Original article can be found at: http://www.medjcn.com/ Copyright Softmotor LimitedHigh performance systems are required by the developers for fast processing of computationally intensive applications. Reconfigurable hardware devices in the form of Filed-Programmable Gate Arrays (FPGAs) have been proposed as viable system building blocks in the construction of high performance systems at an economical price. Given the importance and the use of matrix algorithms in scientific computing applications, they seem ideal candidates to harness and exploit the advantages offered by FPGAs. In this paper, a system for matrix algorithm cores generation is described. The system provides a catalog of efficient user-customizable cores, designed for FPGA ...
The dissemination of multi-core architectures and the later irruption of massively parallel devices,...
We introduce a 64-bit ANSI/IEEE Std 754-1985 floating point design of a hardware matrix multiplier o...
Matrix multiplication and Fast Fourier transform are two computational intensive DSP functions widel...
Part 4: Architecture and HardwareInternational audienceMatrix computing plays a vital role in many s...
In today's algorithms for sound localization techniques, matrix calculations are ubiquitous. Therefo...
Previous research has shown that the performance of any computation is directly related to the archi...
This material is presented to ensure timely dissemination of scholarly and technical work. Copyright...
Matrix operations, like matrix multiplication, are commonly used in almost all areas of scientific r...
In the last decade floating-point matrix multiplication on FPGAs has been studied extensively and ef...
In recent years, the field of high-performance computing has been facing a new challenge: achieving ...
Solving a system of linear equations is a key problem in the field of engineering and science. Matri...
High speed computation is the need of today’s generation of Processors. To accomplish this maj...
UnrestrictedThe large capacity of field programmable gate arrays (FPGAs) has prompted researchers to...
In this paper, we present the outcomes of a project on the exploration of the use of Field Programma...
To solve the computational complexity and time-consuming problem of large matrix multiplication, thi...
The dissemination of multi-core architectures and the later irruption of massively parallel devices,...
We introduce a 64-bit ANSI/IEEE Std 754-1985 floating point design of a hardware matrix multiplier o...
Matrix multiplication and Fast Fourier transform are two computational intensive DSP functions widel...
Part 4: Architecture and HardwareInternational audienceMatrix computing plays a vital role in many s...
In today's algorithms for sound localization techniques, matrix calculations are ubiquitous. Therefo...
Previous research has shown that the performance of any computation is directly related to the archi...
This material is presented to ensure timely dissemination of scholarly and technical work. Copyright...
Matrix operations, like matrix multiplication, are commonly used in almost all areas of scientific r...
In the last decade floating-point matrix multiplication on FPGAs has been studied extensively and ef...
In recent years, the field of high-performance computing has been facing a new challenge: achieving ...
Solving a system of linear equations is a key problem in the field of engineering and science. Matri...
High speed computation is the need of today’s generation of Processors. To accomplish this maj...
UnrestrictedThe large capacity of field programmable gate arrays (FPGAs) has prompted researchers to...
In this paper, we present the outcomes of a project on the exploration of the use of Field Programma...
To solve the computational complexity and time-consuming problem of large matrix multiplication, thi...
The dissemination of multi-core architectures and the later irruption of massively parallel devices,...
We introduce a 64-bit ANSI/IEEE Std 754-1985 floating point design of a hardware matrix multiplier o...
Matrix multiplication and Fast Fourier transform are two computational intensive DSP functions widel...