Dynamically reconfigurable architectures (DRA) have the potential for achieving high performance at a relatively low cost for a wide range of applications. DRA combine programmable processing units with reconfigurable hardware units. The later is usually based on dynamically reconfigurable Field Programmable Gate Array (FPGA). Designers have used the temporal partitioning approach to divide the application into temporal partitions, which are configured one after the one on target FPGA. The first partition receives input data, performs computations and stores the intermediate data into an...
Dynamically reconfigurable architectures (DRA) have the potential for achieving high performance at a relatively low cost for a wide range of applicat...