The computational density of modern processors is so high, that operating all their units at full power would destroy the device by thermal runaway. Hence, temperature control solutions are required that guarantee a safe operation without unduly limiting speed, thus integrating with the power/performance tradeoff management. Moreover, the said solutions have to be simple and computationally light themselves, as millisecond-scale response may be required. Finally, as processors are installed in heterogeneous devices and face a variety of operating conditions, an easy and reliable post-silicon tuning is a must.We present such a solution by exploiting event-based control, and a hardware/software partition aimed at maximising efficiency and fle...
Abstract Power-aware operating systems ensure that the system temperature does not exceed a threshol...
This paper proposes the use of formal feedback control theory as a way to implement adaptive techniq...
The use of high-end multicore processors today can incur high power density with significant variabi...
The computational density of modern processors is so high, that operating all their units at full po...
The density of modern microprocessors is so high, that operating all their units at full power would...
This chapter presents the proposed event-based thermal control solution at the HARPA-RT level, thus ...
This paper is part of a long-term research on the application of event-based control to the thermal ...
International audienceHardware designers are facing the following dilemma: they must ensure that the...
With the increasing clock rate and transistor count of to-day’s microprocessors, power dissipation i...
With continuous IC(Integrated Circuit) technology size scaling, more and more transistors are integr...
Power and thermal issues are primary design constraints in both stationary and portable computing de...
Editor's note: Thermal management in high-performance multicore platforms has become exceedingly com...
AbstractHigh performance systems bring high temperatures, which result in decreased lifetime reliabi...
High temperatures and large thermal variations on the die create severe challenges in system reliabi...
Abstract Power-aware operating systems ensure that the system temperature does not exceed a threshol...
This paper proposes the use of formal feedback control theory as a way to implement adaptive techniq...
The use of high-end multicore processors today can incur high power density with significant variabi...
The computational density of modern processors is so high, that operating all their units at full po...
The density of modern microprocessors is so high, that operating all their units at full power would...
This chapter presents the proposed event-based thermal control solution at the HARPA-RT level, thus ...
This paper is part of a long-term research on the application of event-based control to the thermal ...
International audienceHardware designers are facing the following dilemma: they must ensure that the...
With the increasing clock rate and transistor count of to-day’s microprocessors, power dissipation i...
With continuous IC(Integrated Circuit) technology size scaling, more and more transistors are integr...
Power and thermal issues are primary design constraints in both stationary and portable computing de...
Editor's note: Thermal management in high-performance multicore platforms has become exceedingly com...
AbstractHigh performance systems bring high temperatures, which result in decreased lifetime reliabi...
High temperatures and large thermal variations on the die create severe challenges in system reliabi...
Abstract Power-aware operating systems ensure that the system temperature does not exceed a threshol...
This paper proposes the use of formal feedback control theory as a way to implement adaptive techniq...
The use of high-end multicore processors today can incur high power density with significant variabi...