AbstractPairing-based schemes, such as identity-based cryptosystem, are widely used for future computing environments. Hence the work of hardware architectures for GF(pm) has been brought to public attention for the past few years since most of the pairing-based schemes are implemented using arithmetic operations over GF(pm) defined by irreducible trinomials. This paper proposes a new most significant elements (MSE)-first serial multiplier for GF(pm), where p>2, which is more efficient than least significant elements (LSE)-first multipliers from the point of view of both the time delay and the size of registers. In particular, the proposed multiplier has an advantage when the extension degree of finite fields m is large and the characterist...
We present a novel unified core design which is extended to realize Montgomery multiplication in the...
We present a novel unified core design which is extended to realize Montgomery multiplication in the...
Finite field GF(2(m)) is important to many practical application of modern communication. Exponentia...
AbstractPairing-based schemes, such as identity-based cryptosystem, are widely used for future compu...
In this article, a new architecture of bit-serial polynomial basis (PB) multipliers over the binary ...
With the rapid development of economic and technical progress, designers and users of various kinds ...
Arithmetic operations over binary extension fields GF(2^m) have many important applications in domai...
Finite field multiplier is mainly used in error-correcting codes and signal processing. Finite field...
Cryptographic and coding theory algorithms use arithmetic operations over finite fields. Finite fiel...
Systolic finite field multiplier over GF(2m) based on the National Institute of Standards and Techno...
High throughput is a crucial factor in bit-serial GF(2m) fields multiplication for a variety of diff...
Finite field multiplication over GF(2^m) is a critical component for elliptic curve cryptography (EC...
Because of the efficient tradeoff in area–time complexities, digit-serial systolic multiplier ...
We present an architecture for digit-serial multiplication in finite fields GF(2^m) with application...
Finite fields have important applications in number theory, algebraic geometry, Galois theory, crypt...
We present a novel unified core design which is extended to realize Montgomery multiplication in the...
We present a novel unified core design which is extended to realize Montgomery multiplication in the...
Finite field GF(2(m)) is important to many practical application of modern communication. Exponentia...
AbstractPairing-based schemes, such as identity-based cryptosystem, are widely used for future compu...
In this article, a new architecture of bit-serial polynomial basis (PB) multipliers over the binary ...
With the rapid development of economic and technical progress, designers and users of various kinds ...
Arithmetic operations over binary extension fields GF(2^m) have many important applications in domai...
Finite field multiplier is mainly used in error-correcting codes and signal processing. Finite field...
Cryptographic and coding theory algorithms use arithmetic operations over finite fields. Finite fiel...
Systolic finite field multiplier over GF(2m) based on the National Institute of Standards and Techno...
High throughput is a crucial factor in bit-serial GF(2m) fields multiplication for a variety of diff...
Finite field multiplication over GF(2^m) is a critical component for elliptic curve cryptography (EC...
Because of the efficient tradeoff in area–time complexities, digit-serial systolic multiplier ...
We present an architecture for digit-serial multiplication in finite fields GF(2^m) with application...
Finite fields have important applications in number theory, algebraic geometry, Galois theory, crypt...
We present a novel unified core design which is extended to realize Montgomery multiplication in the...
We present a novel unified core design which is extended to realize Montgomery multiplication in the...
Finite field GF(2(m)) is important to many practical application of modern communication. Exponentia...