Title of article
A universal architecture for designing efficient modulo 2/sup n/+1 multipliers
Author/Authors
L.، Sousa, نويسنده , , R.، Chaves, نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2005
Pages
-1165
From page
1166
To page
0
Abstract
This paper proposes a simple and universal architecture for designing efficient modified Booth multipliers modulo (2/sup n/+1). The proposed architecture is comprehensive, providing modulo (2/sup n/+1) multipliers with similar performance and cost both for the ordinary and for the diminished-1 number representations. The performance and the efficiency of the proposed multipliers are evaluated and compared with the earlier fastest modulo (2/sup n/+1) multipliers, based on a simple gate-count and gate-delay model and on experimental results obtained from CMOS implementations. These results show that the proposed approach leads on average to approximately 10% faster multipliers than the fastest known structures for the diminished-1 representation based on the modified Booth recoding. Moreover, they also show that the proposed architecture is the only one taking advantage of this recoding to obtain faster multipliers with a significant reduction in hardware. With the used figures of merit, the proposed diminished-1 multipliers are on average 10% and 25% more efficient than the known most efficient modulo (2/sup n/+1) multipliers for Booth recoded and nonrecoded multipliers, respectively.
Journal title
IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS
Serial Year
2005
Journal title
IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS
Record number
61433
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