The best known deterministic polynomial-time algorithm for primality testing right now is due to Agrawal, Kayal, and Saxena. This algorithm has a time complexity O(log15/2 (n)). Although this algorithm is polynomial, its reliance on the congruence of large polynomials results in enormous computational requirement. In this paper, we propose a parallelization technique for this algorithm based on message-passing parallelism together with four workload-distribution strategies. We perform a series of experiments on an implementation of this algorithm in a high-performance computing system consisting of 15 nodes, each with 4 CPU cores. The experiments indicate that our proposed parallelization technique introduces a significant speedup on existi...
With the boom in information technology and the penetration of these technologies in an increasing n...
Abstract. In 2004, Agrawal, Kayal and Saxena published the paper ”PRIMES is in P ” where they presen...
Click on the URL link to access the article.There are great interests in understanding the manner by...
Abstract—AKS algorithm is the first deterministic polynomial time algorithm for primality proving. T...
In August of 2002, three Indian computer scientists, Manindra Agrawal, Neeraj Kayal arid Nitin Saxen...
In 2002, Agrawal, Kayal and Saxena, published an article presenting a deterministic, unconditional a...
In this thesis, I review the problem of primality testing. More specifically, I review the AKS algor...
Primes are used pervasively throughout modern society. E-commerce, privacy, and psuedorandom number ...
We present a formalisation of the Agrawal-Kayal-Saxena (AKS) algorithm, a deterministic polynomial-t...
In applied cryptography, RSA is a typical asymmetric algorithm, which is used in electronic transact...
Abstract — We implement the Agrawal-Kayal-Saxena primality testing algorithm. We discuss optimizatio...
We show how to exploit the 32/64 bit architecture of modern computers to accelerate some of the algo...
Abstract. Due to the inherent NP-completeness of SAT, many SAT problems currently cannot be solved i...
We present a novel parallelisation scheme that simplifies the adaptation of learning algorithms to g...
Many automated finite state machine (FSM) based test generation algorithms require that a characteri...
With the boom in information technology and the penetration of these technologies in an increasing n...
Abstract. In 2004, Agrawal, Kayal and Saxena published the paper ”PRIMES is in P ” where they presen...
Click on the URL link to access the article.There are great interests in understanding the manner by...
Abstract—AKS algorithm is the first deterministic polynomial time algorithm for primality proving. T...
In August of 2002, three Indian computer scientists, Manindra Agrawal, Neeraj Kayal arid Nitin Saxen...
In 2002, Agrawal, Kayal and Saxena, published an article presenting a deterministic, unconditional a...
In this thesis, I review the problem of primality testing. More specifically, I review the AKS algor...
Primes are used pervasively throughout modern society. E-commerce, privacy, and psuedorandom number ...
We present a formalisation of the Agrawal-Kayal-Saxena (AKS) algorithm, a deterministic polynomial-t...
In applied cryptography, RSA is a typical asymmetric algorithm, which is used in electronic transact...
Abstract — We implement the Agrawal-Kayal-Saxena primality testing algorithm. We discuss optimizatio...
We show how to exploit the 32/64 bit architecture of modern computers to accelerate some of the algo...
Abstract. Due to the inherent NP-completeness of SAT, many SAT problems currently cannot be solved i...
We present a novel parallelisation scheme that simplifies the adaptation of learning algorithms to g...
Many automated finite state machine (FSM) based test generation algorithms require that a characteri...
With the boom in information technology and the penetration of these technologies in an increasing n...
Abstract. In 2004, Agrawal, Kayal and Saxena published the paper ”PRIMES is in P ” where they presen...
Click on the URL link to access the article.There are great interests in understanding the manner by...