Open AccessJournal Article
A survey of design techniques for system-level dynamic power management : Special section on low-power electronics and design
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Dynamic power management (DPM) is a design methodology for dynamically reconfiguring systems to provide the requested services and performance levels with a minimum number of active components or a minimum load on such components as mentioned in this paper.Abstract:
Dynamic power management (DPM) is a design methodology for dynamically reconfiguring systems to provide the requested services and performance levels with a minimum number of active components or a minimum load on such components. DPM encompasses a set of techniques that achieves energy-efficient computation by selectively turning off (or reducing the performance of) system components when they are idle (or partially unexploited). In this paper, we survey several approaches to system-level dynamic power management. We first describe how systems employ power-manageable components and how the use of dynamic reconfiguration can impact the overall power consumption. We then analyze DPM implementation issues in electronic systems, and we survey recent initiatives in standardizing the hardware/software interface to enable software-controlled power management of hardware components.read more
Citations
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Dynamic Power Management for Embedded System Idle State in the Presence of Periodic Interrupt Services
TL;DR: This paper proposes the configurable clock tick to disable the interrupt service until the next task is released so that the processor can stay in the low power mode for longer time.
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Power and Performance Management in Priority-Type Cluster Computing Systems
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DPM at OS level: low-power scheduling policies
TL;DR: Several low-power process scheduling policies, increasing the possibility to conveniently force devices into low power states, have been implemented in the Linux operating system to verify their feasibility and to analyze their benefits and drawbacks.
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Minimum-Energy Semi-Static Scheduling of a Periodic Real-Time Task on DVFS-Enabled Multi-Core Processors
TL;DR: The proposed scheduling scheme minimizes the energy consumption of a real-time task on the multi-core processor with the dynamic voltage and frequency scaling capability and prepares the minimum-energy solutions for all input cases at off-line time.
References
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Book
Markov Decision Processes: Discrete Stochastic Dynamic Programming
TL;DR: Puterman as discussed by the authors provides a uniquely up-to-date, unified, and rigorous treatment of the theoretical, computational, and applied research on Markov decision process models, focusing primarily on infinite horizon discrete time models and models with discrete time spaces while also examining models with arbitrary state spaces, finite horizon models, and continuous time discrete state models.
Journal ArticleDOI
Introduction to Probability Models.
John Hickey,Sheldon M. Ross +1 more
TL;DR: The nationwide network of sheldon m ross introduction to probability models solutions is dedicated to offering you the ideal service and will help you with this kind of manual.
Book
Synthesis and optimization of digital circuits
TL;DR: This book covers techniques for synthesis and optimization of digital circuits at the architectural and logic levels, i.e., the generation of performance-and-or area-optimal circuits representations from models in hardware description languages.
Book
Introduction to Probability Models, Eighth Edition
TL;DR: The introduction to probability models eighth edition is universally compatible with any devices to read and an online access to it is set as public so you can get it instantly.
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Toward power-sensitive network architectures in wireless communications: concepts, issues, and design aspects
TL;DR: This work considers issues associated with the design of power-sensitive wireless network architectures, which utilize power efficiently in establishing user communication at required QoS levels, and formulate some general associated concepts which have wide applicability to wireless network design.