Design and validation of execution schemes for dynamically reconfigurable architectures

“…Since the interconnect resources can be reused in different contexts, similar penalties resulting from poor routability can be expected for the different architectures customized for one application. The implications of excessive register requirements are discussed in [10]. The last column in the table compares this IP-core to a customized statically reconfigurable architecture that uses the same II but does not reuse the FUs.…”

“…On the other hand, using the stable tool chain of commercial architectures enables the evaluation of complex applications more efficiently. Since NEC's DRP (Dynamically Reconfigurable Processor) architecture [9] is very similar to the CRC model with respect to run-time reconfiguration [10], we can use the silicon-proven DRP and its associated tools [13] to get additional evaluation data.…”

Optimization of Area and Performance by Processor-Like Reconfiguration

“…Since the interconnect resources can be reused in different contexts, similar penalties resulting from poor routability can be expected for the different architectures customized for one application. The implications of excessive register requirements are discussed in [10]. The last column in the table compares this IP-core to a customized statically reconfigurable architecture that uses the same II but does not reuse the FUs.…”

“…On the other hand, using the stable tool chain of commercial architectures enables the evaluation of complex applications more efficiently. Since NEC's DRP (Dynamically Reconfigurable Processor) architecture [9] is very similar to the CRC model with respect to run-time reconfiguration [10], we can use the silicon-proven DRP and its associated tools [13] to get additional evaluation data.…”

Optimization of Area and Performance by Processor-Like Reconfiguration

“…The CRC model can be configured with a variety of parameters in order to create different architecture instances. More details on the CRC model can be found in [4].…”

“…Details on this example and results of mapping it for different DIRs onto instances of the CRC model are presented in [4]. To demonstrate the benefits of processor-like reconfiguration, it is assumed in the following that the input values xr, xg, and xb are provided by the surrounding environment in 3 different clock cycles of a continuous stream and that the clock speed is 200 MHz.…”

Evaluation and Design of Processor-Like Reconfigurable Architectures

Design and validation of execution schemes for dynamically reconfigurable architectures