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As integrated circuits continue to increase in complexity and devices continue to decrease in size, more sophisticated modeling and simulation techniques are necessary to support designers. This session presents four papers describing a new modeling framework, new behavioral modeling techniques, and a new method of realizing impedance matching networks with lossy passive elements.
As integrated circuits become larger scale and more complex, more sophisticated simulation techniques are being developed for scalable analysis of variability, nonlinearity and sensitivity. This session presents three papers describing new simulation techniques with applications to a wide variety of circuits, including amplifiers, oscillators, PLLs and MEMS devices.
As integrated circuits become more complex and more difficult to design and verify prior to fabrication, evermore sophisticated simulation techniques are being developed to meet the design challenges, with particular emphasis on behavioral modeling and simulation. This session presents five papers describing new simulation techniques for analog mixed-signal systems.
Although many circuits can be efficiently analyzed by the general algorithms available in SPICE-like circuit simulators, there are certain classes of problems where brute-force simulation is not useful. One such problem is analyzing the effect of noise on switching circuits, where the probability of encountering an issue is so low that the simulation times needed to catch problems is prohibitively...
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