Systolic gaussian normal basis multiplier architectures suitable for high-performance applications

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Azarderakhsh, R ; Sharif University of Technology

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Type of Document: Article
DOI: 10.1109/TVLSI.2014.2345774
Abstract:
Normal basis multiplication in finite fields is vastly utilized in different applications, including error control coding and the like due to its advantageous characteristics and the fact that squaring of elements can be obtained without hardware complexity. In this brief, we present decomposition algorithms to develop novel systolic structures for digit-level Gaussian normal basis multiplication over GF (2m). The proposed architectures are suitable for high-performance applications, which require fast computations in finite fields with high throughputs. We also present the results of our application-specific integrated circuit synthesis using a 65-nm standard-cell library to benchmark the effectiveness of the proposed systolic architectures. The presented architectures for multiplication can result in more efficient and high-performance VLSI systems
Keywords:
Application specific integrated circuits ; Cryptography ; Gaussian distribution ; Multiplying circuits ; Decomposition algorithm ; Gaussian normal bases (GNB) ; Gaussian normal basis ; High performance applications ; Multiplier architecture ; Proposed architectures ; Security ; Systolic architecture ; Benchmarking
Source: IEEE Transactions on Very Large Scale Integration (VLSI) Systems ; Volume 23, Issue 9 , 2015 , Pages 1969-1972 ; 10638210 (ISSN)
URL: http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6891386