A variation-tolerant scheduler for better than worst-case behavioral synthesis

J. Cong, Albert Liu, B. Liu
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引用次数: 8

Abstract

There has been a recent shift in design paradigms, with many turning towards yield-driven approaches to synthesize and design systems. A major cause of this shift is the continual scaling of transistors, making process variation impossible to ignore. Better than worst-case (BTW) designs also exploit these variation effects, while also addressing performance limits due to worst-case analysis. In this paper we first present the variation-tolerant stallable-FSM architecture, which provides fault detection and recovery, allowing circuits to be clocked at better than worst-case delays. Then we propose the BTW scheduler, a 0-1 integer linear programming (ILP) scheduling algorithm with the objective of minimizing the expected latency, to provide a high-level synthesis aid for the stallable-FSM architecture. We implemented the algorithm and ran it through many benchmarks, comparing the results with scheduling algorithms based on worst-case analysis. Our results were promising, showing up to 41% latency reduction for the BTW scheduler, and up to 43% latency reduction when combined with the variation-tolerant architecture.
一个比最坏情况下的行为综合更好的可变容错调度程序
最近设计范式发生了转变,许多人转向以产量为导向的方法来综合和设计系统。这种转变的一个主要原因是晶体管的不断缩小,使得工艺变化不可忽视。优于最坏情况(BTW)的设计也利用了这些变化效应,同时也解决了最坏情况分析带来的性能限制。在本文中,我们首先提出了一种容错的稳态fsm架构,它提供了故障检测和恢复,允许电路在比最坏情况下的延迟更好的情况下进行时钟。然后,我们提出了BTW调度算法,一种以最小化期望延迟为目标的0-1整数线性规划(ILP)调度算法,为可运行fsm架构提供了高级的综合辅助。我们实现了该算法并运行了许多基准测试,将结果与基于最坏情况分析的调度算法进行了比较。我们的结果很有希望,BTW调度器的延迟减少了41%,当与容忍变化的架构结合使用时,延迟减少了43%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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