825 |* 
  24.2400 |* 
  24.9975 |* 
  25.7550 |* 
  26.5125 |* 
  27.2700 |* 
  28.0275 |* 
  28.7850 |* 
  29.5425 |* 


SHUNT CURRENT at V = -2.00 (GND CLAMP)
            PERCENT (of 307) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.7575 |********************* 
   1.5150 |*********** 
   2.2725 |******** 
   3.0300 |**** 
   3.7875 |*** 
   4.5450 |** 
   5.3025 |** 
   6.0600 |** 
   6.8175 |** 
   7.5750 |** 
   8.3325 |** 
   9.0900 |** 
   9.8475 |** 
  10.6050 |** 
  11.3625 |** 
  12.1200 |** 
  12.8775 |** 
  13.6350 |** 
  14.3925 |** 
  15.1500 |** 
  15.9075 |** 
  16.6650 |** 
  17.4225 |** 
  18.1800 |** 
  18.9375 |** 
  19.6950 |** 
  20.4525 |** 
  21.2100 |** 
  21.9675 |** 
  22.7250 |* 
  23.4825 |* 
  24.2400 |* 
  24.9975 |* 
  25.7550 |* 
  26.5125 |* 
  27.2700 |* 
  28.0275 |* 
  28.7850 |* 
  29.5425 |* 


SHUNT CURRENT at V = -2.00 (POWER CLAMP)
            PERCENT (of 303) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.7575 |************ 
   1.5150 |*********** 
   2.2725 |******* 
   3.0300 |***** 
   3.7875 |** 
   4.5450 |* 
   5.3025 |* 
   6.0600 |* 
   6.8175 |* 
   7.5750 |* 
   8.3325 |* 
   9.0900 |* 
   9.8475 |* 
  10.6050 |* 
  11.3625 |* 
  12.1200 |* 
  12.8775 |* 
  13.6350 |* 
  14.3925 |* 
  15.1500 |* 
  15.9075 |* 
  16.6650 |* 
  17.4225 |* 
  18.1800 |* 
  18.9375 |* 
  19.6950 |* 
  20.4525 |* 
  21.2100 |* 
  21.9675 |* 
  22.7250 |* 
  23.4825 |* 
  24.2400 |* 
  24.9975 |* 
  25.7550 |* 
  26.5125 |* 
  27.2700 |* 
  28.0275 |* 
  28.7850 |* 
  29.5425 |* 


SHUNT CURRENT at V = -2.50 (GND CLAMP)
            PERCENT (of 307) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.7575 |*********************** 
   1.5150 |************* 
   2.2725 |*********** 
   3.0300 |******** 
   3.7875 |***** 
   4.5450 |**** 
   5.3025 |*** 
   6.0600 |*** 
   6.8175 |** 
   7.5750 |** 
   8.3325 |** 
   9.0900 |** 
   9.8475 |** 
  10.6050 |** 
  11.3625 |** 
  12.1200 |** 
  12.8775 |** 
  13.6350 |** 
  14.3925 |** 
  15.1500 |** 
  15.9075 |** 
  16.6650 |** 
  17.4225 |** 
  18.1800 |** 
  18.9375 |** 
  19.6950 |** 
  20.4525 |** 
  21.2100 |** 
  21.9675 |** 
  22.7250 |** 
  23.4825 |** 
  24.2400 |** 
  24.9975 |** 
  25.7550 |** 
  26.5125 |** 
  27.2700 |** 
  28.0275 |** 
  28.7850 |** 
  29.5425 |** 


SHUNT CURRENT at V = -2.50 (POWER CLAMP)
            PERCENT (of 303) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   I(Amps)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.7575 |************ 
   1.5150 |*********** 
   2.2725 |******* 
   3.0300 |******* 
   3.7875 |******* 
   4.5450 |**** 
   5.3025 |* 
   6.0600 |* 
   6.8175 |* 
   7.5750 |* 
   8.3325 |* 
   9.0900 |* 
   9.8475 |* 
  10.6050 |* 
  11.3625 |* 
  12.1200 |* 
  12.8775 |* 
  13.6350 |* 
  14.3925 |* 
  15.1500 |* 
  15.9075 |* 
  16.6650 |* 
  17.4225 |* 
  18.1800 |* 
  18.9375 |* 
  19.6950 |* 
  20.4525 |* 
  21.2100 |* 
  21.9675 |* 
  22.7250 |* 
  23.4825 |* 
  24.2400 |* 
  24.9975 |* 
  25.7550 |* 
  26.5125 |* 
  27.2700 |* 
  28.0275 |* 
  28.7850 |* 
  29.5425 |* 


C_comp Values
            PERCENT (of 488) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
     C(pF)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.4318 |*********************************************** 
   0.8636 |***************************** 
   1.2953 |************************ 
   1.7271 |************************ 
   2.1589 |*********************** 
   2.5907 |*********************** 
   3.0224 |********************* 
   3.4542 |******************* 
   3.8860 |**************** 
   4.3177 |************ 
   4.7495 |*********** 
   5.1813 |******** 
   5.6131 |******** 
   6.0448 |**** 
   6.4766 |**** 
   6.9084 |**** 
   7.3402 |** 
   7.7720 |* 
   8.2037 |* 
   8.6355 |* 
   9.0673 |* 
   9.4991 |* 
   9.9308 |* 
  10.3626 |* 
  10.7944 |* 
  11.2262 |* 
  11.6579 |* 
  12.0897 |* 
  12.5215 |* 
  12.9532 |* 
  13.3850 |* 
  13.8168 |* 
  14.2486 |* 
  14.6804 |* 
  15.1121 |* 
  15.5439 |* 
  15.9757 |* 
  16.4074 |* 
  16.8392 |* 


PIN C Values
            PERCENT (of 1684) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
     C(pF)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   2.5250 |************ 
   5.0500 |** 
   7.5750 |* 
  10.1000 |* 
  12.6250 |* 
  15.1500 |* 
  17.6750 |* 
  20.2000 |* 
  22.7250 |* 
  25.2500 |* 
  27.7750 |* 
  30.3000 |* 
  32.8250 |* 
  35.3500 |* 
  37.8750 |* 
  40.4000 |* 
  42.9250 |* 
  45.4500 |* 
  47.9750 |* 
  50.5000 |* 
  53.0250 |* 
  55.5500 |* 
  58.0750 |* 
  60.6000 |* 
  63.1250 |* 
  65.6500 |* 
  68.1750 |* 
  70.7000 |* 
  73.2250 |* 
  75.7500 |* 
  78.2750 |* 
  80.8000 |* 
  83.3250 |* 
  85.8500 |* 
  88.3750 |* 
  90.9000 |* 
  93.4250 |* 
  95.9500 |* 
  98.4750 |* 


PIN L Values
            PERCENT (of 1684) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
     L(nH)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   2.5250 |****************************************** 
   5.0500 |*************************** 
   7.5750 |******************** 
  10.1000 |***************** 
  12.6250 |******* 
  15.1500 |* 
  17.6750 |* 
  20.2000 |* 
  22.7250 |* 
  25.2500 |* 
  27.7750 |* 
  30.3000 |* 
  32.8250 |* 
  35.3500 |* 
  37.8750 |* 
  40.4000 |* 
  42.9250 |* 
  45.4500 |* 
  47.9750 |* 
  50.5000 |* 
  53.0250 |* 
  55.5500 |* 
  58.0750 |* 
  60.6000 |* 
  63.1250 |* 
  65.6500 |* 
  68.1750 |* 
  70.7000 |* 
  73.2250 |* 
  75.7500 |* 
  78.2750 |* 
  80.8000 |* 
  83.3250 |* 
  85.8500 |* 
  88.3750 |* 
  90.9000 |* 
  93.4250 |* 
  95.9500 |* 
  98.4750 |* 


PIN R Values
            PERCENT (of 1684) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
   R(Ohms)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.0992 |************************* 
   0.1985 |***** 
   0.2977 |**** 
   0.3969 |**** 
   0.4962 |**** 
   0.5954 |**** 
   0.6946 |**** 
   0.7939 |**** 
   0.8931 |** 
   0.9923 |** 
   1.0916 |** 
   1.1908 |** 
   1.2900 |* 
   1.3893 |* 
   1.4885 |* 
   1.5877 |* 
   1.6870 |* 
   1.7862 |* 
   1.8854 |* 
   1.9847 |* 
   2.0839 |* 
   2.1831 |* 
   2.2823 |* 
   2.3816 |* 
   2.4808 |* 
   2.5800 |* 
   2.6793 |* 
   2.7785 |* 
   2.8777 |* 
   2.9770 |* 
   3.0762 |* 
   3.1754 |* 
   3.2747 |* 
   3.3739 |* 
   3.4731 |* 
   3.5724 |* 
   3.6716 |* 
   3.7708 |* 
   3.8701 |* 


Ramp Times
            PERCENT (of 2184) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
     t(ns)|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.1174 |*********************************************** 
   0.2348 |****************************************** 
   0.3522 |************************************* 
   0.4697 |********************************** 
   0.5871 |******************************** 
   0.7045 |************************** 
   0.8219 |****************** 
   0.9393 |************* 
   1.0567 |********** 
   1.1741 |********* 
   1.2915 |****** 
   1.4090 |**** 
   1.5264 |*** 
   1.6438 |** 
   1.7612 |** 
   1.8786 |* 
   1.9960 |* 
   2.1134 |* 
   2.2308 |* 
   2.3483 |* 
   2.4657 |* 
   2.5831 |* 
   2.7005 |* 
   2.8179 |* 
   2.9353 |* 
   3.0527 |* 
   3.1701 |* 
   3.2876 |* 
   3.4050 |* 
   3.5224 |* 
   3.6398 |* 
   3.7572 |* 
   3.8746 |* 
   3.9920 |* 
   4.1094 |* 
   4.2269 |* 
   4.3443 |* 
   4.4617 |* 
   4.5791 |* 


Ramp Volts
            PERCENT (of 2184) EXCEEDING ->
          0    10   20   30   40   50   60   70   80   90  100 
     Volts|----|----|----|----|----|----|----|----|----|----| 
   0.0000 |************************************************** 
   0.1161 |*********************************************** 
   0.2323 |*********************************************** 
   0.3485 |*********************************************** 
   0.4646 |*********************************************** 
   0.5807 |*********************************************** 
   0.6969 |********************************************** 
   0.8130 |********************************************** 
   0.9292 |********************************************* 
   1.0453 |******************************************** 
   1.1615 |******************************************* 
   1.2776 |**************************************** 
   1.3938 |************************************ 
   1.5100 |********************************** 
   1.6261 |***************************** 
   1.7422 |*************************** 
   1.8584 |*********************** 
   1.9746 |******************** 
   2.0907 |******************* 
   2.2069 |***************** 
   2.3230 |*************** 
   2.4392 |************* 
   2.5553 |********* 
   2.6714 |******** 
   2.7876 |**** 
   2.9037 |**** 
   3.0199 |*** 
   3.1360 |* 
   3.2522 |* 
   3.3684 |* 
   3.4845 |* 
   3.6007 |* 
   3.7168 |* 
   3.8329 |* 
   3.9491 |* 
   4.0652 |* 
   4.1814 |* 
   4.2976 |* 
   4.4137 |* 
   4.5299 |* 


