none6In deep submicron designs of MultiProcessor Systems-on-Chip (MPSoC) architectures, uncompensated within-die process variations and aging effects will lead to an increasing uncertainty and unbalancing of expected core lifetimes. In this paper we present an adaptive workload allocation strategy for run-time compensation of variations- and aging-induced unbalanced core lifetimes by means of core activity duty cycling. The proposed techniques regulates the percentage of idle time on short-expected-life cores to meet the platform lifetime target with minimum performance degradation. Experiments have been conducted on a multiprocessor simulator of a next-generation industrial MPSoC platform for multimedia applications made of a general purpo...
The increasing number of transistors integrated on a single chip comes with the blessing of raw comp...
The availability of numerous, possibly heterogeneous, processing resources in multi-core systems all...
Modern embedded systems increasingly require adaptive run-time management of available resources. On...
none6In deep submicron designs of MultiProcessor Systems-on-Chip (MPSoC) architectures, uncompensate...
Multicore platforms are characterized by increasing variability and aging effects which imply hetero...
International audienceMulti-processor System-on-Chips (MPSoCs) have become increasingly popular over...
With the relentless scaling of semiconductor technology, the lifetime reliability of embedded multip...
Microprocessors offer the ability for fast and reliable processing and are indispensable in many gen...
none5noAbstract Sub-50nm CMOS technologies are affected by significant variability which causes pow...
The impact of process variations and wear-out mechanisms in current and next generation technology n...
Abstract—Energy and reliability optimization are two of the most critical objectives for the synthes...
Recent trends in process technology suggest the need to moni-tor transistor wear-out in future proce...
Static schedules for systems can lead to an inefficient usage of the resources, because the system’s...
This thesis explores the potential for using existing flexibility in order to allow Multiprocessor S...
The increasing number of transistors integrated on a single chip comes with the blessing of raw comp...
The availability of numerous, possibly heterogeneous, processing resources in multi-core systems all...
Modern embedded systems increasingly require adaptive run-time management of available resources. On...
none6In deep submicron designs of MultiProcessor Systems-on-Chip (MPSoC) architectures, uncompensate...
Multicore platforms are characterized by increasing variability and aging effects which imply hetero...
International audienceMulti-processor System-on-Chips (MPSoCs) have become increasingly popular over...
With the relentless scaling of semiconductor technology, the lifetime reliability of embedded multip...
Microprocessors offer the ability for fast and reliable processing and are indispensable in many gen...
none5noAbstract Sub-50nm CMOS technologies are affected by significant variability which causes pow...
The impact of process variations and wear-out mechanisms in current and next generation technology n...
Abstract—Energy and reliability optimization are two of the most critical objectives for the synthes...
Recent trends in process technology suggest the need to moni-tor transistor wear-out in future proce...
Static schedules for systems can lead to an inefficient usage of the resources, because the system’s...
This thesis explores the potential for using existing flexibility in order to allow Multiprocessor S...
The increasing number of transistors integrated on a single chip comes with the blessing of raw comp...
The availability of numerous, possibly heterogeneous, processing resources in multi-core systems all...
Modern embedded systems increasingly require adaptive run-time management of available resources. On...