This paper proposes the use of formal feedback control theory as a way to implement adaptive techniques in the processor architecture. Dynamic thermal management (DTM) is used as a test vehicle, and variations of a PID controller (Proportional-Integral-Differential) are developed and tested for adaptive control of fetch “toggling.” To accurately test the DTM mechanism being proposed, this paper also develops a thermal model based on lumped thermal resistances and thermal capacitances. This model is computationally efficient and tracks temperature at the granularity of individual functional blocks within the processor. Because localized heating occurs much faster than chip-wide heating, some parts of the processor are more likely to be “hot ...
skadron,siva,karthick,dtarjan¦ With power density and hence cooling costs rising exponentially, proc...
In this paper, we develop an accurate dynamic thermal management DTM approach considering the interd...
Dynamic thermal management (DTM) is a key technology for future many-core systems. Indeed systems, a...
Fueled by increasing human appetite for high computing performance, semiconductor technology has now...
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...
The power consumption of a high-end microprocessor increases very rapidly. High power consumption wi...
With continuous IC(Integrated Circuit) technology size scaling, more and more transistors are integr...
The computational density of modern processors is so high, that operating all their units at full po...
This chapter presents the proposed event-based thermal control solution at the HARPA-RT level, thus ...
The increasing complexity of computing architectures is pushing for novel Dynamic Thermal Management...
Dynamic Thermal Management (DTM) techniques have been proposed to save on thermal packaging and cool...
Over the past decades, the shrinking transistor size enabled more transistors to be integrated into ...
With increasing speed and power density, high-performance memories, including FB-DIMM (Fully Buffere...
Thermal control is crucial to real-time systems as excessive processor temperature can cause system ...
skadron,siva,karthick,dtarjan¦ With power density and hence cooling costs rising exponentially, proc...
In this paper, we develop an accurate dynamic thermal management DTM approach considering the interd...
Dynamic thermal management (DTM) is a key technology for future many-core systems. Indeed systems, a...
Fueled by increasing human appetite for high computing performance, semiconductor technology has now...
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...
The power consumption of a high-end microprocessor increases very rapidly. High power consumption wi...
With continuous IC(Integrated Circuit) technology size scaling, more and more transistors are integr...
The computational density of modern processors is so high, that operating all their units at full po...
This chapter presents the proposed event-based thermal control solution at the HARPA-RT level, thus ...
The increasing complexity of computing architectures is pushing for novel Dynamic Thermal Management...
Dynamic Thermal Management (DTM) techniques have been proposed to save on thermal packaging and cool...
Over the past decades, the shrinking transistor size enabled more transistors to be integrated into ...
With increasing speed and power density, high-performance memories, including FB-DIMM (Fully Buffere...
Thermal control is crucial to real-time systems as excessive processor temperature can cause system ...
skadron,siva,karthick,dtarjan¦ With power density and hence cooling costs rising exponentially, proc...
In this paper, we develop an accurate dynamic thermal management DTM approach considering the interd...
Dynamic thermal management (DTM) is a key technology for future many-core systems. Indeed systems, a...