Dynamic Circuit Specialization (DCS) is a new FPGA CAD tool flow that uses Run-Time Reconfiguration to automatically specialize the FPGA configuration for a whole range of specific data values. DCS implementations are a factor 5 faster and need a factor 8 less luts compared to conventional implementations. We propose a novel routing algorithm for reconfigurable routing, called the Connection router. In contrast to troute, another reconfiguration-aware router, our new router is fully automated and far more scalable
Dynamic Circuit Specialisation (DCS) is a technique that uses the reconfigurability of an FPGA to op...
Abstract—We propose a new FPGA routing approach that, when combined with a low-cost architecture cha...
Field Programmable Gate Arrays (FPGAs) belong to a class of semiconductor devices whose hardware can...
Dynamic Circuit Specialization (DCS) is a new FPGA CAD tool flow that uses Run-Time Reconfiguration ...
Parameterised configurations for FPGAs are configuration bitstreams of which some of the bits are de...
Dynamic Circuit Specialization is used to optimize the implementation of a parameterized application...
New Field Programmable Gate Arrays (FPGAs) are capable of implementing complete multi-core System-on...
NoC-Based Dynamic Reconfigurable Systems (DRSs) implemented over FPGA devices change their configura...
NoC-Based Dynamic Reconfigurable Systems (DRSs) implemented over FPGA devices change their configura...
The FPGA's interconnection network not only requires the larger portion of the total silicon area in...
Dynamic Circuit Specialization (DCS) is an optimization technique used for implementing a parameteri...
This work describes the identification of designs that benefit from a Dynamic Circuit Specialization...
Dynamic Circuit Specialization (DCS) is a technique used to implement FPGA applications where some o...
Dynamic partial reconfiguration of FPGAs enables the dynamic specialization of the circuit for the r...
Using dynamic partial reconfiguration (DPR), several circuits can be time-multiplexed on the same FP...
Dynamic Circuit Specialisation (DCS) is a technique that uses the reconfigurability of an FPGA to op...
Abstract—We propose a new FPGA routing approach that, when combined with a low-cost architecture cha...
Field Programmable Gate Arrays (FPGAs) belong to a class of semiconductor devices whose hardware can...
Dynamic Circuit Specialization (DCS) is a new FPGA CAD tool flow that uses Run-Time Reconfiguration ...
Parameterised configurations for FPGAs are configuration bitstreams of which some of the bits are de...
Dynamic Circuit Specialization is used to optimize the implementation of a parameterized application...
New Field Programmable Gate Arrays (FPGAs) are capable of implementing complete multi-core System-on...
NoC-Based Dynamic Reconfigurable Systems (DRSs) implemented over FPGA devices change their configura...
NoC-Based Dynamic Reconfigurable Systems (DRSs) implemented over FPGA devices change their configura...
The FPGA's interconnection network not only requires the larger portion of the total silicon area in...
Dynamic Circuit Specialization (DCS) is an optimization technique used for implementing a parameteri...
This work describes the identification of designs that benefit from a Dynamic Circuit Specialization...
Dynamic Circuit Specialization (DCS) is a technique used to implement FPGA applications where some o...
Dynamic partial reconfiguration of FPGAs enables the dynamic specialization of the circuit for the r...
Using dynamic partial reconfiguration (DPR), several circuits can be time-multiplexed on the same FP...
Dynamic Circuit Specialisation (DCS) is a technique that uses the reconfigurability of an FPGA to op...
Abstract—We propose a new FPGA routing approach that, when combined with a low-cost architecture cha...
Field Programmable Gate Arrays (FPGAs) belong to a class of semiconductor devices whose hardware can...