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Efficient architectures and implementation of arithmetic functions approximation based stochastic computing

Luong, T.-K. and Nguyen, V.-T. and Nguyen, A.-T. and Popovici, E. (2019) Efficient architectures and implementation of arithmetic functions approximation based stochastic computing. In: 30th IEEE International Conference on Application-Specific Systems, Architectures and Processors, ASAP 2019, 15 July 2019 through 17 July 2019.

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Abstract

Stochastic computing (SC) has emerged as a potential alternative to binary computing for a number of low-power embedded systems, DSP, neural networks and communications applications. In this paper, a new method, associated architectures and implementations of complex arithmetic functions, such as exponential, sigmoid and hyperbolic tangent functions are presented. Our approach is based on a combination of piecewise linear (PWL) approximation as well as a polynomial interpolation based (Lagrange interpolation) methods. The proposed method aims at reducing the number of binary to stochastic converters. This is the most power sensitive module in an SC system. The hardware implementation for each complex arithmetic function is then derived using the 65nm CMOS technology node. In terms of accuracy, the proposed approach outperforms other well-known methods by 2 times on average. The power consumption of the implementations based on our method is decreased on average by 40 % comparing to other previous solutions. Additionally, the hardware complexity of our proposed method is also improved (40 % on average) while the critical path of the proposed method is slightly increased by 2.5% on average when comparing to other methods. © 2019 IEEE.

Item Type: Conference or Workshop Item (Paper)
Divisions: Faculties > Faculty of Radio-Electronic Engineering
Identification Number: 10.1109/ASAP.2019.00018
Uncontrolled Keywords: Complex networks; Digital arithmetic; Embedded systems; Hyperbolic functions; Interpolation; Lagrange multipliers; Low power electronics; Network architecture; Number theory; Piecewise linear techniques; Polynomial approximation; Stochastic systems; Efficient architecture; Lagrange interpolations; Low Power; Piecewise linear approximations; Sigmoid function; Stochastic computing; VLSI; Computer architecture
Additional Information: Conference code: 151785. Language of original document: English.
URI: http://eprints.lqdtu.edu.vn/id/eprint/9297

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