COMPONENT: S82378IB
  C_pkg:  1.360000E+00  L_pkg:  2.500000E+01  R_pkg:  2.770000E-01
COMPONENT: Pentium_processor(510\60,567\66)
  C_pkg:  1.020000E+01  L_pkg:  2.060000E+01  R_pkg:  0.000000E+00
  R_pin:  0.000000  L_pin:  12.750000  C_pin:  5.200000
  R_pin:  0.000000  L_pin:  12.750000  C_pin:  5.200000
  R_pin:  0.000000  L_pin:  12.750000  C_pin:  5.200000
  R_pin:  0.000000  L_pin:  12.750000  C_pin:  5.200000
  R_pin:  0.000000  L_pin:  12.750000  C_pin:  5.200000
  R_pin:  0.000000  L_pin:  12.750000  C_pin:  5.200000
  R_pin:  0.000000  L_pin:  12.750000  C_pin:  5.200000
  R_pin:  0.000000  L_pin:  12.750000  C_pin:  5.200000
  R_pin:  0.000000  L_pin:  12.750000  C_pin:  5.200000
  R_pin:  0.000000  L_pin:  12.750000  C_pin:  5.200000
  R_pin:  0.000000  L_pin:  12.750000  C_pin:  5.200000
  R_pin:  0.000000  L_pin:  12.750000  C_pin:  5.200000
  R_pin:  0.000000  L_pin:  12.750000  C_pin:  5.200000
  R_pin:  0.000000  L_pin:  12.750000  C_pin:  5.200000
  R_pin:  0.000000  L_pin:  12.750000  C_pin:  5.200000
  R_pin:  0.000000  L_pin:  12.850000  C_pin:  5.250000
  R_pin:  0.000000  L_pin:  12.850000  C_pin:  5.250000
  R_pin:  0.000000  L_pin:  12.850000  C_pin:  5.250000
  R_pin:  0.000000  L_pin:  12.850000  C_pin:  5.250000
  R_pin:  0.000000  L_pin:  12.850000  C_pin:  5.250000
  R_pin:  0.000000  L_pin:  12.850000  C_pin:  5.250000
  R_pin:  0.000000  L_pin:  12.850000  C_pin:  5.250000
  R_pin:  0.000000  L_pin:  12.850000  C_pin:  5.250000
  R_pin:  0.000000  L_pin:  12.850000  C_pin:  5.250000
  R_pin:  0.000000  L_pin:  12.850000  C_pin:  5.250000
  R_pin:  0.000000  L_pin:  12.850000  C_pin:  5.250000
  R_pin:  0.000000  L_pin:  12.850000  C_pin:  5.250000
  R_pin:  0.000000  L_pin:  12.850000  C_pin:  5.250000
  R_pin:  0.000000  L_pin:  12.850000  C_pin:  5.250000
  R_pin:  0.000000  L_pin:  12.850000  C_pin:  5.250000
  R_pin:  0.000000  L_pin:  12.850000  C_pin:  5.250000
  R_pin:  0.000000  L_pin:  12.850000  C_pin:  5.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  11.200000  C_pin:  4.250000
  R_pin:  0.000000  L_pin:  10.250000  C_pin:  3.550000
  R_pin:  0.000000  L_pin:  10.250000  C_pin:  3.550000
  R_pin:  0.000000  L_pin:  10.250000  C_pin:  3.550000
  R_pin:  0.000000  L_pin:  10.250000  C_pin:  3.550000
  R_pin:  0.000000  L_pin:  10.250000  C_pin:  3.550000
  R_pin:  0.000000  L_pin:  10.250000  C_pin:  3.550000
  R_pin:  0.000000  L_pin:  10.250000  C_pin:  3.550000
  R_pin:  0.000000  L_pin:  10.250000  C_pin:  3.550000
  R_pin:  0.000000  L_pin:  10.250000  C_pin:  3.550000
  R_pin:  0.000000  L_pin:  10.250000  C_pin:  3.550000
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COMPONENT: Pentium_processor(735\90,815\100)
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  R_pin:  0.000000  L_pin:  13.300000  C_pin:  4.150000
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COMPONENT: 82434LX
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COMPONENT: S82375EB
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COMPONENT: PC87306
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  R_pin:  0.130000  L_pin:  10.240000  C_pin:  1.240000
  R_pin:  0.130000  L_pin:  10.360000  C_pin:  1.260000
  R_pin:  0.130000  L_pin:  10.550000  C_pin:  1.290000
  R_pin:  0.130000  L_pin:  10.670000  C_pin:  1.310000
  R_pin:  0.130000  L_pin:  10.800000  C_pin:  1.350000
  R_pin:  0.130000  L_pin:  10.950000  C_pin:  1.380000
  R_pin:  0.130000  L_pin:  11.130000  C_pin:  1.410000
  R_pin:  0.130000  L_pin:  11.210000  C_pin:  1.460000
  R_pin:  0.130000  L_pin:  11.330000  C_pin:  1.500000
  R_pin:  0.130000  L_pin:  11.490000  C_pin:  1.530000
  R_pin:  0.140000  L_pin:  11.740000  C_pin:  1.570000
  R_pin:  0.140000  L_pin:  11.930000  C_pin:  1.590000
  R_pin:  0.140000  L_pin:  12.110000  C_pin:  1.630000
  R_pin:  0.150000  L_pin:  12.370000  C_pin:  1.660000
  R_pin:  0.150000  L_pin:  12.800000  C_pin:  1.250000
  R_pin:  0.150000  L_pin:  12.800000  C_pin:  1.250000
  R_pin:  0.150000  L_pin:  12.370000  C_pin:  1.660000
  R_pin:  0.140000  L_pin:  12.110000  C_pin:  1.630000
  R_pin:  0.140000  L_pin:  11.930000  C_pin:  1.590000
  R_pin:  0.140000  L_pin:  11.740000  C_pin:  1.570000
  R_pin:  0.130000  L_pin:  11.490000  C_pin:  1.530000
  R_pin:  0.130000  L_pin:  11.330000  C_pin:  1.500000
  R_pin:  0.130000  L_pin:  11.210000  C_pin:  1.460000
  R_pin:  0.130000  L_pin:  11.130000  C_pin:  1.410000
  R_pin:  0.130000  L_pin:  10.950000  C_pin:  1.380000
  R_pin:  0.130000  L_pin:  10.800000  C_pin:  1.350000
  R_pin:  0.130000  L_pin:  10.670000  C_pin:  1.310000
  R_pin:  0.130000  L_pin:  10.550000  C_pin:  1.290000
  R_pin:  0.130000  L_pin:  10.360000  C_pin:  1.260000
  R_pin:  0.130000  L_pin:  10.240000  C_pin:  1.240000
  R_pin:  0.130000  L_pin:  10.190000  C_pin:  1.210000
  R_pin:  0.130000  L_pin:  10.090000  C_pin:  1.190000
  R_pin:  0.130000  L_pin:  9.990000  C_pin:  1.180000
  R_pin:  0.130000  L_pin:  9.920000  C_pin:  1.160000
  R_pin:  0.130000  L_pin:  9.930000  C_pin:  1.160000
  R_pin:  0.130000  L_pin:  9.930000  C_pin:  1.160000
  R_pin:  0.130000  L_pin:  9.920000  C_pin:  1.160000
  R_pin:  0.130000  L_pin:  9.990000  C_pin:  1.180000
  R_pin:  0.130000  L_pin:  10.090000  C_pin:  1.190000
  R_pin:  0.130000  L_pin:  10.190000  C_pin:  1.210000
  R_pin:  0.130000  L_pin:  10.240000  C_pin:  1.240000
  R_pin:  0.130000  L_pin:  10.360000  C_pin:  1.260000
  R_pin:  0.130000  L_pin:  10.550000  C_pin:  1.290000
  R_pin:  0.130000  L_pin:  10.670000  C_pin:  1.310000
  R_pin:  0.130000  L_pin:  10.800000  C_pin:  1.350000
  R_pin:  0.130000  L_pin:  10.950000  C_pin:  1.380000
  R_pin:  0.130000  L_pin:  11.130000  C_pin:  1.410000
  R_pin:  0.130000  L_pin:  11.210000  C_pin:  1.460000
  R_pin:  0.130000  L_pin:  11.330000  C_pin:  1.500000
  R_pin:  0.130000  L_pin:  11.490000  C_pin:  1.530000
  R_pin:  0.140000  L_pin:  11.740000  C_pin:  1.570000
  R_pin:  0.140000  L_pin:  11.930000  C_pin:  1.590000
  R_pin:  0.140000  L_pin:  12.110000  C_pin:  1.630000
  R_pin:  0.150000  L_pin:  12.370000  C_pin:  1.660000
  R_pin:  0.150000  L_pin:  12.800000  C_pin:  1.250000
  R_pin:  0.150000  L_pin:  12.800000  C_pin:  1.250000
  R_pin:  0.150000  L_pin:  12.370000  C_pin:  1.660000
  R_pin:  0.140000  L_pin:  12.110000  C_pin:  1.630000
  R_pin:  0.140000  L_pin:  11.930000  C_pin:  1.590000
  R_pin:  0.140000  L_pin:  11.740000  C_pin:  1.570000
  R_pin:  0.130000  L_pin:  11.490000  C_pin:  1.530000
  R_pin:  0.130000  L_pin:  11.330000  C_pin:  1.500000
  R_pin:  0.130000  L_pin:  11.210000  C_pin:  1.460000
  R_pin:  0.130000  L_pin:  11.130000  C_pin:  1.410000
  R_pin:  0.130000  L_pin:  10.950000  C_pin:  1.380000
  R_pin:  0.130000  L_pin:  10.800000  C_pin:  1.350000
  R_pin:  0.130000  L_pin:  10.670000  C_pin:  1.310000
  R_pin:  0.130000  L_pin:  10.550000  C_pin:  1.290000
  R_pin:  0.130000  L_pin:  10.360000  C_pin:  1.260000
  R_pin:  0.130000  L_pin:  10.240000  C_pin:  1.240000
  R_pin:  0.130000  L_pin:  10.190000  C_pin:  1.210000
  R_pin:  0.130000  L_pin:  10.090000  C_pin:  1.190000
  R_pin:  0.130000  L_pin:  9.990000  C_pin:  1.180000
  R_pin:  0.130000  L_pin:  9.920000  C_pin:  1.160000
  R_pin:  0.130000  L_pin:  9.930000  C_pin:  1.160000
  R_pin:  0.130000  L_pin:  9.930000  C_pin:  1.160000
  R_pin:  0.130000  L_pin:  9.920000  C_pin:  1.160000
  R_pin:  0.130000  L_pin:  9.990000  C_pin:  1.180000
  R_pin:  0.130000  L_pin:  10.090000  C_pin:  1.190000
  R_pin:  0.130000  L_pin:  10.190000  C_pin:  1.210000
  R_pin:  0.130000  L_pin:  10.240000  C_pin:  1.240000
  R_pin:  0.130000  L_pin:  10.360000  C_pin:  1.260000
  R_pin:  0.130000  L_pin:  10.550000  C_pin:  1.290000
  R_pin:  0.130000  L_pin:  10.670000  C_pin:  1.310000
  R_pin:  0.130000  L_pin:  10.800000  C_pin:  1.350000
  R_pin:  0.130000  L_pin:  10.950000  C_pin:  1.380000
  R_pin:  0.130000  L_pin:  11.130000  C_pin:  1.410000
  R_pin:  0.130000  L_pin:  11.210000  C_pin:  1.460000
  R_pin:  0.130000  L_pin:  11.330000  C_pin:  1.500000
  R_pin:  0.130000  L_pin:  11.490000  C_pin:  1.530000
  R_pin:  0.140000  L_pin:  11.740000  C_pin:  1.570000
  R_pin:  0.140000  L_pin:  11.930000  C_pin:  1.590000
  R_pin:  0.140000  L_pin:  12.110000  C_pin:  1.630000
  R_pin:  0.150000  L_pin:  12.370000  C_pin:  1.660000
  R_pin:  0.150000  L_pin:  12.800000  C_pin:  1.250000
  R_pin:  0.150000  L_pin:  12.800000  C_pin:  1.250000
  R_pin:  0.150000  L_pin:  12.370000  C_pin:  1.660000
  R_pin:  0.140000  L_pin:  12.110000  C_pin:  1.630000
  R_pin:  0.140000  L_pin:  11.930000  C_pin:  1.590000
  R_pin:  0.140000  L_pin:  11.740000  C_pin:  1.570000
  R_pin:  0.130000  L_pin:  11.490000  C_pin:  1.530000
  R_pin:  0.130000  L_pin:  11.330000  C_pin:  1.500000
  R_pin:  0.130000  L_pin:  11.210000  C_pin:  1.460000
  R_pin:  0.130000  L_pin:  11.130000  C_pin:  1.410000
  R_pin:  0.130000  L_pin:  10.950000  C_pin:  1.380000
  R_pin:  0.130000  L_pin:  10.800000  C_pin:  1.350000
  R_pin:  0.130000  L_pin:  10.670000  C_pin:  1.310000
  R_pin:  0.130000  L_pin:  10.550000  C_pin:  1.290000
  R_pin:  0.130000  L_pin:  10.360000  C_pin:  1.260000
  R_pin:  0.130000  L_pin:  10.240000  C_pin:  1.240000
  R_pin:  0.130000  L_pin:  10.190000  C_pin:  1.210000
  R_pin:  0.130000  L_pin:  10.090000  C_pin:  1.190000
  R_pin:  0.130000  L_pin:  9.990000  C_pin:  1.180000
  R_pin:  0.130000  L_pin:  9.920000  C_pin:  1.160000
  R_pin:  0.130000  L_pin:  9.930000  C_pin:  1.160000
  R_pin:  0.130000  L_pin:  9.930000  C_pin:  1.160000
  R_pin:  0.130000  L_pin:  9.920000  C_pin:  1.160000
  R_pin:  0.130000  L_pin:  9.990000  C_pin:  1.180000
  R_pin:  0.130000  L_pin:  10.090000  C_pin:  1.190000
  R_pin:  0.130000  L_pin:  10.190000  C_pin:  1.210000
  R_pin:  0.130000  L_pin:  10.240000  C_pin:  1.240000
  R_pin:  0.130000  L_pin:  10.360000  C_pin:  1.260000
  R_pin:  0.130000  L_pin:  10.550000  C_pin:  1.290000
  R_pin:  0.130000  L_pin:  10.670000  C_pin:  1.310000
  R_pin:  0.130000  L_pin:  10.800000  C_pin:  1.350000
  R_pin:  0.130000  L_pin:  10.950000  C_pin:  1.380000
  R_pin:  0.130000  L_pin:  11.130000  C_pin:  1.410000
  R_pin:  0.130000  L_pin:  11.210000  C_pin:  1.460000
  R_pin:  0.130000  L_pin:  11.330000  C_pin:  1.500000
  R_pin:  0.130000  L_pin:  11.490000  C_pin:  1.530000
  R_pin:  0.140000  L_pin:  11.740000  C_pin:  1.570000
  R_pin:  0.140000  L_pin:  11.930000  C_pin:  1.590000
  R_pin:  0.140000  L_pin:  12.110000  C_pin:  1.630000
  R_pin:  0.150000  L_pin:  12.370000  C_pin:  1.660000
  R_pin:  0.150000  L_pin:  12.800000  C_pin:  1.250000
COMPONENT: CGS74LCT2524N
  C_pkg:  2.400000E-01  L_pkg:  7.140000E+00  R_pkg:  1.200000E-01
  R_pin:  0.120000  L_pin:  6.590000  C_pin:  0.170000
  R_pin:  0.110000  L_pin:  5.650000  C_pin:  0.150000
  R_pin:  0.110000  L_pin:  5.720000  C_pin:  0.120000
  R_pin:  0.120000  L_pin:  7.140000  C_pin:  0.240000
  R_pin:  0.120000  L_pin:  7.140000  C_pin:  0.240000
  R_pin:  0.110000  L_pin:  5.720000  C_pin:  0.120000
  R_pin:  0.110000  L_pin:  5.650000  C_pin:  0.150000
  R_pin:  0.120000  L_pin:  6.590000  C_pin:  0.170000
COMPONENT: CGS74LCT2524M
  C_pkg:  8.000000E-02  L_pkg:  2.210000E+00  R_pkg:  8.000000E-01
  R_pin:  0.800000  L_pin:  2.210000  C_pin:  0.080000
  R_pin:  0.800000  L_pin:  1.900000  C_pin:  0.060000
  R_pin:  0.800000  L_pin:  1.900000  C_pin:  0.060000
  R_pin:  0.800000  L_pin:  2.210000  C_pin:  0.080000
  R_pin:  0.800000  L_pin:  2.210000  C_pin:  0.080000
  R_pin:  0.800000  L_pin:  1.900000  C_pin:  0.060000
  R_pin:  0.800000  L_pin:  1.900000  C_pin:  0.060000
  R_pin:  0.800000  L_pin:  2.210000  C_pin:  0.080000
COMPONENT: S82433LX
  C_pkg:  1.900000E+00  L_pkg:  1.180000E+01  R_pkg:  2.620000E-01
COMPONENT: 74GTLP16612
  C_pkg:  8.000000E-01  L_pkg:  5.660000E+00  R_pkg:  8.000000E-01
  R_pin:  0.000000  L_pin:  3.600000  C_pin:  0.300000
  R_pin:  0.000000  L_pin:  3.100000  C_pin:  0.200000
  R_pin:  0.000000  L_pin:  2.800000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.500000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.200000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.900000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.300000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.500000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.400000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.400000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.400000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.400000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.500000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.300000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.900000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.200000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.500000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.800000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  3.100000  C_pin:  0.200000
  R_pin:  0.000000  L_pin:  3.600000  C_pin:  0.300000
  R_pin:  0.000000  L_pin:  3.600000  C_pin:  0.300000
  R_pin:  0.000000  L_pin:  3.100000  C_pin:  0.200000
  R_pin:  0.000000  L_pin:  2.800000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.500000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.200000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.900000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.300000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.500000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.400000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.400000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.400000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.400000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.500000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.300000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.900000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.200000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.500000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.800000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  3.100000  C_pin:  0.200000
  R_pin:  0.000000  L_pin:  3.600000  C_pin:  0.300000
COMPONENT: 74GTLP16612
  C_pkg:  8.000000E-01  L_pkg:  5.660000E+00  R_pkg:  8.000000E-01
  R_pin:  0.000000  L_pin:  6.160000  C_pin:  0.720000
  R_pin:  0.000000  L_pin:  5.650000  C_pin:  0.710000
  R_pin:  0.000000  L_pin:  4.970000  C_pin:  0.700000
  R_pin:  0.000000  L_pin:  4.380000  C_pin:  0.650000
  R_pin:  0.000000  L_pin:  3.870000  C_pin:  0.650000
  R_pin:  0.000000  L_pin:  3.430000  C_pin:  0.620000
  R_pin:  0.000000  L_pin:  3.040000  C_pin:  0.600000
  R_pin:  0.000000  L_pin:  2.600000  C_pin:  0.550000
  R_pin:  0.000000  L_pin:  2.500000  C_pin:  0.230000
  R_pin:  0.000000  L_pin:  2.440000  C_pin:  0.180000
  R_pin:  0.000000  L_pin:  2.390000  C_pin:  0.180000
  R_pin:  0.000000  L_pin:  2.340000  C_pin:  0.170000
  R_pin:  0.000000  L_pin:  2.290000  C_pin:  0.160000
  R_pin:  0.000000  L_pin:  2.220000  C_pin:  0.150000
  R_pin:  0.000000  L_pin:  2.220000  C_pin:  0.150000
  R_pin:  0.000000  L_pin:  2.290000  C_pin:  0.160000
  R_pin:  0.000000  L_pin:  2.340000  C_pin:  0.170000
  R_pin:  0.000000  L_pin:  2.390000  C_pin:  0.170000
  R_pin:  0.000000  L_pin:  2.440000  C_pin:  0.170000
  R_pin:  0.000000  L_pin:  2.500000  C_pin:  0.250000
  R_pin:  0.000000  L_pin:  2.600000  C_pin:  0.550000
  R_pin:  0.000000  L_pin:  3.040000  C_pin:  0.600000
  R_pin:  0.000000  L_pin:  3.430000  C_pin:  0.620000
  R_pin:  0.000000  L_pin:  3.870000  C_pin:  0.650000
  R_pin:  0.000000  L_pin:  4.380000  C_pin:  0.650000
  R_pin:  0.000000  L_pin:  4.970000  C_pin:  0.700000
  R_pin:  0.000000  L_pin:  5.650000  C_pin:  0.710000
  R_pin:  0.000000  L_pin:  6.160000  C_pin:  0.720000
  R_pin:  0.000000  L_pin:  6.160000  C_pin:  0.720000
  R_pin:  0.000000  L_pin:  5.650000  C_pin:  0.710000
  R_pin:  0.000000  L_pin:  4.970000  C_pin:  0.700000
  R_pin:  0.000000  L_pin:  4.380000  C_pin:  0.650000
  R_pin:  0.000000  L_pin:  3.870000  C_pin:  0.650000
  R_pin:  0.000000  L_pin:  3.430000  C_pin:  0.620000
  R_pin:  0.000000  L_pin:  3.040000  C_pin:  0.600000
  R_pin:  0.000000  L_pin:  2.600000  C_pin:  0.550000
  R_pin:  0.000000  L_pin:  2.500000  C_pin:  0.230000
  R_pin:  0.000000  L_pin:  2.440000  C_pin:  0.180000
  R_pin:  0.000000  L_pin:  2.390000  C_pin:  0.180000
  R_pin:  0.000000  L_pin:  2.340000  C_pin:  0.170000
  R_pin:  0.000000  L_pin:  2.290000  C_pin:  0.160000
  R_pin:  0.000000  L_pin:  2.220000  C_pin:  0.150000
  R_pin:  0.000000  L_pin:  2.220000  C_pin:  0.150000
  R_pin:  0.000000  L_pin:  2.290000  C_pin:  0.160000
  R_pin:  0.000000  L_pin:  2.340000  C_pin:  0.170000
  R_pin:  0.000000  L_pin:  2.390000  C_pin:  0.170000
  R_pin:  0.000000  L_pin:  2.440000  C_pin:  0.170000
  R_pin:  0.000000  L_pin:  2.500000  C_pin:  0.250000
  R_pin:  0.000000  L_pin:  2.600000  C_pin:  0.550000
  R_pin:  0.000000  L_pin:  3.040000  C_pin:  0.600000
  R_pin:  0.000000  L_pin:  3.430000  C_pin:  0.620000
  R_pin:  0.000000  L_pin:  3.870000  C_pin:  0.650000
  R_pin:  0.000000  L_pin:  4.380000  C_pin:  0.650000
  R_pin:  0.000000  L_pin:  4.970000  C_pin:  0.700000
  R_pin:  0.000000  L_pin:  5.650000  C_pin:  0.710000
  R_pin:  0.000000  L_pin:  6.160000  C_pin:  0.720000
COMPONENT: 74GTL16612
  C_pkg:  8.000000E-01  L_pkg:  5.660000E+00  R_pkg:  8.000000E-01
  R_pin:  0.000000  L_pin:  3.600000  C_pin:  0.300000
  R_pin:  0.000000  L_pin:  3.100000  C_pin:  0.200000
  R_pin:  0.000000  L_pin:  2.800000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.500000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.200000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.900000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.300000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.500000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.400000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.400000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.400000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.400000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.500000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.300000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.900000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.200000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.500000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.800000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  3.100000  C_pin:  0.200000
  R_pin:  0.000000  L_pin:  3.600000  C_pin:  0.300000
  R_pin:  0.000000  L_pin:  3.600000  C_pin:  0.300000
  R_pin:  0.000000  L_pin:  3.100000  C_pin:  0.200000
  R_pin:  0.000000  L_pin:  2.800000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.500000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.200000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.900000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.300000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.500000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.400000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.400000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.400000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.400000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.500000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.600000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.300000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  1.900000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.200000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.500000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  2.800000  C_pin:  0.100000
  R_pin:  0.000000  L_pin:  3.100000  C_pin:  0.200000
  R_pin:  0.000000  L_pin:  3.600000  C_pin:  0.300000
COMPONENT: 74GTL16612
  C_pkg:  8.000000E-01  L_pkg:  5.660000E+00  R_pkg:  8.000000E-01
  R_pin:  0.000000  L_pin:  6.160000  C_pin:  0.720000
  R_pin:  0.000000  L_pin:  5.650000  C_pin:  0.710000
  R_pin:  0.000000  L_pin:  4.970000  C_pin:  0.700000
  R_pin:  0.000000  L_pin:  4.380000  C_pin:  0.650000
  R_pin:  0.000000  L_pin:  3.870000  C_pin:  0.650000
  R_pin:  0.000000  L_pin:  3.430000  C_pin:  0.620000
  R_pin:  0.000000  L_pin:  3.040000  C_pin:  0.600000
  R_pin:  0.000000  L_pin:  2.600000  C_pin:  0.550000
  R_pin:  0.000000  L_pin:  2.500000  C_pin:  0.230000
  R_pin:  0.000000  L_pin:  2.440000  C_pin:  0.180000
  R_pin:  0.000000  L_pin:  2.390000  C_pin:  0.180000
  R_pin:  0.000000  L_pin:  2.340000  C_pin:  0.170000
  R_pin:  0.000000  L_pin:  2.290000  C_pin:  0.160000
  R_pin:  0.000000  L_pin:  2.220000  C_pin:  0.150000
  R_pin:  0.000000  L_pin:  2.220000  C_pin:  0.150000
  R_pin:  0.000000  L_pin:  2.290000  C_pin:  0.160000
  R_pin:  0.000000  L_pin:  2.340000  C_pin:  0.170000
  R_pin:  0.000000  L_pin:  2.390000  C_pin:  0.170000
  R_pin:  0.000000  L_pin:  2.440000  C_pin:  0.170000
  R_pin:  0.000000  L_pin:  2.500000  C_pin:  0.250000
  R_pin:  0.000000  L_pin:  2.600000  C_pin:  0.550000
  R_pin:  0.000000  L_pin:  3.040000  C_pin:  0.600000
  R_pin:  0.000000  L_pin:  3.430000  C_pin:  0.620000
  R_pin:  0.000000  L_pin:  3.870000  C_pin:  0.650000
  R_pin:  0.000000  L_pin:  4.380000  C_pin:  0.650000
  R_pin:  0.000000  L_pin:  4.970000  C_pin:  0.700000
  R_pin:  0.000000  L_pin:  5.650000  C_pin:  0.710000
  R_pin:  0.000000  L_pin:  6.160000  C_pin:  0.720000
  R_pin:  0.000000  L_pin:  6.160000  C_pin:  0.720000
  R_pin:  0.000000  L_pin:  5.650000  C_pin:  0.710000
  R_pin:  0.000000  L_pin:  4.970000  C_pin:  0.700000
  R_pin:  0.000000  L_pin:  4.380000  C_pin:  0.650000
  R_pin:  0.000000  L_pin:  3.870000  C_pin:  0.650000
  R_pin:  0.000000  L_pin:  3.430000  C_pin:  0.620000
  R_pin:  0.000000  L_pin:  3.040000  C_pin:  0.600000
  R_pin:  0.000000  L_pin:  2.600000  C_pin:  0.550000
  R_pin:  0.000000  L_pin:  2.500000  C_pin:  0.230000
  R_pin:  0.000000  L_pin:  2.440000  C_pin:  0.180000
  R_pin:  0.000000  L_pin:  2.390000  C_pin:  0.180000
  R_pin:  0.000000  L_pin:  2.340000  C_pin:  0.170000
  R_pin:  0.000000  L_pin:  2.290000  C_pin:  0.160000
  R_pin:  0.000000  L_pin:  2.220000  C_pin:  0.150000
  R_pin:  0.000000  L_pin:  2.220000  C_pin:  0.150000
  R_pin:  0.000000  L_pin:  2.290000  C_pin:  0.160000
  R_pin:  0.000000  L_pin:  2.340000  C_pin:  0.170000
  R_pin:  0.000000  L_pin:  2.390000  C_pin:  0.170000
  R_pin:  0.000000  L_pin:  2.440000  C_pin:  0.170000
  R_pin:  0.000000  L_pin:  2.500000  C_pin:  0.250000
  R_pin:  0.000000  L_pin:  2.600000  C_pin:  0.550000
  R_pin:  0.000000  L_pin:  3.040000  C_pin:  0.600000
  R_pin:  0.000000  L_pin:  3.430000  C_pin:  0.620000
  R_pin:  0.000000  L_pin:  3.870000  C_pin:  0.650000
  R_pin:  0.000000  L_pin:  4.380000  C_pin:  0.650000
  R_pin:  0.000000  L_pin:  4.970000  C_pin:  0.700000
  R_pin:  0.000000  L_pin:  5.650000  C_pin:  0.710000
  R_pin:  0.000000  L_pin:  6.160000  C_pin:  0.720000
COMPONENT: S82374EB
  C_pkg:  2.800000E+00  L_pkg:  1.510000E+01  R_pkg:  4.050000E-01
COMPONENT: IntelDX4(TM)
  C_pkg:  1.016000E+01  L_pkg:  2.701000E+01  R_pkg:  3.930000E+00
  R_pin:  1.866000  L_pin:  15.540000  C_pin:  3.880000
  R_pin:  1.808000  L_pin:  13.700000  C_pin:  5.600000
  R_pin:  1.468000  L_pin:  13.330000  C_pin:  3.140000
  R_pin:  1.406000  L_pin:  11.590000  C_pin:  4.500000
  R_pin:  1.412000  L_pin:  13.020000  C_pin:  3.040000
  R_pin:  1.274000  L_pin:  10.900000  C_pin:  4.140000
  R_pin:  1.858000  L_pin:  13.960000  C_pin:  5.740000
  R_pin:  1.956000  L_pin:  14.470000  C_pin:  6.000000
  R_pin:  3.414000  L_pin:  22.110000  C_pin:  9.990000
  R_pin:  1.762000  L_pin:  13.460000  C_pin:  5.470000
  R_pin:  1.636000  L_pin:  14.270000  C_pin:  3.450000
  R_pin:  1.178000  L_pin:  11.720000  C_pin:  2.610000
  R_pin:  1.050000  L_pin:  9.730000  C_pin:  3.520000
  R_pin:  0.948000  L_pin:  10.450000  C_pin:  2.190000
  R_pin:  1.430000  L_pin:  13.120000  C_pin:  3.070000
  R_pin:  1.728000  L_pin:  14.780000  C_pin:  3.620000
  R_pin:  2.440000  L_pin:  18.730000  C_pin:  4.930000
  R_pin:  1.446000  L_pin:  13.210000  C_pin:  3.100000
  R_pin:  2.486000  L_pin:  18.990000  C_pin:  5.020000
  R_pin:  0.964000  L_pin:  10.540000  C_pin:  2.210000
  R_pin:  0.892000  L_pin:  8.900000  C_pin:  3.090000
  R_pin:  0.752000  L_pin:  9.360000  C_pin:  1.820000
  R_pin:  0.728000  L_pin:  9.220000  C_pin:  1.780000
  R_pin:  0.784000  L_pin:  9.540000  C_pin:  1.880000
  R_pin:  1.270000  L_pin:  12.230000  C_pin:  2.780000
  R_pin:  1.904000  L_pin:  15.760000  C_pin:  3.950000
  R_pin:  1.342000  L_pin:  11.260000  C_pin:  4.320000
  R_pin:  1.480000  L_pin:  11.980000  C_pin:  4.700000
  R_pin:  2.756000  L_pin:  20.490000  C_pin:  5.520000
  R_pin:  2.718000  L_pin:  18.470000  C_pin:  8.090000
  R_pin:  2.100000  L_pin:  16.840000  C_pin:  4.310000
  R_pin:  1.156000  L_pin:  11.600000  C_pin:  2.570000
  R_pin:  1.148000  L_pin:  11.560000  C_pin:  2.550000
  R_pin:  3.474000  L_pin:  22.430000  C_pin:  10.160000
  R_pin:  3.452000  L_pin:  22.310000  C_pin:  10.100000
  R_pin:  2.356000  L_pin:  16.570000  C_pin:  7.100000
  R_pin:  1.920000  L_pin:  15.850000  C_pin:  3.980000
  R_pin:  2.394000  L_pin:  16.770000  C_pin:  7.200000
  R_pin:  1.864000  L_pin:  15.530000  C_pin:  3.870000
  R_pin:  0.858000  L_pin:  9.950000  C_pin:  2.020000
  R_pin:  2.404000  L_pin:  16.820000  C_pin:  7.230000
  R_pin:  1.804000  L_pin:  15.200000  C_pin:  3.760000
  R_pin:  3.336000  L_pin:  23.710000  C_pin:  6.580000
  R_pin:  1.912000  L_pin:  14.240000  C_pin:  5.880000
  R_pin:  3.930000  L_pin:  27.010000  C_pin:  7.680000
  R_pin:  1.708000  L_pin:  14.670000  C_pin:  3.590000
  R_pin:  0.928000  L_pin:  9.090000  C_pin:  3.190000
  R_pin:  2.134000  L_pin:  17.030000  C_pin:  4.370000
  R_pin:  1.528000  L_pin:  13.670000  C_pin:  3.250000
  R_pin:  1.614000  L_pin:  14.140000  C_pin:  3.410000
  R_pin:  0.848000  L_pin:  8.670000  C_pin:  2.970000
  R_pin:  1.002000  L_pin:  10.750000  C_pin:  2.280000
  R_pin:  2.266000  L_pin:  17.770000  C_pin:  4.610000
  R_pin:  1.160000  L_pin:  10.300000  C_pin:  3.830000
  R_pin:  0.954000  L_pin:  9.220000  C_pin:  3.260000
  R_pin:  1.432000  L_pin:  11.730000  C_pin:  4.570000
  R_pin:  1.048000  L_pin:  11.000000  C_pin:  2.370000
  R_pin:  1.548000  L_pin:  12.340000  C_pin:  4.890000
  R_pin:  1.000000  L_pin:  9.470000  C_pin:  3.390000
  R_pin:  1.442000  L_pin:  13.190000  C_pin:  3.100000
  R_pin:  1.448000  L_pin:  11.810000  C_pin:  4.610000
  R_pin:  1.198000  L_pin:  11.840000  C_pin:  2.650000
  R_pin:  1.038000  L_pin:  10.950000  C_pin:  2.350000
  R_pin:  1.118000  L_pin:  10.090000  C_pin:  3.710000
  R_pin:  1.744000  L_pin:  14.870000  C_pin:  3.650000
  R_pin:  1.676000  L_pin:  13.010000  C_pin:  5.240000
  R_pin:  1.532000  L_pin:  12.250000  C_pin:  4.840000
  R_pin:  1.292000  L_pin:  12.360000  C_pin:  2.820000
  R_pin:  1.194000  L_pin:  10.480000  C_pin:  3.920000
  R_pin:  1.568000  L_pin:  13.890000  C_pin:  3.330000
  R_pin:  1.608000  L_pin:  14.110000  C_pin:  3.400000
  R_pin:  2.016000  L_pin:  16.380000  C_pin:  4.150000
  R_pin:  1.584000  L_pin:  12.530000  C_pin:  4.990000
  R_pin:  0.956000  L_pin:  10.490000  C_pin:  2.200000
  R_pin:  0.920000  L_pin:  9.050000  C_pin:  3.170000
  R_pin:  0.894000  L_pin:  8.910000  C_pin:  3.100000
  R_pin:  0.788000  L_pin:  9.560000  C_pin:  1.890000
  R_pin:  0.850000  L_pin:  8.680000  C_pin:  2.980000
  R_pin:  0.836000  L_pin:  9.820000  C_pin:  1.980000
  R_pin:  0.914000  L_pin:  9.020000  C_pin:  3.150000
  R_pin:  0.966000  L_pin:  9.290000  C_pin:  3.290000
  R_pin:  1.084000  L_pin:  11.200000  C_pin:  2.440000
  R_pin:  1.134000  L_pin:  11.480000  C_pin:  2.530000
  R_pin:  1.872000  L_pin:  15.580000  C_pin:  3.890000
  R_pin:  1.630000  L_pin:  14.230000  C_pin:  3.440000
  R_pin:  1.616000  L_pin:  12.690000  C_pin:  5.070000
  R_pin:  1.708000  L_pin:  14.670000  C_pin:  3.590000
  R_pin:  1.604000  L_pin:  12.630000  C_pin:  5.040000
  R_pin:  1.498000  L_pin:  13.500000  C_pin:  3.200000
  R_pin:  1.148000  L_pin:  11.560000  C_pin:  2.550000
  R_pin:  1.274000  L_pin:  10.900000  C_pin:  4.140000
  R_pin:  1.252000  L_pin:  12.130000  C_pin:  2.750000
  R_pin:  1.504000  L_pin:  12.110000  C_pin:  4.770000
  R_pin:  1.698000  L_pin:  14.610000  C_pin:  3.570000
  R_pin:  1.900000  L_pin:  14.180000  C_pin:  5.850000
  R_pin:  1.800000  L_pin:  15.180000  C_pin:  3.750000
  R_pin:  1.756000  L_pin:  14.930000  C_pin:  3.670000
  R_pin:  1.842000  L_pin:  13.880000  C_pin:  5.690000
  R_pin:  1.530000  L_pin:  12.240000  C_pin:  4.840000
  R_pin:  1.444000  L_pin:  13.200000  C_pin:  3.100000
  R_pin:  1.722000  L_pin:  13.250000  C_pin:  5.360000
  R_pin:  1.792000  L_pin:  15.130000  C_pin:  3.740000
  R_pin:  1.888000  L_pin:  14.120000  C_pin:  5.820000
COMPONENT: DS26C32ATN
  C_pkg:  2.600000E-01  L_pkg:  1.370000E+00  R_pkg:  5.000000E-02
COMPONENT: DS26C31TN
  C_pkg:  2.600000E-01  L_pkg:  1.370000E+00  R_pkg:  5.000000E-02
COMPONENT: S82423TX
  C_pkg:  1.900000E+00  L_pkg:  1.180000E+01  R_pkg:  2.620000E-01
COMPONENT: DP8441
  C_pkg:  1.100000E+00  L_pkg:  6.500000E+00  R_pkg:  1.000000E-01
  R_pin:  0.080000  L_pin:  6.430000  C_pin:  0.840000
  R_pin:  0.080000  L_pin:  5.910000  C_pin:  1.050000
  R_pin:  0.080000  L_pin:  5.590000  C_pin:  0.990000
  R_pin:  0.080000  L_pin:  5.500000  C_pin:  0.960000
  R_pin:  0.080000  L_pin:  5.400000  C_pin:  0.900000
  R_pin:  0.080000  L_pin:  5.200000  C_pin:  0.870000
  R_pin:  0.080000  L_pin:  5.070000  C_pin:  0.820000
  R_pin:  0.080000  L_pin:  4.960000  C_pin:  0.780000
  R_pin:  0.080000  L_pin:  4.770000  C_pin:  0.750000
  R_pin:  0.080000  L_pin:  4.600000  C_pin:  0.720000
  R_pin:  0.080000  L_pin:  4.440000  C_pin:  0.680000
  R_pin:  0.080000  L_pin:  4.330000  C_pin:  0.640000
  R_pin:  0.080000  L_pin:  4.180000  C_pin:  0.620000
  R_pin:  0.080000  L_pin:  4.080000  C_pin:  0.590000
  R_pin:  0.080000  L_pin:  4.020000  C_pin:  0.550000
  R_pin:  0.080000  L_pin:  4.020000  C_pin:  0.550000
  R_pin:  0.080000  L_pin:  4.080000  C_pin:  0.590000
  R_pin:  0.080000  L_pin:  4.180000  C_pin:  0.620000
  R_pin:  0.080000  L_pin:  4.330000  C_pin:  0.640000
  R_pin:  0.080000  L_pin:  4.440000  C_pin:  0.680000
  R_pin:  0.080000  L_pin:  4.600000  C_pin:  0.720000
  R_pin:  0.080000  L_pin:  4.770000  C_pin:  0.750000
  R_pin:  0.080000  L_pin:  4.960000  C_pin:  0.780000
  R_pin:  0.080000  L_pin:  5.070000  C_pin:  0.820000
  R_pin:  0.080000  L_pin:  5.200000  C_pin:  0.870000
  R_pin:  0.080000  L_pin:  5.400000  C_pin:  0.900000
  R_pin:  0.080000  L_pin:  5.500000  C_pin:  0.960000
  R_pin:  0.080000  L_pin:  5.590000  C_pin:  0.990000
  R_pin:  0.080000  L_pin:  5.910000  C_pin:  1.050000
  R_pin:  0.080000  L_pin:  6.430000  C_pin:  0.840000
  R_pin:  0.080000  L_pin:  6.430000  C_pin:  0.840000
  R_pin:  0.080000  L_pin:  5.910000  C_pin:  1.050000
  R_pin:  0.080000  L_pin:  5.590000  C_pin:  0.990000
  R_pin:  0.080000  L_pin:  5.500000  C_pin:  0.960000
  R_pin:  0.080000  L_pin:  5.400000  C_pin:  0.900000
  R_pin:  0.080000  L_pin:  5.200000  C_pin:  0.870000
  R_pin:  0.080000  L_pin:  5.070000  C_pin:  0.820000
  R_pin:  0.080000  L_pin:  4.960000  C_pin:  0.780000
  R_pin:  0.080000  L_pin:  4.770000  C_pin:  0.750000
  R_pin:  0.080000  L_pin:  4.600000  C_pin:  0.720000
  R_pin:  0.080000  L_pin:  4.600000  C_pin:  0.720000
  R_pin:  0.080000  L_pin:  4.770000  C_pin:  0.750000
  R_pin:  0.080000  L_pin:  4.960000  C_pin:  0.780000
  R_pin:  0.080000  L_pin:  5.070000  C_pin:  0.820000
  R_pin:  0.080000  L_pin:  5.200000  C_pin:  0.870000
  R_pin:  0.080000  L_pin:  5.400000  C_pin:  0.900000
  R_pin:  0.080000  L_pin:  5.500000  C_pin:  0.960000
  R_pin:  0.080000  L_pin:  5.590000  C_pin:  0.990000
  R_pin:  0.080000  L_pin:  5.910000  C_pin:  1.050000
  R_pin:  0.080000  L_pin:  6.430000  C_pin:  0.840000
  R_pin:  0.080000  L_pin:  6.430000  C_pin:  0.840000
  R_pin:  0.080000  L_pin:  5.910000  C_pin:  1.050000
  R_pin:  0.080000  L_pin:  5.590000  C_pin:  0.990000
  R_pin:  0.080000  L_pin:  5.500000  C_pin:  0.960000
  R_pin:  0.080000  L_pin:  5.400000  C_pin:  0.900000
  R_pin:  0.080000  L_pin:  5.200000  C_pin:  0.870000
  R_pin:  0.080000  L_pin:  5.070000  C_pin:  0.820000
  R_pin:  0.080000  L_pin:  4.960000  C_pin:  0.780000
  R_pin:  0.080000  L_pin:  4.770000  C_pin:  0.750000
  R_pin:  0.080000  L_pin:  4.600000  C_pin:  0.720000
  R_pin:  0.080000  L_pin:  4.440000  C_pin:  0.680000
  R_pin:  0.080000  L_pin:  4.330000  C_pin:  0.640000
  R_pin:  0.080000  L_pin:  4.180000  C_pin:  0.620000
  R_pin:  0.080000  L_pin:  4.080000  C_pin:  0.590000
