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Power minimization techniques on distributed real-time systems by global and local slack management

机译：通过全局和局部冗余管理在分布式实时系统上的功耗最小化技术

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Recently, a static power management with parallelism (P-SPM) technique has been proposed to reduce the energy consumption of distributed systems to execute a set of real-time dependent tasks (Mishra et al., 2003). The authors claimed that the proposed P-SPM outperforms other known methods in energy reduction. However, how to take advantage of the local static slack for further energy optimization remains as an open problem. In this paper, we propose the static power management with proportional distribution and parallelism scheme (PDP-SPM) that not only answers this open problem, but also exploits the parallelism. Simulations on task graphs derived for DSP applications and TGFF benchmark suite suggest that PDP-SPM achieves 64% energy saving over the system without power management, and 15% over the P-SPM scheme.

机译：最近，有人提出了一种具有并行性的静态电源管理（P-SPM）技术，以减少分布式系统的能耗，以执行一组实时相关的任务（Mishra等，2003）。作者声称，提出的P-SPM在节能方面优于其他已知方法。然而，如何利用局部静态余量进行进一步的能量优化仍然是一个悬而未决的问题。在本文中，我们提出了一种具有比例分配和并行机制的静态电源管理（PDP-SPM），它不仅解决了这个开放性问题，而且还充分利用了并行性。对为DSP应用和TGFF基准套件推导出的任务图进行的仿真表明，在不进行电源管理的情况下，PDP-SPM可以在系统上实现64％的节能，在P-SPM方案上可以实现15％的节能。

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《》|2005年|p.830-835|共6页
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Shaoxiong Hua; Gang Qu;
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中图分类无线电电子学、电信技术;
关键词
real-time systems; parallel processing; processor scheduling; power minimization techniques; distributed real-time systems; global slack management; local slack management; static power management; proportional distribution; parallelism scheme; PDP-SPM; task graphs;

机译：实时系统;并行处理;处理器调度;功率最小化技术;分布式实时系统;全局松弛管理;局部松弛管理;静态功率管理;比例分配;并行方案; PDP-SPM;任务图;

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专利

1. A Dynamic Slack Management Technique for Real-Time Distributed Embedded Systems [J] . Acharya Subrata, Mahapatra Rabi IEEE Transactions on Computers . 2008,第2期

机译：实时分布式嵌入式系统的动态松弛管理技术
2. A Dynamic Slack Management Technique for Real-Time Distributed Embedded System with Enhanced Fault Tolerance and Resource Constraints [J] . Santhi Baskaran, I. Gugan, A. Aswin Kumar, International Journal on Computer Science and Engineering . 2011,第1期

机译：具有增强的容错能力和资源约束的实时分布式嵌入式系统动态松弛管理技术
3. An energy-efficient slack distribution technique for multimode distributed real-time embedded systems [J] . Mahapatra R.N., Zhao W. IEEE Transactions on Parallel and Distributed Systems . 2005,第7期

机译：多模式分布式实时嵌入式系统的节能松弛分配技术
4. Power minimization techniques on distributed real-time systems by global and local slack management [C] . Shaoxiong Hua, Gang Qu Conference on Asia South Pacific design automation . 2005

机译：通过全局和局部冗余管理在分布式实时系统上的功耗最小化技术
5. Design and run-time quality of service management techniques for publish/subscribe distributed real-time and embedded systems. [D] . Hoffert, Joseph William, II. 2011

机译：用于发布/订阅分布式实时和嵌入式系统的设计和运行时服务质量管理技术。
6. Control of Movement: Real-time slacking as a default mode of grip force control: implications for force minimization and personal grip force variation [O] . Brendan W. Smith, Justin B. Rowe, David J. Reinkensmeyer -1

机译：运动控制：实时松弛作为抓握力控制的默认模式：力最小化和个人抓握力变化的含义
7. Power Minimization Techniques on Distributed Real-Time Systems by Global and Local Slack Management [O] . Hua, Shaoxiong, Qu, Gang 2005

机译：通过全局和局部松弛管理在分布式实时系统上实现功耗最小化技术

Power minimization techniques on distributed real-time systems by global and local slack management

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