论文信息 - Systolic design of a new finite field division/inverse algorithm

Systolic design of a new finite field division/inverse algorithm

A systolic architecture of a newly developed algorithm for performing division and inversion over GF(2/sup m/) has been successfully realized. It is novel in that the normal inverse/multiplication steps are integrated and the generator polynomial is selectable. The new design with its inherent regularity offers an expandable, fully pipelined high performance circuit, that is very suitable to a VLSI implementation. A GF(2/sup 8/) divider has been successfully implemented under the EUROCHIP program.<<ETX>>

Richard Conway | J. Nelson | J. Nelson | R. Conway

[1] Trieu-Kien Truong,et al. VLSI Architectures for Computing Multiplications and Inverses in GF(2m) , 1983, IEEE Transactions on Computers.

[2] Gui Liang Feng. A VLSI Architecture for Fast Inversion in GF(2^m) , 1989, IEEE Trans. Computers.

[3] T. Itoh,et al. Effective recursive algorithm for computing multiplicative inverses in GF(2m) , 1988 .