We present efficient parallel algorithms for multiple-precision arithmetic operations of more than several million decimal digits on distributed-memory parallel computers. A parallel implementation of floating-point real FFT-based multiplication is used, since the key operation for fast multiple-precision arithmetic is multiplication. The operation for releasing propagated carries and borrows in multiple-precision addition, subtraction and multiplication was also parallelized. More than 2.576 trillion decimal digits of π were computed on 640 nodes of Appro Xtreme-X3 (648 nodes, 147.2 GFlops/node, 95.4 TFlops peak performance) with a computing elapsed time of 73 h 36 min which includes the time required for verification
This paper introduces a new machine representations of multiple-precision (MP) numbers, geared towar...
Financial and commercial applications depend on decimal arithmetic because they must produce results...
Double precision floating-point arithmetic is inadequate for many scientific computations. This pape...
Multiple-precision multiplication algorithms are of fundamental interest for both theoretical and pr...
報告番号: 乙14183 ; 学位授与年月日: 1999-02-22 ; 学位の種別: 論文博士 ; 学位の種類: 博士(理学) ; 学位記番号: 第14183号 ; 研究科・専攻: 理学系研究
In this paper, we present new algorithms for the computation of fast Fourier transforms over complex...
International audienceGPUs are an important hardware development platform for problems where massive...
Multiple-precision calculation is necessary for precisely solving scientific engineering problems. E...
. The speed of integer and rational arithmetic increases significantly by systolic implementation on...
High precision integer arithmetic and rational computation algorithms, are targeted to loosely coupl...
There is a growing demand for high-speed arithmetic co-processors for use in applications with compu...
International audienceSome important computational problems must use a floating-point (FP) precision...
This paper introduces two novel architectures for parallel decimal multipliers. Our multipliers are ...
International audienceThe new generation of high-performance decimal floating-point units (DFUs) is ...
Floating-point (FP) operations defined in IEEE 754-2008 Standard for Floating-Point Arithmetic can p...
This paper introduces a new machine representations of multiple-precision (MP) numbers, geared towar...
Financial and commercial applications depend on decimal arithmetic because they must produce results...
Double precision floating-point arithmetic is inadequate for many scientific computations. This pape...
Multiple-precision multiplication algorithms are of fundamental interest for both theoretical and pr...
報告番号: 乙14183 ; 学位授与年月日: 1999-02-22 ; 学位の種別: 論文博士 ; 学位の種類: 博士(理学) ; 学位記番号: 第14183号 ; 研究科・専攻: 理学系研究
In this paper, we present new algorithms for the computation of fast Fourier transforms over complex...
International audienceGPUs are an important hardware development platform for problems where massive...
Multiple-precision calculation is necessary for precisely solving scientific engineering problems. E...
. The speed of integer and rational arithmetic increases significantly by systolic implementation on...
High precision integer arithmetic and rational computation algorithms, are targeted to loosely coupl...
There is a growing demand for high-speed arithmetic co-processors for use in applications with compu...
International audienceSome important computational problems must use a floating-point (FP) precision...
This paper introduces two novel architectures for parallel decimal multipliers. Our multipliers are ...
International audienceThe new generation of high-performance decimal floating-point units (DFUs) is ...
Floating-point (FP) operations defined in IEEE 754-2008 Standard for Floating-Point Arithmetic can p...
This paper introduces a new machine representations of multiple-precision (MP) numbers, geared towar...
Financial and commercial applications depend on decimal arithmetic because they must produce results...
Double precision floating-point arithmetic is inadequate for many scientific computations. This pape...