Energy-efficient High-level Synthesis for HDR Architecture with Multi-stage Clock Gating

Hiroyuki Akasaka, Shin-ya Abe, M. Yanagisawa, N. Togawa
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Abstract

With the miniaturization and high performance of current and future LSIs, demand for portable devices has much more increased. Especially the problems of battery runtime and device overheating have occurred. In addition, with the downsize of the LSI design process, the ratio of an interconnection delay to a gate delay has continued to increase. High-level synthesis to estimate the interconnection delays and reduce energy consumption is essential. In this paper, we propose a high-level synthesis algorithm based on HDR architectures (huddle-based distributed register architectures) utilizing multi-stage clock gating. By increasing the number of clock gating stages in each huddle, we increase the number of the control steps at which we can apply the clock gating to registers. We can determine the configuration of the clock gating with optimized energy consumption. The experimental results demonstrate that our proposed algorithm reduced energy consumption by up to 27.7% compared with conventional algorithms.
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基于多级时钟门控的HDR架构高能效综合
随着当前和未来lsi的小型化和高性能,对便携式器件的需求将大大增加。特别是出现了电池运行时间和设备过热的问题。此外,随着大规模集成电路设计过程的小型化,互连延迟与栅极延迟的比率继续增加。对互连延迟的高阶综合估计和降低能耗是必不可少的。在本文中,我们提出了一种基于HDR架构(基于簇的分布式寄存器架构)的高级综合算法,利用多级时钟门控。通过增加每个簇中的时钟门控阶段的数量,我们增加了可以将时钟门控应用于寄存器的控制步骤的数量。我们可以确定时钟门控的配置与优化的能耗。实验结果表明,与传统算法相比,该算法的能耗降低了27.7%。
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IPSJ Transactions on System LSI Design Methodology
IPSJ Transactions on System LSI Design Methodology Engineering-Electrical and Electronic Engineering
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