The Internal Configuration Access Port (ICAP) is the core component of any dynamic partial reconfigurable system implemented in Xilinx SRAM-based Field Programmable Gate Arrays (FPGAs). We developed a new high speed ICAP controller, named AC_ICAP, completely implemented in hardware. In addition to similar solutions to accelerate the management of partial bitstreams and frames, AC_ICAP also supports run-time reconfiguration of LUTs without requiring precomputed partial bitstreams. This last characteristic was possible by performing reverse engineering on the bitstream. Besides, we adapted this hardware-based solution to provide IP cores accessible from the MicroBlaze processor. To this end, the controller was extended and three versions were...
Despite the advantages dynamic reconfiguration adds to a system, it only improves system performance...
Partial Reconfiguration (PR) is an advanced technique, which improves the flexibility of FPGAs by al...
The inherent reconfigurability of FPGAs enables us to optimize an FPGA implementation in different t...
Abstract—Application circuits configured on Xilinx Virtex series FPGAs are able to reconfigure the F...
Dynamic Circuit Specialization (DCS) is used to optimize parts of an application and switch between ...
As FPGA dynamic partial reconfiguration getting into mainstream, design of reconfiguration controlle...
With dynamically and partially reconfigurable designs, it is necessary that the speed of the reconf...
Dynamic and partial reconfiguration of Xilinx FPGAs is a well known technique in runtime adaptive sy...
Field Programmable Gate Arrays (FPGAs) belong to a class of semiconductor devices whose hardware can...
Abstract. This paper presents an alternative approach for dynamic par-tial self-reconfiguration that...
As FPGA dynamic partial reconfiguration getting into mainstream, design of reconfiguration controlle...
This article belongs to the Special Issue Architecture and CAD for Field-Programmable Gate Arrays (F...
Reconfigurable hardware in a cloud environment is a power efficient way to increase the processing p...
General Purpose Computing on Graphical Processing Units has been exploited in many different fields ...
Despite the advantages dynamic reconfiguration adds to a system, it only improves system performance...
Despite the advantages dynamic reconfiguration adds to a system, it only improves system performance...
Partial Reconfiguration (PR) is an advanced technique, which improves the flexibility of FPGAs by al...
The inherent reconfigurability of FPGAs enables us to optimize an FPGA implementation in different t...
Abstract—Application circuits configured on Xilinx Virtex series FPGAs are able to reconfigure the F...
Dynamic Circuit Specialization (DCS) is used to optimize parts of an application and switch between ...
As FPGA dynamic partial reconfiguration getting into mainstream, design of reconfiguration controlle...
With dynamically and partially reconfigurable designs, it is necessary that the speed of the reconf...
Dynamic and partial reconfiguration of Xilinx FPGAs is a well known technique in runtime adaptive sy...
Field Programmable Gate Arrays (FPGAs) belong to a class of semiconductor devices whose hardware can...
Abstract. This paper presents an alternative approach for dynamic par-tial self-reconfiguration that...
As FPGA dynamic partial reconfiguration getting into mainstream, design of reconfiguration controlle...
This article belongs to the Special Issue Architecture and CAD for Field-Programmable Gate Arrays (F...
Reconfigurable hardware in a cloud environment is a power efficient way to increase the processing p...
General Purpose Computing on Graphical Processing Units has been exploited in many different fields ...
Despite the advantages dynamic reconfiguration adds to a system, it only improves system performance...
Despite the advantages dynamic reconfiguration adds to a system, it only improves system performance...
Partial Reconfiguration (PR) is an advanced technique, which improves the flexibility of FPGAs by al...
The inherent reconfigurability of FPGAs enables us to optimize an FPGA implementation in different t...