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SME: ReRAM-based Sparse-Multiplication-Engine to Squeeze-Out Bit Sparsity of Neural Network

Fangxin Liu, Wenbo Zhao, Zhezhi He, Zongwu Wang, Yilong Zhao, Tao Yang, Jingnai Feng, Xiaoyao Liang, Li Jiang

202122 citationsDOI

Abstract

Resistive Random-Access-Memory (ReRAM) cross-bar is a promising technique for deep neural network (DNN) accelerators, thanks to its in-memory and in-situ analog computing abilities for Vector-Matrix Multiplication-and-Accumulations (VMMs). However, it is challenging for crossbar architecture to exploit the sparsity in DNNs. It inevitably causes complex and costly control to exploit fine-grained sparsity due to the limitation of tightly-coupled crossbar structure.As the countermeasure, we develop a novel ReRAM-based DNN accelerator, named Sparse-Multiplication-Engine (SME), based on a hardware and software co-design framework. First, we orchestrate the bit-sparse pattern to increase the density of bit-sparsity based on existing quantization methods. Second, we propose a novel weight mapping mechanism to slice the bits of a weight across the crossbars and splice the activation results in peripheral circuits. This mechanism can decouple the tightly-coupled crossbar structure and cumulate the sparsity in the crossbar. Finally, a superior squeeze-out scheme empties the crossbars mapped with highly-sparse non-zeros from the previous two steps. We design the SME architecture and discuss its use for other quantization methods and different ReRAM cell technologies. Compared with prior state-of-the-art designs, the SME shrinks the use of crossbars up to 8.7× and 2.1× using ResNet-50 and MobileNet-v2, respectively, with ≤ 0.3% accuracy drop on ImageNet.

Topics & Concepts

Crossbar switchResistive random-access memoryComputer scienceMultiplication (music)Parallel computingSparse matrixQuantization (signal processing)ExploitArtificial neural networkComputer architectureComputer hardwareComputer engineeringAlgorithmArtificial intelligenceElectrical engineeringEngineeringComputer securityGaussianPhysicsAcousticsTelecommunicationsQuantum mechanicsVoltageAdvanced Memory and Neural ComputingFerroelectric and Negative Capacitance DevicesAdvanced Neural Network Applications