FINITE PRECISION ERROR ANALYSIS OF NEURAL NETWORK HARDWARE IMPLEMENTATIONS

被引：112

作者：

HOLT, JL ^{[1
]}

HWANG, JN ^{[1
]}

机构：

[1] UNIV WASHINGTON, DEPT ELECT ENGN, INFORMAT PROC LAB, FT-10, SEATTLE, WA 98195 USA

来源：

IEEE TRANSACTIONS ON COMPUTERS | 1993年 / 42卷 / 03期

关键词：

BACKPROPAGATION LEARNING; CENTRAL LIMIT THEOREM; FINITE PRECISION COMPUTATION; GENERAL COMPOUND OPERATOR; JAMMING AND ROUNDING ERRORS; NEURAL NETWORK HARDWARE; PRECISION ERROR RATIO; RANDOM VARIABLE; SOFT AND HARD CONVERGENCE;

D O I：

10.1109/12.210171

中图分类号：

TP3 [计算技术、计算机技术];

学科分类号：

0812 ;

摘要：

Through parallel processing, low precision fixed point hardware can be used to build a very high speed neural network computing engine where the low precision results in a drastic reduction in system cost. The reduced silicon area required to implement a single processing unit is taken advantage of by implementing multiple processing units on a single piece of silicon and operating them in parallel. The important question which arises is how much precision is required to implement neural network algorithms on this low precision hardware. A theoretical analysis of error due to finite precision computation was undertaken to determine the necessary precision for successful forward retrieving and back-propagation learning in a multilayer perceptron. This analysis can be easily further extended to provide a general finite precision analysis technique by which most neural network algorithms under any set of hardware constraints may be evaluated.

引用

页码：281 / 290

页数：10

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