Title :
VLSI architectures for computing exponentiations, multiplicative inverses, and divisions in GF(2m)
Author_Institution :
Dept. of Electr. Eng., Chung-Hua Polytech. Inst., Hsin-Chu, Taiwan
fDate :
30 May-2 Jun 1994
Abstract :
A systolic power-sum circuit designed to perform AB2+C computation in the finite field GF(2m) has been presented recently. Based on the power-sum circuit, a VLSI architecture for performing exponentiations in GF(2m) is developed. Furthermore, two modified architectures that can be used to compute multiplicative inverses and divisions in GF(2m) are proposed respectively. All the architectures are constructed by m-1 power-sum circuits. The average computation time of the architectures is only two logic gate delays and the circuit complexity is realizable in present VLSI technology. It should be emphasized at this point that the computation time of two gate delays is the highest computation speed in finite field arithmetic
Keywords :
VLSI; digital arithmetic; dividing circuits; integrated logic circuits; multiplying circuits; systolic arrays; GF(2m); VLSI architectures; circuit complexity; computation time; divisions; exponentiations; finite field arithmetic; logic gate delays; multiplicative inverses; systolic power-sum circuit; Arithmetic; Circuits; Complexity theory; Computer architecture; Decoding; Delay effects; Galois fields; Logic gates; Power engineering computing; Very large scale integration;
Conference_Titel :
Circuits and Systems, 1994. ISCAS '94., 1994 IEEE International Symposium on
Conference_Location :
London
Print_ISBN :
0-7803-1915-X
DOI :
10.1109/ISCAS.1994.409232
