This contribution presents the performance modeling of a super desktop with GPU and FPGA accelerators, using OpenCL for the GPU and a high-level synthesis compiler for the FPGAs. The performance model is used to evaluate the different high-level synthesis optimizations, taking into account the resource usage, and to compare the compute power of the FPGA with the GP
Nowadays hardware accelerators such as Graphics Processing Units (GPUs) or Field Programmable Gate A...
Field programmable gate arrays or FPGAs are the Swiss army knife of the compute accelerators. They a...
The potential of FPGAs as accelerators for high-performance computing applications is very large, bu...
This contribution presents the performance modeling of a super desktop with GPU and FPGA accelerator...
Low-power, high-performance computing nowadays relies on accelerator cards to speed up the calculati...
Computation of intensive interactive software applications on R&D desktops require a versatile hardw...
The performance and the versatility of today's PCs exceeds many times the power of the fastest numbe...
Nowadays, processors alone cannot deliver what computation hungry image processing applications dema...
FPGA-based accelerators have recently evolved as strong competitors to the traditional GPU-based acc...
As more and more powerful integrated circuits are appearing on the market, more and more application...
High-performance computing with FPGAs is gaining momentum with the advent of sophisticated High-Leve...
OpenCL has been proposed as a means of accelerating functional computation using FPGA and GPU accele...
In our study, we present the results of the implementation of SHA-512 algorithm in FPGA. The disting...
Thesis (M.A.)--Özyeğin University, Graduate School of Sciences and Engineering, Department of Comput...
The application of accelerators in HPC applications has seen enormous growth in the last decade. In ...
Nowadays hardware accelerators such as Graphics Processing Units (GPUs) or Field Programmable Gate A...
Field programmable gate arrays or FPGAs are the Swiss army knife of the compute accelerators. They a...
The potential of FPGAs as accelerators for high-performance computing applications is very large, bu...
This contribution presents the performance modeling of a super desktop with GPU and FPGA accelerator...
Low-power, high-performance computing nowadays relies on accelerator cards to speed up the calculati...
Computation of intensive interactive software applications on R&D desktops require a versatile hardw...
The performance and the versatility of today's PCs exceeds many times the power of the fastest numbe...
Nowadays, processors alone cannot deliver what computation hungry image processing applications dema...
FPGA-based accelerators have recently evolved as strong competitors to the traditional GPU-based acc...
As more and more powerful integrated circuits are appearing on the market, more and more application...
High-performance computing with FPGAs is gaining momentum with the advent of sophisticated High-Leve...
OpenCL has been proposed as a means of accelerating functional computation using FPGA and GPU accele...
In our study, we present the results of the implementation of SHA-512 algorithm in FPGA. The disting...
Thesis (M.A.)--Özyeğin University, Graduate School of Sciences and Engineering, Department of Comput...
The application of accelerators in HPC applications has seen enormous growth in the last decade. In ...
Nowadays hardware accelerators such as Graphics Processing Units (GPUs) or Field Programmable Gate A...
Field programmable gate arrays or FPGAs are the Swiss army knife of the compute accelerators. They a...
The potential of FPGAs as accelerators for high-performance computing applications is very large, bu...