High latencies in FPGA reconfiguration are known as a major overhead in run-time reconfigurable systems. This overhead can be reduced by merging multiple data flow graphs representing different kernels of the original program into a single (merged) datapath that will be configured less often compared to the separate datapaths scenario. However, the additional hardware introduced by this technique increases the kernels execution time. In this paper, we present a novel datapath merging technique that reduces both the configuration and execution times of kernels mapped on the reconfigurable fabric. Experimental results show up to 13% reduction in the configuration and execution times of kernels from media-bench workloads, compared to previous ...
International audienceThe aim of partially and dynamically reconfigurable hardware is to provide an ...
Current approaches to supporting module-based FPGA reconfiguration focus on various aspects and sub-...
Reconfigurable computing systems show great promise for accelerating streaming HPC applications beca...
High latencies in FPGA reconfiguration are known as a major overhead in run-time reconfigurable syst...
Reconfigurable systems have been shown to achieve significant performance speedup through architectu...
During the last years, the computing performance increased for basically all integrated digital circ...
Reconfiguration time in dynamically-reconfigurable modular systems can severely limit application ru...
Timothy J. Callahan and John Wawrzynek University of California--Berkeley Widespread acceptance of F...
Hardware specialization is often the key to efficiency for programmable embedded systems, but comes ...
By means of partial reconfiguration, parts of the hardware can be dynamically exchanged at runtime. ...
Runtime reconfiguration is a promising solution for reducing hardware cost in embedded systems, with...
The increased power densities of deep submicron process technologies have made on-chip temperature t...
none6Field-Programmable Gate Arrays (FPGAs) have become promising mapping fabric for the implementat...
By tailoring a compiler tree-parsing tool for datapath module mapping, we produce good quality resul...
In large-scale datapaths, complex interconnection requirements limit resource utilization and often ...
International audienceThe aim of partially and dynamically reconfigurable hardware is to provide an ...
Current approaches to supporting module-based FPGA reconfiguration focus on various aspects and sub-...
Reconfigurable computing systems show great promise for accelerating streaming HPC applications beca...
High latencies in FPGA reconfiguration are known as a major overhead in run-time reconfigurable syst...
Reconfigurable systems have been shown to achieve significant performance speedup through architectu...
During the last years, the computing performance increased for basically all integrated digital circ...
Reconfiguration time in dynamically-reconfigurable modular systems can severely limit application ru...
Timothy J. Callahan and John Wawrzynek University of California--Berkeley Widespread acceptance of F...
Hardware specialization is often the key to efficiency for programmable embedded systems, but comes ...
By means of partial reconfiguration, parts of the hardware can be dynamically exchanged at runtime. ...
Runtime reconfiguration is a promising solution for reducing hardware cost in embedded systems, with...
The increased power densities of deep submicron process technologies have made on-chip temperature t...
none6Field-Programmable Gate Arrays (FPGAs) have become promising mapping fabric for the implementat...
By tailoring a compiler tree-parsing tool for datapath module mapping, we produce good quality resul...
In large-scale datapaths, complex interconnection requirements limit resource utilization and often ...
International audienceThe aim of partially and dynamically reconfigurable hardware is to provide an ...
Current approaches to supporting module-based FPGA reconfiguration focus on various aspects and sub-...
Reconfigurable computing systems show great promise for accelerating streaming HPC applications beca...