最小化高性能同步电路对延迟变化的灵敏度

Design, Automation and Test in Europe Conference and Exhibition, 1999. Proceedings (Cat. No. PR00078) Pub Date : 1999-01-01 DOI:10.1145/307418.307581

Xun Liu, M. Papaefthymiou, E. Friedman

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引用次数: 4

摘要

为了提高同步电路对延迟变化的容忍度，本文研究了重定时和时钟偏差调度。结果表明，当考虑长路径和短路径时，两种方法联合优化的电路比单独使用两种方法优化的电路更能容忍延迟变化。在设置和保持约束下，给出了具有目标时钟周期和容差的同步重定时和时钟调度的一种新的混合整数线性规划公式。在LGSynth93和ISCAS89基准电路上的实验验证了组合优化的有效性。对于一半的测试电路，延迟变化的容忍度比重新定时和时钟调度的单独应用至少增加了23%。此外，对于三分之二的测试电路，最大容差提高了至少11%。

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Minimizing sensitivity to delay variations in high-performance synchronous circuits

This paper investigates retiming and clock skew scheduling for improving the tolerance of synchronous circuits to delay variations. It is shown that when both long and short paths are considered, circuits optimized by the combined application of the two techniques are more tolerant to delay variations than when optimized by either of the two techniques separately. A novel mixed-integer linear programming formulation is given for simultaneous retiming and clock scheduling with a target clock period and tolerance under setup and hold constraints. Experiments with LGSynth93 and ISCAS89 benchmark circuits demonstrate the effectiveness of the combined optimization. For half of the test circuits, tolerance to delay variations increased by at least 23% over the separate application of retiming and clock scheduling. Moreover, for two thirds of the test circuits, maximum tolerance improved by at least 11%.

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Design, Automation and Test in Europe Conference and Exhibition, 1999. Proceedings (Cat. No. PR00078)

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