  R_pin:  0.080000  L_pin:  4.020000  C_pin:  0.550000
  R_pin:  0.080000  L_pin:  4.020000  C_pin:  0.550000
  R_pin:  0.080000  L_pin:  4.080000  C_pin:  0.590000
  R_pin:  0.080000  L_pin:  4.180000  C_pin:  0.620000
  R_pin:  0.080000  L_pin:  4.330000  C_pin:  0.640000
  R_pin:  0.080000  L_pin:  4.440000  C_pin:  0.680000
  R_pin:  0.080000  L_pin:  4.600000  C_pin:  0.720000
  R_pin:  0.080000  L_pin:  4.770000  C_pin:  0.750000
  R_pin:  0.080000  L_pin:  4.960000  C_pin:  0.780000
  R_pin:  0.080000  L_pin:  5.070000  C_pin:  0.820000
  R_pin:  0.080000  L_pin:  5.200000  C_pin:  0.870000
  R_pin:  0.080000  L_pin:  5.400000  C_pin:  0.900000
  R_pin:  0.080000  L_pin:  5.500000  C_pin:  0.960000
  R_pin:  0.080000  L_pin:  5.590000  C_pin:  0.990000
  R_pin:  0.080000  L_pin:  5.910000  C_pin:  1.050000
  R_pin:  0.080000  L_pin:  6.430000  C_pin:  0.840000
  R_pin:  0.080000  L_pin:  6.430000  C_pin:  0.840000
  R_pin:  0.080000  L_pin:  5.910000  C_pin:  1.050000
  R_pin:  0.080000  L_pin:  5.590000  C_pin:  0.990000
  R_pin:  0.080000  L_pin:  5.500000  C_pin:  0.960000
  R_pin:  0.080000  L_pin:  5.400000  C_pin:  0.900000
  R_pin:  0.080000  L_pin:  5.200000  C_pin:  0.870000
  R_pin:  0.080000  L_pin:  5.070000  C_pin:  0.820000
  R_pin:  0.080000  L_pin:  4.960000  C_pin:  0.780000
  R_pin:  0.080000  L_pin:  4.770000  C_pin:  0.750000
  R_pin:  0.080000  L_pin:  4.600000  C_pin:  0.720000
  R_pin:  0.080000  L_pin:  4.600000  C_pin:  0.720000
  R_pin:  0.080000  L_pin:  4.770000  C_pin:  0.750000
  R_pin:  0.080000  L_pin:  4.960000  C_pin:  0.780000
  R_pin:  0.080000  L_pin:  5.070000  C_pin:  0.820000
  R_pin:  0.080000  L_pin:  5.200000  C_pin:  0.870000
  R_pin:  0.080000  L_pin:  5.400000  C_pin:  0.900000
  R_pin:  0.080000  L_pin:  5.500000  C_pin:  0.960000
  R_pin:  0.080000  L_pin:  5.590000  C_pin:  0.990000
  R_pin:  0.080000  L_pin:  5.910000  C_pin:  1.050000
  R_pin:  0.080000  L_pin:  6.430000  C_pin:  0.840000
COMPONENT: DP8440
  C_pkg:  1.100000E+00  L_pkg:  6.500000E+00  R_pkg:  1.000000E-01
  R_pin:  0.080000  L_pin:  6.430000  C_pin:  0.840000
  R_pin:  0.080000  L_pin:  5.910000  C_pin:  1.050000
  R_pin:  0.080000  L_pin:  5.590000  C_pin:  0.990000
  R_pin:  0.080000  L_pin:  5.500000  C_pin:  0.960000
  R_pin:  0.080000  L_pin:  5.400000  C_pin:  0.900000
  R_pin:  0.080000  L_pin:  5.200000  C_pin:  0.870000
  R_pin:  0.080000  L_pin:  5.070000  C_pin:  0.820000
  R_pin:  0.080000  L_pin:  4.960000  C_pin:  0.780000
  R_pin:  0.080000  L_pin:  4.770000  C_pin:  0.750000
  R_pin:  0.080000  L_pin:  4.600000  C_pin:  0.720000
  R_pin:  0.080000  L_pin:  4.440000  C_pin:  0.680000
  R_pin:  0.080000  L_pin:  4.330000  C_pin:  0.640000
  R_pin:  0.080000  L_pin:  4.180000  C_pin:  0.620000
  R_pin:  0.080000  L_pin:  4.080000  C_pin:  0.590000
  R_pin:  0.080000  L_pin:  4.020000  C_pin:  0.550000
  R_pin:  0.080000  L_pin:  4.020000  C_pin:  0.550000
  R_pin:  0.080000  L_pin:  4.080000  C_pin:  0.590000
  R_pin:  0.080000  L_pin:  4.180000  C_pin:  0.620000
  R_pin:  0.080000  L_pin:  4.330000  C_pin:  0.640000
  R_pin:  0.080000  L_pin:  4.440000  C_pin:  0.680000
  R_pin:  0.080000  L_pin:  4.600000  C_pin:  0.720000
  R_pin:  0.080000  L_pin:  4.770000  C_pin:  0.750000
  R_pin:  0.080000  L_pin:  4.960000  C_pin:  0.780000
  R_pin:  0.080000  L_pin:  5.070000  C_pin:  0.820000
  R_pin:  0.080000  L_pin:  5.200000  C_pin:  0.870000
  R_pin:  0.080000  L_pin:  5.400000  C_pin:  0.900000
  R_pin:  0.080000  L_pin:  5.500000  C_pin:  0.960000
  R_pin:  0.080000  L_pin:  5.590000  C_pin:  0.990000
  R_pin:  0.080000  L_pin:  5.910000  C_pin:  1.050000
  R_pin:  0.080000  L_pin:  6.430000  C_pin:  0.840000
  R_pin:  0.080000  L_pin:  6.430000  C_pin:  0.840000
  R_pin:  0.080000  L_pin:  5.910000  C_pin:  1.050000
  R_pin:  0.080000  L_pin:  5.590000  C_pin:  0.990000
  R_pin:  0.080000  L_pin:  5.500000  C_pin:  0.960000
  R_pin:  0.080000  L_pin:  5.400000  C_pin:  0.900000
  R_pin:  0.080000  L_pin:  5.200000  C_pin:  0.870000
  R_pin:  0.080000  L_pin:  5.070000  C_pin:  0.820000
  R_pin:  0.080000  L_pin:  4.960000  C_pin:  0.780000
  R_pin:  0.080000  L_pin:  4.770000  C_pin:  0.750000
  R_pin:  0.080000  L_pin:  4.600000  C_pin:  0.720000
  R_pin:  0.080000  L_pin:  4.600000  C_pin:  0.720000
  R_pin:  0.080000  L_pin:  4.770000  C_pin:  0.750000
  R_pin:  0.080000  L_pin:  4.960000  C_pin:  0.780000
  R_pin:  0.080000  L_pin:  5.070000  C_pin:  0.820000
  R_pin:  0.080000  L_pin:  5.200000  C_pin:  0.870000
  R_pin:  0.080000  L_pin:  5.400000  C_pin:  0.900000
  R_pin:  0.080000  L_pin:  5.500000  C_pin:  0.960000
  R_pin:  0.080000  L_pin:  5.590000  C_pin:  0.990000
  R_pin:  0.080000  L_pin:  5.910000  C_pin:  1.050000
  R_pin:  0.080000  L_pin:  6.430000  C_pin:  0.840000
  R_pin:  0.080000  L_pin:  6.430000  C_pin:  0.840000
  R_pin:  0.080000  L_pin:  5.910000  C_pin:  1.050000
  R_pin:  0.080000  L_pin:  5.590000  C_pin:  0.990000
  R_pin:  0.080000  L_pin:  5.500000  C_pin:  0.960000
  R_pin:  0.080000  L_pin:  5.400000  C_pin:  0.900000
  R_pin:  0.080000  L_pin:  5.200000  C_pin:  0.870000
  R_pin:  0.080000  L_pin:  5.070000  C_pin:  0.820000
  R_pin:  0.080000  L_pin:  4.960000  C_pin:  0.780000
  R_pin:  0.080000  L_pin:  4.770000  C_pin:  0.750000
  R_pin:  0.080000  L_pin:  4.600000  C_pin:  0.720000
  R_pin:  0.080000  L_pin:  4.440000  C_pin:  0.680000
  R_pin:  0.080000  L_pin:  4.330000  C_pin:  0.640000
  R_pin:  0.080000  L_pin:  4.180000  C_pin:  0.620000
  R_pin:  0.080000  L_pin:  4.080000  C_pin:  0.590000
  R_pin:  0.080000  L_pin:  4.020000  C_pin:  0.550000
  R_pin:  0.080000  L_pin:  4.020000  C_pin:  0.550000
  R_pin:  0.080000  L_pin:  4.080000  C_pin:  0.590000
  R_pin:  0.080000  L_pin:  4.180000  C_pin:  0.620000
  R_pin:  0.080000  L_pin:  4.330000  C_pin:  0.640000
  R_pin:  0.080000  L_pin:  4.440000  C_pin:  0.680000
  R_pin:  0.080000  L_pin:  4.600000  C_pin:  0.720000
  R_pin:  0.080000  L_pin:  4.770000  C_pin:  0.750000
  R_pin:  0.080000  L_pin:  4.960000  C_pin:  0.780000
  R_pin:  0.080000  L_pin:  5.070000  C_pin:  0.820000
  R_pin:  0.080000  L_pin:  5.200000  C_pin:  0.870000
  R_pin:  0.080000  L_pin:  5.400000  C_pin:  0.900000
  R_pin:  0.080000  L_pin:  5.500000  C_pin:  0.960000
  R_pin:  0.080000  L_pin:  5.590000  C_pin:  0.990000
  R_pin:  0.080000  L_pin:  5.910000  C_pin:  1.050000
  R_pin:  0.080000  L_pin:  6.430000  C_pin:  0.840000
  R_pin:  0.080000  L_pin:  6.430000  C_pin:  0.840000
  R_pin:  0.080000  L_pin:  5.910000  C_pin:  1.050000
  R_pin:  0.080000  L_pin:  5.590000  C_pin:  0.990000
  R_pin:  0.080000  L_pin:  5.500000  C_pin:  0.960000
  R_pin:  0.080000  L_pin:  5.400000  C_pin:  0.900000
  R_pin:  0.080000  L_pin:  5.200000  C_pin:  0.870000
  R_pin:  0.080000  L_pin:  5.070000  C_pin:  0.820000
  R_pin:  0.080000  L_pin:  4.960000  C_pin:  0.780000
  R_pin:  0.080000  L_pin:  4.770000  C_pin:  0.750000
  R_pin:  0.080000  L_pin:  4.600000  C_pin:  0.720000
  R_pin:  0.080000  L_pin:  4.600000  C_pin:  0.720000
  R_pin:  0.080000  L_pin:  4.770000  C_pin:  0.750000
  R_pin:  0.080000  L_pin:  4.960000  C_pin:  0.780000
  R_pin:  0.080000  L_pin:  5.070000  C_pin:  0.820000
  R_pin:  0.080000  L_pin:  5.200000  C_pin:  0.870000
  R_pin:  0.080000  L_pin:  5.400000  C_pin:  0.900000
  R_pin:  0.080000  L_pin:  5.500000  C_pin:  0.960000
  R_pin:  0.080000  L_pin:  5.590000  C_pin:  0.990000
  R_pin:  0.080000  L_pin:  5.910000  C_pin:  1.050000
  R_pin:  0.080000  L_pin:  6.430000  C_pin:  0.840000
COMPONENT: CGS74CT2527V
  C_pkg:  5.900000E-01  L_pkg:  5.380000E+00  R_pkg:  1.400000E-01
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  5.380000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  5.380000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
COMPONENT: CGS74CT2526N
  C_pkg:  3.100000E-01  L_pkg:  6.000000E+00  R_pkg:  1.500000E-01
  R_pin:  0.150000  L_pin:  3.000000  C_pin:  0.290000
  R_pin:  0.140000  L_pin:  3.000000  C_pin:  0.160000
  R_pin:  0.100000  L_pin:  6.000000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  6.000000  C_pin:  0.110000
  R_pin:  0.125000  L_pin:  3.000000  C_pin:  0.150000
  R_pin:  0.140000  L_pin:  3.000000  C_pin:  0.300000
  R_pin:  0.150000  L_pin:  3.000000  C_pin:  0.310000
  R_pin:  0.150000  L_pin:  3.000000  C_pin:  0.310000
  R_pin:  0.140000  L_pin:  3.000000  C_pin:  0.300000
  R_pin:  0.125000  L_pin:  3.000000  C_pin:  0.150000
  R_pin:  0.100000  L_pin:  6.000000  C_pin:  0.110000
  R_pin:  0.100000  L_pin:  6.000000  C_pin:  0.100000
  R_pin:  0.125000  L_pin:  3.000000  C_pin:  0.140000
  R_pin:  0.140000  L_pin:  3.000000  C_pin:  0.160000
  R_pin:  0.150000  L_pin:  3.000000  C_pin:  0.290000
COMPONENT: CGS74CT2526M
  C_pkg:  2.500000E-01  L_pkg:  2.230000E+00  R_pkg:  1.000000E-01
  R_pin:  0.100000  L_pin:  3.000000  C_pin:  0.250000
  R_pin:  0.100000  L_pin:  3.000000  C_pin:  0.090000
  R_pin:  0.080000  L_pin:  6.000000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  6.000000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  3.000000  C_pin:  0.050000
  R_pin:  0.100000  L_pin:  3.000000  C_pin:  0.090000
  R_pin:  0.100000  L_pin:  3.000000  C_pin:  0.250000
  R_pin:  0.100000  L_pin:  3.000000  C_pin:  0.250000
  R_pin:  0.100000  L_pin:  3.000000  C_pin:  0.090000
  R_pin:  0.080000  L_pin:  3.000000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  6.000000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  6.000000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  3.000000  C_pin:  0.050000
  R_pin:  0.100000  L_pin:  3.000000  C_pin:  0.090000
  R_pin:  0.100000  L_pin:  3.000000  C_pin:  0.250000
COMPONENT: CGS74CT2525N
  C_pkg:  3.000000E-01  L_pkg:  1.600000E+01  R_pkg:  1.400000E-01
  R_pin:  0.140000  L_pin:  16.000000  C_pin:  0.270000
  R_pin:  0.125000  L_pin:  16.000000  C_pin:  0.200000
  R_pin:  0.100000  L_pin:  3.330000  C_pin:  0.100000
  R_pin:  0.125000  L_pin:  5.000000  C_pin:  0.110000
  R_pin:  0.140000  L_pin:  16.000000  C_pin:  0.250000
  R_pin:  0.150000  L_pin:  16.000000  C_pin:  0.300000
  R_pin:  0.150000  L_pin:  16.000000  C_pin:  0.300000
  R_pin:  0.140000  L_pin:  16.000000  C_pin:  0.250000
  R_pin:  0.125000  L_pin:  3.330000  C_pin:  0.110000
  R_pin:  0.100000  L_pin:  5.000000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  13.000000  C_pin:  0.120000
  R_pin:  0.125000  L_pin:  16.000000  C_pin:  0.200000
  R_pin:  0.140000  L_pin:  16.000000  C_pin:  0.270000
COMPONENT: CGS74CT2525M
  C_pkg:  1.000000E-01  L_pkg:  2.750000E+00  R_pkg:  8.000000E-01
  R_pin:  0.100000  L_pin:  2.750000  C_pin:  0.100000
  R_pin:  0.800000  L_pin:  2.420000  C_pin:  0.100000
  R_pin:  0.800000  L_pin:  1.880000  C_pin:  0.060000
  R_pin:  0.800000  L_pin:  1.870000  C_pin:  0.080000
  R_pin:  0.100000  L_pin:  2.420000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  2.750000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  2.750000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  2.420000  C_pin:  0.100000
  R_pin:  0.800000  L_pin:  1.870000  C_pin:  0.080000
  R_pin:  0.800000  L_pin:  1.880000  C_pin:  0.060000
  R_pin:  0.800000  L_pin:  1.870000  C_pin:  0.080000
  R_pin:  0.800000  L_pin:  2.420000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  2.750000  C_pin:  0.100000
COMPONENT: CGS74CT2524N
  C_pkg:  2.400000E-01  L_pkg:  7.140000E+00  R_pkg:  1.200000E-01
  R_pin:  0.120000  L_pin:  6.590000  C_pin:  0.170000
  R_pin:  0.110000  L_pin:  5.650000  C_pin:  0.150000
  R_pin:  0.110000  L_pin:  5.720000  C_pin:  0.120000
  R_pin:  0.120000  L_pin:  7.140000  C_pin:  0.240000
  R_pin:  0.120000  L_pin:  7.140000  C_pin:  0.240000
  R_pin:  0.110000  L_pin:  5.720000  C_pin:  0.120000
  R_pin:  0.110000  L_pin:  5.650000  C_pin:  0.150000
  R_pin:  0.120000  L_pin:  6.590000  C_pin:  0.170000
COMPONENT: CGS74CT2524M
  C_pkg:  8.000000E-02  L_pkg:  2.210000E+00  R_pkg:  8.000000E-01
  R_pin:  0.800000  L_pin:  2.210000  C_pin:  0.080000
  R_pin:  0.800000  L_pin:  1.900000  C_pin:  0.060000
  R_pin:  0.800000  L_pin:  1.900000  C_pin:  0.060000
  R_pin:  0.800000  L_pin:  2.210000  C_pin:  0.080000
  R_pin:  0.800000  L_pin:  2.210000  C_pin:  0.080000
  R_pin:  0.800000  L_pin:  1.900000  C_pin:  0.060000
  R_pin:  0.800000  L_pin:  1.900000  C_pin:  0.060000
  R_pin:  0.800000  L_pin:  2.210000  C_pin:  0.080000
COMPONENT: S82424ZX
  C_pkg:  1.360000E+00  L_pkg:  2.500000E+01  R_pkg:  2.770000E-01
COMPONENT: CGS74C2526N
  C_pkg:  3.100000E-01  L_pkg:  6.000000E+00  R_pkg:  1.500000E-01
  R_pin:  0.150000  L_pin:  3.000000  C_pin:  0.290000
  R_pin:  0.140000  L_pin:  3.000000  C_pin:  0.160000
  R_pin:  0.100000  L_pin:  6.000000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  6.000000  C_pin:  0.110000
  R_pin:  0.125000  L_pin:  3.000000  C_pin:  0.150000
  R_pin:  0.140000  L_pin:  3.000000  C_pin:  0.300000
  R_pin:  0.150000  L_pin:  3.000000  C_pin:  0.310000
  R_pin:  0.150000  L_pin:  3.000000  C_pin:  0.310000
  R_pin:  0.140000  L_pin:  3.000000  C_pin:  0.300000
  R_pin:  0.125000  L_pin:  3.000000  C_pin:  0.150000
  R_pin:  0.100000  L_pin:  6.000000  C_pin:  0.110000
  R_pin:  0.100000  L_pin:  6.000000  C_pin:  0.100000
  R_pin:  0.125000  L_pin:  3.000000  C_pin:  0.140000
  R_pin:  0.140000  L_pin:  3.000000  C_pin:  0.160000
  R_pin:  0.150000  L_pin:  3.000000  C_pin:  0.290000
COMPONENT: CGS74C2526M
  C_pkg:  2.500000E-01  L_pkg:  2.230000E+00  R_pkg:  1.000000E-01
  R_pin:  0.100000  L_pin:  3.000000  C_pin:  0.250000
  R_pin:  0.100000  L_pin:  3.000000  C_pin:  0.090000
  R_pin:  0.080000  L_pin:  6.000000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  6.000000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  3.000000  C_pin:  0.050000
  R_pin:  0.100000  L_pin:  3.000000  C_pin:  0.090000
  R_pin:  0.100000  L_pin:  3.000000  C_pin:  0.250000
  R_pin:  0.100000  L_pin:  3.000000  C_pin:  0.250000
  R_pin:  0.100000  L_pin:  3.000000  C_pin:  0.090000
  R_pin:  0.080000  L_pin:  3.000000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  6.000000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  6.000000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  3.000000  C_pin:  0.050000
  R_pin:  0.100000  L_pin:  3.000000  C_pin:  0.090000
  R_pin:  0.100000  L_pin:  3.000000  C_pin:  0.250000
COMPONENT: CGS74C2525N
  C_pkg:  3.000000E-01  L_pkg:  1.600000E+01  R_pkg:  1.400000E-01
  R_pin:  0.140000  L_pin:  16.000000  C_pin:  0.270000
  R_pin:  0.125000  L_pin:  16.000000  C_pin:  0.200000
  R_pin:  0.100000  L_pin:  3.330000  C_pin:  0.100000
  R_pin:  0.125000  L_pin:  5.000000  C_pin:  0.110000
  R_pin:  0.140000  L_pin:  16.000000  C_pin:  0.250000
  R_pin:  0.150000  L_pin:  16.000000  C_pin:  0.300000
  R_pin:  0.150000  L_pin:  16.000000  C_pin:  0.300000
  R_pin:  0.140000  L_pin:  16.000000  C_pin:  0.250000
  R_pin:  0.125000  L_pin:  3.330000  C_pin:  0.110000
  R_pin:  0.100000  L_pin:  5.000000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  13.000000  C_pin:  0.120000
  R_pin:  0.125000  L_pin:  16.000000  C_pin:  0.200000
  R_pin:  0.140000  L_pin:  16.000000  C_pin:  0.270000
COMPONENT: CGS74C2525M
  C_pkg:  1.000000E-01  L_pkg:  2.750000E+00  R_pkg:  8.000000E-01
  R_pin:  0.100000  L_pin:  2.750000  C_pin:  0.100000
  R_pin:  0.800000  L_pin:  2.420000  C_pin:  0.100000
  R_pin:  0.800000  L_pin:  1.880000  C_pin:  0.060000
  R_pin:  0.800000  L_pin:  1.870000  C_pin:  0.080000
  R_pin:  0.100000  L_pin:  2.420000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  2.750000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  2.750000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  2.420000  C_pin:  0.100000
  R_pin:  0.800000  L_pin:  1.870000  C_pin:  0.080000
  R_pin:  0.800000  L_pin:  1.880000  C_pin:  0.060000
  R_pin:  0.800000  L_pin:  1.870000  C_pin:  0.080000
  R_pin:  0.800000  L_pin:  2.420000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  2.750000  C_pin:  0.100000
COMPONENT: CGS74B305V
  C_pkg:  5.900000E-01  L_pkg:  5.380000E+00  R_pkg:  1.400000E-01
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.570000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.540000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.570000
  R_pin:  0.140000  L_pin:  5.380000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  5.380000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
COMPONENT: CGS74B305N
  C_pkg:  3.100000E-01  L_pkg:  1.130000E+01  R_pkg:  1.500000E-01
  R_pin:  0.150000  L_pin:  10.700000  C_pin:  0.290000
  R_pin:  0.140000  L_pin:  8.600000  C_pin:  0.160000
  R_pin:  0.125000  L_pin:  6.200000  C_pin:  0.140000
  R_pin:  0.100000  L_pin:  6.200000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  6.200000  C_pin:  0.110000
  R_pin:  0.125000  L_pin:  7.900000  C_pin:  0.150000
  R_pin:  0.140000  L_pin:  9.500000  C_pin:  0.300000
  R_pin:  0.150000  L_pin:  11.300000  C_pin:  0.310000
  R_pin:  0.150000  L_pin:  11.300000  C_pin:  0.310000
  R_pin:  0.140000  L_pin:  9.500000  C_pin:  0.300000
  R_pin:  0.125000  L_pin:  7.900000  C_pin:  0.150000
  R_pin:  0.100000  L_pin:  6.200000  C_pin:  0.110000
  R_pin:  0.100000  L_pin:  6.200000  C_pin:  0.100000
  R_pin:  0.125000  L_pin:  7.000000  C_pin:  0.140000
  R_pin:  0.140000  L_pin:  8.600000  C_pin:  0.160000
  R_pin:  0.150000  L_pin:  10.700000  C_pin:  0.290000
COMPONENT: CGS74B305M
  C_pkg:  2.500000E-01  L_pkg:  2.230000E+00  R_pkg:  1.000000E-01
  R_pin:  0.100000  L_pin:  2.230000  C_pin:  0.250000
  R_pin:  0.100000  L_pin:  1.820000  C_pin:  0.090000
  R_pin:  0.080000  L_pin:  1.290000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  1.140000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  1.140000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  1.290000  C_pin:  0.050000
  R_pin:  0.100000  L_pin:  1.820000  C_pin:  0.090000
  R_pin:  0.100000  L_pin:  2.230000  C_pin:  0.250000
  R_pin:  0.100000  L_pin:  2.230000  C_pin:  0.250000
  R_pin:  0.100000  L_pin:  1.820000  C_pin:  0.090000
  R_pin:  0.080000  L_pin:  1.290000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  1.140000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  1.140000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  1.290000  C_pin:  0.050000
  R_pin:  0.100000  L_pin:  1.820000  C_pin:  0.090000
  R_pin:  0.100000  L_pin:  2.230000  C_pin:  0.250000
COMPONENT: CGS74B304V
  C_pkg:  5.900000E-01  L_pkg:  5.380000E+00  R_pkg:  1.400000E-01
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.570000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.540000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.570000
  R_pin:  0.140000  L_pin:  5.380000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  5.380000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
COMPONENT: CGS74B304N
  C_pkg:  3.100000E-01  L_pkg:  1.130000E+01  R_pkg:  1.500000E-01
  R_pin:  0.150000  L_pin:  10.700000  C_pin:  0.290000
  R_pin:  0.140000  L_pin:  8.600000  C_pin:  0.160000
  R_pin:  0.125000  L_pin:  6.200000  C_pin:  0.140000
  R_pin:  0.100000  L_pin:  6.200000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  6.200000  C_pin:  0.110000
  R_pin:  0.125000  L_pin:  7.900000  C_pin:  0.150000
  R_pin:  0.140000  L_pin:  9.500000  C_pin:  0.300000
  R_pin:  0.150000  L_pin:  11.300000  C_pin:  0.310000
  R_pin:  0.150000  L_pin:  11.300000  C_pin:  0.310000
  R_pin:  0.140000  L_pin:  9.500000  C_pin:  0.300000
  R_pin:  0.125000  L_pin:  7.900000  C_pin:  0.150000
  R_pin:  0.100000  L_pin:  6.200000  C_pin:  0.110000
  R_pin:  0.100000  L_pin:  6.200000  C_pin:  0.100000
  R_pin:  0.125000  L_pin:  7.000000  C_pin:  0.140000
  R_pin:  0.140000  L_pin:  8.600000  C_pin:  0.160000
  R_pin:  0.150000  L_pin:  10.700000  C_pin:  0.290000
COMPONENT: CGS74B304M
  C_pkg:  2.500000E-01  L_pkg:  2.230000E+00  R_pkg:  1.000000E-01
  R_pin:  0.100000  L_pin:  2.230000  C_pin:  0.250000
  R_pin:  0.100000  L_pin:  1.820000  C_pin:  0.090000
  R_pin:  0.080000  L_pin:  1.290000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  1.140000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  1.140000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  1.290000  C_pin:  0.050000
  R_pin:  0.100000  L_pin:  1.820000  C_pin:  0.090000
  R_pin:  0.100000  L_pin:  2.230000  C_pin:  0.250000
  R_pin:  0.100000  L_pin:  2.230000  C_pin:  0.250000
  R_pin:  0.100000  L_pin:  1.820000  C_pin:  0.090000
  R_pin:  0.080000  L_pin:  1.290000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  1.140000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  1.140000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  1.290000  C_pin:  0.050000
  R_pin:  0.100000  L_pin:  1.820000  C_pin:  0.090000
  R_pin:  0.100000  L_pin:  2.230000  C_pin:  0.250000
COMPONENT: CGS74B303V
  C_pkg:  5.900000E-01  L_pkg:  5.380000E+00  R_pkg:  1.400000E-01
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.570000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.540000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.570000
  R_pin:  0.140000  L_pin:  5.380000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  5.380000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
COMPONENT: CGS74B303N
  C_pkg:  3.100000E-01  L_pkg:  1.130000E+01  R_pkg:  1.500000E-01
  R_pin:  0.150000  L_pin:  10.700000  C_pin:  0.290000
  R_pin:  0.140000  L_pin:  8.600000  C_pin:  0.160000
  R_pin:  0.125000  L_pin:  6.200000  C_pin:  0.140000
  R_pin:  0.100000  L_pin:  6.200000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  6.200000  C_pin:  0.110000
  R_pin:  0.125000  L_pin:  7.900000  C_pin:  0.150000
  R_pin:  0.140000  L_pin:  9.500000  C_pin:  0.300000
  R_pin:  0.150000  L_pin:  11.300000  C_pin:  0.310000
  R_pin:  0.150000  L_pin:  11.300000  C_pin:  0.310000
  R_pin:  0.140000  L_pin:  9.500000  C_pin:  0.300000
  R_pin:  0.125000  L_pin:  7.900000  C_pin:  0.150000
  R_pin:  0.100000  L_pin:  6.200000  C_pin:  0.110000
  R_pin:  0.100000  L_pin:  6.200000  C_pin:  0.100000
  R_pin:  0.125000  L_pin:  7.000000  C_pin:  0.140000
  R_pin:  0.140000  L_pin:  8.600000  C_pin:  0.160000
  R_pin:  0.150000  L_pin:  10.700000  C_pin:  0.290000
COMPONENT: CGS74B303M
  C_pkg:  2.500000E-01  L_pkg:  2.230000E+00  R_pkg:  1.000000E-01
  R_pin:  0.100000  L_pin:  2.230000  C_pin:  0.250000
  R_pin:  0.100000  L_pin:  1.820000  C_pin:  0.090000
  R_pin:  0.080000  L_pin:  1.290000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  1.140000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  1.140000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  1.290000  C_pin:  0.050000
  R_pin:  0.100000  L_pin:  1.820000  C_pin:  0.090000
  R_pin:  0.100000  L_pin:  2.230000  C_pin:  0.250000
  R_pin:  0.100000  L_pin:  2.230000  C_pin:  0.250000
  R_pin:  0.100000  L_pin:  1.820000  C_pin:  0.090000
  R_pin:  0.080000  L_pin:  1.290000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  1.140000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  1.140000  C_pin:  0.050000
  R_pin:  0.080000  L_pin:  1.290000  C_pin:  0.050000
  R_pin:  0.100000  L_pin:  1.820000  C_pin:  0.090000
  R_pin:  0.100000  L_pin:  2.230000  C_pin:  0.250000
COMPONENT: CGS74B2529V
  C_pkg:  5.900000E-01  L_pkg:  5.380000E+00  R_pkg:  1.400000E-01
  R_pin:  0.140000  L_pin:  5.380000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  5.380000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  5.380000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  5.380000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
COMPONENT: CGS74B2528V
  C_pkg:  5.900000E-01  L_pkg:  5.380000E+00  R_pkg:  1.400000E-01
  R_pin:  0.140000  L_pin:  5.380000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  5.380000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  5.380000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  5.380000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  4.600000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  4.630000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  5.040000  C_pin:  0.590000
COMPONENT: CGS74B2528N
  C_pkg:  3.000000E-01  L_pkg:  1.000000E+01  R_pkg:  1.800000E-01
  R_pin:  0.180000  L_pin:  10.000000  C_pin:  0.250000
  R_pin:  0.170000  L_pin:  9.000000  C_pin:  0.300000
  R_pin:  0.140000  L_pin:  8.000000  C_pin:  0.200000
  R_pin:  0.100000  L_pin:  7.000000  C_pin:  0.090000
  R_pin:  0.100000  L_pin:  6.000000  C_pin:  0.080000
  R_pin:  0.125000  L_pin:  7.000000  C_pin:  0.250000
  R_pin:  0.170000  L_pin:  9.000000  C_pin:  0.300000
  R_pin:  0.180000  L_pin:  10.000000  C_pin:  0.250000
  R_pin:  0.180000  L_pin:  10.000000  C_pin:  0.250000
  R_pin:  0.170000  L_pin:  9.000000  C_pin:  0.300000
  R_pin:  0.140000  L_pin:  8.000000  C_pin:  0.200000
  R_pin:  0.125000  L_pin:  7.000000  C_pin:  0.250000
  R_pin:  0.100000  L_pin:  6.000000  C_pin:  0.080000
  R_pin:  0.100000  L_pin:  6.000000  C_pin:  0.090000
  R_pin:  0.125000  L_pin:  7.000000  C_pin:  0.160000
  R_pin:  0.140000  L_pin:  8.000000  C_pin:  0.200000
  R_pin:  0.170000  L_pin:  9.000000  C_pin:  0.300000
  R_pin:  0.180000  L_pin:  10.000000  C_pin:  0.250000
COMPONENT: CGS74B2528M
  C_pkg:  2.000000E-01  L_pkg:  3.810000E+00  R_pkg:  1.500000E-01
  R_pin:  0.150000  L_pin:  3.810000  C_pin:  0.200000
  R_pin:  0.130000  L_pin:  3.040000  C_pin:  0.150000
  R_pin:  0.120000  L_pin:  2.800000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  2.700000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  2.700000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  2.790000  C_pin:  0.100000
  R_pin:  0.130000  L_pin:  3.040000  C_pin:  0.150000
  R_pin:  0.150000  L_pin:  3.810000  C_pin:  0.200000
  R_pin:  0.150000  L_pin:  3.810000  C_pin:  0.200000
  R_pin:  0.130000  L_pin:  3.040000  C_pin:  0.150000
  R_pin:  0.120000  L_pin:  2.800000  C_pin:  0.150000
  R_pin:  0.100000  L_pin:  2.790000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  2.700000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  2.700000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  2.790000  C_pin:  0.100000
  R_pin:  0.120000  L_pin:  2.800000  C_pin:  0.100000
  R_pin:  0.130000  L_pin:  3.040000  C_pin:  0.150000
  R_pin:  0.150000  L_pin:  3.810000  C_pin:  0.200000
COMPONENT: CGS74B2525N
  C_pkg:  3.000000E-01  L_pkg:  1.600000E+01  R_pkg:  1.400000E-01
  R_pin:  0.140000  L_pin:  16.000000  C_pin:  0.270000
  R_pin:  0.125000  L_pin:  16.000000  C_pin:  0.200000
  R_pin:  0.100000  L_pin:  3.330000  C_pin:  0.120000
  R_pin:  0.100000  L_pin:  3.330000  C_pin:  0.100000
  R_pin:  0.125000  L_pin:  5.000000  C_pin:  0.110000
  R_pin:  0.140000  L_pin:  16.000000  C_pin:  0.250000
  R_pin:  0.150000  L_pin:  16.000000  C_pin:  0.300000
  R_pin:  0.150000  L_pin:  16.000000  C_pin:  0.300000
  R_pin:  0.140000  L_pin:  16.000000  C_pin:  0.250000
  R_pin:  0.125000  L_pin:  3.330000  C_pin:  0.110000
  R_pin:  0.100000  L_pin:  5.000000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  13.000000  C_pin:  0.120000
  R_pin:  0.125000  L_pin:  16.000000  C_pin:  0.200000
  R_pin:  0.140000  L_pin:  16.000000  C_pin:  0.270000
COMPONENT: CGS74B2525M
  C_pkg:  1.000000E-01  L_pkg:  2.750000E+00  R_pkg:  8.000000E-01
  R_pin:  0.100000  L_pin:  2.750000  C_pin:  0.100000
  R_pin:  0.800000  L_pin:  2.420000  C_pin:  0.100000
  R_pin:  0.800000  L_pin:  1.870000  C_pin:  0.080000
  R_pin:  0.800000  L_pin:  1.880000  C_pin:  0.060000
  R_pin:  0.800000  L_pin:  1.870000  C_pin:  0.080000
  R_pin:  0.100000  L_pin:  2.420000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  2.750000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  2.750000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  2.420000  C_pin:  0.100000
  R_pin:  0.800000  L_pin:  1.870000  C_pin:  0.080000
  R_pin:  0.800000  L_pin:  1.880000  C_pin:  0.060000
  R_pin:  0.800000  L_pin:  1.870000  C_pin:  0.080000
  R_pin:  0.800000  L_pin:  2.420000  C_pin:  0.100000
  R_pin:  0.100000  L_pin:  2.750000  C_pin:  0.100000
COMPONENT: 82434NX
  C_pkg:  2.110000E+00  L_pkg:  1.476000E+01  R_pkg:  2.770000E-01
COMPONENT: 82434LX
  C_pkg:  2.110000E+00  L_pkg:  1.476000E+01  R_pkg:  2.770000E-01
COMPONENT: 82433NX
  C_pkg:  1.670000E+00  L_pkg:  1.017000E+01  R_pkg:  4.500000E-02
COMPONENT: 82433LX
  C_pkg:  1.670000E+00  L_pkg:  1.017000E+01  R_pkg:  4.500000E-02
COMPONENT: 82426EX
  C_pkg:  1.730000E+00  L_pkg:  1.221000E+01  R_pkg:  2.100000E-01
COMPONENT: 82425EX
  C_pkg:  2.060000E+00  L_pkg:  1.476000E+01  R_pkg:  2.770000E-01
COMPONENT: 82424ZX
  C_pkg:  2.060000E+00  L_pkg:  1.476000E+01  R_pkg:  2.770000E-01
COMPONENT: 82423TX
  C_pkg:  1.730000E+00  L_pkg:  1.221000E+01  R_pkg:  2.100000E-01
COMPONENT: 82379AB
  C_pkg:  2.110000E+00  L_pkg:  1.230000E+01  R_pkg:  4.600000E-02
COMPONENT: 82378ZB
  C_pkg:  2.110000E+00  L_pkg:  1.476000E+01  R_pkg:  2.770000E-01
COMPONENT: 82378IB
  C_pkg:  2.060000E+00  L_pkg:  1.476000E+01  R_pkg:  2.770000E-01
COMPONENT: 82375SB
  C_pkg:  2.110000E+00  L_pkg:  1.476000E+01  R_pkg:  2.770000E-01
COMPONENT: 82375EB
  C_pkg:  2.110000E+00  L_pkg:  1.230000E+01  R_pkg:  4.600000E-02
COMPONENT: 82374SB
  C_pkg:  2.110000E+00  L_pkg:  1.476000E+01  R_pkg:  2.770000E-01
COMPONENT: 82374EB
  C_pkg:  2.060000E+00  L_pkg:  1.476000E+01  R_pkg:  2.770000E-01
COMPONENT: CGS701V
  C_pkg:  5.900000E-01  L_pkg:  3.980000E+00  R_pkg:  1.400000E-01
  R_pin:  0.140000  L_pin:  3.640000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.980000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.640000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.200000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.980000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  3.640000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.980000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.200000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.200000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.980000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  3.640000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.980000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.200000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.640000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  3.640000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.980000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.200000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.980000  C_pin:  0.590000
COMPONENT: CGS700V
  C_pkg:  5.900000E-01  L_pkg:  3.980000E+00  R_pkg:  1.400000E-01
  R_pin:  0.140000  L_pin:  3.640000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.980000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.640000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.980000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  3.640000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.980000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.200000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.200000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.980000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  3.640000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.980000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.200000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.640000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  3.640000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.980000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.200000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.980000  C_pin:  0.590000
COMPONENT: p54c
  C_pkg:  2.200000E+01  L_pkg:  1.100000E+01  R_pkg:  0.000000E+00
  R_pin:  0.000000  L_pin:  1.000000  C_pin:  10.000000
  R_pin:  0.000000  L_pin:  2.000000  C_pin:  20.000000
  R_pin:  0.000000  L_pin:  3.000000  C_pin:  30.000000
  R_pin:  0.000000  L_pin:  100.000000  C_pin:  100.000000
COMPONENT: CGS2537V
  C_pkg:  5.900000E-01  L_pkg:  3.980000E+00  R_pkg:  1.400000E-01
  R_pin:  0.140000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
COMPONENT: CGS2536V
  C_pkg:  5.900000E-01  L_pkg:  3.980000E+00  R_pkg:  1.400000E-01
  R_pin:  0.140000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
COMPONENT: CGS2535V
  C_pkg:  5.900000E-01  L_pkg:  3.980000E+00  R_pkg:  1.400000E-01
  R_pin:  0.140000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
COMPONENT: CGS2534V
  C_pkg:  5.900000E-01  L_pkg:  3.980000E+00  R_pkg:  1.400000E-01
  R_pin:  0.140000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.140000  L_pin:  3.200000  C_pin:  0.590000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.100000  L_pin:  3.980000  C_pin:  0.540000
  R_pin:  0.110000  L_pin:  3.640000  C_pin:  0.570000
  R_pin:  0.120000  L_pin:  3.230000  C_pin:  0.590000


