Add to ORKGIn this work we take a control-theoretic approach to feedbackbased dynamic voltage scaling (DVS) in Multi Processor System on Chip (MPSoC) pipelined architectures. We present and discuss a novel feedback approach based on both linear and non-linear techniques aimed at controlling interprocessor queue occupancy. Theoretical analysis and experiments, carried out on a cycleaccurate multiprocessor simulation platform, show that feedbackbased control reduces energy consumption with respect to standard local DVS policies and highlight that non-linear strategies allows a more flexible and robust implementation in presence of variable workload conditions. 1
Feedback-based mechanisms can be employed to monitor the performance of Multiprocessor Systems-on-Ch...
In this paper a complete environment to design, model and simulate DVS based processor system is pro...
Reducing energy consumption in multiprocessor systems-on-chip (MPSoCs) where communication happens v...
none5In this work, we describe a control theoretic approach to dynamic voltage/frequency scaling (DV...
In this work, we describe a control theoretic approach to dynamic voltage/frequency scaling (DVFS) i...
Feedback-based mechanisms can be employed to monitor the performance of Multiprocessor Systems-on-Ch...
For microprocessors used in real-time embedded systems, minimizing power consumption is difficult du...
Abstract—Runtime frequency and voltage adaptation has be-come very attractive for current and next g...
For microprocessors used in real-time embedded systems, minimizing power consumption is difficult du...
For microprocessors used in real-time embedded systems, minimizing power consumption is difficult du...
Feedback-based mechanisms can be employed to monitor the performance of Multiprocessor Systems-on-Ch...
Runtime frequency and voltage adaptation has become very attractive for current and next generation...
Runtime frequency and voltage adaptation has become very attractive for current and next generation...
Runtime frequency and voltage adaptation has become very attractive for current and next generation...
none5noRuntime frequency and voltage adaptation has become very attractive for current and next gen...
Feedback-based mechanisms can be employed to monitor the performance of Multiprocessor Systems-on-Ch...
In this paper a complete environment to design, model and simulate DVS based processor system is pro...
Reducing energy consumption in multiprocessor systems-on-chip (MPSoCs) where communication happens v...
none5In this work, we describe a control theoretic approach to dynamic voltage/frequency scaling (DV...
In this work, we describe a control theoretic approach to dynamic voltage/frequency scaling (DVFS) i...
Feedback-based mechanisms can be employed to monitor the performance of Multiprocessor Systems-on-Ch...
For microprocessors used in real-time embedded systems, minimizing power consumption is difficult du...
Abstract—Runtime frequency and voltage adaptation has be-come very attractive for current and next g...
For microprocessors used in real-time embedded systems, minimizing power consumption is difficult du...
For microprocessors used in real-time embedded systems, minimizing power consumption is difficult du...
Feedback-based mechanisms can be employed to monitor the performance of Multiprocessor Systems-on-Ch...
Runtime frequency and voltage adaptation has become very attractive for current and next generation...
Runtime frequency and voltage adaptation has become very attractive for current and next generation...
Runtime frequency and voltage adaptation has become very attractive for current and next generation...
none5noRuntime frequency and voltage adaptation has become very attractive for current and next gen...
Feedback-based mechanisms can be employed to monitor the performance of Multiprocessor Systems-on-Ch...
In this paper a complete environment to design, model and simulate DVS based processor system is pro...
Reducing energy consumption in multiprocessor systems-on-chip (MPSoCs) where communication happens v...