Hello, I think Mike raises a good point. This comment actually reminded me to something else that I have seen in the past. When the incoming signal causes the input receiver to switch, there will be some current flowing, similar to the pre-driver current we have seen in the Sigrity presentation in the last Summit. This BIRD's I-t tables are all supposed to be time correlated with the V-t curves of drivers. There is no provision in this BIRD for inputs. Are we ignoring something that may rotationally be an important effect for power delivery noise simulations? If we decided to address this, what should the I-t curves be time correlated with for receivers? The only thing I can think of right now is the threshold crossing. Does anyone feel that we should make provisions for accounting for the switching currents of receivers also? Regarding the "sinking feeling" comments on the bottom, are you saying that you are an *-AMS advocate vs. macro modeling? Arpad ==================================================================== -----Original Message----- From: owner-ibis@eda.org [mailto:owner-ibis@eda.org] On Behalf Of Mike LaBonte Sent: Wednesday, March 30, 2005 8:14 AM To: 'ibis' Subject: RE: [IBIS] BIRD95.3: Power Integrity Analysis using IBIS I find this paragraph of BIRD95.3 worthy of discussion: | These keywords might not have any effect for the Model_type | settings of Input, Input_diff, Terminator, Series, and | Series_switch. These settings do not have a driver mode of | operation. The analysis that lead to it is given: 6) Z_VDDDQ subparams and placement under Model_type - Bob Ross/John Angulo Added statement that the new keywords might not be used for Input, Terminator, Series, Series Switch, Input_diff model_type. The positioning of [Composite Current] under the [Rising Waveform] and [Falling Waveform] keywords already constrain that it is used only where the waveform tables are used. This implies that the RLC+G circuit connecting the power and ground rails inside the black box might not be present in an input model. I don't see why. That predriver and bypass circuitry exists in inputs, and will cause power and ground currents when the power-to-ground voltage changes due to external influence, even in an input. Is the simulator expected to selectively ignore the elements based on whether or not an IO or 3-state buffer is enabled? My opinion is that the IBIS specification should not use the word "might" in any place that "might" cause 2 simulators to behave differently. The elements should be absolutely present for almost any model type if they are specified. The only exceptions would be the Series types, which do not have power and ground connections; all BIRD95 keywords should be illegal for those. My apologies if I am jumping in late on something that has already been discussed. I saw nothing about this change on the reflector. While I'm at it I just have to mention the sinking feeling I get when I read of new IBIS keywords that predefine structural elements that are simply R, L, C, and G. It's just a shame that we are still going down that path and not prescribing flexible circuit models, especially considering that simulators will probably just apply the keyword values to a template in the tool's own flexible macromodel-type language. Mike LaBonte ----------------------------------------------------------------- |For help or to subscribe/unsubscribe, email majordomo@eda.org |with the appropriate command message(s) in the body: | | help | subscribe ibis <optional e-mail address, if different> | subscribe ibis-users <optional e-mail address, if different> | unsubscribe ibis <optional e-mail address, if different> | unsubscribe ibis-users <optional e-mail address, if different> | |or email a request to ibis-request@eda.org. | |IBIS reflector archives exist under: | | http://www.eda.org/pub/ibis/email_archive/ Recent | http://www.eda.org/pub/ibis/users_archive/ Recent | http://www.eda.org/pub/ibis/email/ E-mail since 1993Received on Wed Mar 30 08:46:28 2005
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