MODEL:  SI010111
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.640000E+00
  DV/DT(typ):  3.00 / 5.10e-01    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  
  DV/DT(typ):  3.00 / 4.90e-01    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  


MODEL:  SI080823
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.52 / 1.81e+00    min:  1.15 / 2.16e+00    max:  1.92 / 1.42e+00  
  DV/DT(typ):  1.32 / 1.61e+00    min:  0.94 / 1.90e+00    max:  1.80 / 1.35e+00  


MODEL:  SIPU7700
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.061    +0.057   
  V / I(GC) / I(PC):  -1.500000   +0.123    +0.154   
  V / I(GC) / I(PC):  -2.000000   +0.185    +0.252   
  V / I(GC) / I(PC):  -2.500000   +0.247    +0.349   
  C_comp:  3.840000E+00


MODEL:  SI777700
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.061    +0.057   
  V / I(GC) / I(PC):  -1.500000   +0.123    +0.154   
  V / I(GC) / I(PC):  -2.000000   +0.185    +0.252   
  V / I(GC) / I(PC):  -2.500000   +0.247    +0.349   
  C_comp:  3.840000E+00


MODEL:  SI040423
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.04 / 1.60e+00    min:  0.79 / 1.91e+00    max:  1.39 / 1.32e+00  
  DV/DT(typ):  0.91 / 1.46e+00    min:  0.66 / 1.73e+00    max:  1.25 / 1.21e+00  


MODEL:  SI161612
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  7.640000E+00
  DV/DT(typ):  2.20 / 1.06e+00    min:  1.92 / 1.28e+00    max:  2.49 / 6.50e-01  
  DV/DT(typ):  2.46 / 1.21e+00    min:  2.21 / 1.54e+00    max:  2.70 / 7.70e-01  


MODEL:  INPUT_ER9
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.016    +0.019   
  V / I(GC) / I(PC):  -1.500000   +0.086    +0.093   
  V / I(GC) / I(PC):  -2.000000   +0.177    +0.183   
  V / I(GC) / I(PC):  -2.500000   +0.267    +0.273   
  C_comp:  2.500000E+00


MODEL:  INPUT_ER8
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.016    +0.019   
  V / I(GC) / I(PC):  -1.500000   +0.086    +0.093   
  V / I(GC) / I(PC):  -2.000000   +0.177    +0.183   
  V / I(GC) / I(PC):  -2.500000   +0.267    +0.273   
  C_comp:  2.300000E+00


MODEL:  INPUT_ER3a
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.016    +0.019   
  V / I(GC) / I(PC):  -1.500000   +0.086    +0.093   
  V / I(GC) / I(PC):  -2.000000   +0.177    +0.183   
  V / I(GC) / I(PC):  -2.500000   +0.267    +0.273   
  C_comp:  3.500000E+00


MODEL:  INPUT_ER3
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.016    +0.019   
  V / I(GC) / I(PC):  -1.500000   +0.086    +0.093   
  V / I(GC) / I(PC):  -2.000000   +0.177    +0.183   
  V / I(GC) / I(PC):  -2.500000   +0.267    +0.273   
  C_comp:  3.500000E+00


MODEL:  INPUT_ER2
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.016    +0.019   
  V / I(GC) / I(PC):  -1.500000   +0.086    +0.093   
  V / I(GC) / I(PC):  -2.000000   +0.177    +0.183   
  V / I(GC) / I(PC):  -2.500000   +0.267    +0.273   
  C_comp:  2.300000E+00


MODEL:  INPUT_ER1
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.016    +0.019   
  V / I(GC) / I(PC):  -1.500000   +0.086    +0.093   
  V / I(GC) / I(PC):  -2.000000   +0.177    +0.183   
  V / I(GC) / I(PC):  -2.500000   +0.267    +0.273   
  C_comp:  1.500000E+00


MODEL:  I/O_ED7
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.023    +0.028   
  V / I(GC) / I(PC):  -1.500000   +0.093    +0.101   
  V / I(GC) / I(PC):  -2.000000   +0.162    +0.176   
  V / I(GC) / I(PC):  -2.500000   +0.231    +0.250   
  C_comp:  1.710000E+01
  DV/DT(typ):  3.00 / 1.41e+00    min:  2.70 / 2.16e+00    max:  3.30 / 6.60e-01  
  DV/DT(typ):  3.00 / 1.11e+00    min:  2.70 / 1.56e+00    max:  3.30 / 6.60e-01  


MODEL:  OUT_ED6
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  1.630000E+01
  DV/DT(typ):  3.00 / 1.41e+00    min:  2.70 / 2.16e+00    max:  3.30 / 6.60e-01  
  DV/DT(typ):  3.00 / 1.11e+00    min:  2.70 / 1.56e+00    max:  3.30 / 6.60e-01  


MODEL:  I/O_ED5
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.019    +0.024   
  V / I(GC) / I(PC):  -1.500000   +0.090    +0.096   
  V / I(GC) / I(PC):  -2.000000   +0.178    +0.172   
  V / I(GC) / I(PC):  -2.500000   +0.267    +0.247   
  C_comp:  4.800000E+00
  DV/DT(typ):  3.00 / 1.41e+00    min:  2.70 / 2.16e+00    max:  3.30 / 6.60e-01  
  DV/DT(typ):  3.00 / 1.11e+00    min:  2.70 / 1.56e+00    max:  3.30 / 6.60e-01  


MODEL:  I/O_ED4
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.019    +0.024   
  V / I(GC) / I(PC):  -1.500000   +0.090    +0.096   
  V / I(GC) / I(PC):  -2.000000   +0.178    +0.172   
  V / I(GC) / I(PC):  -2.500000   +0.267    +0.247   
  C_comp:  5.600000E+00
  DV/DT(typ):  3.00 / 1.41e+00    min:  2.70 / 2.16e+00    max:  3.30 / 6.60e-01  
  DV/DT(typ):  3.00 / 1.11e+00    min:  2.70 / 1.56e+00    max:  3.30 / 6.60e-01  


MODEL:  I/O_ED3
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.019    +0.024   
  V / I(GC) / I(PC):  -1.500000   +0.090    +0.096   
  V / I(GC) / I(PC):  -2.000000   +0.178    +0.172   
  V / I(GC) / I(PC):  -2.500000   +0.267    +0.247   
  C_comp:  4.900000E+00
  DV/DT(typ):  3.00 / 1.41e+00    min:  2.70 / 2.16e+00    max:  3.30 / 6.60e-01  
  DV/DT(typ):  3.00 / 1.11e+00    min:  2.70 / 1.56e+00    max:  3.30 / 6.60e-01  


MODEL:  OUT_ED2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  4.800000E+00
  DV/DT(typ):  3.00 / 1.41e+00    min:  2.70 / 2.16e+00    max:  3.30 / 6.60e-01  
  DV/DT(typ):  3.00 / 1.11e+00    min:  2.70 / 1.56e+00    max:  3.30 / 6.60e-01  


MODEL:  OUT_ED1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  4.800000E+00
  DV/DT(typ):  3.00 / 1.41e+00    min:  2.70 / 2.16e+00    max:  3.30 / 6.60e-01  
  DV/DT(typ):  3.00 / 1.11e+00    min:  2.70 / 1.56e+00    max:  3.30 / 6.60e-01  


MODEL:  INPUT_ER2
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.022    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.092    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.166    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.241    +0.000   
  C_comp:  1.200000E+00


MODEL:  INPUT_ER1
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.023    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.092    +0.055   
  V / I(GC) / I(PC):  -2.000000   +0.166    +0.128   
  V / I(GC) / I(PC):  -2.500000   +0.241    +0.203   
  C_comp:  1.200000E+00


MODEL:  INPUT_ER0
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.023    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.092    +0.055   
  V / I(GC) / I(PC):  -2.000000   +0.166    +0.128   
  V / I(GC) / I(PC):  -2.500000   +0.241    +0.203   
  C_comp:  1.200000E+00


MODEL:  OUT_ED1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  2.600000E+00
  DV/DT(typ):  1.98 / 1.17e+00    min:  1.80 / 1.80e+00    max:  2.22 / 5.40e-01  
  DV/DT(typ):  1.98 / 1.08e+00    min:  1.80 / 1.68e+00    max:  2.22 / 4.80e-01  


MODEL:  I/O_EB4
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  7.000000E+00
  DV/DT(typ):  1.98 / 1.17e+00    min:  1.80 / 1.80e+00    max:  2.22 / 5.40e-01  
  DV/DT(typ):  1.98 / 1.08e+00    min:  1.80 / 1.68e+00    max:  2.22 / 4.80e-01  


MODEL:  I/O_EB3
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  3.900000E+00
  DV/DT(typ):  1.98 / 1.17e+00    min:  1.80 / 1.80e+00    max:  2.22 / 5.40e-01  
  DV/DT(typ):  1.98 / 1.08e+00    min:  1.80 / 1.68e+00    max:  2.22 / 4.80e-01  


MODEL:  I/O_EB2B
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.700000E+00
  DV/DT(typ):  1.98 / 7.50e-01    min:  1.80 / 1.08e+00    max:  2.22 / 4.20e-01  
  DV/DT(typ):  1.98 / 7.50e-01    min:  1.80 / 1.08e+00    max:  2.22 / 4.20e-01  


MODEL:  I/O_EB2A
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.700000E+00
  DV/DT(typ):  1.98 / 9.90e-01    min:  1.80 / 1.44e+00    max:  2.22 / 5.40e-01  
  DV/DT(typ):  1.98 / 9.90e-01    min:  1.80 / 1.44e+00    max:  2.22 / 5.40e-01  


MODEL:  I/O_EB2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.700000E+00
  DV/DT(typ):  1.98 / 1.17e+00    min:  1.80 / 1.80e+00    max:  2.22 / 5.40e-01  
  DV/DT(typ):  1.98 / 1.08e+00    min:  1.80 / 1.68e+00    max:  2.22 / 4.80e-01  


MODEL:  I/O_EB1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  2.600000E+00
  DV/DT(typ):  1.98 / 1.17e+00    min:  1.80 / 1.80e+00    max:  2.22 / 5.40e-01  
  DV/DT(typ):  1.98 / 1.08e+00    min:  1.80 / 1.68e+00    max:  2.22 / 4.80e-01  


MODEL:  PCPU7700
  V / I(GC) / I(PC):  -0.500000   +0.002    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.069    +0.037   
  V / I(GC) / I(PC):  -1.500000   +0.204    +0.088   
  V / I(GC) / I(PC):  -2.000000   +0.339    +0.138   
  V / I(GC) / I(PC):  -2.500000   +0.474    +0.189   
  C_comp:  3.640000E+00


MODEL:  PC77PD00
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.068    +0.037   
  V / I(GC) / I(PC):  -1.500000   +0.203    +0.088   
  V / I(GC) / I(PC):  -2.000000   +0.338    +0.139   
  V / I(GC) / I(PC):  -2.500000   +0.474    +0.189   
  C_comp:  3.640000E+00


MODEL:  PC777700
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.068    +0.037   
  V / I(GC) / I(PC):  -1.500000   +0.203    +0.088   
  V / I(GC) / I(PC):  -2.000000   +0.338    +0.138   
  V / I(GC) / I(PC):  -2.500000   +0.474    +0.189   
  C_comp:  3.640000E+00


MODEL:  PC060801
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.072    +0.039   
  V / I(GC) / I(PC):  -1.500000   +0.206    +0.089   
  V / I(GC) / I(PC):  -2.000000   +0.341    +0.140   
  V / I(GC) / I(PC):  -2.500000   +0.476    +0.190   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.63 / 1.40e-01    min:  1.35 / 1.83e-01    max:  1.95 / 1.06e-01  
  DV/DT(typ):  2.12 / 1.88e-01    min:  1.85 / 2.84e-01    max:  2.40 / 1.22e-01  


MODEL:  PC061202
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.072    +0.039   
  V / I(GC) / I(PC):  -1.500000   +0.206    +0.089   
  V / I(GC) / I(PC):  -2.000000   +0.341    +0.140   
  V / I(GC) / I(PC):  -2.500000   +0.476    +0.190   
  C_comp:  7.640000E+00
  DV/DT(typ):  1.63 / 1.40e-01    min:  1.35 / 1.83e-01    max:  1.95 / 1.06e-01  
  DV/DT(typ):  2.48 / 1.84e-01    min:  2.25 / 2.77e-01    max:  2.71 / 1.17e-01  


MODEL:  PC061201
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.072    +0.039   
  V / I(GC) / I(PC):  -1.500000   +0.206    +0.089   
  V / I(GC) / I(PC):  -2.000000   +0.341    +0.140   
  V / I(GC) / I(PC):  -2.500000   +0.476    +0.190   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.63 / 1.40e-01    min:  1.35 / 1.83e-01    max:  1.95 / 1.06e-01  
  DV/DT(typ):  2.48 / 1.84e-01    min:  2.25 / 2.77e-01    max:  2.71 / 1.17e-01  


MODEL:  PC040801
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.072    +0.039   
  V / I(GC) / I(PC):  -1.500000   +0.206    +0.089   
  V / I(GC) / I(PC):  -2.000000   +0.341    +0.140   
  V / I(GC) / I(PC):  -2.500000   +0.476    +0.190   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.23 / 1.71e-01    min:  0.98 / 2.15e-01    max:  1.54 / 1.30e-01  
  DV/DT(typ):  2.12 / 1.88e-01    min:  1.85 / 2.84e-01    max:  2.40 / 1.22e-01  


MODEL:  PC080801
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.072    +0.039   
  V / I(GC) / I(PC):  -1.500000   +0.206    +0.089   
  V / I(GC) / I(PC):  -2.000000   +0.341    +0.140   
  V / I(GC) / I(PC):  -2.500000   +0.476    +0.190   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.90 / 1.32e-01    min:  1.62 / 1.75e-01    max:  2.21 / 9.60e-02  
  DV/DT(typ):  2.12 / 1.88e-01    min:  1.85 / 2.84e-01    max:  2.40 / 1.22e-01  


MODEL:  PC040401
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.072    +0.039   
  V / I(GC) / I(PC):  -1.500000   +0.206    +0.089   
  V / I(GC) / I(PC):  -2.000000   +0.341    +0.140   
  V / I(GC) / I(PC):  -2.500000   +0.476    +0.190   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.23 / 1.71e-01    min:  0.98 / 2.15e-01    max:  1.54 / 1.30e-01  
  DV/DT(typ):  1.34 / 2.77e-01    min:  1.09 / 3.63e-01    max:  1.65 / 1.77e-01  


MODEL:  PC080802
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.072    +0.039   
  V / I(GC) / I(PC):  -1.500000   +0.206    +0.089   
  V / I(GC) / I(PC):  -2.000000   +0.341    +0.140   
  V / I(GC) / I(PC):  -2.500000   +0.476    +0.190   
  C_comp:  7.640000E+00
  DV/DT(typ):  1.90 / 1.32e-01    min:  1.62 / 1.75e-01    max:  2.21 / 9.60e-02  
  DV/DT(typ):  2.12 / 1.88e-01    min:  1.85 / 2.84e-01    max:  2.40 / 1.22e-01  


MODEL:  PC040411
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.072    +0.039   
  V / I(GC) / I(PC):  -1.500000   +0.206    +0.089   
  V / I(GC) / I(PC):  -2.000000   +0.341    +0.140   
  V / I(GC) / I(PC):  -2.500000   +0.476    +0.190   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.23 / 8.28e-01    min:  0.98 / 1.25e+00    max:  1.54 / 6.06e-01  
  DV/DT(typ):  1.34 / 1.04e+00    min:  1.09 / 1.49e+00    max:  1.65 / 8.28e-01  


MODEL:  PC040422
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.072    +0.039   
  V / I(GC) / I(PC):  -1.500000   +0.206    +0.089   
  V / I(GC) / I(PC):  -2.000000   +0.341    +0.140   
  V / I(GC) / I(PC):  -2.500000   +0.476    +0.190   
  C_comp:  7.640000E+00
  DV/DT(typ):  1.22 / 1.22e+00    min:  0.96 / 1.51e+00    max:  1.54 / 8.64e-01  
  DV/DT(typ):  1.33 / 1.20e+00    min:  1.07 / 1.55e+00    max:  1.64 / 8.10e-01  


MODEL:  PB77770V
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  3.100000E+00


MODEL:  PB777700
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  3.100000E+00


MODEL:  PB060611
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  5.100000E+00
  DV/DT(typ):  1.47 / 3.02e-01    min:  1.23 / 4.19e-01    max:  1.75 / 2.06e-01  
  DV/DT(typ):  1.59 / 4.18e-01    min:  1.33 / 6.54e-01    max:  1.89 / 2.35e-01  


MODEL:  PB06061V
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.47 / 3.02e-01    min:  1.23 / 4.19e-01    max:  1.75 / 2.06e-01  
  DV/DT(typ):  1.59 / 4.18e-01    min:  1.33 / 6.54e-01    max:  1.89 / 2.35e-01  


MODEL:  PB060612
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.47 / 3.02e-01    min:  1.23 / 4.19e-01    max:  1.75 / 2.06e-01  
  DV/DT(typ):  1.59 / 4.18e-01    min:  1.33 / 6.54e-01    max:  1.89 / 2.35e-01  


MODEL:  PB060613
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  5.100000E+00
  DV/DT(typ):  1.47 / 3.02e-01    min:  1.23 / 4.19e-01    max:  1.75 / 2.06e-01  
  DV/DT(typ):  1.59 / 4.18e-01    min:  1.33 / 6.54e-01    max:  1.89 / 2.35e-01  


MODEL:  PB061202
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.85 / 8.52e-01    min:  1.60 / 1.20e+00    max:  2.12 / 5.72e-01  
  DV/DT(typ):  2.42 / 1.01e+00    min:  2.19 / 1.33e+00    max:  2.65 / 6.24e-01  


MODEL:  PC87306_io_10
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.554    +0.049   
  V / I(GC) / I(PC):  -1.500000   +1.856    +0.174   
  V / I(GC) / I(PC):  -2.000000   +3.220    +0.304   
  V / I(GC) / I(PC):  -2.500000   +4.601    +0.436   
  C_comp:  5.000000E+00
  DV/DT(typ):  1.82 / 2.79e+00    min:  1.08 / 2.86e+00    max:  2.31 / 2.21e+00  
  DV/DT(typ):  1.65 / 4.65e+00    min:  0.77 / 4.24e+00    max:  2.39 / 3.71e+00  


MODEL:  PC87306_in_2
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.553    +0.049   
  V / I(GC) / I(PC):  -1.500000   +1.855    +0.174   
  V / I(GC) / I(PC):  -2.000000   +3.219    +0.304   
  V / I(GC) / I(PC):  -2.500000   +4.600    +0.436   
  C_comp:  5.000000E+00


MODEL:  PC87306_io_11
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.554    +0.049   
  V / I(GC) / I(PC):  -1.500000   +1.856    +0.174   
  V / I(GC) / I(PC):  -2.000000   +3.220    +0.304   
  V / I(GC) / I(PC):  -2.500000   +4.601    +0.436   
  C_comp:  5.000000E+00
  DV/DT(typ):  1.96 / 6.90e-01    min:  1.37 / 1.18e+00    max:  2.37 / 3.90e-01  
  DV/DT(typ):  1.94 / 2.06e+00    min:  1.33 / 3.82e+00    max:  2.46 / 1.17e+00  


MODEL:  PC87306_io_9
  V / I(GC) / I(PC):  -0.500000   +0.052    +1.024   
  V / I(GC) / I(PC):  -1.000000   +0.518    +2.048   
  V / I(GC) / I(PC):  -1.500000   +1.669    +3.072   
  V / I(GC) / I(PC):  -2.000000   +2.874    +4.096   
  V / I(GC) / I(PC):  -2.500000   +4.095    +5.120   
  C_comp:  2.100000E+00
  DV/DT(typ):  0.00 / 3.30e-01    min:  0.00 / 1.60e-01    max:  0.01 / 1.60e-01  
  DV/DT(typ):  2.21 / 3.65e+00    min:  0.81 / 7.80e-01    max:  2.68 / 1.19e+00  


MODEL:  PC87306_io_6
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.486    +0.482   
  V / I(GC) / I(PC):  -1.500000   +1.638    +1.634   
  V / I(GC) / I(PC):  -2.000000   +2.844    +2.840   
  V / I(GC) / I(PC):  -2.500000   +4.065    +4.061   
  C_comp:  1.900000E+00
  DV/DT(typ):  0.90 / 3.20e-01    min:  0.55 / 4.90e-01    max:  1.33 / 2.20e-01  
  DV/DT(typ):  2.11 / 5.80e-01    min:  1.58 / 9.40e-01    max:  2.60 / 4.00e-01  


MODEL:  PC87306_io_7
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.486    +0.482   
  V / I(GC) / I(PC):  -1.500000   +1.638    +1.634   
  V / I(GC) / I(PC):  -2.000000   +2.844    +2.840   
  V / I(GC) / I(PC):  -2.500000   +4.065    +4.061   
  C_comp:  5.000000E+00
  DV/DT(typ):  0.90 / 5.10e-01    min:  0.55 / 9.90e-01    max:  1.33 / 2.30e-01  
  DV/DT(typ):  1.30 / 3.57e+00    min:  0.56 / 3.53e+00    max:  3.03 / 2.74e+00  


MODEL:  PC87306_out_1
  V / I(GC) / I(PC):  -0.500000   +0.077    +1.024   
  V / I(GC) / I(PC):  -1.000000   +0.532    +2.048   
  V / I(GC) / I(PC):  -1.500000   +1.683    +3.072   
  V / I(GC) / I(PC):  -2.000000   +2.888    +4.096   
  V / I(GC) / I(PC):  -2.500000   +4.108    +5.120   
  C_comp:  5.000000E+00
  DV/DT(typ):  1.27 / 2.90e-01    min:  0.80 / 4.70e-01    max:  0.01 / 6.00e-02  
  DV/DT(typ):  2.47 / 8.90e-01    min:  1.60 / 1.43e+00    max:  2.89 / 3.20e-01  


MODEL:  PC87306_io_3
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.486    +0.482   
  V / I(GC) / I(PC):  -1.500000   +1.638    +1.634   
  V / I(GC) / I(PC):  -2.000000   +2.844    +2.840   
  V / I(GC) / I(PC):  -2.500000   +4.065    +4.061   
  C_comp:  5.000000E+00
  DV/DT(typ):  1.27 / 3.60e-01    min:  0.80 / 5.50e-01    max:  1.74 / 2.00e-01  
  DV/DT(typ):  2.47 / 7.80e-01    min:  1.61 / 1.21e+00    max:  2.89 / 3.40e-01  


MODEL:  PC87306_in_1
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.482    +0.482   
  V / I(GC) / I(PC):  -1.500000   +1.634    +1.634   
  V / I(GC) / I(PC):  -2.000000   +2.840    +2.840   
  V / I(GC) / I(PC):  -2.500000   +4.061    +4.061   
  C_comp:  2.100000E+00


MODEL:  PC87306_io_4
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.486    +0.482   
  V / I(GC) / I(PC):  -1.500000   +1.638    +1.634   
  V / I(GC) / I(PC):  -2.000000   +2.844    +2.840   
  V / I(GC) / I(PC):  -2.500000   +4.065    +4.061   
  C_comp:  2.100000E+00
  DV/DT(typ):  0.90 / 3.60e-01    min:  0.55 / 5.10e-01    max:  1.33 / 2.50e-01  
  DV/DT(typ):  1.67 / 5.20e-01    min:  1.16 / 1.01e+00    max:  2.22 / 3.10e-01  


MODEL:  PC87306_io_2
  V / I(GC) / I(PC):  -0.500000   +0.016    +0.005   
  V / I(GC) / I(PC):  -1.000000   +0.495    +0.485   
  V / I(GC) / I(PC):  -1.500000   +1.647    +1.638   
  V / I(GC) / I(PC):  -2.000000   +2.853    +2.843   
  V / I(GC) / I(PC):  -2.500000   +4.074    +4.065   
  C_comp:  2.330000E+00
  DV/DT(typ):  0.48 / 4.80e-01    min:  0.28 / 5.00e-01    max:  0.73 / 5.00e-01  
  DV/DT(typ):  0.88 / 7.60e-01    min:  0.59 / 1.17e+00    max:  1.25 / 6.40e-01  


MODEL:  PC87306_io_1
  V / I(GC) / I(PC):  -0.500000   +0.016    +0.005   
  V / I(GC) / I(PC):  -1.000000   +0.495    +0.485   
  V / I(GC) / I(PC):  -1.500000   +1.647    +1.638   
  V / I(GC) / I(PC):  -2.000000   +2.853    +2.843   
  V / I(GC) / I(PC):  -2.500000   +4.074    +4.065   
  C_comp:  1.970000E+00
  DV/DT(typ):  0.48 / 3.10e-01    min:  0.29 / 3.80e-01    max:  0.73 / 2.80e-01  
  DV/DT(typ):  0.88 / 5.80e-01    min:  0.59 / 9.10e-01    max:  1.25 / 4.70e-01  


MODEL:  CGS74LCT2524N_Outpt4
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  0.000000E+00
  DV/DT(typ):  1.18 / 2.00e+00    min:  0.84 / 2.61e+00    max:  1.39 / 1.51e+00  
  DV/DT(typ):  1.20 / 1.36e+00    min:  0.67 / 1.39e+00    max:  1.48 / 1.02e+00  


MODEL:  CGS74LCT2524N_Outpt3
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  0.000000E+00
  DV/DT(typ):  1.18 / 2.00e+00    min:  0.84 / 2.61e+00    max:  1.39 / 1.51e+00  
  DV/DT(typ):  1.20 / 1.36e+00    min:  0.67 / 1.39e+00    max:  1.48 / 1.02e+00  


MODEL:  CGS74LCT2524N_Outpt2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  0.000000E+00
  DV/DT(typ):  1.18 / 2.00e+00    min:  0.84 / 2.61e+00    max:  1.39 / 1.51e+00  
  DV/DT(typ):  1.20 / 1.36e+00    min:  0.67 / 1.39e+00    max:  1.48 / 1.02e+00  


MODEL:  CGS74LCT2524N_Outpt1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  0.000000E+00
  DV/DT(typ):  1.18 / 2.00e+00    min:  0.84 / 2.61e+00    max:  1.39 / 1.51e+00  
  DV/DT(typ):  1.20 / 1.36e+00    min:  0.67 / 1.39e+00    max:  1.48 / 1.02e+00  


MODEL:  CGS74LCT2524N_Input
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.000    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.000    +0.000   
  C_comp:  0.000000E+00


MODEL:  CGS74LCT2524M_Outpt4
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  0.000000E+00
  DV/DT(typ):  1.18 / 2.00e+00    min:  0.84 / 2.61e+00    max:  1.39 / 1.51e+00  
  DV/DT(typ):  1.20 / 1.36e+00    min:  0.67 / 1.39e+00    max:  1.48 / 1.02e+00  


MODEL:  CGS74LCT2524M_Outpt3
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  0.000000E+00
  DV/DT(typ):  1.18 / 2.00e+00    min:  0.84 / 2.61e+00    max:  1.39 / 1.51e+00  
  DV/DT(typ):  1.20 / 1.36e+00    min:  0.67 / 1.39e+00    max:  1.48 / 1.02e+00  


MODEL:  CGS74LCT2524M_Outpt2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  0.000000E+00
  DV/DT(typ):  1.18 / 2.00e+00    min:  0.84 / 2.61e+00    max:  1.39 / 1.51e+00  
  DV/DT(typ):  1.20 / 1.36e+00    min:  0.67 / 1.39e+00    max:  1.48 / 1.02e+00  


