A high-throughput processor for dual-field elliptic curve cryptography

In this paper, a mixture of VLIW and vector architecture of ECC processor is proposed to perform either prime field GF(p) operations or binary field GF(2^m) operations for arbitrary prime numbers and irreducible polynomials. Besides, an application specific instruction set for ECC is presented to support parallel processing with VLIW instruction structure features and vector register addressing modes. After implemented in 65-nm CMOS process, our proposed 521-bit dual field elliptic curve cryptographic processor can perform scalar multiplication in 1.3 ms over GF(p⁵²¹) and 0.94 ms over GF(2⁵²¹). Our ECC processor chip is advantageous in terms of functionality, scalability, and performance.