There is today an ever-increasing demand for more computational power coupled with a desire to minimize energy requirements. Hardware accelerators currently appear to be the best solution to this problem. While general purpose computation with GPUs seem to be very successful in this area, they perform adequately only in those cases where the data access patterns and utilized algorithms fit the underlying architecture. ASICs on the other hand can yield even better results in terms of performance and energy consumption, but are very inflexible, as they are manufactured with an application specific circuitry. Field Programmable Gate Arrays (FPGAs) represent a combination of approaches: With their application specific hardware they pr...
In the field of high-performance computing, FPGA circuits are very attractive for their performance ...
Reconfigurable Architectures (RA) have been gaining popularity rapidly in the last decade for two re...
Field programmable gate arrays or FPGAs are the Swiss army knife of the compute accelerators. They a...
There is today an ever-increasing demand for more computational power coupled with a desire to mini...
The single-thread performance of conventional CPUs has not improved significantly due to the stagnat...
The demand for scalable, high-performance computing has increased as the size of datasets has grown ...
Reconfigurable computing traditionally consists of a data path machine (such as an FPGA) acting as ...
Field Programmable Gate Array (FPGA) provides the ability to use, and re-use, hardware with minimal ...
Heterogeneous chips that combine CPUs and FPGAs can distribute processing so that the algorithm task...
A common approach to decreasing embedded application execution time is creating a homogeneous parall...
There is a clear trend nowadays to use heterogeneous high-performance computers, as they offer consi...
The demand for high-performance computing has been growing significantly in the past decade. The bot...
This dissertation focuses on efficient generation of custom processors from high-level language desc...
Hardware accelerators, such as fpga boards or gpu, are an interesting alternative or a valuable comp...
grantor: University of TorontoHigh performance can be obtained on field-programmable custo...
In the field of high-performance computing, FPGA circuits are very attractive for their performance ...
Reconfigurable Architectures (RA) have been gaining popularity rapidly in the last decade for two re...
Field programmable gate arrays or FPGAs are the Swiss army knife of the compute accelerators. They a...
There is today an ever-increasing demand for more computational power coupled with a desire to mini...
The single-thread performance of conventional CPUs has not improved significantly due to the stagnat...
The demand for scalable, high-performance computing has increased as the size of datasets has grown ...
Reconfigurable computing traditionally consists of a data path machine (such as an FPGA) acting as ...
Field Programmable Gate Array (FPGA) provides the ability to use, and re-use, hardware with minimal ...
Heterogeneous chips that combine CPUs and FPGAs can distribute processing so that the algorithm task...
A common approach to decreasing embedded application execution time is creating a homogeneous parall...
There is a clear trend nowadays to use heterogeneous high-performance computers, as they offer consi...
The demand for high-performance computing has been growing significantly in the past decade. The bot...
This dissertation focuses on efficient generation of custom processors from high-level language desc...
Hardware accelerators, such as fpga boards or gpu, are an interesting alternative or a valuable comp...
grantor: University of TorontoHigh performance can be obtained on field-programmable custo...
In the field of high-performance computing, FPGA circuits are very attractive for their performance ...
Reconfigurable Architectures (RA) have been gaining popularity rapidly in the last decade for two re...
Field programmable gate arrays or FPGAs are the Swiss army knife of the compute accelerators. They a...