MODEL:  CGS74LCT2524M_Outpt1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  0.000000E+00
  DV/DT(typ):  1.18 / 2.00e+00    min:  0.84 / 2.61e+00    max:  1.39 / 1.51e+00  
  DV/DT(typ):  1.20 / 1.36e+00    min:  0.67 / 1.39e+00    max:  1.48 / 1.02e+00  


MODEL:  CGS74LCT2524M_Input
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.000    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.000    +0.000   
  C_comp:  0.000000E+00


MODEL:  BX77770V
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  3.100000E+00


MODEL:  BX777700
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  3.100000E+00


MODEL:  BX060612
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.47 / 3.02e-01    min:  1.23 / 4.19e-01    max:  1.75 / 2.06e-01  
  DV/DT(typ):  1.59 / 4.18e-01    min:  1.33 / 6.54e-01    max:  1.89 / 2.35e-01  


MODEL:  BX04040A
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.47 / 4.22e-01    min:  1.23 / 5.67e-01    max:  1.75 / 2.95e-01  
  DV/DT(typ):  1.59 / 5.62e-01    min:  1.33 / 7.92e-01    max:  1.89 / 3.63e-01  


MODEL:  BX08081A
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.68 / 3.41e-01    min:  1.43 / 4.79e-01    max:  1.96 / 2.27e-01  
  DV/DT(typ):  1.86 / 4.52e-01    min:  1.60 / 7.38e-01    max:  2.16 / 2.47e-01  


MODEL:  BX061202
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.85 / 8.52e-01    min:  1.60 / 1.20e+00    max:  2.12 / 5.72e-01  
  DV/DT(typ):  2.42 / 1.01e+00    min:  2.19 / 1.33e+00    max:  2.65 / 6.24e-01  


MODEL:  BX121222
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.58 / 3.09e-01    min:  1.34 / 4.35e-01    max:  1.86 / 2.06e-01  
  DV/DT(typ):  1.74 / 4.28e-01    min:  1.48 / 6.96e-01    max:  2.04 / 2.34e-01  


MODEL:  gp612mtd_ttl
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000  +372.400    +0.000   
  V / I(GC) / I(PC):  -1.500000  +4402.000    +0.000   
  V / I(GC) / I(PC):  -2.000000  +9319.000    +0.000   
  V / I(GC) / I(PC):  -2.500000  +14310.000    +0.000   
  C_comp:  5.000000E-01
  DV/DT(typ):  3.19 / 1.37e+00    min:  2.85 / 2.27e+00    max:  3.52 / 8.85e-01  
  DV/DT(typ):  3.19 / 1.59e+00    min:  2.85 / 2.61e+00    max:  3.52 / 1.03e+00  


MODEL:  gp612mtd_gtl
  V / I(GC) / I(PC):  -0.500000   +0.070     N/A      
  V / I(GC) / I(PC):  -1.000000  +531.200     N/A      
  V / I(GC) / I(PC):  -1.500000  +4860.100     N/A      
  V / I(GC) / I(PC):  -2.000000  +9189.000     N/A      
  V / I(GC) / I(PC):  -2.500000  +14199.500     N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.00 / 1.74e+00    min:  1.00 / 2.54e+00    max:  1.00 / 1.81e+00  
  DV/DT(typ):  1.00 / 1.24e+00    min:  1.00 / 2.49e+00    max:  1.00 / 1.17e+00  


MODEL:  gp612mtd_ctrl
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01


MODEL:  gp612mea_ttl
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000  +372.400    +0.000   
  V / I(GC) / I(PC):  -1.500000  +4402.000    +0.000   
  V / I(GC) / I(PC):  -2.000000  +9319.000    +0.000   
  V / I(GC) / I(PC):  -2.500000  +14310.000    +0.000   
  C_comp:  5.000000E-01
  DV/DT(typ):  3.19 / 1.37e+00    min:  2.85 / 2.27e+00    max:  3.52 / 8.85e-01  
  DV/DT(typ):  3.19 / 1.59e+00    min:  2.85 / 2.61e+00    max:  3.52 / 1.03e+00  


MODEL:  gp612mea_gtl
  V / I(GC) / I(PC):  -0.500000   +0.070     N/A      
  V / I(GC) / I(PC):  -1.000000  +531.200     N/A      
  V / I(GC) / I(PC):  -1.500000  +4860.100     N/A      
  V / I(GC) / I(PC):  -2.000000  +9189.000     N/A      
  V / I(GC) / I(PC):  -2.500000  +14199.500     N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.00 / 1.74e+00    min:  1.00 / 2.54e+00    max:  1.00 / 1.81e+00  
  DV/DT(typ):  1.00 / 1.24e+00    min:  1.00 / 2.49e+00    max:  1.00 / 1.17e+00  


MODEL:  gp612mea_ctrl
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01


MODEL:  g612mtd_ttl
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000  +372.400    +0.000   
  V / I(GC) / I(PC):  -1.500000  +4402.000    +0.000   
  V / I(GC) / I(PC):  -2.000000  +9319.000    +0.000   
  V / I(GC) / I(PC):  -2.500000  +14310.000    +0.000   
  C_comp:  5.000000E-01
  DV/DT(typ):  3.19 / 1.37e+00    min:  2.85 / 2.27e+00    max:  3.52 / 8.85e-01  
  DV/DT(typ):  3.19 / 1.59e+00    min:  2.85 / 2.61e+00    max:  3.52 / 1.03e+00  


MODEL:  g612mtd_gtl
  V / I(GC) / I(PC):  -0.500000   +0.071     N/A      
  V / I(GC) / I(PC):  -1.000000  +30.620     N/A      
  V / I(GC) / I(PC):  -1.500000  +75.960     N/A      
  V / I(GC) / I(PC):  -2.000000  +121.300     N/A      
  V / I(GC) / I(PC):  -2.500000  +161.250     N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  0.50 / 1.64e+00    min:  0.50 / 2.17e+00    max:  0.50 / 1.55e+00  
  DV/DT(typ):  0.50 / 1.38e+00    min:  0.50 / 2.85e+00    max:  0.50 / 1.14e+00  


MODEL:  g612mtd_ctrl
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01


MODEL:  g612mea_ttl
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000  +372.400    +0.000   
  V / I(GC) / I(PC):  -1.500000  +4402.000    +0.000   
  V / I(GC) / I(PC):  -2.000000  +9319.000    +0.000   
  V / I(GC) / I(PC):  -2.500000  +14310.000    +0.000   
  C_comp:  5.000000E-01
  DV/DT(typ):  3.19 / 1.37e+00    min:  2.85 / 2.27e+00    max:  3.52 / 8.85e-01  
  DV/DT(typ):  3.19 / 1.59e+00    min:  2.85 / 2.61e+00    max:  3.52 / 1.03e+00  


MODEL:  g612mea_gtl
  V / I(GC) / I(PC):  -0.500000   +0.071     N/A      
  V / I(GC) / I(PC):  -1.000000  +30.620     N/A      
  V / I(GC) / I(PC):  -1.500000  +75.960     N/A      
  V / I(GC) / I(PC):  -2.000000  +121.300     N/A      
  V / I(GC) / I(PC):  -2.500000  +161.250     N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  0.50 / 1.64e+00    min:  0.50 / 2.17e+00    max:  0.50 / 1.55e+00  
  DV/DT(typ):  0.50 / 1.38e+00    min:  0.50 / 2.85e+00    max:  0.50 / 1.14e+00  


MODEL:  g612mea_ctrl
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01


MODEL:  ES121201
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  5.100000E+00
  DV/DT(typ):  2.03 / 4.39e-01    min:  1.79 / 6.36e-01    max:  2.29 / 2.86e-01  
  DV/DT(typ):  2.42 / 5.62e-01    min:  2.19 / 9.30e-01    max:  2.65 / 3.58e-01  


MODEL:  ES080803
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  5.100000E+00
  DV/DT(typ):  1.92 / 4.69e-01    min:  1.67 / 6.60e-01    max:  2.18 / 3.13e-01  
  DV/DT(typ):  2.20 / 5.56e-01    min:  1.95 / 9.42e-01    max:  2.45 / 3.40e-01  


MODEL:  ES060611
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  5.100000E+00
  DV/DT(typ):  1.47 / 3.02e-01    min:  1.23 / 4.19e-01    max:  1.75 / 2.06e-01  
  DV/DT(typ):  1.59 / 4.18e-01    min:  1.33 / 6.54e-01    max:  1.89 / 2.35e-01  


MODEL:  ES06061V
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.47 / 3.02e-01    min:  1.23 / 4.19e-01    max:  1.75 / 2.06e-01  
  DV/DT(typ):  1.59 / 4.18e-01    min:  1.33 / 6.54e-01    max:  1.89 / 2.35e-01  


MODEL:  ES060612
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.47 / 3.02e-01    min:  1.23 / 4.19e-01    max:  1.75 / 2.06e-01  
  DV/DT(typ):  1.59 / 4.18e-01    min:  1.33 / 6.54e-01    max:  1.89 / 2.35e-01  


MODEL:  ES77770V
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  3.100000E+00


MODEL:  ES777700
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  3.100000E+00


MODEL:  ES060613
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  5.100000E+00
  DV/DT(typ):  1.47 / 3.02e-01    min:  1.23 / 4.19e-01    max:  1.75 / 2.06e-01  
  DV/DT(typ):  1.59 / 4.18e-01    min:  1.33 / 6.54e-01    max:  1.89 / 2.35e-01  


MODEL:  ES061202
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.85 / 8.52e-01    min:  1.60 / 1.20e+00    max:  2.12 / 5.72e-01  
  DV/DT(typ):  2.42 / 1.01e+00    min:  2.19 / 1.33e+00    max:  2.65 / 6.24e-01  


MODEL:  Clockbuffer
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.030    +0.014   
  V / I(GC) / I(PC):  -1.500000   +0.142    +0.057   
  V / I(GC) / I(PC):  -2.000000   +0.180    +0.100   
  V / I(GC) / I(PC):  -2.500000   +0.220    +0.143   
  C_comp:  2.000000E+00


MODEL:  Input1
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.030    +0.014   
  V / I(GC) / I(PC):  -1.500000   +0.142    +0.057   
  V / I(GC) / I(PC):  -2.000000   +0.180    +0.100   
  V / I(GC) / I(PC):  -2.500000   +0.220    +0.143   
  C_comp:  2.000000E+00


MODEL:  I/O3
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.030    +0.014   
  V / I(GC) / I(PC):  -1.500000   +0.142    +0.057   
  V / I(GC) / I(PC):  -2.000000   +0.180    +0.100   
  V / I(GC) / I(PC):  -2.500000   +0.220    +0.143   
  C_comp:  2.900000E+00
  DV/DT(typ):  1.13 / 7.49e-01    min:  0.93 / 8.68e-01    max:  1.35 / 6.42e-01  
  DV/DT(typ):  0.99 / 4.47e-01    min:  0.75 / 5.43e-01    max:  1.27 / 3.87e-01  


MODEL:  I/O2
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.030    +0.014   
  V / I(GC) / I(PC):  -1.500000   +0.142    +0.057   
  V / I(GC) / I(PC):  -2.000000   +0.180    +0.100   
  V / I(GC) / I(PC):  -2.500000   +0.220    +0.143   
  C_comp:  3.200000E+00
  DV/DT(typ):  1.13 / 7.49e-01    min:  0.93 / 8.68e-01    max:  1.35 / 6.42e-01  
  DV/DT(typ):  0.99 / 4.47e-01    min:  0.75 / 5.43e-01    max:  1.27 / 3.87e-01  


MODEL:  I/O1
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.030    +0.014   
  V / I(GC) / I(PC):  -1.500000   +0.142    +0.057   
  V / I(GC) / I(PC):  -2.000000   +0.180    +0.100   
  V / I(GC) / I(PC):  -2.500000   +0.220    +0.143   
  C_comp:  2.700000E+00
  DV/DT(typ):  1.13 / 7.49e-01    min:  0.93 / 8.68e-01    max:  1.35 / 6.42e-01  
  DV/DT(typ):  0.99 / 4.47e-01    min:  0.75 / 5.43e-01    max:  1.27 / 3.87e-01  


MODEL:  Output2
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.030    +0.014   
  V / I(GC) / I(PC):  -1.500000   +0.142    +0.057   
  V / I(GC) / I(PC):  -2.000000   +0.180    +0.100   
  V / I(GC) / I(PC):  -2.500000   +0.220    +0.143   
  C_comp:  2.700000E+00
  DV/DT(typ):  1.13 / 7.49e-01    min:  0.93 / 8.68e-01    max:  1.35 / 6.42e-01  
  DV/DT(typ):  0.99 / 4.47e-01    min:  0.75 / 5.43e-01    max:  1.27 / 3.87e-01  


MODEL:  Output1
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.030    +0.014   
  V / I(GC) / I(PC):  -1.500000   +0.142    +0.057   
  V / I(GC) / I(PC):  -2.000000   +0.180    +0.100   
  V / I(GC) / I(PC):  -2.500000   +0.220    +0.143   
  C_comp:  3.200000E+00
  DV/DT(typ):  1.13 / 7.49e-01    min:  0.93 / 8.68e-01    max:  1.35 / 6.42e-01  
  DV/DT(typ):  0.99 / 4.47e-01    min:  0.75 / 5.43e-01    max:  1.27 / 3.87e-01  


MODEL:  DS26C32AT_ROUT
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.050    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.125    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.200    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.274    +0.000   
  C_comp:  3.000000E+00
  DV/DT(typ):  2.80 / 1.30e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  
  DV/DT(typ):  2.80 / 1.30e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  


MODEL:  DS26C32AT_EN
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.055    +0.033   
  V / I(GC) / I(PC):  -1.500000   +0.210    +0.161   
  V / I(GC) / I(PC):  -2.000000   +0.360    +0.290   
  V / I(GC) / I(PC):  -2.500000   +0.510    +0.418   
  C_comp:  1.000000E+00


MODEL:  DS26C32AT_RIN
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.001    +0.001   
  V / I(GC) / I(PC):  -2.500000   +0.001    +0.001   
  C_comp:  1.000000E+00


MODEL:  DS26C31T_DOUT
  V / I(GC) / I(PC):  -0.500000   +0.002    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.025    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.108    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.199    +0.000   
  C_comp:  3.000000E+00
  DV/DT(typ):  4.50 / 7.50e-01    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  
  DV/DT(typ):  4.60 / 9.00e-01    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  


MODEL:  DS26C31T_EN
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.055    +0.033   
  V / I(GC) / I(PC):  -1.500000   +0.210    +0.161   
  V / I(GC) / I(PC):  -2.000000   +0.360    +0.290   
  V / I(GC) / I(PC):  -2.500000   +0.510    +0.418   
  C_comp:  1.000000E+00


MODEL:  DS26C31T_DIN
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.034   
  V / I(GC) / I(PC):  -1.500000   +0.332    +0.102   
  V / I(GC) / I(PC):  -2.000000   +0.602    +0.170   
  V / I(GC) / I(PC):  -2.500000   +0.872    +0.238   
  C_comp:  1.000000E+00


MODEL:  PU08082A
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.100000E+00
  DV/DT(typ):  1.52 / 1.81e+00    min:  1.15 / 2.16e+00    max:  1.92 / 1.42e+00  
  DV/DT(typ):  1.32 / 1.61e+00    min:  0.94 / 1.90e+00    max:  1.80 / 1.35e+00  


MODEL:  PU040413
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.100000E+00
  DV/DT(typ):  1.05 / 1.04e+00    min:  0.81 / 1.21e+00    max:  1.39 / 6.06e-01  
  DV/DT(typ):  1.15 / 1.26e+00    min:  0.92 / 1.39e+00    max:  1.44 / 9.72e-01  


MODEL:  PU040422
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.100000E+00
  DV/DT(typ):  1.04 / 1.60e+00    min:  0.79 / 1.91e+00    max:  1.39 / 1.32e+00  
  DV/DT(typ):  0.91 / 1.46e+00    min:  0.66 / 1.73e+00    max:  1.25 / 1.21e+00  


MODEL:  PU777700
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.061    +0.057   
  V / I(GC) / I(PC):  -1.500000   +0.123    +0.154   
  V / I(GC) / I(PC):  -2.000000   +0.185    +0.252   
  V / I(GC) / I(PC):  -2.500000   +0.247    +0.349   
  C_comp:  5.100000E+00


MODEL:  PU161612
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.100000E+00
  DV/DT(typ):  2.20 / 1.06e+00    min:  1.92 / 1.28e+00    max:  2.49 / 6.50e-01  
  DV/DT(typ):  2.46 / 1.21e+00    min:  2.21 / 1.54e+00    max:  2.70 / 7.70e-01  


MODEL:  dp8441vj_q
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.027    +0.010   
  V / I(GC) / I(PC):  -1.500000   +0.048    +0.011   
  V / I(GC) / I(PC):  -2.000000   +0.071    +0.013   
  V / I(GC) / I(PC):  -2.500000   +0.076    +0.014   
  C_comp:  7.700000E-01
  DV/DT(typ):  2.08 / 2.20e-01    min:  1.95 / 3.60e-01    max:  2.20 / 1.60e-01  
  DV/DT(typ):  2.12 / 2.00e-01    min:  2.00 / 2.00e-01    max:  2.24 / 1.30e-01  


MODEL:  dp8441vj_pag
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.023    +0.004   
  V / I(GC) / I(PC):  -1.500000   +0.023    +0.005   
  V / I(GC) / I(PC):  -2.000000   +0.024    +0.006   
  V / I(GC) / I(PC):  -2.500000   +0.024    +0.007   
  C_comp:  7.700000E-01
  DV/DT(typ):  2.49 / 4.90e-01    min:  2.20 / 1.11e+00    max:  2.77 / 2.30e-01  
  DV/DT(typ):  2.80 / 3.20e-01    min:  2.54 / 4.70e-01    max:  3.02 / 1.90e-01  


MODEL:  dp8441vj_std
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.023    +0.004   
  V / I(GC) / I(PC):  -1.500000   +0.023    +0.005   
  V / I(GC) / I(PC):  -2.000000   +0.024    +0.006   
  V / I(GC) / I(PC):  -2.500000   +0.024    +0.007   
  C_comp:  7.700000E-01
  DV/DT(typ):  2.49 / 4.40e-01    min:  2.20 / 1.01e+00    max:  2.77 / 2.10e-01  
  DV/DT(typ):  2.80 / 3.20e-01    min:  2.54 / 5.10e-01    max:  3.02 / 1.90e-01  


MODEL:  dp8441vj_ttl_2
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.009    +0.002   
  V / I(GC) / I(PC):  -1.500000   +0.009    +0.002   
  V / I(GC) / I(PC):  -2.000000   +0.009    +0.003   
  V / I(GC) / I(PC):  -2.500000   +0.010    +0.003   
  C_comp:  7.700000E-01


MODEL:  dp8441vj_ttl_3
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.009    +0.002   
  V / I(GC) / I(PC):  -1.500000   +0.009    +0.002   
  V / I(GC) / I(PC):  -2.000000   +0.009    +0.003   
  V / I(GC) / I(PC):  -2.500000   +0.010    +0.003   
  C_comp:  7.700000E-01


MODEL:  dp8441vj_cas
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.014    +0.002   
  V / I(GC) / I(PC):  -1.500000   +0.014    +0.003   
  V / I(GC) / I(PC):  -2.000000   +0.014    +0.004   
  V / I(GC) / I(PC):  -2.500000   +0.015    +0.004   
  C_comp:  7.700000E-01
  DV/DT(typ):  1.48 / 7.10e-01    min:  1.21 / 1.65e+00    max:  1.74 / 3.90e-01  
  DV/DT(typ):  1.85 / 3.30e-01    min:  1.58 / 6.60e-01    max:  2.06 / 2.10e-01  


MODEL:  dp8441vj_ras
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.022    +0.005   
  V / I(GC) / I(PC):  -1.500000   +0.030    +0.005   
  V / I(GC) / I(PC):  -2.000000   +0.030    +0.006   
  V / I(GC) / I(PC):  -2.500000   +0.031    +0.007   
  C_comp:  7.700000E-01
  DV/DT(typ):  1.95 / 2.80e-01    min:  1.79 / 6.20e-01    max:  2.11 / 1.30e-01  
  DV/DT(typ):  2.07 / 2.60e-01    min:  1.92 / 4.30e-01    max:  2.20 / 1.80e-01  


MODEL:  dp8441vj_we
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.027    +0.010   
  V / I(GC) / I(PC):  -1.500000   +0.048    +0.012   
  V / I(GC) / I(PC):  -2.000000   +0.071    +0.013   
  V / I(GC) / I(PC):  -2.500000   +0.077    +0.015   
  C_comp:  7.700000E-01
  DV/DT(typ):  2.08 / 2.20e-01    min:  1.95 / 3.70e-01    max:  2.20 / 1.60e-01  
  DV/DT(typ):  2.12 / 2.00e-01    min:  2.00 / 2.00e-01    max:  2.24 / 1.40e-01  


MODEL:  dp8441vj_ttl_1
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.009    +0.002   
  V / I(GC) / I(PC):  -1.500000   +0.009    +0.002   
  V / I(GC) / I(PC):  -2.000000   +0.009    +0.003   
  V / I(GC) / I(PC):  -2.500000   +0.010    +0.003   
  C_comp:  7.700000E-01


MODEL:  dp8440vj_q
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.027    +0.010   
  V / I(GC) / I(PC):  -1.500000   +0.048    +0.011   
  V / I(GC) / I(PC):  -2.000000   +0.071    +0.013   
  V / I(GC) / I(PC):  -2.500000   +0.076    +0.014   
  C_comp:  7.700000E-01
  DV/DT(typ):  2.08 / 2.20e-01    min:  1.95 / 3.60e-01    max:  2.20 / 1.60e-01  
  DV/DT(typ):  2.12 / 2.00e-01    min:  2.00 / 2.00e-01    max:  2.24 / 1.30e-01  


MODEL:  dp8440vj_pag
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.023    +0.004   
  V / I(GC) / I(PC):  -1.500000   +0.023    +0.005   
  V / I(GC) / I(PC):  -2.000000   +0.024    +0.006   
  V / I(GC) / I(PC):  -2.500000   +0.024    +0.007   
  C_comp:  7.700000E-01
  DV/DT(typ):  2.49 / 4.90e-01    min:  2.20 / 1.11e+00    max:  2.77 / 2.30e-01  
  DV/DT(typ):  2.80 / 3.20e-01    min:  2.54 / 4.70e-01    max:  3.02 / 1.90e-01  


MODEL:  dp8440vj_std
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.023    +0.004   
  V / I(GC) / I(PC):  -1.500000   +0.023    +0.005   
  V / I(GC) / I(PC):  -2.000000   +0.024    +0.006   
  V / I(GC) / I(PC):  -2.500000   +0.024    +0.007   
  C_comp:  7.700000E-01
  DV/DT(typ):  2.49 / 4.40e-01    min:  2.20 / 1.01e+00    max:  2.77 / 2.10e-01  
  DV/DT(typ):  2.80 / 3.20e-01    min:  2.54 / 5.10e-01    max:  3.02 / 1.90e-01  


MODEL:  dp8440vj_ttl_2
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.009    +0.002   
  V / I(GC) / I(PC):  -1.500000   +0.009    +0.002   
  V / I(GC) / I(PC):  -2.000000   +0.009    +0.003   
  V / I(GC) / I(PC):  -2.500000   +0.010    +0.003   
  C_comp:  7.700000E-01


MODEL:  dp8440vj_ttl_3
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.009    +0.002   
  V / I(GC) / I(PC):  -1.500000   +0.009    +0.002   
  V / I(GC) / I(PC):  -2.000000   +0.009    +0.003   
  V / I(GC) / I(PC):  -2.500000   +0.010    +0.003   
  C_comp:  7.700000E-01


MODEL:  dp8440vj_cas
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.014    +0.002   
  V / I(GC) / I(PC):  -1.500000   +0.014    +0.003   
  V / I(GC) / I(PC):  -2.000000   +0.014    +0.004   
  V / I(GC) / I(PC):  -2.500000   +0.015    +0.004   
  C_comp:  7.700000E-01
  DV/DT(typ):  1.48 / 7.10e-01    min:  1.21 / 1.65e+00    max:  1.74 / 3.90e-01  
  DV/DT(typ):  1.85 / 3.30e-01    min:  1.58 / 6.60e-01    max:  2.06 / 2.10e-01  


MODEL:  dp8440vj_ras
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.022    +0.005   
  V / I(GC) / I(PC):  -1.500000   +0.030    +0.005   
  V / I(GC) / I(PC):  -2.000000   +0.030    +0.006   
  V / I(GC) / I(PC):  -2.500000   +0.031    +0.007   
  C_comp:  7.700000E-01
  DV/DT(typ):  1.95 / 2.80e-01    min:  1.79 / 6.20e-01    max:  2.11 / 1.30e-01  
  DV/DT(typ):  2.07 / 2.60e-01    min:  1.92 / 4.30e-01    max:  2.20 / 1.80e-01  


MODEL:  dp8440vj_we
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.027    +0.010   
  V / I(GC) / I(PC):  -1.500000   +0.048    +0.012   
  V / I(GC) / I(PC):  -2.000000   +0.071    +0.013   
  V / I(GC) / I(PC):  -2.500000   +0.077    +0.015   
  C_comp:  7.700000E-01
  DV/DT(typ):  2.08 / 2.20e-01    min:  1.95 / 3.70e-01    max:  2.20 / 1.60e-01  
  DV/DT(typ):  2.12 / 2.00e-01    min:  2.00 / 2.00e-01    max:  2.24 / 1.40e-01  


MODEL:  dp8440vj_ttl_1
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.009    +0.002   
  V / I(GC) / I(PC):  -1.500000   +0.009    +0.002   
  V / I(GC) / I(PC):  -2.000000   +0.009    +0.003   
  V / I(GC) / I(PC):  -2.500000   +0.010    +0.003   
  C_comp:  7.700000E-01


MODEL:  CGS74CT2527V_Input
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.000    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.000    +0.000   
  C_comp:  5.000000E-01


MODEL:  CGS74CT2527V_Output
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  2.39 / 3.30e-01    min:  2.00 / 4.10e-01    max:  2.76 / 2.60e-01  
  DV/DT(typ):  2.47 / 2.70e-01    min:  2.05 / 3.20e-01    max:  2.91 / 2.40e-01  


MODEL:  CGS74CT2526N_Input
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000  +17.910    +8.352   
  V / I(GC) / I(PC):  -1.500000  +5595000.000   +2351000.000   
  V / I(GC) / I(PC):  -2.000000  +18900000.000   +7866000.000   
  V / I(GC) / I(PC):  -2.500000  +32210000.000   +13380000.000   
  C_comp:  5.000000E-01


MODEL:  CGS74CT2526N_Output
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  6.200000E-01
  DV/DT(typ):  2.13 / 1.72e+00    min:  1.71 / 2.25e+00    max:  2.64 / 1.51e+00  
  DV/DT(typ):  2.40 / 1.23e+00    min:  1.96 / 1.59e+00    max:  2.85 / 9.50e-01  


MODEL:  CGS74CT2526M_Input
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000  +17.910    +8.352   
  V / I(GC) / I(PC):  -1.500000  +5595000.000   +2351000.000   
  V / I(GC) / I(PC):  -2.000000  +18900000.000   +7866000.000   
  V / I(GC) / I(PC):  -2.500000  +32210000.000   +13380000.000   
  C_comp:  5.000000E-01


MODEL:  CGS74CT2526M_Output
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  6.200000E-01
  DV/DT(typ):  2.13 / 1.72e+00    min:  1.71 / 2.25e+00    max:  2.64 / 1.51e+00  
  DV/DT(typ):  2.40 / 1.23e+00    min:  1.96 / 1.59e+00    max:  2.85 / 9.50e-01  


MODEL:  CGS74CT2525N_Input
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.000    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.000    +0.000   
  C_comp:  1.110000E+00


MODEL:  CGS74CT2525N_Output
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  2.39 / 3.30e-01    min:  2.01 / 4.00e-01    max:  2.76 / 2.60e-01  
  DV/DT(typ):  2.48 / 2.80e-01    min:  2.05 / 3.30e-01    max:  2.92 / 2.30e-01  


MODEL:  CGS74CT2525M_Input
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.000    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.000    +0.000   
  C_comp:  1.110000E+00


MODEL:  CGS74CT2525M_Output
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  2.39 / 3.30e-01    min:  2.01 / 4.00e-01    max:  2.76 / 2.60e-01  
  DV/DT(typ):  2.48 / 2.80e-01    min:  2.05 / 3.30e-01    max:  2.92 / 2.30e-01  


MODEL:  CGS74CT2524N_Output4
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  0.000000E+00
  DV/DT(typ):  2.09 / 1.20e+00    min:  1.73 / 1.82e+00    max:  2.42 / 8.80e-01  
  DV/DT(typ):  2.21 / 8.40e-01    min:  1.72 / 1.24e+00    max:  2.61 / 6.30e-01  


MODEL:  CGS74CT2524N_Output3
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  0.000000E+00
  DV/DT(typ):  2.09 / 1.20e+00    min:  1.73 / 1.82e+00    max:  2.42 / 8.80e-01  
  DV/DT(typ):  2.21 / 8.40e-01    min:  1.72 / 1.24e+00    max:  2.61 / 6.30e-01  


MODEL:  CGS74CT2524N_Output2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  0.000000E+00
  DV/DT(typ):  2.09 / 1.20e+00    min:  1.73 / 1.82e+00    max:  2.42 / 8.80e-01  
  DV/DT(typ):  2.21 / 8.40e-01    min:  1.72 / 1.24e+00    max:  2.61 / 6.30e-01  


MODEL:  CGS74CT2524N_Output1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  0.000000E+00
  DV/DT(typ):  2.09 / 1.20e+00    min:  1.73 / 1.82e+00    max:  2.42 / 8.80e-01  
  DV/DT(typ):  2.21 / 8.40e-01    min:  1.72 / 1.24e+00    max:  2.61 / 6.30e-01  


MODEL:  CGS74CT2524N_Input
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.000    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.000    +0.000   
  C_comp:  0.000000E+00


MODEL:  CGS74CT2524M_Output4
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  0.000000E+00
  DV/DT(typ):  2.09 / 1.20e+00    min:  1.73 / 1.82e+00    max:  2.42 / 8.80e-01  
  DV/DT(typ):  2.21 / 8.40e-01    min:  1.72 / 1.24e+00    max:  2.61 / 6.30e-01  


MODEL:  CGS74CT2524M_Output3
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  0.000000E+00
  DV/DT(typ):  2.09 / 1.20e+00    min:  1.73 / 1.82e+00    max:  2.42 / 8.80e-01  
  DV/DT(typ):  2.21 / 8.40e-01    min:  1.72 / 1.24e+00    max:  2.61 / 6.30e-01  


