In this paper, we present new algorithms for the computation of fast Fourier transforms over complex numbers for "medium" precisions, typically in the range from 100 until 400 bits. On the one hand, such precisions are usually not supported by hardware. On the other hand, asymptotically fast algorithms for multiple precision arithmetic do not pay off yet. The main idea behind our algorithms is to develop efficient vectorial multiple precision fixed point arithmetic, capable of exploiting SIMD instructions in modern processors
High speed computation is the need of today’s generation of Processors. To accomplish this maj...
Many traditional algorithms for computing the fast Fourier transform (FFT) on conventional computers...
The precision used in an algorithm affects the error and performance of individual computations, the...
In this paper, we present new algorithms for the computation of fast Fourier transforms over complex...
International audienceSome important computational problems must use a floating-point (FP) precision...
Multiple-precision multiplication algorithms are of fundamental interest for both theoretical and pr...
We present efficient parallel algorithms for multiple-precision arithmetic operations of more than s...
Current general purpose libraries for multiple precision floating point arithmetic such as Mpfr suff...
Advances in FPGA technology have led to dramatic improvements in double precision floating-point per...
ISBN: 0818653205The Fourier transform is very used for its properties and because the fast fourier T...
International audienceGPUs are an important hardware development platform for problems where massive...
AbstractThe development of the fast Fourier transform (FFT) and its numerous variants in the past 30...
The Fast Fourier Transform is probably one of the most studied algorithms of all time. New technique...
International audienceMany numerical problems require a higher computing precision than the one offe...
Mathematical software for the Fast Fourier Transform We present a library for computing the Fast Fo...
High speed computation is the need of today’s generation of Processors. To accomplish this maj...
Many traditional algorithms for computing the fast Fourier transform (FFT) on conventional computers...
The precision used in an algorithm affects the error and performance of individual computations, the...
In this paper, we present new algorithms for the computation of fast Fourier transforms over complex...
International audienceSome important computational problems must use a floating-point (FP) precision...
Multiple-precision multiplication algorithms are of fundamental interest for both theoretical and pr...
We present efficient parallel algorithms for multiple-precision arithmetic operations of more than s...
Current general purpose libraries for multiple precision floating point arithmetic such as Mpfr suff...
Advances in FPGA technology have led to dramatic improvements in double precision floating-point per...
ISBN: 0818653205The Fourier transform is very used for its properties and because the fast fourier T...
International audienceGPUs are an important hardware development platform for problems where massive...
AbstractThe development of the fast Fourier transform (FFT) and its numerous variants in the past 30...
The Fast Fourier Transform is probably one of the most studied algorithms of all time. New technique...
International audienceMany numerical problems require a higher computing precision than the one offe...
Mathematical software for the Fast Fourier Transform We present a library for computing the Fast Fo...
High speed computation is the need of today’s generation of Processors. To accomplish this maj...
Many traditional algorithms for computing the fast Fourier transform (FFT) on conventional computers...
The precision used in an algorithm affects the error and performance of individual computations, the...