Temperature affects not only the reliability but also the performance, power, and cost of the embedded system. This paper proposes a thermal-aware task allocation and scheduling algorithm for embedded systems. The algorithm is used as a sub-routine for hardware/software co-synthesis to reduce the peak temperature and achieve a thermally even distribution while meeting real time constraints. The paper investigates both power-aware and thermal-aware approaches to task allocation and scheduling. The experimental results show that the thermal-aware approach outperforms the power-aware schemes in terms of maximal and average temperature reductions. To the best of our knowledge, this is the first task allocation and scheduling algorithm that take...
Thermal issues in microprocessors have become a major design constraint because of their adverse eff...
Over the past few decades, increased demand of highly sophisticated real-time applications with comp...
Abstract—In this paper, we propose PROMETHEUS, a frame-work for proactive temperature aware scheduli...
Over the past few decades, we have been enjoying tremendous benefits thanks to the revolutionary adv...
We seek to maximize the throughput of a periodic application by obtaining an optimized task sequence...
Thermal management is gaining importance since it is a promising method for increasing the reliabili...
We study scheduling problems motivated by recently developed techniques for micro-processor thermal ...
Due to increasing power densities, thermal management is becoming an important issue in real-time s...
Abstract Power-aware operating systems ensure that the system temperature does not exceed a threshol...
Over the years, thermal-aware designs have become a prominent research issue for real-time applicati...
Abstract: The increased complexity and operating frequency in current microprocessors is resulting i...
Power and thermal issues are primary design constraints in both stationary and portable computing de...
10.1109/VLSI.Design.2009.42Proceedings: 22nd International Conference on VLSI Design - Held Jointly ...
© 2017 Elsevier B.V. With the exponential increase in power density and the relentless scaling of tr...
Current task-centric many-core schedulers share a “naive” view of processor architecture; a view tha...
Thermal issues in microprocessors have become a major design constraint because of their adverse eff...
Over the past few decades, increased demand of highly sophisticated real-time applications with comp...
Abstract—In this paper, we propose PROMETHEUS, a frame-work for proactive temperature aware scheduli...
Over the past few decades, we have been enjoying tremendous benefits thanks to the revolutionary adv...
We seek to maximize the throughput of a periodic application by obtaining an optimized task sequence...
Thermal management is gaining importance since it is a promising method for increasing the reliabili...
We study scheduling problems motivated by recently developed techniques for micro-processor thermal ...
Due to increasing power densities, thermal management is becoming an important issue in real-time s...
Abstract Power-aware operating systems ensure that the system temperature does not exceed a threshol...
Over the years, thermal-aware designs have become a prominent research issue for real-time applicati...
Abstract: The increased complexity and operating frequency in current microprocessors is resulting i...
Power and thermal issues are primary design constraints in both stationary and portable computing de...
10.1109/VLSI.Design.2009.42Proceedings: 22nd International Conference on VLSI Design - Held Jointly ...
© 2017 Elsevier B.V. With the exponential increase in power density and the relentless scaling of tr...
Current task-centric many-core schedulers share a “naive” view of processor architecture; a view tha...
Thermal issues in microprocessors have become a major design constraint because of their adverse eff...
Over the past few decades, increased demand of highly sophisticated real-time applications with comp...
Abstract—In this paper, we propose PROMETHEUS, a frame-work for proactive temperature aware scheduli...