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ASPDAC
2007
ACM

Optimization of Arithmetic Datapaths with Finite Word-Length Operands

14 years 4 months ago
Optimization of Arithmetic Datapaths with Finite Word-Length Operands
Abstract: This paper presents an approach to area optimization of arithmetic datapaths that perform polynomial computations over bit-vectors with finite widths. Examples of such designs abound in DSP for audio, video and multimedia computations where the input and output bit-vector sizes are dictated by the desired precision. A bit-vector of size m represents integer values reduced modulo 2m (%2m ). Therefore, finite wordlength bit-vector arithmetic can be modeled as algebra over finite integer rings, where the bit-vector size dictates the ring cardinality. This paper demonstrates how the number-theoretic properties of finite integer rings can be exploited for optimization of bit-vector arithmetic. Along with an analytical model to estimate the implementation cost at RTL, two algorithms are presented to optimize bit-vector arithmetic. Experimental results, conducted within practical CAD settings, demonstrate significant area savings due to our approach.
Sivaram Gopalakrishnan, Priyank Kalla, Florian Ene
Added 12 Aug 2010
Updated 12 Aug 2010
Type Conference
Year 2007
Where ASPDAC
Authors Sivaram Gopalakrishnan, Priyank Kalla, Florian Enescu
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