Fully Row/Column-Parallel In-memory Computing SRAM Macro employing Capacitor-based Mixed-signal Computation with 5-b Inputs

2021 Symposium on VLSI Circuits Pub Date : 2021-06-13 DOI:10.23919/VLSICircuits52068.2021.9492444
Jinseok Lee, Hossein Valavi, Yinqi Tang, N. Verma
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引用次数: 29

Abstract

This paper presents an in-memory computing (IMC) macro in 28nm for fully row/column-parallel matrix-vector multiplication (MVM), exploiting precise capacitor-based analog computation to extend from binary input-vector elements to 5-b input-vector elements, for 16x increase in energy efficiency and 5x increase in throughput. The 1152(row)x256(col.) macro employs multi-level input drivers based on a digital-switch DAC implementation, which preserve compute accuracy well beyond the 8-b resolution of the output ADCs, and whose area is halved via a dynamic-range doubling (DRD) technique. The macro achieves the highest reported IMC energy efficiency of 5796 TOPS/W and compute density of 12 TOPS/mm2 (both normalized to 1-b ops). CIFAR-10 image classification is demonstrated with accuracy of 91%, equal to the level of ideal SW implementation.
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全行/列并行内存计算SRAM宏,采用基于电容的5-b输入混合信号计算
本文提出了一个28纳米内存计算(IMC)宏,用于完全行/列并行矩阵向量乘法(MVM),利用精确的基于电容的模拟计算,从二进制输入向量元素扩展到5-b输入向量元素,从而提高16倍的能源效率和5倍的吞吐量。1152(row)x256(cold)宏采用基于数字开关DAC实现的多级输入驱动器,其保持的计算精度远远超过输出adc的8-b分辨率,并且其面积通过动态范围加倍(DRD)技术减半。该宏实现了最高的IMC能效(5796 TOPS/W)和计算密度(12 TOPS/mm2)(均归一化为1-b ops)。CIFAR-10图像分类的准确率达到91%,达到理想的软件实现水平。
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2021 Symposium on VLSI Circuits
2021 Symposium on VLSI Circuits
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