The design space of FPGA-based processor systems is huge, because many parameters can be modified at design- and runtime to achieve an efficient system solution in terms of performance, power and energy consumption. Such parameters are, for example, the number of processors and their configurations, the clock frequencies at design time, the use of dynamic frequency scaling at runtime, the application task distribution, and the FPGA type and size. The major contribution of this paper is the exploration of all these parameters and their impact on performance, power dissipation, and energy consumption for four different application scenarios. The goal is to introduce a first approach for a developer's guideline, supporting the choice of an opt...
Reconfigurable architectures such as FPGAs are a key technology for implementing self-adaptive and f...
Nowadays energy consumption is a major criterion in any electronic system, especially when it comes ...
Integrating more cores per chip to increase the performance of processors has been trendingfor the p...
The design space of FPGA-based processor systems is huge, because many parameters can be modified at...
The design space of FPGA-based processor systems is huge, because many parameters can be modified at...
As only the currently required functionality on a dynamic reconfigurable FPGA-based system is active...
Runtime dynamic reconfiguration of field-programmable gate arrays (FPGAs) and devices incorporating ...
Summarization: This paper investigates the effects of different design tool (Xilinx ISE) optimisatio...
Abstract: The paper describes a new approach of a flexible run-time system for handling dynamic func...
This paper analyzes the dynamic power consumption in the fabric of Field Programmable Gate Arrays (F...
One of the critical factors in the design of any FPGA is power consumption. The main focus was timin...
As Field Programmable Gate Array (FPGA) based systems scale up in complexity, energy aware designs p...
Field programmable gate array (FPGA) processing units present considerably higher programming flexib...
Field-Programmable Gate Arrays (FPGAs) consume roughly 14 times more dynamic power than Application ...
FPGAs provide a flexible computing platform for embedded systems. However, this flexibility comes at...
Reconfigurable architectures such as FPGAs are a key technology for implementing self-adaptive and f...
Nowadays energy consumption is a major criterion in any electronic system, especially when it comes ...
Integrating more cores per chip to increase the performance of processors has been trendingfor the p...
The design space of FPGA-based processor systems is huge, because many parameters can be modified at...
The design space of FPGA-based processor systems is huge, because many parameters can be modified at...
As only the currently required functionality on a dynamic reconfigurable FPGA-based system is active...
Runtime dynamic reconfiguration of field-programmable gate arrays (FPGAs) and devices incorporating ...
Summarization: This paper investigates the effects of different design tool (Xilinx ISE) optimisatio...
Abstract: The paper describes a new approach of a flexible run-time system for handling dynamic func...
This paper analyzes the dynamic power consumption in the fabric of Field Programmable Gate Arrays (F...
One of the critical factors in the design of any FPGA is power consumption. The main focus was timin...
As Field Programmable Gate Array (FPGA) based systems scale up in complexity, energy aware designs p...
Field programmable gate array (FPGA) processing units present considerably higher programming flexib...
Field-Programmable Gate Arrays (FPGAs) consume roughly 14 times more dynamic power than Application ...
FPGAs provide a flexible computing platform for embedded systems. However, this flexibility comes at...
Reconfigurable architectures such as FPGAs are a key technology for implementing self-adaptive and f...
Nowadays energy consumption is a major criterion in any electronic system, especially when it comes ...
Integrating more cores per chip to increase the performance of processors has been trendingfor the p...