MODEL:  CGS74CT2524M_Output2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  0.000000E+00
  DV/DT(typ):  2.09 / 1.20e+00    min:  1.73 / 1.82e+00    max:  2.42 / 8.80e-01  
  DV/DT(typ):  2.21 / 8.40e-01    min:  1.72 / 1.24e+00    max:  2.61 / 6.30e-01  


MODEL:  CGS74CT2524M_Output1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  0.000000E+00
  DV/DT(typ):  2.09 / 1.20e+00    min:  1.73 / 1.82e+00    max:  2.42 / 8.80e-01  
  DV/DT(typ):  2.21 / 8.40e-01    min:  1.72 / 1.24e+00    max:  2.61 / 6.30e-01  


MODEL:  CGS74CT2524M_Input
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.000    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.000    +0.000   
  C_comp:  0.000000E+00


MODEL:  DCPU7700
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.061    +0.057   
  V / I(GC) / I(PC):  -1.500000   +0.123    +0.154   
  V / I(GC) / I(PC):  -2.000000   +0.185    +0.252   
  V / I(GC) / I(PC):  -2.500000   +0.247    +0.349   
  C_comp:  3.840000E+00


MODEL:  DC777700
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.061    +0.057   
  V / I(GC) / I(PC):  -1.500000   +0.123    +0.154   
  V / I(GC) / I(PC):  -2.000000   +0.185    +0.252   
  V / I(GC) / I(PC):  -2.500000   +0.247    +0.349   
  C_comp:  3.840000E+00


MODEL:  DC161613
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.640000E+00
  DV/DT(typ):  2.20 / 1.06e+00    min:  1.92 / 1.28e+00    max:  2.49 / 6.50e-01  
  DV/DT(typ):  2.46 / 1.21e+00    min:  2.21 / 1.54e+00    max:  2.70 / 7.70e-01  


MODEL:  DC161612
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  7.640000E+00
  DV/DT(typ):  2.20 / 1.06e+00    min:  1.92 / 1.28e+00    max:  2.49 / 6.50e-01  
  DV/DT(typ):  2.46 / 1.21e+00    min:  2.21 / 1.54e+00    max:  2.70 / 7.70e-01  


MODEL:  DC161603
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.640000E+00
  DV/DT(typ):  2.20 / 3.16e-01    min:  1.92 / 4.69e-01    max:  2.49 / 2.02e-01  
  DV/DT(typ):  2.47 / 5.07e-01    min:  2.23 / 9.30e-01    max:  2.71 / 3.00e-01  


MODEL:  DC161602
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  7.640000E+00
  DV/DT(typ):  2.20 / 3.16e-01    min:  1.92 / 4.69e-01    max:  2.49 / 2.02e-01  
  DV/DT(typ):  2.47 / 5.07e-01    min:  2.23 / 9.30e-01    max:  2.71 / 3.00e-01  


MODEL:  DC080813
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.59 / 1.15e+00    min:  1.28 / 1.34e+00    max:  1.95 / 9.54e-01  
  DV/DT(typ):  1.90 / 1.29e+00    min:  1.60 / 1.45e+00    max:  2.22 / 1.12e+00  


MODEL:  DC080803
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.59 / 4.01e-01    min:  1.28 / 5.57e-01    max:  1.95 / 2.71e-01  
  DV/DT(typ):  1.90 / 1.02e+00    min:  1.60 / 1.29e+00    max:  2.22 / 6.18e-01  


MODEL:  DC040413
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.05 / 1.04e+00    min:  0.81 / 1.21e+00    max:  1.39 / 6.06e-01  
  DV/DT(typ):  1.15 / 1.26e+00    min:  0.92 / 1.39e+00    max:  1.44 / 9.72e-01  


MODEL:  DC040412
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  7.640000E+00
  DV/DT(typ):  1.05 / 1.04e+00    min:  0.81 / 1.21e+00    max:  1.39 / 6.06e-01  
  DV/DT(typ):  1.15 / 1.26e+00    min:  0.92 / 1.39e+00    max:  1.44 / 9.72e-01  


MODEL:  DC040403
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.05 / 2.72e-01    min:  0.81 / 3.67e-01    max:  1.39 / 1.99e-01  
  DV/DT(typ):  1.15 / 6.12e-01    min:  0.92 / 9.48e-01    max:  1.44 / 4.38e-01  


MODEL:  CGS74C2526N_Input
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000  +17.910    +8.352   
  V / I(GC) / I(PC):  -1.500000  +5595000.000   +2351000.000   
  V / I(GC) / I(PC):  -2.000000  +18900000.000   +7866000.000   
  V / I(GC) / I(PC):  -2.500000  +32210000.000   +13380000.000   
  C_comp:  5.000000E-01


MODEL:  CGS74C2526N_Output
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  6.200000E-01
  DV/DT(typ):  2.13 / 1.73e+00    min:  1.71 / 2.25e+00    max:  2.64 / 1.51e+00  
  DV/DT(typ):  2.40 / 1.23e+00    min:  1.96 / 1.59e+00    max:  2.85 / 9.50e-01  


MODEL:  CGS74C2526M_Input
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000  +17.910    +8.352   
  V / I(GC) / I(PC):  -1.500000  +5595000.000   +2351000.000   
  V / I(GC) / I(PC):  -2.000000  +18900000.000   +7866000.000   
  V / I(GC) / I(PC):  -2.500000  +32210000.000   +13380000.000   
  C_comp:  5.000000E-01


MODEL:  CGS74C2526M_Output
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  6.200000E-01
  DV/DT(typ):  2.13 / 1.73e+00    min:  1.71 / 2.25e+00    max:  2.64 / 1.51e+00  
  DV/DT(typ):  2.40 / 1.23e+00    min:  1.96 / 1.59e+00    max:  2.85 / 9.50e-01  


MODEL:  CGS74C2525N_Input
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.000    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.000    +0.000   
  C_comp:  1.110000E+00


MODEL:  CGS74C2525N_Output
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  2.39 / 2.20e-01    min:  2.03 / 2.70e-01    max:  2.76 / 2.00e-01  
  DV/DT(typ):  2.55 / 2.50e-01    min:  2.14 / 3.20e-01    max:  2.92 / 2.10e-01  


MODEL:  CGS74C2525M_Input
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.000    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.000    +0.000   
  C_comp:  1.110000E+00


MODEL:  CGS74C2525M_Output
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  2.39 / 2.20e-01    min:  2.03 / 2.70e-01    max:  2.76 / 2.00e-01  
  DV/DT(typ):  2.55 / 2.50e-01    min:  2.14 / 3.20e-01    max:  2.92 / 2.10e-01  


MODEL:  CGS74B305V_Output2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  8.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305V_Output1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  7.700000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305V_Input3
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  4.600000E-01


MODEL:  CGS74B305V_Input2
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  6.000000E-01


MODEL:  CGS74B305V_Input1
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  9.400000E-01


MODEL:  CGS74B305V_Output8
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.900000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305V_Output7
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.900000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305V_Output6
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305V_Output5
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  6.000000E-01
  DV/DT(typ):  1.54 / 6.90e-01    min:  1.24 / 6.70e-01    max:  1.81 / 8.30e-01  
  DV/DT(typ):  2.73 / 7.40e-01    min:  2.44 / 7.50e-01    max:  3.02 / 8.80e-01  


MODEL:  CGS74B305V_Output4
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  7.700000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305V_Output3
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  8.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305N_Output2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  8.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305N_Output1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  7.700000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305N_Input3
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  4.600000E-01


MODEL:  CGS74B305N_Input2
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  6.000000E-01


MODEL:  CGS74B305N_Input1
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  9.400000E-01


MODEL:  CGS74B305N_Output8
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.900000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305N_Output7
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.900000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305N_Output6
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305N_Output5
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  6.000000E-01
  DV/DT(typ):  1.54 / 6.90e-01    min:  1.24 / 6.70e-01    max:  1.81 / 8.30e-01  
  DV/DT(typ):  2.73 / 7.40e-01    min:  2.44 / 7.50e-01    max:  3.02 / 8.80e-01  


MODEL:  CGS74B305N_Output4
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  7.700000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305N_Output3
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  8.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305M_Output2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  8.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305M_Output1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  7.700000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305M_Input3
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  4.600000E-01


MODEL:  CGS74B305M_Input2
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  6.000000E-01


MODEL:  CGS74B305M_Input1
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  9.400000E-01


MODEL:  CGS74B305M_Output8
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.900000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305M_Output7
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.900000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305M_Output6
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305M_Output5
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  6.000000E-01
  DV/DT(typ):  1.54 / 6.90e-01    min:  1.24 / 6.70e-01    max:  1.81 / 8.30e-01  
  DV/DT(typ):  2.73 / 7.40e-01    min:  2.44 / 7.50e-01    max:  3.02 / 8.80e-01  


MODEL:  CGS74B305M_Output4
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  7.700000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B305M_Output3
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  8.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304V_Output2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  8.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304V_Output1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  7.700000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304V_Input3
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  4.600000E-01


MODEL:  CGS74B304V_Input2
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  6.000000E-01


MODEL:  CGS74B304V_Input1
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  9.400000E-01


MODEL:  CGS74B304V_Output8
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.900000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304V_Output7
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.900000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304V_Output6
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304V_Output5
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  6.000000E-01
  DV/DT(typ):  1.54 / 6.90e-01    min:  1.24 / 6.70e-01    max:  1.81 / 8.30e-01  
  DV/DT(typ):  2.73 / 7.40e-01    min:  2.44 / 7.50e-01    max:  3.02 / 8.80e-01  


MODEL:  CGS74B304V_Output4
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  7.700000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304V_Output3
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  8.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304N_Output2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  8.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304N_Output1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  7.700000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304N_Input3
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  4.600000E-01


MODEL:  CGS74B304N_Input2
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  6.000000E-01


MODEL:  CGS74B304N_Input1
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  9.400000E-01


MODEL:  CGS74B304N_Output8
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.900000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304N_Output7
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.900000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304N_Output6
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304N_Output5
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  6.000000E-01
  DV/DT(typ):  1.54 / 6.90e-01    min:  1.24 / 6.70e-01    max:  1.81 / 8.30e-01  
  DV/DT(typ):  2.73 / 7.40e-01    min:  2.44 / 7.50e-01    max:  3.02 / 8.80e-01  


MODEL:  CGS74B304N_Output4
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  7.700000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304N_Output3
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  8.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304M_Output2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  8.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304M_Output1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  7.700000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304M_Input3
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  4.600000E-01


MODEL:  CGS74B304M_Input2
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  6.000000E-01


MODEL:  CGS74B304M_Input1
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  9.400000E-01


MODEL:  CGS74B304M_Output8
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.900000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304M_Output7
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.900000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304M_Output6
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304M_Output5
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  6.000000E-01
  DV/DT(typ):  1.54 / 6.90e-01    min:  1.24 / 6.70e-01    max:  1.81 / 8.30e-01  
  DV/DT(typ):  2.73 / 7.40e-01    min:  2.44 / 7.50e-01    max:  3.02 / 8.80e-01  


MODEL:  CGS74B304M_Output4
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  7.700000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B304M_Output3
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  8.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303V_Output2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  8.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303V_Output1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  7.700000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303V_Input3
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  4.600000E-01


MODEL:  CGS74B303V_Input2
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  6.000000E-01


MODEL:  CGS74B303V_Input1
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  9.400000E-01


MODEL:  CGS74B303V_Output8
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.900000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303V_Output7
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.900000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303V_Output6
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303V_Output5
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  6.000000E-01
  DV/DT(typ):  1.54 / 6.90e-01    min:  1.24 / 6.70e-01    max:  1.81 / 8.30e-01  
  DV/DT(typ):  2.73 / 7.40e-01    min:  2.44 / 7.50e-01    max:  3.02 / 8.80e-01  


MODEL:  CGS74B303V_Output4
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  7.700000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303V_Output3
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  8.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303N_Output2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  8.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303N_Output1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  7.700000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303N_Input3
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  4.600000E-01


MODEL:  CGS74B303N_Input2
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  6.000000E-01


MODEL:  CGS74B303N_Input1
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  9.400000E-01


MODEL:  CGS74B303N_Output8
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.900000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303N_Output7
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.900000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303N_Output6
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303N_Output5
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  6.000000E-01
  DV/DT(typ):  1.54 / 6.90e-01    min:  1.24 / 6.70e-01    max:  1.81 / 8.30e-01  
  DV/DT(typ):  2.73 / 7.40e-01    min:  2.44 / 7.50e-01    max:  3.02 / 8.80e-01  


MODEL:  CGS74B303N_Output4
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  7.700000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303N_Output3
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  8.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303M_Output2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  8.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303M_Output1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  7.700000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303M_Input3
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  4.600000E-01


MODEL:  CGS74B303M_Input2
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  6.000000E-01


MODEL:  CGS74B303M_Input1
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.064    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.149    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.240    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.331    +0.000   
  C_comp:  9.400000E-01


MODEL:  CGS74B303M_Output8
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.900000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303M_Output7
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.900000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303M_Output6
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  9.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303M_Output5
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  6.000000E-01
  DV/DT(typ):  1.54 / 6.90e-01    min:  1.24 / 6.70e-01    max:  1.81 / 8.30e-01  
  DV/DT(typ):  2.73 / 7.40e-01    min:  2.44 / 7.50e-01    max:  3.02 / 8.80e-01  


MODEL:  CGS74B303M_Output4
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  7.700000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B303M_Output3
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  8.400000E-01
  DV/DT(typ):  1.55 / 6.70e-01    min:  1.24 / 6.50e-01    max:  1.81 / 8.20e-01  
  DV/DT(typ):  2.73 / 7.30e-01    min:  2.44 / 7.40e-01    max:  3.03 / 8.70e-01  


MODEL:  CGS74B2529V_Output9
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 7.50e-01    min:  1.30 / 1.08e+00    max:  1.74 / 8.90e-01  
  DV/DT(typ):  2.74 / 7.50e-01    min:  2.42 / 1.21e+00    max:  3.03 / 7.90e-01  


MODEL:  CGS74B2529V_Output8
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 7.50e-01    min:  1.30 / 1.08e+00    max:  1.74 / 8.90e-01  
  DV/DT(typ):  2.74 / 7.50e-01    min:  2.42 / 1.21e+00    max:  3.03 / 7.90e-01  


MODEL:  CGS74B2529V_Input3
  V / I(GC) / I(PC):  -0.500000   +0.006    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.073    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.182    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.296    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.410    +0.000   
  C_comp:  5.000000E-01


MODEL:  CGS74B2529V_Output7
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 7.50e-01    min:  1.30 / 1.08e+00    max:  1.74 / 8.90e-01  
  DV/DT(typ):  2.74 / 7.50e-01    min:  2.42 / 1.21e+00    max:  3.03 / 7.90e-01  


MODEL:  CGS74B2529V_Output6
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 7.50e-01    min:  1.30 / 1.08e+00    max:  1.74 / 8.90e-01  
  DV/DT(typ):  2.74 / 7.50e-01    min:  2.42 / 1.21e+00    max:  3.03 / 7.90e-01  


MODEL:  CGS74B2529V_Output5
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 7.50e-01    min:  1.30 / 1.08e+00    max:  1.74 / 8.90e-01  
  DV/DT(typ):  2.74 / 7.50e-01    min:  2.42 / 1.21e+00    max:  3.03 / 7.90e-01  


MODEL:  CGS74B2529V_Output4
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 7.50e-01    min:  1.30 / 1.08e+00    max:  1.74 / 8.90e-01  
  DV/DT(typ):  2.74 / 7.50e-01    min:  2.42 / 1.21e+00    max:  3.03 / 7.90e-01  


MODEL:  CGS74B2529V_Output3
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 7.50e-01    min:  1.30 / 1.08e+00    max:  1.74 / 8.90e-01  
  DV/DT(typ):  2.74 / 7.50e-01    min:  2.42 / 1.21e+00    max:  3.03 / 7.90e-01  


MODEL:  CGS74B2529V_Input2
  V / I(GC) / I(PC):  -0.500000   +0.006    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.073    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.182    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.296    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.410    +0.000   
  C_comp:  5.000000E-01


MODEL:  CGS74B2529V_Input1
  V / I(GC) / I(PC):  -0.500000   +0.006    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.128    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.344    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.594    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.843    +0.000   
  C_comp:  5.000000E-01


MODEL:  CGS74B2529V_Output2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 7.50e-01    min:  1.30 / 1.08e+00    max:  1.74 / 8.90e-01  
  DV/DT(typ):  2.74 / 7.50e-01    min:  2.42 / 1.21e+00    max:  3.03 / 7.90e-01  


MODEL:  CGS74B2529V_Output1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 7.50e-01    min:  1.30 / 1.08e+00    max:  1.74 / 8.90e-01  
  DV/DT(typ):  2.74 / 7.50e-01    min:  2.42 / 1.21e+00    max:  3.03 / 7.90e-01  


MODEL:  CGS74B2529V_Output0
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 7.50e-01    min:  1.30 / 1.08e+00    max:  1.74 / 8.90e-01  
  DV/DT(typ):  2.74 / 7.50e-01    min:  2.42 / 1.21e+00    max:  3.03 / 7.90e-01  


MODEL:  CGS74B2528V_Output9
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.20e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528V_Output8
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.10e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528V_Input
  V / I(GC) / I(PC):  -0.500000   +0.006    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.073    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.183    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.299    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.414    +0.000   
  C_comp:  5.000000E-01


MODEL:  CGS74B2528V_Output7
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.10e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528V_Output6
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.10e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528V_Output5
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.20e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528V_Output4
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.20e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528V_Output3
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.20e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528V_Output2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.10e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528V_Output1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.10e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528V_Output0
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.20e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528N_Output9
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.20e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528N_Output8
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.10e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528N_Input
  V / I(GC) / I(PC):  -0.500000   +0.006    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.073    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.183    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.299    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.414    +0.000   
  C_comp:  5.000000E-01


MODEL:  CGS74B2528N_Output7
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.10e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528N_Output6
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.10e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528N_Output5
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.20e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528N_Output4
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.20e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528N_Output3
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.20e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528N_Output2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.10e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528N_Output1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.10e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528N_Output0
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.20e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528M_Output9
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.20e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528M_Output8
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.10e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528M_Input
  V / I(GC) / I(PC):  -0.500000   +0.006    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.073    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.183    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.299    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.414    +0.000   
  C_comp:  5.000000E-01


MODEL:  CGS74B2528M_Output7
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.10e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528M_Output6
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.10e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528M_Output5
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.20e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528M_Output4
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.20e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528M_Output3
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.20e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528M_Output2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.10e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528M_Output1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.10e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2528M_Output0
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.53 / 8.40e-01    min:  1.31 / 9.20e-01    max:  1.73 / 9.60e-01  
  DV/DT(typ):  2.73 / 7.50e-01    min:  2.44 / 7.90e-01    max:  3.02 / 8.10e-01  


MODEL:  CGS74B2525N_Input
  V / I(GC) / I(PC):  -0.500000   +0.004    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.048    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.110    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.179    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.251    +0.000   
  C_comp:  1.110000E+00


MODEL:  CGS74B2525N_Output
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.58 / 8.90e-01    min:  1.31 / 1.57e+00    max:  1.81 / 9.80e-01  
  DV/DT(typ):  2.73 / 6.20e-01    min:  2.43 / 1.12e+00    max:  3.03 / 6.60e-01  


MODEL:  CGS74B2525M_Input
  V / I(GC) / I(PC):  -0.500000   +0.004    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.048    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.110    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.179    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.251    +0.000   
  C_comp:  1.110000E+00


MODEL:  CGS74B2525M_Output
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.000000E-01
  DV/DT(typ):  1.58 / 8.90e-01    min:  1.31 / 1.57e+00    max:  1.81 / 9.80e-01  
  DV/DT(typ):  2.73 / 6.20e-01    min:  2.43 / 1.12e+00    max:  3.03 / 6.60e-01  


MODEL:  PCMCB08080A0S2EZZDBF
  V / I(GC) / I(PC):  -0.500000   +0.003    +0.002   
  V / I(GC) / I(PC):  -1.000000   +0.088    +0.031   
  V / I(GC) / I(PC):  -1.500000   +0.191    +0.063   
  V / I(GC) / I(PC):  -2.000000   +0.298    +0.096   
  V / I(GC) / I(PC):  -2.500000   +0.412    +0.130   
  C_comp:  7.640000E+00
  DV/DT(typ):  1.90 / 2.03e-01    min:  1.62 / 2.83e-01    max:  2.21 / 1.41e-01  
  DV/DT(typ):  2.10 / 1.98e-01    min:  1.83 / 2.87e-01    max:  2.39 / 1.33e-01  


MODEL:  PCMCO04042AXXXXZZDBD
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.640000E+00
  DV/DT(typ):  1.22 / 1.31e+00    min:  0.97 / 1.34e+00    max:  1.54 / 1.12e+00  
  DV/DT(typ):  1.29 / 1.29e+00    min:  1.04 / 1.24e+00    max:  1.59 / 1.13e+00  


MODEL:  PCMCI00000A1H3TZJDBC
  V / I(GC) / I(PC):  -0.500000   +0.003    +0.003   
  V / I(GC) / I(PC):  -1.000000   +0.088    +0.032   
  V / I(GC) / I(PC):  -1.500000   +0.191    +0.065   
  V / I(GC) / I(PC):  -2.000000   +0.298    +0.099   
  V / I(GC) / I(PC):  -2.500000   +0.412    +0.134   
  C_comp:  3.640000E+00


MODEL:  PCMCI00000A1H3TLZDBC
  V / I(GC) / I(PC):  -0.500000   +0.003    +0.002   
  V / I(GC) / I(PC):  -1.000000   +0.088    +0.031   
  V / I(GC) / I(PC):  -1.500000   +0.193    +0.063   
  V / I(GC) / I(PC):  -2.000000   +0.300    +0.096   
  V / I(GC) / I(PC):  -2.500000   +0.416    +0.130   
  C_comp:  3.640000E+00


MODEL:  PCMCO06120AXXXXZZECD
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.640000E+00
  DV/DT(typ):  1.73 / 1.50e-01    min:  1.45 / 1.98e-01    max:  2.05 / 1.11e-01  
  DV/DT(typ):  2.47 / 1.89e-01    min:  2.24 / 2.77e-01    max:  2.71 / 1.25e-01  


MODEL:  PCMCB06120A0S2EZZECF
  V / I(GC) / I(PC):  -0.500000   +0.005    +0.003   
  V / I(GC) / I(PC):  -1.000000   +0.118    +0.056   
  V / I(GC) / I(PC):  -1.500000   +0.254    +0.117   
  V / I(GC) / I(PC):  -2.000000   +0.393    +0.179   
  V / I(GC) / I(PC):  -2.500000   +0.543    +0.245   
  C_comp:  7.640000E+00
  DV/DT(typ):  1.73 / 2.00e-01    min:  1.45 / 2.74e-01    max:  2.05 / 1.39e-01  
  DV/DT(typ):  2.47 / 2.13e-01    min:  2.24 / 3.13e-01    max:  2.70 / 1.40e-01  


MODEL:  PCMCO04080AXXXXZZDBD
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.640000E+00
  DV/DT(typ):  1.23 / 1.27e-01    min:  0.98 / 1.57e-01    max:  1.54 / 9.82e-02  
  DV/DT(typ):  2.11 / 1.83e-01    min:  1.84 / 2.64e-01    max:  2.39 / 1.22e-01  


MODEL:  PCMCI00000A1H3TZZDBC
  V / I(GC) / I(PC):  -0.500000   +0.003    +0.002   
  V / I(GC) / I(PC):  -1.000000   +0.088    +0.031   
  V / I(GC) / I(PC):  -1.500000   +0.191    +0.063   
  V / I(GC) / I(PC):  -2.000000   +0.298    +0.096   
  V / I(GC) / I(PC):  -2.500000   +0.412    +0.130   
  C_comp:  3.640000E+00


MODEL:  PCMCI00000A0S2EZZDBC
  V / I(GC) / I(PC):  -0.500000   +0.003    +0.002   
  V / I(GC) / I(PC):  -1.000000   +0.088    +0.031   
  V / I(GC) / I(PC):  -1.500000   +0.191    +0.063   
  V / I(GC) / I(PC):  -2.000000   +0.298    +0.096   
  V / I(GC) / I(PC):  -2.500000   +0.412    +0.130   
  C_comp:  3.640000E+00


MODEL:  PCMCO08080BXXXXZZCBD
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.640000E+00
  DV/DT(typ):  1.17 / 1.81e-01    min:  1.05 / 2.45e-01    max:  1.30 / 1.31e-01  
  DV/DT(typ):  1.46 / 1.67e-01    min:  1.30 / 2.25e-01    max:  1.63 / 1.20e-01  


MODEL:  PCMCB08080B0S2EZZJBF
  V / I(GC) / I(PC):  -0.500000   +0.009    +0.002   
  V / I(GC) / I(PC):  -1.000000   +0.532    +0.066   
  V / I(GC) / I(PC):  -1.500000   +1.220    +0.143   
  V / I(GC) / I(PC):  -2.000000   +1.920    +0.221   
  V / I(GC) / I(PC):  -2.500000   +2.680    +0.305   
  C_comp:  7.640000E+00
  DV/DT(typ):  1.22 / 1.99e-01    min:  1.09 / 2.68e-01    max:  1.36 / 1.46e-01  
  DV/DT(typ):  1.46 / 1.65e-01    min:  1.30 / 2.35e-01    max:  1.63 / 1.12e-01  


MODEL:  PCMCB02020B0S2EZZJBF
  V / I(GC) / I(PC):  -0.500000   +0.009    +0.002   
  V / I(GC) / I(PC):  -1.000000   +0.532    +0.066   
  V / I(GC) / I(PC):  -1.500000   +1.220    +0.143   
  V / I(GC) / I(PC):  -2.000000   +1.920    +0.221   
  V / I(GC) / I(PC):  -2.500000   +2.680    +0.305   
  C_comp:  7.640000E+00
  DV/DT(typ):  0.82 / 2.31e-01    min:  0.71 / 3.08e-01    max:  0.95 / 1.69e-01  
  DV/DT(typ):  0.80 / 2.64e-01    min:  0.66 / 3.52e-01    max:  0.97 / 1.93e-01  


MODEL:  PCPU7700
  V / I(GC) / I(PC):  -0.500000   +0.002    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.069    +0.037   
  V / I(GC) / I(PC):  -1.500000   +0.204    +0.088   
  V / I(GC) / I(PC):  -2.000000   +0.339    +0.138   
  V / I(GC) / I(PC):  -2.500000   +0.474    +0.189   
  C_comp:  3.640000E+00


MODEL:  PC77PD00
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.068    +0.037   
  V / I(GC) / I(PC):  -1.500000   +0.203    +0.088   
  V / I(GC) / I(PC):  -2.000000   +0.338    +0.139   
  V / I(GC) / I(PC):  -2.500000   +0.474    +0.189   
  C_comp:  3.640000E+00


MODEL:  PC777700
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.068    +0.037   
  V / I(GC) / I(PC):  -1.500000   +0.203    +0.088   
  V / I(GC) / I(PC):  -2.000000   +0.338    +0.138   
  V / I(GC) / I(PC):  -2.500000   +0.474    +0.189   
  C_comp:  3.640000E+00


MODEL:  PC060801
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.072    +0.039   
  V / I(GC) / I(PC):  -1.500000   +0.206    +0.089   
  V / I(GC) / I(PC):  -2.000000   +0.341    +0.140   
  V / I(GC) / I(PC):  -2.500000   +0.476    +0.190   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.63 / 1.40e-01    min:  1.35 / 1.83e-01    max:  1.95 / 1.06e-01  
  DV/DT(typ):  2.12 / 1.88e-01    min:  1.85 / 2.84e-01    max:  2.40 / 1.22e-01  


MODEL:  PC061202
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.072    +0.039   
  V / I(GC) / I(PC):  -1.500000   +0.206    +0.089   
  V / I(GC) / I(PC):  -2.000000   +0.341    +0.140   
  V / I(GC) / I(PC):  -2.500000   +0.476    +0.190   
  C_comp:  7.640000E+00
  DV/DT(typ):  1.63 / 1.40e-01    min:  1.35 / 1.83e-01    max:  1.95 / 1.06e-01  
  DV/DT(typ):  2.48 / 1.84e-01    min:  2.25 / 2.77e-01    max:  2.71 / 1.17e-01  


MODEL:  PC061201
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.072    +0.039   
  V / I(GC) / I(PC):  -1.500000   +0.206    +0.089   
  V / I(GC) / I(PC):  -2.000000   +0.341    +0.140   
  V / I(GC) / I(PC):  -2.500000   +0.476    +0.190   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.63 / 1.40e-01    min:  1.35 / 1.83e-01    max:  1.95 / 1.06e-01  
  DV/DT(typ):  2.48 / 1.84e-01    min:  2.25 / 2.77e-01    max:  2.71 / 1.17e-01  


MODEL:  PC040801
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.072    +0.039   
  V / I(GC) / I(PC):  -1.500000   +0.206    +0.089   
  V / I(GC) / I(PC):  -2.000000   +0.341    +0.140   
  V / I(GC) / I(PC):  -2.500000   +0.476    +0.190   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.23 / 1.71e-01    min:  0.98 / 2.15e-01    max:  1.54 / 1.30e-01  
  DV/DT(typ):  2.12 / 1.88e-01    min:  1.85 / 2.84e-01    max:  2.40 / 1.22e-01  


MODEL:  PC080801
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.072    +0.039   
  V / I(GC) / I(PC):  -1.500000   +0.206    +0.089   
  V / I(GC) / I(PC):  -2.000000   +0.341    +0.140   
  V / I(GC) / I(PC):  -2.500000   +0.476    +0.190   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.90 / 1.32e-01    min:  1.62 / 1.75e-01    max:  2.21 / 9.60e-02  
  DV/DT(typ):  2.12 / 1.88e-01    min:  1.85 / 2.84e-01    max:  2.40 / 1.22e-01  


MODEL:  PC040401
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.072    +0.039   
  V / I(GC) / I(PC):  -1.500000   +0.206    +0.089   
  V / I(GC) / I(PC):  -2.000000   +0.341    +0.140   
  V / I(GC) / I(PC):  -2.500000   +0.476    +0.190   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.23 / 1.71e-01    min:  0.98 / 2.15e-01    max:  1.54 / 1.30e-01  
  DV/DT(typ):  1.34 / 2.77e-01    min:  1.09 / 3.63e-01    max:  1.65 / 1.77e-01  


