In this study a multiprocessor C++ message passing interface implementation of a new bit-reversal algorithm to numerically solve the time dependent Schrodinger equation using a spectral method based on Fourier transform was presented. The major issues of parallel computer performance were discussed in terms of efficiency; speed up, cost and fraction of the execution time that could be parallelized. The scalable performance to a very high number of processors was addressed as well as compared with ideal values of Amdahl’s Law when presenting the parallel performance of the new developed algorithms. The results showed that message passing interface was an optimal method of implementing a parallelized bit-reversal algorithm
The purpose of this paper is to investigate the parallelization of one-dimensional Fast Hartley Tran...
Multicore embedded systems introduce new opportunities and challenges. Scaling of computational powe...
This report describes the algorithm and implementation of an out-of-core Fast Fourier Transform rout...
Abstract. The paper deals with various parallel platforms used for high performance computing in the...
A wide variety of Fast Fourier Transform (FFT) algorithms employ a bit reversal method for the reord...
Abstract: The Fast Fourier Transform is incomplete without bitreversal. Novel parallel circuits for ...
The author discusses the implementation and performance on massively parallel, distributed-memory co...
A novel aspect of a parallel procedure for the numerical simulation of the solution of the Navier-St...
SIGLEAvailable from British Library Document Supply Centre-DSC:DX210648 / BLDSC - British Library Do...
This paper describes a portable programming environment for MIMD concurrent processors based on an o...
AbstractThe development of the fast Fourier transform (FFT) and its numerous variants in the past 30...
We present Talbot Suite, a C parallel software collection for the numerical inversion of Laplace Tra...
The Fast Fourier Transform appears frequently in scientific computing. Therefore it is desirable to...
The purpose of this study is to simulate the application of the finite difference method for Schrodi...
Abstract. The aim of this paper is to study the possibility of obtaining the numerical solution of t...
The purpose of this paper is to investigate the parallelization of one-dimensional Fast Hartley Tran...
Multicore embedded systems introduce new opportunities and challenges. Scaling of computational powe...
This report describes the algorithm and implementation of an out-of-core Fast Fourier Transform rout...
Abstract. The paper deals with various parallel platforms used for high performance computing in the...
A wide variety of Fast Fourier Transform (FFT) algorithms employ a bit reversal method for the reord...
Abstract: The Fast Fourier Transform is incomplete without bitreversal. Novel parallel circuits for ...
The author discusses the implementation and performance on massively parallel, distributed-memory co...
A novel aspect of a parallel procedure for the numerical simulation of the solution of the Navier-St...
SIGLEAvailable from British Library Document Supply Centre-DSC:DX210648 / BLDSC - British Library Do...
This paper describes a portable programming environment for MIMD concurrent processors based on an o...
AbstractThe development of the fast Fourier transform (FFT) and its numerous variants in the past 30...
We present Talbot Suite, a C parallel software collection for the numerical inversion of Laplace Tra...
The Fast Fourier Transform appears frequently in scientific computing. Therefore it is desirable to...
The purpose of this study is to simulate the application of the finite difference method for Schrodi...
Abstract. The aim of this paper is to study the possibility of obtaining the numerical solution of t...
The purpose of this paper is to investigate the parallelization of one-dimensional Fast Hartley Tran...
Multicore embedded systems introduce new opportunities and challenges. Scaling of computational powe...
This report describes the algorithm and implementation of an out-of-core Fast Fourier Transform rout...