Efficient Modulo (2k±1) Binary to Residue Converters

In this paper, the design of a binary to residue converter architecture based on {2 k -1, 2 k 2 k +l} modulo set is presented. New highly-parallel schemes using (p,2) compressors are described for computing the integer modulo operation (X mod m), where m is restricted to the values 2 k plusmn1, for...

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Hauptverfasser:	Veeramachaneni, Sreehari, Avinash, Lingamneni, Reddy, M Rajashekhar, Srinivas, M.B.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Arithmetic CMOS logic circuits Compressors Computer architecture Embedded system Hardware Information technology Multiplexing Signal design Very large scale integration
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creator	Veeramachaneni, Sreehari Avinash, Lingamneni Reddy, M Rajashekhar Srinivas, M.B.
description	In this paper, the design of a binary to residue converter architecture based on {2 k -1, 2 k 2 k +l} modulo set is presented. New highly-parallel schemes using (p,2) compressors are described for computing the integer modulo operation (X mod m), where m is restricted to the values 2 k plusmn1, for any value of k>1 and X is a 16-bit or a 32-bit number For efficient design, novel 3-2, 4-2 and 5-2 compressors are illustrated and are used as the basic building blocks for the proposed converter designs. The resulting circuits are compared, both qualitatively and quantitatively, in standard CMOS cell technology, with the existing circuits. The results show that the proposed architectures are faster and use lesser hardware than similar circuits known making them a viable option for efficient design
doi_str_mv	10.1109/IWSOC.2006.348235
format	Conference Proceeding
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subjects	Arithmetic CMOS logic circuits Compressors Computer architecture Embedded system Hardware Information technology Multiplexing Signal design Very large scale integration
title	Efficient Modulo (2k±1) Binary to Residue Converters
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