MODEL:  PC080802
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.072    +0.039   
  V / I(GC) / I(PC):  -1.500000   +0.206    +0.089   
  V / I(GC) / I(PC):  -2.000000   +0.341    +0.140   
  V / I(GC) / I(PC):  -2.500000   +0.476    +0.190   
  C_comp:  7.640000E+00
  DV/DT(typ):  1.90 / 1.32e-01    min:  1.62 / 1.75e-01    max:  2.21 / 9.60e-02  
  DV/DT(typ):  2.12 / 1.88e-01    min:  1.85 / 2.84e-01    max:  2.40 / 1.22e-01  


MODEL:  PC040411
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.072    +0.039   
  V / I(GC) / I(PC):  -1.500000   +0.206    +0.089   
  V / I(GC) / I(PC):  -2.000000   +0.341    +0.140   
  V / I(GC) / I(PC):  -2.500000   +0.476    +0.190   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.23 / 8.28e-01    min:  0.98 / 1.25e+00    max:  1.54 / 6.06e-01  
  DV/DT(typ):  1.34 / 1.04e+00    min:  1.09 / 1.49e+00    max:  1.65 / 8.28e-01  


MODEL:  PC040422
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.072    +0.039   
  V / I(GC) / I(PC):  -1.500000   +0.206    +0.089   
  V / I(GC) / I(PC):  -2.000000   +0.341    +0.140   
  V / I(GC) / I(PC):  -2.500000   +0.476    +0.190   
  C_comp:  7.640000E+00
  DV/DT(typ):  1.22 / 1.22e+00    min:  0.96 / 1.51e+00    max:  1.54 / 8.64e-01  
  DV/DT(typ):  1.33 / 1.20e+00    min:  1.07 / 1.55e+00    max:  1.64 / 8.10e-01  


MODEL:  LBX_B06061A0S2AZZGFC
  V / I(GC) / I(PC):  -0.500000   +0.008    +0.006   
  V / I(GC) / I(PC):  -1.000000   +0.195    +0.176   
  V / I(GC) / I(PC):  -1.500000   +0.421    +0.382   
  V / I(GC) / I(PC):  -2.000000   +0.653    +0.592   
  V / I(GC) / I(PC):  -2.500000   +0.902    +0.820   
  C_comp:  4.650000E+00
  DV/DT(typ):  1.46 / 3.61e-01    min:  1.23 / 4.90e-01    max:  1.74 / 2.53e-01  
  DV/DT(typ):  1.57 / 3.81e-01    min:  1.31 / 5.20e-01    max:  1.88 / 2.63e-01  


MODEL:  LBX_B06120A0S2AZZGFC
  V / I(GC) / I(PC):  -0.500000   +0.008    +0.005   
  V / I(GC) / I(PC):  -1.000000   +0.195    +0.154   
  V / I(GC) / I(PC):  -1.500000   +0.421    +0.334   
  V / I(GC) / I(PC):  -2.000000   +0.653    +0.519   
  V / I(GC) / I(PC):  -2.500000   +0.902    +0.718   
  C_comp:  4.650000E+00
  DV/DT(typ):  1.84 / 8.52e-01    min:  1.60 / 1.21e+00    max:  2.12 / 5.70e-01  
  DV/DT(typ):  2.40 / 1.01e+00    min:  2.18 / 1.33e+00    max:  2.64 / 6.24e-01  


MODEL:  LBX_B04040A0S2AZLGFC
  V / I(GC) / I(PC):  -0.500000   +0.008    +0.006   
  V / I(GC) / I(PC):  -1.000000   +0.195    +0.157   
  V / I(GC) / I(PC):  -1.500000   +0.421    +0.338   
  V / I(GC) / I(PC):  -2.000000   +0.653    +0.522   
  V / I(GC) / I(PC):  -2.500000   +0.902    +0.721   
  C_comp:  4.650000E+00
  DV/DT(typ):  1.46 / 5.18e-01    min:  1.23 / 7.03e-01    max:  1.74 / 3.58e-01  
  DV/DT(typ):  1.57 / 6.20e-01    min:  1.31 / 8.53e-01    max:  1.88 / 4.09e-01  


MODEL:  LBX_I00000A1K3KZZGFC
  V / I(GC) / I(PC):  -0.500000   +0.008    +0.006   
  V / I(GC) / I(PC):  -1.000000   +0.195    +0.156   
  V / I(GC) / I(PC):  -1.500000   +0.421    +0.337   
  V / I(GC) / I(PC):  -2.000000   +0.653    +0.522   
  V / I(GC) / I(PC):  -2.500000   +0.902    +0.720   
  C_comp:  4.650000E+00


MODEL:  LBX_B10100B0S2AKZEEC
  V / I(GC) / I(PC):  -0.500000   +0.007    +0.009   
  V / I(GC) / I(PC):  -1.000000   +0.193    +0.164   
  V / I(GC) / I(PC):  -1.500000   +0.420    +0.345   
  V / I(GC) / I(PC):  -2.000000   +0.653    +0.530   
  V / I(GC) / I(PC):  -2.500000   +0.904    +0.727   
  C_comp:  4.650000E+00
  DV/DT(typ):  1.20 / 3.19e-01    min:  1.04 / 4.43e-01    max:  1.39 / 2.18e-01  
  DV/DT(typ):  1.46 / 1.32e+00    min:  1.28 / 1.49e+00    max:  1.64 / 1.09e+00  


MODEL:  LBX_I00000A0S2AZZGFC
  V / I(GC) / I(PC):  -0.500000   +0.008    +0.006   
  V / I(GC) / I(PC):  -1.000000   +0.195    +0.176   
  V / I(GC) / I(PC):  -1.500000   +0.421    +0.382   
  V / I(GC) / I(PC):  -2.000000   +0.653    +0.592   
  V / I(GC) / I(PC):  -2.500000   +0.902    +0.820   
  C_comp:  4.650000E+00


MODEL:  BX77770V
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  3.100000E+00


MODEL:  BX777700
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  3.100000E+00


MODEL:  BX060612
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.47 / 3.02e-01    min:  1.23 / 4.19e-01    max:  1.75 / 2.06e-01  
  DV/DT(typ):  1.59 / 4.18e-01    min:  1.33 / 6.54e-01    max:  1.89 / 2.35e-01  


MODEL:  BX04040A
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.47 / 4.22e-01    min:  1.23 / 5.67e-01    max:  1.75 / 2.95e-01  
  DV/DT(typ):  1.59 / 5.62e-01    min:  1.33 / 7.92e-01    max:  1.89 / 3.63e-01  


MODEL:  BX08081A
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.68 / 3.41e-01    min:  1.43 / 4.79e-01    max:  1.96 / 2.27e-01  
  DV/DT(typ):  1.86 / 4.52e-01    min:  1.60 / 7.38e-01    max:  2.16 / 2.47e-01  


MODEL:  BX061202
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.85 / 8.52e-01    min:  1.60 / 1.20e+00    max:  2.12 / 5.72e-01  
  DV/DT(typ):  2.42 / 1.01e+00    min:  2.19 / 1.33e+00    max:  2.65 / 6.24e-01  


MODEL:  BX121222
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.58 / 3.09e-01    min:  1.34 / 4.35e-01    max:  1.86 / 2.06e-01  
  DV/DT(typ):  1.74 / 4.28e-01    min:  1.48 / 6.96e-01    max:  2.04 / 2.34e-01  


MODEL:  IBB08080A1K3KZZKMB
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.308    +0.374   
  V / I(GC) / I(PC):  -1.500000   +0.788    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.290    +1.590   
  V / I(GC) / I(PC):  -2.500000   +1.840    +2.270   
  C_comp:  3.350000E+00
  DV/DT(typ):  1.59 / 4.05e-01    min:  1.28 / 5.61e-01    max:  1.95 / 2.74e-01  
  DV/DT(typ):  1.89 / 1.01e+00    min:  1.59 / 1.27e+00    max:  2.21 / 5.78e-01  


MODEL:  IBI00000A1K3KZZNMC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.426    +0.374   
  V / I(GC) / I(PC):  -1.500000   +1.110    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.820    +1.590   
  V / I(GC) / I(PC):  -2.500000   +2.620    +2.270   
  C_comp:  4.280000E+00


MODEL:  IBI00000A0S2AZZVTC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.762    +0.690   
  V / I(GC) / I(PC):  -1.500000   +2.070    +1.860   
  V / I(GC) / I(PC):  -2.000000   +3.440    +3.080   
  V / I(GC) / I(PC):  -2.500000   +4.955    +4.440   
  C_comp:  4.280000E+00


MODEL:  IBB08081A0S2AZZKMB
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.308    +0.374   
  V / I(GC) / I(PC):  -1.500000   +0.788    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.290    +1.590   
  V / I(GC) / I(PC):  -2.500000   +1.840    +2.270   
  C_comp:  3.720000E+00
  DV/DT(typ):  1.59 / 1.16e+00    min:  1.28 / 1.34e+00    max:  1.95 / 9.53e-01  
  DV/DT(typ):  1.87 / 1.32e+00    min:  1.54 / 1.44e+00    max:  2.20 / 1.15e+00  


MODEL:  IBT16161AXXXXZZRUC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.617    +0.749   
  V / I(GC) / I(PC):  -1.500000   +1.580    +1.940   
  V / I(GC) / I(PC):  -2.000000   +2.570    +3.170   
  V / I(GC) / I(PC):  -2.500000   +3.675    +4.545   
  C_comp:  3.720000E+00
  DV/DT(typ):  2.20 / 1.03e+00    min:  1.92 / 1.28e+00    max:  2.49 / 6.14e-01  
  DV/DT(typ):  2.46 / 1.21e+00    min:  2.20 / 1.42e+00    max:  2.70 / 7.70e-01  


MODEL:  IBB04040A0S2AZZHIB
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.182    +0.238   
  V / I(GC) / I(PC):  -1.500000   +0.452    +0.598   
  V / I(GC) / I(PC):  -2.000000   +0.730    +0.971   
  V / I(GC) / I(PC):  -2.500000   +1.038    +1.385   
  C_comp:  3.720000E+00
  DV/DT(typ):  1.05 / 2.78e-01    min:  0.81 / 3.72e-01    max:  1.39 / 2.04e-01  
  DV/DT(typ):  1.13 / 5.94e-01    min:  0.90 / 8.29e-01    max:  1.42 / 4.13e-01  


MODEL:  IBB08080A0S2AZZKMB
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.308    +0.374   
  V / I(GC) / I(PC):  -1.500000   +0.788    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.290    +1.590   
  V / I(GC) / I(PC):  -2.500000   +1.840    +2.270   
  C_comp:  3.720000E+00
  DV/DT(typ):  1.59 / 4.09e-01    min:  1.28 / 5.63e-01    max:  1.95 / 2.75e-01  
  DV/DT(typ):  1.89 / 1.01e+00    min:  1.59 / 1.26e+00    max:  2.21 / 5.77e-01  


MODEL:  IBI00000A0S2AZKNUC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.426    +0.749   
  V / I(GC) / I(PC):  -1.500000   +1.110    +1.940   
  V / I(GC) / I(PC):  -2.000000   +1.820    +3.170   
  V / I(GC) / I(PC):  -2.500000   +2.620    +4.545   
  C_comp:  4.280000E+00


MODEL:  IBI00000A0S2AZZNMC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.426    +0.374   
  V / I(GC) / I(PC):  -1.500000   +1.110    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.820    +1.590   
  V / I(GC) / I(PC):  -2.500000   +2.620    +2.270   
  C_comp:  4.280000E+00


MODEL:  IBB16161A0S2AZZRUC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.617    +0.749   
  V / I(GC) / I(PC):  -1.500000   +1.580    +1.940   
  V / I(GC) / I(PC):  -2.000000   +2.570    +3.170   
  V / I(GC) / I(PC):  -2.500000   +3.675    +4.545   
  C_comp:  4.280000E+00
  DV/DT(typ):  2.20 / 1.03e+00    min:  1.92 / 1.28e+00    max:  2.49 / 6.18e-01  
  DV/DT(typ):  2.46 / 1.21e+00    min:  2.20 / 1.42e+00    max:  2.70 / 7.71e-01  


MODEL:  PSCB08080A1K3KZZKMB
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.308    +0.374   
  V / I(GC) / I(PC):  -1.500000   +0.788    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.290    +1.590   
  V / I(GC) / I(PC):  -2.500000   +1.840    +2.270   
  C_comp:  3.350000E+00
  DV/DT(typ):  1.59 / 4.05e-01    min:  1.28 / 5.61e-01    max:  1.95 / 2.74e-01  
  DV/DT(typ):  1.89 / 1.01e+00    min:  1.59 / 1.27e+00    max:  2.21 / 5.78e-01  


MODEL:  PSCI00000A1K3KZZNMC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.426    +0.374   
  V / I(GC) / I(PC):  -1.500000   +1.110    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.820    +1.590   
  V / I(GC) / I(PC):  -2.500000   +2.620    +2.270   
  C_comp:  4.280000E+00


MODEL:  PSCB16160A0S2AZZRUC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.617    +0.749   
  V / I(GC) / I(PC):  -1.500000   +1.580    +1.940   
  V / I(GC) / I(PC):  -2.000000   +2.570    +3.170   
  V / I(GC) / I(PC):  -2.500000   +3.675    +4.545   
  C_comp:  4.280000E+00
  DV/DT(typ):  2.20 / 3.21e-01    min:  1.92 / 4.75e-01    max:  2.49 / 2.06e-01  
  DV/DT(typ):  2.46 / 5.10e-01    min:  2.22 / 8.78e-01    max:  2.70 / 2.93e-01  


MODEL:  PSCB16161A0S2AZZRUC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.617    +0.749   
  V / I(GC) / I(PC):  -1.500000   +1.580    +1.940   
  V / I(GC) / I(PC):  -2.000000   +2.570    +3.170   
  V / I(GC) / I(PC):  -2.500000   +3.675    +4.545   
  C_comp:  4.280000E+00
  DV/DT(typ):  2.20 / 1.03e+00    min:  1.92 / 1.28e+00    max:  2.49 / 6.18e-01  
  DV/DT(typ):  2.46 / 1.21e+00    min:  2.20 / 1.42e+00    max:  2.70 / 7.71e-01  


MODEL:  PSCB04041A0S2AZZHIB
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.182    +0.238   
  V / I(GC) / I(PC):  -1.500000   +0.452    +0.598   
  V / I(GC) / I(PC):  -2.000000   +0.730    +0.971   
  V / I(GC) / I(PC):  -2.500000   +1.038    +1.385   
  C_comp:  3.720000E+00
  DV/DT(typ):  1.05 / 1.03e+00    min:  0.81 / 1.22e+00    max:  1.39 / 6.12e-01  
  DV/DT(typ):  1.13 / 1.24e+00    min:  0.90 / 1.41e+00    max:  1.42 / 9.39e-01  


MODEL:  PSCI00000A0S2AZZVTC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.762    +0.690   
  V / I(GC) / I(PC):  -1.500000   +2.070    +1.860   
  V / I(GC) / I(PC):  -2.000000   +3.440    +3.080   
  V / I(GC) / I(PC):  -2.500000   +4.955    +4.440   
  C_comp:  4.280000E+00


MODEL:  PSCI00000A0S2AZKNUC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.426    +0.749   
  V / I(GC) / I(PC):  -1.500000   +1.110    +1.940   
  V / I(GC) / I(PC):  -2.000000   +1.820    +3.170   
  V / I(GC) / I(PC):  -2.500000   +2.620    +4.545   
  C_comp:  4.280000E+00


MODEL:  PSCB08081A0S2AZZKMB
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.308    +0.374   
  V / I(GC) / I(PC):  -1.500000   +0.788    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.290    +1.590   
  V / I(GC) / I(PC):  -2.500000   +1.840    +2.270   
  C_comp:  3.720000E+00
  DV/DT(typ):  1.59 / 1.16e+00    min:  1.28 / 1.34e+00    max:  1.95 / 9.53e-01  
  DV/DT(typ):  1.87 / 1.32e+00    min:  1.54 / 1.44e+00    max:  2.20 / 1.15e+00  


MODEL:  PSCI00000A0S2AZZNMC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.426    +0.374   
  V / I(GC) / I(PC):  -1.500000   +1.110    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.820    +1.590   
  V / I(GC) / I(PC):  -2.500000   +2.620    +2.270   
  C_comp:  4.280000E+00


MODEL:  PSCB08080A0S2AZZKMB
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.308    +0.374   
  V / I(GC) / I(PC):  -1.500000   +0.788    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.290    +1.590   
  V / I(GC) / I(PC):  -2.500000   +1.840    +2.270   
  C_comp:  3.720000E+00
  DV/DT(typ):  1.59 / 4.09e-01    min:  1.28 / 5.63e-01    max:  1.95 / 2.75e-01  
  DV/DT(typ):  1.89 / 1.01e+00    min:  1.59 / 1.26e+00    max:  2.21 / 5.77e-01  


MODEL:  PSCB12211A0S2AZZZZC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +4.150    +1.410   
  V / I(GC) / I(PC):  -1.500000  +12.950    +4.020   
  V / I(GC) / I(PC):  -2.000000  +22.450    +6.780   
  V / I(GC) / I(PC):  -2.500000  +32.770    +9.810   
  C_comp:  4.280000E+00
  DV/DT(typ):  1.95 / 8.87e-01    min:  1.64 / 1.29e+00    max:  2.27 / 5.33e-01  
  DV/DT(typ):  2.61 / 1.17e+00    min:  2.36 / 1.39e+00    max:  2.84 / 8.51e-01  


MODEL:  DCPU7700
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.061    +0.057   
  V / I(GC) / I(PC):  -1.500000   +0.123    +0.154   
  V / I(GC) / I(PC):  -2.000000   +0.185    +0.252   
  V / I(GC) / I(PC):  -2.500000   +0.247    +0.349   
  C_comp:  3.840000E+00


MODEL:  DC777700
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.061    +0.057   
  V / I(GC) / I(PC):  -1.500000   +0.123    +0.154   
  V / I(GC) / I(PC):  -2.000000   +0.185    +0.252   
  V / I(GC) / I(PC):  -2.500000   +0.247    +0.349   
  C_comp:  3.840000E+00


MODEL:  DC161613
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.640000E+00
  DV/DT(typ):  2.20 / 1.06e+00    min:  1.92 / 1.28e+00    max:  2.49 / 6.50e-01  
  DV/DT(typ):  2.46 / 1.21e+00    min:  2.21 / 1.54e+00    max:  2.70 / 7.70e-01  


MODEL:  DC161612
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  7.640000E+00
  DV/DT(typ):  2.20 / 1.06e+00    min:  1.92 / 1.28e+00    max:  2.49 / 6.50e-01  
  DV/DT(typ):  2.46 / 1.21e+00    min:  2.21 / 1.54e+00    max:  2.70 / 7.70e-01  


MODEL:  DC161603
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.640000E+00
  DV/DT(typ):  2.20 / 3.16e-01    min:  1.92 / 4.69e-01    max:  2.49 / 2.02e-01  
  DV/DT(typ):  2.47 / 5.07e-01    min:  2.23 / 9.30e-01    max:  2.71 / 3.00e-01  


MODEL:  DC161602
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  7.640000E+00
  DV/DT(typ):  2.20 / 3.16e-01    min:  1.92 / 4.69e-01    max:  2.49 / 2.02e-01  
  DV/DT(typ):  2.47 / 5.07e-01    min:  2.23 / 9.30e-01    max:  2.71 / 3.00e-01  


MODEL:  DC080813
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.59 / 1.15e+00    min:  1.28 / 1.34e+00    max:  1.95 / 9.54e-01  
  DV/DT(typ):  1.90 / 1.29e+00    min:  1.60 / 1.45e+00    max:  2.22 / 1.12e+00  


MODEL:  DC080803
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.59 / 4.01e-01    min:  1.28 / 5.57e-01    max:  1.95 / 2.71e-01  
  DV/DT(typ):  1.90 / 1.02e+00    min:  1.60 / 1.29e+00    max:  2.22 / 6.18e-01  


MODEL:  DC040413
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.05 / 1.04e+00    min:  0.81 / 1.21e+00    max:  1.39 / 6.06e-01  
  DV/DT(typ):  1.15 / 1.26e+00    min:  0.92 / 1.39e+00    max:  1.44 / 9.72e-01  


MODEL:  DC040412
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  7.640000E+00
  DV/DT(typ):  1.05 / 1.04e+00    min:  0.81 / 1.21e+00    max:  1.39 / 6.06e-01  
  DV/DT(typ):  1.15 / 1.26e+00    min:  0.92 / 1.39e+00    max:  1.44 / 9.72e-01  


MODEL:  DC040403
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.05 / 2.72e-01    min:  0.81 / 3.67e-01    max:  1.39 / 1.99e-01  
  DV/DT(typ):  1.15 / 6.12e-01    min:  0.92 / 9.48e-01    max:  1.44 / 4.38e-01  


MODEL:  PU08082A
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.100000E+00
  DV/DT(typ):  1.52 / 1.81e+00    min:  1.15 / 2.16e+00    max:  1.92 / 1.42e+00  
  DV/DT(typ):  1.32 / 1.61e+00    min:  0.94 / 1.90e+00    max:  1.80 / 1.35e+00  


MODEL:  PU040413
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.100000E+00
  DV/DT(typ):  1.05 / 1.04e+00    min:  0.81 / 1.21e+00    max:  1.39 / 6.06e-01  
  DV/DT(typ):  1.15 / 1.26e+00    min:  0.92 / 1.39e+00    max:  1.44 / 9.72e-01  


MODEL:  PU040422
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.100000E+00
  DV/DT(typ):  1.04 / 1.60e+00    min:  0.79 / 1.91e+00    max:  1.39 / 1.32e+00  
  DV/DT(typ):  0.91 / 1.46e+00    min:  0.66 / 1.73e+00    max:  1.25 / 1.21e+00  


MODEL:  PU777700
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.061    +0.057   
  V / I(GC) / I(PC):  -1.500000   +0.123    +0.154   
  V / I(GC) / I(PC):  -2.000000   +0.185    +0.252   
  V / I(GC) / I(PC):  -2.500000   +0.247    +0.349   
  C_comp:  5.100000E+00


MODEL:  PU161612
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.100000E+00
  DV/DT(typ):  2.20 / 1.06e+00    min:  1.92 / 1.28e+00    max:  2.49 / 6.50e-01  
  DV/DT(typ):  2.46 / 1.21e+00    min:  2.21 / 1.54e+00    max:  2.70 / 7.70e-01  


MODEL:  SIOAI00000A0S2AJZVMC
  V / I(GC) / I(PC):  -0.500000   +0.002    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.852    +0.375   
  V / I(GC) / I(PC):  -1.500000   +2.220    +0.970   
  V / I(GC) / I(PC):  -2.000000   +3.650    +1.590   
  V / I(GC) / I(PC):  -2.500000   +5.230    +2.275   
  C_comp:  4.280000E+00
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  


MODEL:  SIOAB16160A0S2AZZRUC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.617    +0.749   
  V / I(GC) / I(PC):  -1.500000   +1.580    +1.940   
  V / I(GC) / I(PC):  -2.000000   +2.570    +3.170   
  V / I(GC) / I(PC):  -2.500000   +3.675    +4.545   
  C_comp:  4.280000E+00
  DV/DT(typ):  2.20 / 3.25e-01    min:  1.92 / 4.82e-01    max:  2.49 / 2.10e-01  
  DV/DT(typ):  2.46 / 5.19e-01    min:  2.22 / 8.87e-01    max:  2.70 / 3.00e-01  


MODEL:  SIOAB12211A0S2AZZZZC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +4.150    +1.410   
  V / I(GC) / I(PC):  -1.500000  +12.950    +4.020   
  V / I(GC) / I(PC):  -2.000000  +22.450    +6.780   
  V / I(GC) / I(PC):  -2.500000  +32.770    +9.810   
  C_comp:  4.280000E+00
  DV/DT(typ):  1.95 / 9.04e-01    min:  1.64 / 1.29e+00    max:  2.27 / 5.41e-01  
  DV/DT(typ):  2.61 / 1.18e+00    min:  2.36 / 1.39e+00    max:  2.84 / 8.54e-01  


MODEL:  SIOAI00000A0S2AZKNUC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.426    +0.749   
  V / I(GC) / I(PC):  -1.500000   +1.110    +1.940   
  V / I(GC) / I(PC):  -2.000000   +1.820    +3.170   
  V / I(GC) / I(PC):  -2.500000   +2.620    +4.545   
  C_comp:  4.280000E+00
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  


MODEL:  SIOAB08080A0S2AZZKMB
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.308    +0.374   
  V / I(GC) / I(PC):  -1.500000   +0.788    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.290    +1.590   
  V / I(GC) / I(PC):  -2.500000   +1.840    +2.270   
  C_comp:  3.720000E+00
  DV/DT(typ):  1.59 / 4.09e-01    min:  1.28 / 5.63e-01    max:  1.95 / 2.75e-01  
  DV/DT(typ):  1.89 / 1.01e+00    min:  1.59 / 1.26e+00    max:  2.21 / 5.77e-01  


MODEL:  SIOAB04040A0S2AZZHIB
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.182    +0.238   
  V / I(GC) / I(PC):  -1.500000   +0.452    +0.598   
  V / I(GC) / I(PC):  -2.000000   +0.730    +0.971   
  V / I(GC) / I(PC):  -2.500000   +1.038    +1.385   
  C_comp:  3.720000E+00
  DV/DT(typ):  1.05 / 2.78e-01    min:  0.81 / 3.72e-01    max:  1.39 / 2.04e-01  
  DV/DT(typ):  1.13 / 5.94e-01    min:  0.90 / 8.29e-01    max:  1.42 / 4.13e-01  


MODEL:  SIOAD00161A0S2AJZYUC
  V / I(GC) / I(PC):  -0.500000   +0.002    +0.001   
  V / I(GC) / I(PC):  -1.000000   +1.040    +0.749   
  V / I(GC) / I(PC):  -1.500000   +2.690    +1.940   
  V / I(GC) / I(PC):  -2.000000   +4.400    +3.170   
  V / I(GC) / I(PC):  -2.500000   +6.290    +4.540   
  C_comp:  4.280000E+00
  DV/DT(typ):  2.43 / 2.05e-01    min:  2.21 / 2.59e-01    max:  2.66 / 1.63e-01  
  DV/DT(typ):  2.43 / 1.16e+00    min:  2.18 / 1.44e+00    max:  2.66 / 7.57e-01  


MODEL:  SIOAI00000A0S2AZZNMC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.426    +0.374   
  V / I(GC) / I(PC):  -1.500000   +1.110    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.820    +1.590   
  V / I(GC) / I(PC):  -2.500000   +2.620    +2.270   
  C_comp:  4.280000E+00
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  


MODEL:  SIOAD00161A0S2AZZRUC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.617    +0.749   
  V / I(GC) / I(PC):  -1.500000   +1.580    +1.940   
  V / I(GC) / I(PC):  -2.000000   +2.570    +3.170   
  V / I(GC) / I(PC):  -2.500000   +3.680    +4.540   
  C_comp:  4.280000E+00
  DV/DT(typ):  2.47 / 1.89e-01    min:  2.23 / 2.45e-01    max:  2.71 / 1.45e-01  
  DV/DT(typ):  2.46 / 1.18e+00    min:  2.21 / 1.41e+00    max:  2.70 / 7.69e-01  


MODEL:  SIOAB16161A0S2AZZRUC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.617    +0.749   
  V / I(GC) / I(PC):  -1.500000   +1.580    +1.940   
  V / I(GC) / I(PC):  -2.000000   +2.570    +3.170   
  V / I(GC) / I(PC):  -2.500000   +3.675    +4.545   
  C_comp:  4.280000E+00
  DV/DT(typ):  2.20 / 1.03e+00    min:  1.92 / 1.28e+00    max:  2.49 / 6.18e-01  
  DV/DT(typ):  2.46 / 1.21e+00    min:  2.20 / 1.42e+00    max:  2.70 / 7.71e-01  


MODEL:  SIO_I00000A1K3KZZNMC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.426    +0.374   
  V / I(GC) / I(PC):  -1.500000   +1.110    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.820    +1.590   
  V / I(GC) / I(PC):  -2.500000   +2.620    +2.270   
  C_comp:  4.280000E+00
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  


MODEL:  SIO_I00000A0S2AJZVMC
  V / I(GC) / I(PC):  -0.500000   +0.002    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.852    +0.375   
  V / I(GC) / I(PC):  -1.500000   +2.220    +0.970   
  V / I(GC) / I(PC):  -2.000000   +3.650    +1.590   
  V / I(GC) / I(PC):  -2.500000   +5.230    +2.275   
  C_comp:  4.280000E+00
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  


MODEL:  SIO_B16160A0S2AZZRUC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.617    +0.749   
  V / I(GC) / I(PC):  -1.500000   +1.580    +1.940   
  V / I(GC) / I(PC):  -2.000000   +2.570    +3.170   
  V / I(GC) / I(PC):  -2.500000   +3.675    +4.545   
  C_comp:  4.280000E+00
  DV/DT(typ):  2.20 / 3.25e-01    min:  1.92 / 4.82e-01    max:  2.49 / 2.10e-01  
  DV/DT(typ):  2.46 / 5.19e-01    min:  2.22 / 8.87e-01    max:  2.70 / 3.00e-01  


MODEL:  SIO_B12211A0S2AZZZZC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +4.150    +1.410   
  V / I(GC) / I(PC):  -1.500000  +12.950    +4.020   
  V / I(GC) / I(PC):  -2.000000  +22.450    +6.780   
  V / I(GC) / I(PC):  -2.500000  +32.770    +9.810   
  C_comp:  4.280000E+00
  DV/DT(typ):  1.95 / 8.87e-01    min:  1.64 / 1.29e+00    max:  2.27 / 5.33e-01  
  DV/DT(typ):  2.61 / 1.17e+00    min:  2.36 / 1.39e+00    max:  2.84 / 8.51e-01  


MODEL:  SIO_T08080AXXXXZZKMB
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.308    +0.374   
  V / I(GC) / I(PC):  -1.500000   +0.788    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.290    +1.590   
  V / I(GC) / I(PC):  -2.500000   +1.840    +2.270   
  C_comp:  2.790000E+00
  DV/DT(typ):  1.59 / 4.02e-01    min:  1.28 / 5.57e-01    max:  1.95 / 2.70e-01  
  DV/DT(typ):  1.89 / 1.01e+00    min:  1.59 / 1.26e+00    max:  2.21 / 5.74e-01  


MODEL:  SIO_I00000A0S2AZKNUC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.426    +0.749   
  V / I(GC) / I(PC):  -1.500000   +1.110    +1.940   
  V / I(GC) / I(PC):  -2.000000   +1.820    +3.170   
  V / I(GC) / I(PC):  -2.500000   +2.620    +4.545   
  C_comp:  4.280000E+00
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  


