IEEE 10th
Annual Technical Exchange Meeting, KFUPM,
High Speed Low Power GF(2k)
Elliptic Curve Cryptography Processor Architecture
Adnan Gutub
Abstract
A new elliptic curve cryptographic processor architecture
is proposed in this paper. It gives a choice of performance base depending on
the importance of speed and/or power consumption. This flexibility is
accomplished by utilizing the normal parallelism in the elliptic curve point
operations. Scalable multipliers are adopted to compensate for the extra
hardware due to parallelism instead of using the conventional parallel
multipliers. It is shown in the paper that this parallelism can be exploited
either to increase the speed of operation or to reduce power consumption by
reducing the frequency of operation.