Runtime dynamic reconfiguration of field-programmable gate arrays (FPGAs) and devices incorporating microprocessors and FPGA has been successfully utilized to increase performance and reduce power consumption. While previous methods have been successful, they typically do not consider the runtime behavior of the application that can be significantly affected by variations in data inputs, user interactions, and environmental conditions. In this dissertation, we present a dynamically reconfigurable system and design methodology that optimizes performance and power consumption by determining which coprocessors to implement with an FPGA based upon the current application behavior.For dynamically reconfigurable systems, in which the selection of...
Both computational performances and energy efficiency are required for the development of any mobile...
The design space of FPGA-based processor systems is huge, because many parameters can be modified at...
Both computational performances and energy efficiency are required for the development of any mobile...
As only the currently required functionality on a dynamic reconfigurable FPGA-based system is active...
The design space of FPGA-based processor systems is huge, because many parameters can be modified at...
International audiencePerformance, cost and energy consumption are the main key features to evaluate...
International audienceField Programmable Gate Array (FPGA) architectures, such as Xilinx's Virtex-4 ...
Abstract: The paper describes a new approach of a flexible run-time system for handling dynamic func...
International audienceNowadays, power optimization has become a major interest for most digital hard...
Discovering the most appropriate reconfiguration instants for improving performance and lowering pow...
Field-Programmable Gate Arrays (FPGAs) consume roughly 14 times more dynamic power than Application ...
Both computational performances and energy efficiency are required for the development of any mobile...
The design space of FPGA-based processor systems is huge, because many parameters can be modified at...
Both computational performances and energy efficiency are required for the development of any mobile...
As only the currently required functionality on a dynamic reconfigurable FPGA-based system is active...
The design space of FPGA-based processor systems is huge, because many parameters can be modified at...
International audiencePerformance, cost and energy consumption are the main key features to evaluate...
International audienceField Programmable Gate Array (FPGA) architectures, such as Xilinx's Virtex-4 ...
Abstract: The paper describes a new approach of a flexible run-time system for handling dynamic func...
International audienceNowadays, power optimization has become a major interest for most digital hard...
Discovering the most appropriate reconfiguration instants for improving performance and lowering pow...
Field-Programmable Gate Arrays (FPGAs) consume roughly 14 times more dynamic power than Application ...
Both computational performances and energy efficiency are required for the development of any mobile...
The design space of FPGA-based processor systems is huge, because many parameters can be modified at...
Both computational performances and energy efficiency are required for the development of any mobile...