采用霍夫曼风格编码的低功耗FSM设计

Proceedings European Design and Test Conference. ED & TC 97 Pub Date : 1997-03-17 DOI:10.1109/EDTC.1997.582410

P. Surti, L. Chao, A. Tyagi

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引用次数: 27

摘要

提出了一种利用非均匀码长合成低功率fsm的新方法。通过减少交换状态比特的期望数(小于[log |S|])来减少交换活动。基于极限状态概率，将FSM的状态集S分解为两组。非常高概率的状态集被编码为小于[log|S|]位。另一个状态集可能性较小，使用多于[log|S|]位进行编码。据我们所知，这是第一次为一个状态机使用两个代码长度。这种编码是用带门控时钟的触发器实现的。产生时钟使能信号的逻辑只使用一个分钟。以低功耗、低面积为目标的任意等长编码算法都可以对状态集进行编码。实验表明，两种编码算法的平均功耗分别降低了13%和18%。

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Low power FSM design using Huffman-style encoding

This paper presents a novel approach to synthesize low power FSMs using non-uniform code length. Switching activity is reduced by decreasing the expected number of state bits switched less than [log |S|] The state set S of the FSM is decomposed into two sets based on the limit state probabilities. The state set with very high probability is encoded with less than [log|S|] bits. The other state set, being less probable, is encoded using more than [log|S|] bits. To the best of our knowledge, this is the first time two code lengths ore used for one state machine. This encoding is realized by using flip-flops with gated clock. The logic generating the enable signal of the clock uses only a single minterm. The state sets can be encoded using any uniform-length encoding algorithm with objectives of low power and low area. The experiments show an average of 13% and 18% reduction in power for two encoding algorithms respectively.

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Proceedings European Design and Test Conference. ED & TC 97

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