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IMAC: In-Memory Multi-Bit Multiplication and ACcumulation in 6T SRAM Array

Mustafa Ali, Akhilesh Jaiswal, Sangamesh Kodge, Amogh Agrawal, Indranil Chakraborty, Kaushik Roy

2020IEEE Transactions on Circuits and Systems I Regular Papers127 citationsDOIOpen Access PDF

Abstract

`In-memory computing' is being widely explored as a novel computing paradigm to mitigate the well known memory bottleneck. This emerging paradigm aims at embedding some aspects of computations inside the memory array, thereby avoiding frequent and expensive movement of data between the compute unit and the storage memory. In-memory computing with respect to Silicon memories has been widely explored on various memory bit-cells. Embedding computation inside the 6 transistor (6T) SRAM array is of special interest since it is the most widely used on-chip memory. In this paper, we present a novel in-memory multiplication followed by accumulation operation capable of performing parallel dot products within 6T SRAM without any changes to the standard bitcell. We, further, study the effect of circuit non-idealities and process variations on the accuracy of the LeNet-5 and VGG neural network architectures against the MNIST and CIFAR-10 datasets, respectively. The proposed in-memory dot-product mechanism achieves 88.8% and 99% accuracy for the CIFAR-10 and MNIST, respectively. Compared to the standard von Neumann system, the proposed system is 6.24× better in energy consumption and 9.42× better in delay.

Topics & Concepts

MNIST databaseComputer scienceStatic random-access memoryParallel computingBottleneckIn-Memory ProcessingMultiplication (music)EmbeddingDot productMemory cellMemory managementVon Neumann architectureArtificial neural networkComputer hardwareTransistorEmbedded systemSemiconductor memoryArtificial intelligenceSearch engineMathematicsEngineeringElectrical engineeringVoltageGeometryInformation retrievalCombinatoricsOperating systemWeb search queryQuery by ExampleAdvanced Memory and Neural ComputingFerroelectric and Negative Capacitance DevicesSemiconductor materials and devices
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