Dynamic Voltage and Frequency Scaling (DVFS) is the preferred actuator for power-performance policies, and its use is growing also for thermal management. DVFS implementations, especially for embedded platforms, have historically provided only few possible operating points, despite this may impair the optimality of the frequency selection for a given application. Moreover, with multiple policies making use of it, the rate at which frequency and voltage changes will occur in a given system is expected to increase. The work presented in this paper has a two-fold objective: first, to present a methodology to extend a DVFS driver with additional operating points and second, to measure the impact of DVFS transitions from the performance and ener...
Power management techniques are necessary to save power in the microprocessor. By changing the frequ...
The proliferation of embedded systems and mobile devices has created an increasing demand for low-en...
A crucial objective in battery operated embedded systems is to work under the minimal power consumpt...
Dynamic Voltage and Frequency Scaling (DVFS) is the preferred actuator for power-performance policie...
Energy-efficient computing is becoming more important with the latest technology improvements. State...
Dynamic voltage and frequency scaling (DVFS) mechanisms have been developed for years to decrease th...
Energy efficiency is quickly becoming a first-class design constraint in high-performance computing ...
Abstract—High-performance processors are becoming increasingly power bound with technology scaling. ...
Reducing energy consumption is an important consideration in embedded real-time system development. ...
Fine-grained dynamic voltage/frequency scaling (DVFS) demonstrates great promise for improving the e...
International audiencePower consumption and the ever-increasing service demand are key issues that r...
Abstract — The proliferation of embedded systems and mobile devices has created an increasing demand...
We propose and evaluate two new and independently-applicable techniques, process-driven voltage scal...
We describe and evaluate two new, independently-applicable power reduction techniques for power mana...
Computers can reduce their power consumption by decreasing their speed using Dynamic Voltage and Fre...
Power management techniques are necessary to save power in the microprocessor. By changing the frequ...
The proliferation of embedded systems and mobile devices has created an increasing demand for low-en...
A crucial objective in battery operated embedded systems is to work under the minimal power consumpt...
Dynamic Voltage and Frequency Scaling (DVFS) is the preferred actuator for power-performance policie...
Energy-efficient computing is becoming more important with the latest technology improvements. State...
Dynamic voltage and frequency scaling (DVFS) mechanisms have been developed for years to decrease th...
Energy efficiency is quickly becoming a first-class design constraint in high-performance computing ...
Abstract—High-performance processors are becoming increasingly power bound with technology scaling. ...
Reducing energy consumption is an important consideration in embedded real-time system development. ...
Fine-grained dynamic voltage/frequency scaling (DVFS) demonstrates great promise for improving the e...
International audiencePower consumption and the ever-increasing service demand are key issues that r...
Abstract — The proliferation of embedded systems and mobile devices has created an increasing demand...
We propose and evaluate two new and independently-applicable techniques, process-driven voltage scal...
We describe and evaluate two new, independently-applicable power reduction techniques for power mana...
Computers can reduce their power consumption by decreasing their speed using Dynamic Voltage and Fre...
Power management techniques are necessary to save power in the microprocessor. By changing the frequ...
The proliferation of embedded systems and mobile devices has created an increasing demand for low-en...
A crucial objective in battery operated embedded systems is to work under the minimal power consumpt...