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ASPDAC
2010
ACM
2010
ACM
A fast analog mismatch analysis by an incremental and stochastic trajectory piecewise linear macromodel
To cope with an increasing complexity when analyzing analog mismatch in sub-90nm designs, this paper presents a fast non-MonteCarlo method to calculate mismatch in time domain. The local random mismatch is described by a noise source with an explicit dependence on geometric parameters, and is further expanded by stochastic orthogonal polynomials (SOPs). This forms a stochastic differential-algebra-equation (SDAE). To deal with large-scale problems, the SDAE is linearized at a number of snapshots along the nominal transient trajectory, and hence is naturally embedded into a trajectory-piecewise-linear (TPWL) macromodeling. The TPWL is improved with a novel incremental aggregation of subspaces identified at those snapshots. Experiments show that the proposed method, isTPWL, is hundreds of times faster than MonteCarlo method with a similar accuracy. In addition, our macromodel further reduces runtime by up to 25X, and is faster to build and more accurate to simulate compared to existing ...
Real-time TrafficASPDAC 2010 | Fast Non-MonteCarlo Method | Hardware | Local Random Mismatch | Stochastic Orthogonal Polynomials |
| Added | 10 Feb 2011 |
| Updated | 10 Feb 2011 |
| Type | Journal |
| Year | 2010 |
| Where | ASPDAC |
| Authors | Hao Yu, Xuexin Liu, Hai Wang, Sheldon X.-D. Tan |
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