Better-than-voltage scaling energy reduction in approximate SRAMs via bit dropping and bit reuse

2015 25th International Workshop on Power and Timing Modeling, Optimization and Simulation (PATMOS) Pub Date : 2015-12-07 DOI:10.1109/PATMOS.2015.7347598

F. Frustaci, D. Blaauw, D. Sylvester, M. Alioto

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引用次数: 9

Abstract

This paper explores the effectiveness of different knobs to dynamically trade energy consumption with output quality in approximate SRAMs for error-tolerant applications (such as video). Leveraging the different impact of errors on quality at most significant bit (MSB) and least significant bit (LSB) positions, energy savings higher than those provided by simple voltage scaling are enabled. Firstly, a comparison of two techniques, dual-VDD and LSB dropping, is carried out showing that the latter is preferable thanks to its intrinsic simplicity and more pronounced energy savings. Secondly, a selective Error Correction Code (ECC) technique which reuses the LSBs as check bits to protect MSBs is investigated. Measurements on a 28nm CMOS 32kb SRAM show that bit dropping and bit reuse achieve an energy reduction of up to 33% and 28%, compared to simple voltage scaling at iso-quality. When combined together, the two techniques achieve a better energy saving (40%) and a supply voltage reduction of about 100mV at iso-quality. Finally, guidelines to select the energy-optimal combination of the two techniques are provided for a given quality target.

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通过位下降和位重用，在近似sram中降低优于电压的缩放能量

本文探讨了在容错应用(如视频)中，在近似sram中动态交换能耗与输出质量的不同旋钮的有效性。利用误差对最高有效位(MSB)和最低有效位(LSB)位置质量的不同影响，可以实现比简单电压缩放提供的更高的节能。首先，对双vdd和LSB下降两种技术进行了比较，表明后者由于其固有的简单性和更明显的节能而更可取。其次，研究了一种选择性纠错码(ECC)技术，该技术重用lsdb作为校验位来保护msb。在28nm CMOS 32kb SRAM上的测量表明，与在等质量下的简单电压缩放相比，位下降和位重用可实现高达33%和28%的能量减少。当结合在一起时，这两种技术实现了更好的节能(40%)，并在等质量下降低了约100mV的电源电压。最后，针对给定的质量目标，给出了选择两种技术能量最优组合的准则。

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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2015 25th International Workshop on Power and Timing Modeling, Optimization and Simulation (PATMOS)

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