The potential of FPGAs as accelerators for high-performance computing applications is very large, but many factors are involved in their performance.The design for FPGAs and the selection of the proper optimizations when mapping computations to FPGAs lead to prohibitively long developing time. Alternatives are the high-level synthesis (HLS) tools, which promise a fast design space exploration due to design at high-level or analytical performance models which provide realistic performance expectations, potential impediments to performance, and optimization guidelines. In this paper we propose the combination of both, in order to construct a performance model for FPGAs which is able to visually condense all the helpful information for the des...
Using high-level synthesis (HLS) tools for field-programmable gate array (FPGA) design is becoming a...
FPGA-based accelerators have recently evolved as strong competitors to the traditional GPU-based acc...
Manually designing hardware for fpga implementations is time consuming. Onepossible way to accelerat...
The potential of FPGAs as accelerators for high-performance computing applications is very large, bu...
High-performance computing with FPGAs is gaining momentum with the advent of sophisticated High-Leve...
Nowadays hardware accelerators such as Graphics Processing Units (GPUs) or Field Programmable Gate A...
With reconfigurable fabrics delivering increasing performance over the years, Field-Programmable Gat...
The growing interest in FPGA-based solutions for accelerating compute demanding algorithms is pushin...
High-performance computing on heterogeneous platforms in general and those with FPGAs in particular ...
FPGAs are an attractive platform for applications with high computation demand and low energy consum...
High-level synthesis (HLS) is increasingly popular for the design of high-performance and energy-eff...
This contribution presents the performance modeling of a super desktop with GPU and FPGA accelerator...
Using high-level synthesis (HLS) tools for field-programmable gate array (FPGA) design is becoming a...
FPGA-based accelerators have recently evolved as strong competitors to the traditional GPU-based acc...
Manually designing hardware for fpga implementations is time consuming. Onepossible way to accelerat...
The potential of FPGAs as accelerators for high-performance computing applications is very large, bu...
High-performance computing with FPGAs is gaining momentum with the advent of sophisticated High-Leve...
Nowadays hardware accelerators such as Graphics Processing Units (GPUs) or Field Programmable Gate A...
With reconfigurable fabrics delivering increasing performance over the years, Field-Programmable Gat...
The growing interest in FPGA-based solutions for accelerating compute demanding algorithms is pushin...
High-performance computing on heterogeneous platforms in general and those with FPGAs in particular ...
FPGAs are an attractive platform for applications with high computation demand and low energy consum...
High-level synthesis (HLS) is increasingly popular for the design of high-performance and energy-eff...
This contribution presents the performance modeling of a super desktop with GPU and FPGA accelerator...
Using high-level synthesis (HLS) tools for field-programmable gate array (FPGA) design is becoming a...
FPGA-based accelerators have recently evolved as strong competitors to the traditional GPU-based acc...
Manually designing hardware for fpga implementations is time consuming. Onepossible way to accelerat...