Vipul Gupta scite author profile

Abstract. Since its proposal by Victor Miller [17] and Neal Koblitz [15] in the mid 1980s, Elliptic Curve Cryptography (ECC) has evolved into a mature public-key cryptosystem. Offering the smallest key size and the highest strength per bit, its computational efficiency can benefit both client devices and server machines. We have designed a programmable hardware accelerator to speed up point multiplication for elliptic curves over binary polynomial fields GF (2 m ). The accelerator is based on a scalable architecture capable of handling curves of arbitrary field degrees up to m = 255. In addition, it delivers optimized performance for a set of commonly used curves through hard-wired reduction logic. A prototype implementation running in a Xilinx XCV2000E FPGA at 66.4 MHz shows a performance of 6987 point multiplications per second for GF (2 163 ). We have integrated ECC into OpenSSL, today's dominant implementation of the secure Internet protocol SSL, and tested it with the Apache web server and open-source web browsers.

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Vipul Gupta

Energy Analysis of Public-Key Cryptography for Wireless Sensor Networks

Freeze-TCP: a true end-to-end TCP enhancement mechanism for mobile environments

Elliptic Curve Cryptography (ECC) Cipher Suites for Transport Layer Security (TLS)

Sizzle: A standards-based end-to-end security architecture for the embedded Internet

An End-to-End Systems Approach to Elliptic Curve Cryptography

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