Value-conscious cache: simple technique for reducing cache access power

Proceedings Design, Automation and Test in Europe Conference and Exhibition Pub Date : 2004-02-16 DOI:10.1109/DATE.2004.1268821

Yen-Jen Chang, Chia-Lin Yang, F. Lai

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引用次数: 6

Abstract

Most microprocessors employ the on-chip caches to bridge the performance gap between the processor and main memory. However, the cache accesses usually contribute significantly to the total power consumption of the chip. Based on the observation that an overwhelming majority of the cache access bits are '0', in this paper we propose a value-conscious (VC) cache to reduce the average cache power consumption during an access. Unlike the conventional cache with differential-bitline implementation, the VC cache is a single-bitline design. Depending on the access bit value, the VC cache can dynamically prevent the bitline from being discharged such that the power dissipated in accessing '0' is much less than the power dissipated in accessing '1'. The implementation of the VC cache is a circuit-level technique, which is software independent and orthogonal to other low power techniques at architecture-level. The experimental results based on the SPEC2000 and MediaBench traces show that without compromise of both performance and stability, by exploiting the prevalence of '0' bits in access data the VC cache can reduce the average cache read and write power by about 18%/spl sim/22% and 36%/spl sim/40%, respectively.

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值感知缓存:降低缓存访问能力的简单技术

大多数微处理器采用片上缓存来弥补处理器和主存之间的性能差距。然而，缓存访问通常对芯片的总功耗有很大的贡献。基于对绝大多数缓存访问位为“0”的观察，在本文中，我们提出了一种值感知(VC)缓存，以减少访问期间的平均缓存功耗。与差分位线实现的传统缓存不同，VC缓存是单位线设计。根据访问位值的不同，VC缓存可以动态地防止位线被释放，使得访问“0”所消耗的功率远远小于访问“1”所消耗的功率。VC缓存的实现是一种电路级技术，它与软件无关，并且在体系结构级与其他低功耗技术正交。基于SPEC2000和mediabbench跟踪的实验结果表明，在不影响性能和稳定性的情况下，通过利用访问数据中普遍存在的“0”位，VC缓存可以将平均缓存读写功率分别降低约18%/spl sim/22%和36%/spl sim/40%。

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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Proceedings Design, Automation and Test in Europe Conference and Exhibition

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