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ICCAD
2006
IEEE
2006
IEEE
Faster, parametric trajectory-based macromodels via localized linear reductions
— Trajectory-based methods offer an attractive methodology for automated, on-demand generation of macromodels for custom circuits. These models are generated by sampling the state trajectory of a circuit as it simulates in the time domain, and building macromodels by reducing and interpolating among the linearizations created at a suitably spaced subset of the time points visited during training simulations. However, a weak point in conventional trajectory models is the reliance on a single, global reduction matrix for the state space. We develop a new, faster method that generates and weaves together a larger set of smaller localized linearizations for the trajectory samples. The method not only improves speedups to 30X over SPICE, but as a side benefit also provides a platform for parametric small-signal simulation of circuits with variational device/process parameters, at a speedup of roughly 200X over SPICE.
Real-time TrafficConventional Trajectory Models | Hardware | ICCAD 2006 | Smaller Localized Linearizations | State Trajectory |
| Added | 16 Mar 2010 |
| Updated | 16 Mar 2010 |
| Type | Conference |
| Year | 2006 |
| Where | ICCAD |
| Authors | Saurabh K. Tiwary, Rob A. Rutenbar |
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