Systems for application domains like robotics, aerospace, defense, autonomous vehicles, etc. are usually developed on System-on-Programmable Chip (SoPC) platforms, capable of supporting several multi-modal computation-intensive tasks on their FPGAs. Since such systems are mostly autonomous and mobile, they have rechargeable power sources and therefore, varying power budgets. They may also develop hardware faults due to radiation, thermal cycling, aging, etc. Systems must be able to sustain the performance requirements of their multi-task multi-modal workload in the presence of variations in available power or occurrence of hardware faults. This paper presents an approach for mitigating power budget variations and hardware faults (transient ...
As only the currently required functionality on a dynamic reconfigurable FPGA-based system is active...
Adaptive Hardware Systems can rely on software or hardware adaptation. Software adaptation can be gl...
General Purpose Computing on Graphical Processing Units has been exploited in many different fields ...
Autonomous mobile systems nowadays deploy FPGA-based System on Programmable Chips (SoPCs) for suppor...
Abstract: The paper describes a new approach of a flexible run-time system for handling dynamic func...
Reconfigurable architectures such as FPGAs are a key technology for implementing self-adaptive and f...
This paper describes the integration of a scrubbing strategy and a dynamic reconfiguration mechanism...
As reconfigurable devices' capacities and the complexity of applications that use them increase, the...
As reconfigurable devices\u27 capacities and the complexity of applications that use them increase, ...
International audienceField Programmable Gate Array (FPGA) architectures, such as Xilinx's Virtex-4 ...
Faced with the exponential growth in computing requirements, programmable hardware accelerators, suc...
Embedded high performance computing applications have two requirements which hardly can be achieved ...
In the past two decades, FPGA has been witnessed from its restricted use as glue logic towards real ...
Embedded systems with stringent computing and low power consumption needs within a restricted amount...
Due to the advancements of VLSI technologies, we can put more cores on a chip, resulting in the emer...
As only the currently required functionality on a dynamic reconfigurable FPGA-based system is active...
Adaptive Hardware Systems can rely on software or hardware adaptation. Software adaptation can be gl...
General Purpose Computing on Graphical Processing Units has been exploited in many different fields ...
Autonomous mobile systems nowadays deploy FPGA-based System on Programmable Chips (SoPCs) for suppor...
Abstract: The paper describes a new approach of a flexible run-time system for handling dynamic func...
Reconfigurable architectures such as FPGAs are a key technology for implementing self-adaptive and f...
This paper describes the integration of a scrubbing strategy and a dynamic reconfiguration mechanism...
As reconfigurable devices' capacities and the complexity of applications that use them increase, the...
As reconfigurable devices\u27 capacities and the complexity of applications that use them increase, ...
International audienceField Programmable Gate Array (FPGA) architectures, such as Xilinx's Virtex-4 ...
Faced with the exponential growth in computing requirements, programmable hardware accelerators, suc...
Embedded high performance computing applications have two requirements which hardly can be achieved ...
In the past two decades, FPGA has been witnessed from its restricted use as glue logic towards real ...
Embedded systems with stringent computing and low power consumption needs within a restricted amount...
Due to the advancements of VLSI technologies, we can put more cores on a chip, resulting in the emer...
As only the currently required functionality on a dynamic reconfigurable FPGA-based system is active...
Adaptive Hardware Systems can rely on software or hardware adaptation. Software adaptation can be gl...
General Purpose Computing on Graphical Processing Units has been exploited in many different fields ...