textThe management of power consumption while simultaneously delivering acceptable levels of performance is becoming a critical task in highperformance, general-purpose micro-architectures. Nearly a third of the energy consumed in these processors can be attributed to the dynamic scheduling hardware that identifies multiple instructions to issue in parallel. The energy consumption of this complex logic structure is projected to grow dramatically in future wide-issue processors. This research develops a novel Hybrid-Scheduling approach that synergistically combines the advantages of compile-time instruction scheduling and dynamic scheduling to reduce energy consumption in the dynamic issue hardware. This approach is predicated on t...
The energy usage of computer systems is becom-ing important, especially for portable battery-operate...
Power management has become a vital issue in the design of modern processors. A pop-ular technology ...
The road towards Exascale Computing requires a holistic effort to address three different challenges...
textThe management of power consumption while simultaneously delivering acceptable levels of perfor...
This paper develops a technique that uniquely combines the advantages of static scheduling and dynam...
The design of high–end microprocessors is increasingly constrained by high levels of power consumpti...
Energy consumption is a primary concern of current day computing systems -- from handheld battery op...
The energy usage of computer systems is becoming more important, especially for battery operated sys...
Energy minimization is an important issue in our days [8]. One of the main mechanisms for reducing t...
International audienceEnergy consumption is an important concern when designing embedded systems. St...
cited By 5; Conference of 21st International Conference on Real-Time Networks and Systems, RTNS 2013...
Abstract — In contemporary and future embedded as well as high-performance microprocessors, power co...
While Dynamic Voltage Scaling (DVS) is an efficient tech-nique in reducing the dynamic energy consum...
In modern superscalar processors, the complex instruction scheduler could form the critical path of ...
The “one–size–fits–all ” philosophy used for permanently allocating datapath resources in today’s su...
The energy usage of computer systems is becom-ing important, especially for portable battery-operate...
Power management has become a vital issue in the design of modern processors. A pop-ular technology ...
The road towards Exascale Computing requires a holistic effort to address three different challenges...
textThe management of power consumption while simultaneously delivering acceptable levels of perfor...
This paper develops a technique that uniquely combines the advantages of static scheduling and dynam...
The design of high–end microprocessors is increasingly constrained by high levels of power consumpti...
Energy consumption is a primary concern of current day computing systems -- from handheld battery op...
The energy usage of computer systems is becoming more important, especially for battery operated sys...
Energy minimization is an important issue in our days [8]. One of the main mechanisms for reducing t...
International audienceEnergy consumption is an important concern when designing embedded systems. St...
cited By 5; Conference of 21st International Conference on Real-Time Networks and Systems, RTNS 2013...
Abstract — In contemporary and future embedded as well as high-performance microprocessors, power co...
While Dynamic Voltage Scaling (DVS) is an efficient tech-nique in reducing the dynamic energy consum...
In modern superscalar processors, the complex instruction scheduler could form the critical path of ...
The “one–size–fits–all ” philosophy used for permanently allocating datapath resources in today’s su...
The energy usage of computer systems is becom-ing important, especially for portable battery-operate...
Power management has become a vital issue in the design of modern processors. A pop-ular technology ...
The road towards Exascale Computing requires a holistic effort to address three different challenges...