Deepak Kadetotad scite author profile

This paper proposes a parallel architecture with resistive crosspoint array. The design of its two essential operations, read and write, is inspired by the biophysical behavior of a neural system, such as integrate-and-fire and local synapse weight update. The proposed hardware consists of an array with resistive random access memory (RRAM) and CMOS peripheral circuits, which perform matrix-vector multiplication and dictionary update in a fully parallel fashion, at the speed that is independent of the matrix dimension. The read and write circuits are implemented in 65 nm CMOS technology and verified together with an array of RRAM device model built from experimental data. The overall system exploits array-level parallelism and is demonstrated for accelerated dictionary learning tasks. As compared to software implementation running on a 8-core CPU, the proposed hardware achieves more than 3000 speedup, enabling high-speed feature extraction on a single chip.Index Terms-CMOS integration, dictionary learning, memristive device, parallel computing, resistive crosspoint array.

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An 8.93 TOPS/W LSTM Recurrent Neural Network Accelerator Featuring Hierarchical Coarse-Grain Sparsity for On-Device Speech Recognition

Kadetotad

Yin

Berisha

et al. 2020

IEEE J. Solid-State Circuits

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On-Chip Sparse Learning Acceleration With CMOS and Resistive Synaptic Devices

Seo

Lin

Kim

et al. 2015

IEEE Trans. Nanotechnology

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