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DAC
2005
ACM
2005
ACM
An efficient algorithm for statistical minimization of total power under timing yield constraints
Power minimization under variability is formulated as a rigorous statistical robust optimization program with a guarantee of power and timing yields. Both power and timing metrics are treated probabilistically. Power reduction is performed by simultaneous sizing and dual threshold voltage assignment. An extremely fast run-time is achieved by casting the problem as a second-order conic problem and solving it using efficient interior-point optimization methods. When compared to the deterministic optimization, the new algorithm, on average, reduces static power by 31% and total power by 17% without the loss of parametric yield. The run time on a variety of public and industrial benchmarks is 30X faster than other known statistical power minimization algorithms. Categories and Subject Descriptors B.6.3 [Design Aids] General Terms Algorithms, performance, design, reliability Keywords Leakage, manufacturability, statistical optimization
Real-time TrafficDAC 2005 | Design Automation | Reduces Static Power | Statistical Power Minimization | Statistical Robust Optimization |
| Added | 13 Nov 2009 |
| Updated | 13 Nov 2009 |
| Type | Conference |
| Year | 2005 |
| Where | DAC |
| Authors | Murari Mani, Anirudh Devgan, Michael Orshansky |
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