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Signal Processing Methods to Enhance the Energy Efficiency of In-Memory Computing Architectures

Charbel Sakr, Naresh R. Shanbhag

2021IEEE Transactions on Signal Processing24 citationsDOIOpen Access PDF

Abstract

This paper presents signal processing methods to enhance the energy vs. accuracy trade-off of in-memory computing (IMC) architectures. First, an optimal clipping criterion (OCC) for signal quantization is proposed in order to minimize the precision of column analog-to-digital converters (ADCs) at iso-accuracy. For a Gaussian distributed signal, the OCC is shown to reduce the column ADC precision requirements by 3 bits at an signal-to-quantization noise ratio (SQNR) of 22.5 dB over the commonly used full range (FR) quantizer. Next, the input-sliced weight-parallel (ISWP) IMC architecture is presented as a generalization of the popular bit-serial bit-parallel (BSBP) architecture. Quantization noise analysis of the ISWP indicates that its accuracy is comparable to BSBP while providing an order-of-magnitude reduction in energy consumption due to fewer array invocations and smaller ADC precision. Combining OCC and ISWP noise analysis, we map popular DNNs such as VGG-9 (CIFAR-10), ResNet-18 (CIFAR-10), and AlexNet (ImageNet) on a OCC-enabled ISWP architecture and show a reduction in energy consumption by an order-of-magnitude at iso-accuracy over the BSBP architecture that employs FR-based ADCs.

Topics & Concepts

Quantization (signal processing)Computer scienceConvertersNoise reductionDigital signal processingAlgorithmSignal processingElectronic engineeringComputer hardwareArtificial intelligencePower (physics)EngineeringPhysicsQuantum mechanicsAdvanced Memory and Neural ComputingFerroelectric and Negative Capacitance DevicesCCD and CMOS Imaging Sensors
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