Exploring the energy efficiency of Multispeculative Adders

2013 IEEE 31st International Conference on Computer Design (ICCD) Pub Date : 2013-11-07 DOI:10.1109/ICCD.2013.6657058

Alberto A. Del Barrio, R. Hermida, S. Memik

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引用次数: 14

Abstract

Variable Latency Adders are attracting strong interest for increasing performance at a low cost. However, most of the literature is focused on achieving a good area-delay tradeoff. In this paper we consider multispeculation as an alternative for designing adders with low energy consumption, while offering better performance than the corresponding non-speculative ones. Instead of introducing more logic to accelerate the computation, the adder is split into several fragments which operate in parallel, and whose carry-in signals are provided by predictor units. On the one hand, the critical path of the module is shortened, and on the other hand the frequent useless glitches produced in the carry propagation structure are diminished. Hence, this will be translated into an overall energy reduction. Several experiments have been performed with linear and logarithmic adders, and results show energy savings by up to 90% and 70%, respectively, while achieving an additional execution time decrease. Furthermore, when utilized in whole datapaths with current control techniques, it is possible to reduce execution time by 24.5% (34% best case) and energy by 32% (48% best case) on average.

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探索多投机加法器的能源效率

可变延迟加法器因其以低成本提高性能而引起了人们的强烈兴趣。然而，大多数文献都集中在实现良好的区域延迟权衡上。在本文中，我们考虑多投机作为设计低能耗加法器的替代方案，同时提供比相应的非投机加法器更好的性能。加法器没有引入更多的逻辑来加速计算，而是被分成几个并行运行的片段，其携带的信号由预测单元提供。一方面缩短了模块的关键路径，另一方面减少了载波传播结构中频繁产生的无用故障。因此，这将转化为整体能源的减少。使用线性加法器和对数加法器进行了一些实验，结果表明，在实现额外的执行时间减少的同时，分别节省了高达90%和70%的能源。此外，当使用当前的控制技术在整个数据路径中使用时，平均可以减少24.5%的执行时间(34%的最佳情况)和32%的能量(48%的最佳情况)。

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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2013 IEEE 31st International Conference on Computer Design (ICCD)

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