Previous work has shown that run-time reconfiguration of FPGAs benefits greatly from the use of Tunable LUT (TLUT) circuits. These can be rapidly transformed into a specialized LUT circuit and are also very memory efficient when representing regularly structured designs, where the same hardware module is instantiated many times. However, the memory requirements and reconfiguration time of a run-time reconfigurable application are also dependent on the reconfiguration mechanism. In this paper, we will show that the memory requirements of conventional ICAP reconfiguration grow very fast with the number of modules, resulting in excessive memory usage. We propose to use Shift-Register-LUT (SRL) reconfiguration which is faster and results in a m...
Partial reconfiguration (PR) of FPGAs is a very promising technique. Applications implemented with P...
Reconfigurable systems have been shown to achieve very high computational performance. However, the ...
The inherent reconfigurability of SRAM-based FPGAs enables the use of configurations optimized for t...
Previous work has shown that run-time reconfiguration of FPGAs benefits greatly from the use of Tuna...
Run-time reconfiguration (RTR) of FPGAs is mainly done using the configuration interface. However, f...
Reconfigurable SRAM-based Field Programmable Gate Arrays (FPGAs) are everyday more attractive due to...
In many applications, subsequent tasks differ only in a specific set of parameters. Because of their...
Yang, ChengmoField Programmable Gate Arrays (FPGAs) are programmable logic blocks based circuit dev...
Dynamic Circuit Specialization is used to optimize the implementation of a parameterized application...
18 pagesInternational audienceReconfigurable computing is certainly one of the most important emergi...
Parameterisable configurations allow very fast run-time reconfiguration in FPGAs. The main advantage...
none6Field-Programmable Gate Arrays (FPGAs) have become promising mapping fabric for the implementat...
Runtime reconfigurable systems built upon devices with partial reconfiguration can provide reduction...
International audienceReconfigurable computing is certainly one of the most important emerging resea...
Partial reconfiguration (PR) of FPGAs is a very promising technique. Applications implemented with P...
Reconfigurable systems have been shown to achieve very high computational performance. However, the ...
The inherent reconfigurability of SRAM-based FPGAs enables the use of configurations optimized for t...
Previous work has shown that run-time reconfiguration of FPGAs benefits greatly from the use of Tuna...
Run-time reconfiguration (RTR) of FPGAs is mainly done using the configuration interface. However, f...
Reconfigurable SRAM-based Field Programmable Gate Arrays (FPGAs) are everyday more attractive due to...
In many applications, subsequent tasks differ only in a specific set of parameters. Because of their...
Yang, ChengmoField Programmable Gate Arrays (FPGAs) are programmable logic blocks based circuit dev...
Dynamic Circuit Specialization is used to optimize the implementation of a parameterized application...
18 pagesInternational audienceReconfigurable computing is certainly one of the most important emergi...
Parameterisable configurations allow very fast run-time reconfiguration in FPGAs. The main advantage...
none6Field-Programmable Gate Arrays (FPGAs) have become promising mapping fabric for the implementat...
Runtime reconfigurable systems built upon devices with partial reconfiguration can provide reduction...
International audienceReconfigurable computing is certainly one of the most important emerging resea...
Partial reconfiguration (PR) of FPGAs is a very promising technique. Applications implemented with P...
Reconfigurable systems have been shown to achieve very high computational performance. However, the ...
The inherent reconfigurability of SRAM-based FPGAs enables the use of configurations optimized for t...