Previous research has shown that the performance of any computation is directly related to the architecture on which it is performed. As a result, the performance of compute intensive applications can be improved using heterogeneous systems. These systems consist of various processor architectures such as CPU, FPGA, DSP, and GPU. Individual computations can be performed in parallel on different processor architecrues within the heterogeneous system. Computations are performed by utilizing existing designs from implementation libraries. There is a lack of FPGA accelerators for use in these libraries and as such additional implementations need to be designed. Different design methodologies for developing FPGA accelerators result in implementa...
Matrix multiplication is at the core of high-performance numerical computation. Software methods of ...
The dissemination of multi-core architectures and the later irruption of massively parallel devices,...
Solving a system of linear and nonlinear equations lies at the heart of many scientific and engineer...
Previous research has shown that the performance of any computation is directly related to the archi...
The exploding complexity and computation efficiency requirements of applications are stimulating a s...
AbstractReconfigurable computing devices can increase the performance of compute intensive algorithm...
Field Programmable Gate Arrays (FPGA) have become vital in high-performance Digital Signal Processin...
Reconfigurable computing devices can increase the performance of compute intensive algorithms by imp...
Modern Systems-on-Chip (SoC) architectures and CPU+FPGA computing platforms are moving towards heter...
With the advances in very large scale integration (VLSI) technology, hardware is going parallel. Sof...
After more than 30 years, reconfigurable computing has grown from a concept to a mature field of scien...
High-level synthesis (HLS) is increasingly popular for the design of high-performance and energy-eff...
Field Programmable Gate Arrays (FPGAs) enable powerful performance acceleration for scientific compu...
Manually designing hardware for fpga implementations is time consuming. Onepossible way to accelerat...
Specialized accelerators can exploit spatial parallelism on both operations and data thanks to a ded...
Matrix multiplication is at the core of high-performance numerical computation. Software methods of ...
The dissemination of multi-core architectures and the later irruption of massively parallel devices,...
Solving a system of linear and nonlinear equations lies at the heart of many scientific and engineer...
Previous research has shown that the performance of any computation is directly related to the archi...
The exploding complexity and computation efficiency requirements of applications are stimulating a s...
AbstractReconfigurable computing devices can increase the performance of compute intensive algorithm...
Field Programmable Gate Arrays (FPGA) have become vital in high-performance Digital Signal Processin...
Reconfigurable computing devices can increase the performance of compute intensive algorithms by imp...
Modern Systems-on-Chip (SoC) architectures and CPU+FPGA computing platforms are moving towards heter...
With the advances in very large scale integration (VLSI) technology, hardware is going parallel. Sof...
After more than 30 years, reconfigurable computing has grown from a concept to a mature field of scien...
High-level synthesis (HLS) is increasingly popular for the design of high-performance and energy-eff...
Field Programmable Gate Arrays (FPGAs) enable powerful performance acceleration for scientific compu...
Manually designing hardware for fpga implementations is time consuming. Onepossible way to accelerat...
Specialized accelerators can exploit spatial parallelism on both operations and data thanks to a ded...
Matrix multiplication is at the core of high-performance numerical computation. Software methods of ...
The dissemination of multi-core architectures and the later irruption of massively parallel devices,...
Solving a system of linear and nonlinear equations lies at the heart of many scientific and engineer...