MODEL:  SIO_T04040AXXXXZZHIB
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.182    +0.238   
  V / I(GC) / I(PC):  -1.500000   +0.452    +0.598   
  V / I(GC) / I(PC):  -2.000000   +0.730    +0.971   
  V / I(GC) / I(PC):  -2.500000   +1.038    +1.385   
  C_comp:  2.790000E+00
  DV/DT(typ):  1.05 / 2.72e-01    min:  0.81 / 3.67e-01    max:  1.39 / 1.99e-01  
  DV/DT(typ):  1.13 / 5.89e-01    min:  0.90 / 8.22e-01    max:  1.42 / 4.07e-01  


MODEL:  SIO_O08081AXXXXZZKMB
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  2.790000E+00
  DV/DT(typ):  1.59 / 1.16e+00    min:  1.28 / 1.34e+00    max:  1.95 / 9.79e-01  
  DV/DT(typ):  1.88 / 1.34e+00    min:  1.55 / 1.43e+00    max:  2.21 / 1.16e+00  


MODEL:  SIO_I00000A0S2AZZNMC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.426    +0.374   
  V / I(GC) / I(PC):  -1.500000   +1.110    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.820    +1.590   
  V / I(GC) / I(PC):  -2.500000   +2.620    +2.270   
  C_comp:  4.280000E+00
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  


MODEL:  SIO_D00161A0S2AZZRUC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.617    +0.749   
  V / I(GC) / I(PC):  -1.500000   +1.580    +1.940   
  V / I(GC) / I(PC):  -2.000000   +2.570    +3.170   
  V / I(GC) / I(PC):  -2.500000   +3.680    +4.540   
  C_comp:  4.280000E+00
  DV/DT(typ):  2.47 / 1.89e-01    min:  2.23 / 2.45e-01    max:  2.71 / 1.45e-01  
  DV/DT(typ):  2.46 / 1.18e+00    min:  2.21 / 1.41e+00    max:  2.70 / 7.69e-01  


MODEL:  SIO_B16161A0S2AZZRUC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.617    +0.749   
  V / I(GC) / I(PC):  -1.500000   +1.580    +1.940   
  V / I(GC) / I(PC):  -2.000000   +2.570    +3.170   
  V / I(GC) / I(PC):  -2.500000   +3.675    +4.545   
  C_comp:  4.280000E+00
  DV/DT(typ):  2.20 / 1.03e+00    min:  1.92 / 1.28e+00    max:  2.49 / 6.18e-01  
  DV/DT(typ):  2.46 / 1.21e+00    min:  2.20 / 1.42e+00    max:  2.70 / 7.71e-01  


MODEL:  SI010111
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.640000E+00
  DV/DT(typ):  3.00 / 5.10e-01    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  
  DV/DT(typ):  3.00 / 4.90e-01    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  


MODEL:  SI080823
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.52 / 1.81e+00    min:  1.15 / 2.16e+00    max:  1.92 / 1.42e+00  
  DV/DT(typ):  1.32 / 1.61e+00    min:  0.94 / 1.90e+00    max:  1.80 / 1.35e+00  


MODEL:  SIPU7700
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.061    +0.057   
  V / I(GC) / I(PC):  -1.500000   +0.123    +0.154   
  V / I(GC) / I(PC):  -2.000000   +0.185    +0.252   
  V / I(GC) / I(PC):  -2.500000   +0.247    +0.349   
  C_comp:  3.840000E+00


MODEL:  SI777700
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.061    +0.057   
  V / I(GC) / I(PC):  -1.500000   +0.123    +0.154   
  V / I(GC) / I(PC):  -2.000000   +0.185    +0.252   
  V / I(GC) / I(PC):  -2.500000   +0.247    +0.349   
  C_comp:  3.840000E+00


MODEL:  SI040423
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  5.640000E+00
  DV/DT(typ):  1.04 / 1.60e+00    min:  0.79 / 1.91e+00    max:  1.39 / 1.32e+00  
  DV/DT(typ):  0.91 / 1.46e+00    min:  0.66 / 1.73e+00    max:  1.25 / 1.21e+00  


MODEL:  SI161612
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.060    +0.054   
  V / I(GC) / I(PC):  -1.500000   +0.138    +0.179   
  V / I(GC) / I(PC):  -2.000000   +0.215    +0.303   
  V / I(GC) / I(PC):  -2.500000   +0.293    +0.428   
  C_comp:  7.640000E+00
  DV/DT(typ):  2.20 / 1.06e+00    min:  1.92 / 1.28e+00    max:  2.49 / 6.50e-01  
  DV/DT(typ):  2.46 / 1.21e+00    min:  2.21 / 1.54e+00    max:  2.70 / 7.70e-01  


MODEL:  PCEBI00000A0S2AZZVTC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.762    +0.690   
  V / I(GC) / I(PC):  -1.500000   +2.070    +1.860   
  V / I(GC) / I(PC):  -2.000000   +3.440    +3.080   
  V / I(GC) / I(PC):  -2.500000   +4.955    +4.440   
  C_comp:  4.280000E+00
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  


MODEL:  PCEBO08081AXXXXZZKMB
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  2.790000E+00
  DV/DT(typ):  1.59 / 1.16e+00    min:  1.28 / 1.34e+00    max:  1.95 / 9.79e-01  
  DV/DT(typ):  1.88 / 1.34e+00    min:  1.55 / 1.43e+00    max:  2.21 / 1.16e+00  


MODEL:  PCEBI00000A1K3KZZNMC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.426    +0.374   
  V / I(GC) / I(PC):  -1.500000   +1.110    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.820    +1.590   
  V / I(GC) / I(PC):  -2.500000   +2.620    +2.270   
  C_comp:  4.280000E+00
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  


MODEL:  PCEBB08080A0S2AZZKMB
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.308    +0.374   
  V / I(GC) / I(PC):  -1.500000   +0.788    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.290    +1.590   
  V / I(GC) / I(PC):  -2.500000   +1.840    +2.270   
  C_comp:  3.720000E+00
  DV/DT(typ):  1.59 / 4.09e-01    min:  1.28 / 5.63e-01    max:  1.95 / 2.75e-01  
  DV/DT(typ):  1.89 / 1.01e+00    min:  1.59 / 1.26e+00    max:  2.21 / 5.77e-01  


MODEL:  PCEBT08081AXXXXZZKMB
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.308    +0.374   
  V / I(GC) / I(PC):  -1.500000   +0.788    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.290    +1.590   
  V / I(GC) / I(PC):  -2.500000   +1.840    +2.270   
  C_comp:  3.720000E+00
  DV/DT(typ):  1.59 / 1.15e+00    min:  1.28 / 1.34e+00    max:  1.95 / 9.53e-01  
  DV/DT(typ):  1.87 / 1.32e+00    min:  1.54 / 1.43e+00    max:  2.20 / 1.15e+00  


MODEL:  PCEBT08080AXXXXZZKMB
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.308    +0.374   
  V / I(GC) / I(PC):  -1.500000   +0.788    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.290    +1.590   
  V / I(GC) / I(PC):  -2.500000   +1.840    +2.270   
  C_comp:  2.790000E+00
  DV/DT(typ):  1.59 / 4.02e-01    min:  1.28 / 5.57e-01    max:  1.95 / 2.70e-01  
  DV/DT(typ):  1.89 / 1.01e+00    min:  1.59 / 1.26e+00    max:  2.21 / 5.74e-01  


MODEL:  PCEBI00000A0S2AZZNMC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.426    +0.374   
  V / I(GC) / I(PC):  -1.500000   +1.110    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.820    +1.590   
  V / I(GC) / I(PC):  -2.500000   +2.620    +2.270   
  C_comp:  4.280000E+00
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  


MODEL:  PCEBB16160A0S2AZZRUC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.617    +0.749   
  V / I(GC) / I(PC):  -1.500000   +1.580    +1.940   
  V / I(GC) / I(PC):  -2.000000   +2.570    +3.170   
  V / I(GC) / I(PC):  -2.500000   +3.675    +4.545   
  C_comp:  4.280000E+00
  DV/DT(typ):  2.20 / 3.25e-01    min:  1.92 / 4.82e-01    max:  2.49 / 2.10e-01  
  DV/DT(typ):  2.46 / 5.19e-01    min:  2.22 / 8.87e-01    max:  2.70 / 3.00e-01  


MODEL:  PCEBB12211A0S2AZZZZC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +4.150    +1.410   
  V / I(GC) / I(PC):  -1.500000  +12.950    +4.020   
  V / I(GC) / I(PC):  -2.000000  +22.450    +6.780   
  V / I(GC) / I(PC):  -2.500000  +32.770    +9.810   
  C_comp:  4.280000E+00
  DV/DT(typ):  1.95 / 9.04e-01    min:  1.64 / 1.29e+00    max:  2.27 / 5.41e-01  
  DV/DT(typ):  2.61 / 1.18e+00    min:  2.36 / 1.39e+00    max:  2.84 / 8.54e-01  


MODEL:  PB77770V
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  3.100000E+00


MODEL:  PB777700
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  3.100000E+00


MODEL:  PB060611
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  5.100000E+00
  DV/DT(typ):  1.47 / 3.02e-01    min:  1.23 / 4.19e-01    max:  1.75 / 2.06e-01  
  DV/DT(typ):  1.59 / 4.18e-01    min:  1.33 / 6.54e-01    max:  1.89 / 2.35e-01  


MODEL:  PB06061V
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.47 / 3.02e-01    min:  1.23 / 4.19e-01    max:  1.75 / 2.06e-01  
  DV/DT(typ):  1.59 / 4.18e-01    min:  1.33 / 6.54e-01    max:  1.89 / 2.35e-01  


MODEL:  PB060612
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.47 / 3.02e-01    min:  1.23 / 4.19e-01    max:  1.75 / 2.06e-01  
  DV/DT(typ):  1.59 / 4.18e-01    min:  1.33 / 6.54e-01    max:  1.89 / 2.35e-01  


MODEL:  PB060613
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  5.100000E+00
  DV/DT(typ):  1.47 / 3.02e-01    min:  1.23 / 4.19e-01    max:  1.75 / 2.06e-01  
  DV/DT(typ):  1.59 / 4.18e-01    min:  1.33 / 6.54e-01    max:  1.89 / 2.35e-01  


MODEL:  PB061202
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.85 / 8.52e-01    min:  1.60 / 1.20e+00    max:  2.12 / 5.72e-01  
  DV/DT(typ):  2.42 / 1.01e+00    min:  2.19 / 1.33e+00    max:  2.65 / 6.24e-01  


MODEL:  ESC_I00000A0S2AZKNUC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.426    +0.749   
  V / I(GC) / I(PC):  -1.500000   +1.110    +1.940   
  V / I(GC) / I(PC):  -2.000000   +1.820    +3.170   
  V / I(GC) / I(PC):  -2.500000   +2.620    +4.545   
  C_comp:  4.280000E+00
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  


MODEL:  ESC_O16160AXXXXZZRUC
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  3.720000E+00
  DV/DT(typ):  2.20 / 1.68e-01    min:  1.92 / 2.36e-01    max:  2.49 / 1.16e-01  
  DV/DT(typ):  2.46 / 4.09e-01    min:  2.23 / 6.42e-01    max:  2.70 / 2.56e-01  


MODEL:  ESC_B08080A0S2AZZKMB
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.308    +0.374   
  V / I(GC) / I(PC):  -1.500000   +0.788    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.290    +1.590   
  V / I(GC) / I(PC):  -2.500000   +1.840    +2.270   
  C_comp:  3.720000E+00
  DV/DT(typ):  1.59 / 4.09e-01    min:  1.28 / 5.63e-01    max:  1.95 / 2.75e-01  
  DV/DT(typ):  1.89 / 1.01e+00    min:  1.59 / 1.26e+00    max:  2.21 / 5.77e-01  


MODEL:  ESC_B16162A0S2AZKRYC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.002   
  V / I(GC) / I(PC):  -1.000000   +0.617    +1.120   
  V / I(GC) / I(PC):  -1.500000   +1.580    +2.910   
  V / I(GC) / I(PC):  -2.000000   +2.570    +4.760   
  V / I(GC) / I(PC):  -2.500000   +3.675    +6.815   
  C_comp:  4.280000E+00
  DV/DT(typ):  1.71 / 1.49e+00    min:  1.08 / 1.64e+00    max:  2.26 / 1.22e+00  
  DV/DT(typ):  1.66 / 1.44e+00    min:  1.04 / 1.57e+00    max:  2.29 / 1.25e+00  


MODEL:  ESC_I00000A1K3KZKNUC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.426    +0.749   
  V / I(GC) / I(PC):  -1.500000   +1.110    +1.940   
  V / I(GC) / I(PC):  -2.000000   +1.820    +3.170   
  V / I(GC) / I(PC):  -2.500000   +2.620    +4.545   
  C_comp:  4.280000E+00
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  


MODEL:  ESC_D00161A0S2AZZRUC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.617    +0.749   
  V / I(GC) / I(PC):  -1.500000   +1.580    +1.940   
  V / I(GC) / I(PC):  -2.000000   +2.570    +3.170   
  V / I(GC) / I(PC):  -2.500000   +3.680    +4.540   
  C_comp:  4.280000E+00
  DV/DT(typ):  2.47 / 1.89e-01    min:  2.23 / 2.45e-01    max:  2.71 / 1.45e-01  
  DV/DT(typ):  2.46 / 1.18e+00    min:  2.21 / 1.41e+00    max:  2.70 / 7.69e-01  


MODEL:  ESC_O08081AXXXXZZKMB
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  2.790000E+00
  DV/DT(typ):  1.59 / 1.16e+00    min:  1.28 / 1.34e+00    max:  1.95 / 9.79e-01  
  DV/DT(typ):  1.88 / 1.34e+00    min:  1.55 / 1.43e+00    max:  2.21 / 1.16e+00  


MODEL:  ESC_I00000A1K3KZZNMC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.426    +0.374   
  V / I(GC) / I(PC):  -1.500000   +1.110    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.820    +1.590   
  V / I(GC) / I(PC):  -2.500000   +2.620    +2.270   
  C_comp:  4.280000E+00
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  


MODEL:  ESC_T04041AXXXXZZHIB
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.182    +0.238   
  V / I(GC) / I(PC):  -1.500000   +0.452    +0.598   
  V / I(GC) / I(PC):  -2.000000   +0.730    +0.971   
  V / I(GC) / I(PC):  -2.500000   +1.038    +1.385   
  C_comp:  2.790000E+00
  DV/DT(typ):  1.05 / 1.04e+00    min:  0.81 / 1.21e+00    max:  1.39 / 6.05e-01  
  DV/DT(typ):  1.13 / 1.25e+00    min:  0.90 / 1.41e+00    max:  1.42 / 9.40e-01  


MODEL:  ESC_I00000A0S2AZZNMC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.426    +0.374   
  V / I(GC) / I(PC):  -1.500000   +1.110    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.820    +1.590   
  V / I(GC) / I(PC):  -2.500000   +2.620    +2.270   
  C_comp:  4.280000E+00
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  
  DV/DT(typ):  0.00 / 0.00e+00    min:  0.00 / 0.00e+00    max:  0.00 / 0.00e+00  


MODEL:  ESC_B08081A0S2AZZKMB
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.308    +0.374   
  V / I(GC) / I(PC):  -1.500000   +0.788    +0.969   
  V / I(GC) / I(PC):  -2.000000   +1.290    +1.590   
  V / I(GC) / I(PC):  -2.500000   +1.840    +2.270   
  C_comp:  3.720000E+00
  DV/DT(typ):  1.59 / 1.16e+00    min:  1.28 / 1.34e+00    max:  1.95 / 9.53e-01  
  DV/DT(typ):  1.87 / 1.32e+00    min:  1.54 / 1.44e+00    max:  2.20 / 1.15e+00  


MODEL:  ESC_B16161A0S2AZZRUC
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.001   
  V / I(GC) / I(PC):  -1.000000   +0.617    +0.749   
  V / I(GC) / I(PC):  -1.500000   +1.580    +1.940   
  V / I(GC) / I(PC):  -2.000000   +2.570    +3.170   
  V / I(GC) / I(PC):  -2.500000   +3.675    +4.545   
  C_comp:  4.280000E+00
  DV/DT(typ):  2.20 / 1.03e+00    min:  1.92 / 1.28e+00    max:  2.49 / 6.18e-01  
  DV/DT(typ):  2.46 / 1.21e+00    min:  2.20 / 1.42e+00    max:  2.70 / 7.71e-01  


MODEL:  ES121201
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  5.100000E+00
  DV/DT(typ):  2.03 / 4.39e-01    min:  1.79 / 6.36e-01    max:  2.29 / 2.86e-01  
  DV/DT(typ):  2.42 / 5.62e-01    min:  2.19 / 9.30e-01    max:  2.65 / 3.58e-01  


MODEL:  ES080803
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  5.100000E+00
  DV/DT(typ):  1.92 / 4.69e-01    min:  1.67 / 6.60e-01    max:  2.18 / 3.13e-01  
  DV/DT(typ):  2.20 / 5.56e-01    min:  1.95 / 9.42e-01    max:  2.45 / 3.40e-01  


MODEL:  ES060611
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  5.100000E+00
  DV/DT(typ):  1.47 / 3.02e-01    min:  1.23 / 4.19e-01    max:  1.75 / 2.06e-01  
  DV/DT(typ):  1.59 / 4.18e-01    min:  1.33 / 6.54e-01    max:  1.89 / 2.35e-01  


MODEL:  ES06061V
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.47 / 3.02e-01    min:  1.23 / 4.19e-01    max:  1.75 / 2.06e-01  
  DV/DT(typ):  1.59 / 4.18e-01    min:  1.33 / 6.54e-01    max:  1.89 / 2.35e-01  


MODEL:  ES060612
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.47 / 3.02e-01    min:  1.23 / 4.19e-01    max:  1.75 / 2.06e-01  
  DV/DT(typ):  1.59 / 4.18e-01    min:  1.33 / 6.54e-01    max:  1.89 / 2.35e-01  


MODEL:  ES77770V
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  3.100000E+00


MODEL:  ES777700
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  3.100000E+00


MODEL:  ES060613
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  5.100000E+00
  DV/DT(typ):  1.47 / 3.02e-01    min:  1.23 / 4.19e-01    max:  1.75 / 2.06e-01  
  DV/DT(typ):  1.59 / 4.18e-01    min:  1.33 / 6.54e-01    max:  1.89 / 2.35e-01  


MODEL:  ES061202
  V / I(GC) / I(PC):  -0.500000   +0.001    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.084    +0.036   
  V / I(GC) / I(PC):  -1.500000   +0.439    +0.211   
  V / I(GC) / I(PC):  -2.000000   +0.793    +0.387   
  V / I(GC) / I(PC):  -2.500000   +1.148    +0.562   
  C_comp:  7.100000E+00
  DV/DT(typ):  1.85 / 8.52e-01    min:  1.60 / 1.20e+00    max:  2.12 / 5.72e-01  
  DV/DT(typ):  2.42 / 1.01e+00    min:  2.19 / 1.33e+00    max:  2.65 / 6.24e-01  


MODEL:  CGS701V_Tristate
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +1.223    +0.894   
  V / I(GC) / I(PC):  -1.500000   +4.256    +2.874   
  V / I(GC) / I(PC):  -2.000000   +7.435    +4.940   
  V / I(GC) / I(PC):  -2.500000  +10.660    +7.032   
  C_comp:  5.900000E-01
  DV/DT(typ):  2.51 / 1.60e-01    min:  2.08 / 2.40e-01    max:  2.90 / 1.30e-01  
  DV/DT(typ):  2.55 / 2.40e-01    min:  2.10 / 3.70e-01    max:  2.95 / 1.60e-01  


MODEL:  CGS701V_Input
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.382    +0.424   
  V / I(GC) / I(PC):  -1.500000   +1.328    +1.364   
  V / I(GC) / I(PC):  -2.000000   +2.320    +2.344   
  V / I(GC) / I(PC):  -2.500000   +3.325    +3.337   
  C_comp:  5.800000E-01


MODEL:  CGS700V_Tristate
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +1.223    +0.894   
  V / I(GC) / I(PC):  -1.500000   +4.256    +2.874   
  V / I(GC) / I(PC):  -2.000000   +7.435    +4.940   
  V / I(GC) / I(PC):  -2.500000  +10.660    +7.032   
  C_comp:  5.900000E-01
  DV/DT(typ):  2.51 / 1.60e-01    min:  2.08 / 2.40e-01    max:  2.90 / 1.30e-01  
  DV/DT(typ):  2.55 / 2.40e-01    min:  2.10 / 3.70e-01    max:  2.95 / 1.60e-01  


MODEL:  CGS700V_Input
  V / I(GC) / I(PC):  -0.500000   +0.000    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.382    +0.424   
  V / I(GC) / I(PC):  -1.500000   +1.328    +1.364   
  V / I(GC) / I(PC):  -2.000000   +2.320    +2.344   
  V / I(GC) / I(PC):  -2.500000   +3.325    +3.337   
  C_comp:  5.800000E-01


MODEL:  IN1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  2.600000E+00


MODEL:  OUT_ED3
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  2.600000E+00
  DV/DT(typ):  1.98 / 1.17e+00    min:  1.80 / 1.80e+00    max:  2.22 / 5.40e-01  
  DV/DT(typ):  1.98 / 1.08e+00    min:  1.80 / 1.68e+00    max:  2.22 / 4.80e-01  


MODEL:  OUT_ED2
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  2.600000E+00
  DV/DT(typ):  1.98 / 1.17e+00    min:  1.80 / 1.80e+00    max:  2.22 / 5.40e-01  
  DV/DT(typ):  1.98 / 1.08e+00    min:  1.80 / 1.68e+00    max:  2.22 / 4.80e-01  


MODEL:  OUT_ED1
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  2.600000E+00
  DV/DT(typ):  1.98 / 1.17e+00    min:  1.80 / 1.80e+00    max:  2.22 / 5.40e-01  
  DV/DT(typ):  1.98 / 1.08e+00    min:  1.80 / 1.68e+00    max:  2.22 / 4.80e-01  


MODEL:  CGS2537V_OutputB
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.900000E-01
  DV/DT(typ):  1.47 / 2.80e-01    min:  1.36 / 2.80e-01    max:  1.59 / 2.80e-01  
  DV/DT(typ):  2.29 / 2.00e-01    min:  2.21 / 1.90e-01    max:  2.36 / 2.10e-01  


MODEL:  CGS2537V_OutputA
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.900000E-01
  DV/DT(typ):  1.47 / 2.80e-01    min:  1.36 / 2.80e-01    max:  1.59 / 2.70e-01  
  DV/DT(typ):  2.29 / 2.00e-01    min:  2.21 / 1.90e-01    max:  2.36 / 2.10e-01  


MODEL:  CGS2537V_OutputD
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.900000E-01
  DV/DT(typ):  1.47 / 2.70e-01    min:  1.36 / 2.80e-01    max:  1.59 / 2.70e-01  
  DV/DT(typ):  2.29 / 2.00e-01    min:  2.21 / 1.90e-01    max:  2.36 / 2.10e-01  


MODEL:  CGS2537V_OutputC
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.900000E-01
  DV/DT(typ):  1.47 / 2.90e-01    min:  1.36 / 2.80e-01    max:  1.59 / 2.80e-01  
  DV/DT(typ):  2.29 / 2.00e-01    min:  2.21 / 1.90e-01    max:  2.36 / 2.10e-01  


MODEL:  CGS2537V_Input
  V / I(GC) / I(PC):  -0.500000   +0.004    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.095    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.203    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.313    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.423    +0.000   
  C_comp:  5.800000E-01


MODEL:  CGS2536V_OutputB
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.900000E-01
  DV/DT(typ):  1.57 / 3.60e-01    min:  1.44 / 5.70e-01    max:  1.73 / 2.80e-01  
  DV/DT(typ):  1.57 / 3.50e-01    min:  1.46 / 4.40e-01    max:  1.68 / 2.80e-01  


MODEL:  CGS2536V_OutputA
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.900000E-01
  DV/DT(typ):  1.57 / 3.60e-01    min:  1.44 / 5.60e-01    max:  1.73 / 2.70e-01  
  DV/DT(typ):  1.57 / 3.40e-01    min:  1.46 / 4.30e-01    max:  1.68 / 2.70e-01  


MODEL:  CGS2536V_OutputD
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.900000E-01
  DV/DT(typ):  1.57 / 3.60e-01    min:  1.44 / 5.60e-01    max:  1.73 / 2.70e-01  
  DV/DT(typ):  1.57 / 3.40e-01    min:  1.46 / 4.30e-01    max:  1.68 / 2.70e-01  


MODEL:  CGS2536V_OutputC
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.900000E-01
  DV/DT(typ):  1.57 / 3.60e-01    min:  1.44 / 5.70e-01    max:  1.73 / 2.80e-01  
  DV/DT(typ):  1.57 / 3.50e-01    min:  1.46 / 4.40e-01    max:  1.68 / 2.80e-01  


MODEL:  CGS2536V_Input
  V / I(GC) / I(PC):  -0.500000   +0.004    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.095    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.203    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.313    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.423    +0.000   
  C_comp:  5.800000E-01


MODEL:  CGS2535V_OutputB
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.900000E-01
  DV/DT(typ):  1.57 / 3.60e-01    min:  1.44 / 5.70e-01    max:  1.73 / 2.80e-01  
  DV/DT(typ):  1.57 / 3.50e-01    min:  1.46 / 4.40e-01    max:  1.68 / 2.80e-01  


MODEL:  CGS2535V_OutputA
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.900000E-01
  DV/DT(typ):  1.57 / 3.60e-01    min:  1.44 / 5.60e-01    max:  1.73 / 2.70e-01  
  DV/DT(typ):  1.57 / 3.40e-01    min:  1.46 / 4.30e-01    max:  1.68 / 2.70e-01  


MODEL:  CGS2535V_OutputD
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.900000E-01
  DV/DT(typ):  1.57 / 3.60e-01    min:  1.44 / 5.60e-01    max:  1.73 / 2.70e-01  
  DV/DT(typ):  1.57 / 3.40e-01    min:  1.46 / 4.30e-01    max:  1.68 / 2.70e-01  


MODEL:  CGS2535V_OutputC
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.900000E-01
  DV/DT(typ):  1.57 / 3.60e-01    min:  1.44 / 5.70e-01    max:  1.73 / 2.80e-01  
  DV/DT(typ):  1.57 / 3.50e-01    min:  1.46 / 4.40e-01    max:  1.68 / 2.80e-01  


MODEL:  CGS2535V_Input
  V / I(GC) / I(PC):  -0.500000   +0.004    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.095    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.203    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.313    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.423    +0.000   
  C_comp:  5.800000E-01


MODEL:  CGS2534V_OutputB
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.900000E-01
  DV/DT(typ):  1.63 / 2.80e-01    min:  1.50 / 2.80e-01    max:  1.75 / 2.70e-01  
  DV/DT(typ):  2.59 / 2.00e-01    min:  2.52 / 2.00e-01    max:  2.67 / 2.10e-01  


MODEL:  CGS2534V_OutputA
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.900000E-01
  DV/DT(typ):  1.63 / 2.80e-01    min:  1.50 / 2.70e-01    max:  1.75 / 2.70e-01  
  DV/DT(typ):  2.59 / 2.00e-01    min:  2.52 / 2.00e-01    max:  2.67 / 2.10e-01  


MODEL:  CGS2534V_OutputD
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.900000E-01
  DV/DT(typ):  1.63 / 2.70e-01    min:  1.50 / 2.70e-01    max:  1.75 / 2.70e-01  
  DV/DT(typ):  2.59 / 2.00e-01    min:  2.52 / 2.00e-01    max:  2.67 / 2.20e-01  


MODEL:  CGS2534V_OutputC
  V / I(GC) / I(PC):  -0.500000    N/A        N/A      
  V / I(GC) / I(PC):  -1.000000    N/A        N/A      
  V / I(GC) / I(PC):  -1.500000    N/A        N/A      
  V / I(GC) / I(PC):  -2.000000    N/A        N/A      
  V / I(GC) / I(PC):  -2.500000    N/A        N/A      
  C_comp:  5.900000E-01
  DV/DT(typ):  1.63 / 2.80e-01    min:  1.50 / 2.80e-01    max:  1.75 / 2.80e-01  
  DV/DT(typ):  2.59 / 2.00e-01    min:  2.52 / 2.00e-01    max:  2.67 / 2.10e-01  


MODEL:  CGS2534V_Input
  V / I(GC) / I(PC):  -0.500000   +0.004    +0.000   
  V / I(GC) / I(PC):  -1.000000   +0.095    +0.000   
  V / I(GC) / I(PC):  -1.500000   +0.203    +0.000   
  V / I(GC) / I(PC):  -2.000000   +0.313    +0.000   
  V / I(GC) / I(PC):  -2.500000   +0.423    +0.000   
  C_comp:  5.800000E-01


<EOF>

From owner-ibis  Fri Jun 28 11:28:04 1996
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Date: Fri, 28 Jun 1996 11:17:49 -0700
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Organization: VLSI Technology Inc.
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One of the less-desirable aspects of the way many IBIS
models are published is that there is relatively little
feedback on the model; it tends to be a write-only
affair at the silicon vendor's end.

We're taking a step towards fixing that by including
the IBIS models in our ISO9000 process model as the
official DC test spec to Manufacturing.  Is this
something worth following up with recognized formal
compliance levels?

-- 
D. C. Sessions
dc.sessions@tempe.vlsi.com

From owner-ibis  Fri Jun 28 13:55:14 1996
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From: Will Hobbs <Will_Hobbs@ccm.jf.intel.com>
Message-ID: <Fri, 28 Jun 96 13:45:03 PDT_2@ccm.jf.intel.com>
To: owner-ibis@vhdl.org, ibis@vhdl.org
Subject: Re: Closing the loop


Text item: 

D.C.,

I am in accord with your concept. However, one of the problems we 
encounter whenever we look at testing to the IBIS model is how many 
points of a V/I table are sufficient? How do you test a non-linear ramp? 
In other words, there are essential parts of the model that are either 
very time-consuming to cover or difficult to do on existing testers, or 
both. I look forward to hearing some of the results of your 
investigation, and applaud the idea.

Regards,

Will Hobbs
Intel Corp.

One of the less-desirable aspects of the way many IBIS 
models are published is that there is relatively little 
feedback on the model; it tends to be a write-only 
affair at the silicon vendor's end.

We're taking a step towards fixing that by including 
the IBIS models in our ISO9000 process model as the 
official DC test spec to Manufacturing.  Is this 
something worth following up with recognized formal 
compliance levels?

--
D. C. Sessions
dc.sessions@tempe.vlsi.com

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Subject: Closing the loop
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From: "D.C. Sessions" <dc.sessions@tempe.vlsi.com>
Date: Fri, 28 Jun 1996 11:17:49 -0700
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