基于分段分割evmdd的浮点数值函数生成器

Shinobu Nagayama, Tsutomu Sasao, J. T. Butler
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引用次数: 2

摘要

本文提出了一种基于内存的浮点数值函数生成器(NFGs)的新架构。设计方法采用分段分割边值多值决策图(evmdd)。为了设计具有更小内存大小的nfg,我们将浮点函数的域划分为段,并为每个段使用EVMDD表示函数。通过硬件实现每个EVMDD,得到浮点NFG。本文还提出了一种通过分解表示整个浮点函数的边值二元决策图(EVBDD)来划分域的算法。实验结果表明,对于单精度浮点函数,我们的新NFG比以前的NFG节省了40%到65%的内存。我们的算法的一个优点是它可以应用于许多不同的函数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Floating-Point Numeric Function Generators Based on Piecewise-Split EVMDDs
This paper proposes a new architecture for memory-based floating-point numeric function generators (NFGs). The design method uses piecewise-split edge-valued multi-valued decision diagrams (EVMDDs). To design NFGs with less memory size, we partition the domain of the floating-point function into segments, and represent the function using an EVMDD for each segment. By realizing each EVMDD with hardware, we obtain the floating-point NFG. This paper also presents an algorithm that partitions the domain by decomposing the edge-valued binary decision diagram(EVBDD) representing the whole floating-point function. Experimental results show that, for a single-precision floating-point function, our new NFG requires 40% to 65% less memory than any previous one. An advantage of our algorithm is that it can be applied to many different functions.
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