Efficient DVFS to Prevent Hard Faults for Many-Core Architectures

机译：高效的DVFS可以防止多核架构出现硬故障

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摘要

Dynamic Voltage and Frequency Scaling (DVFS) is a widely-used and efficient technology for Dynamic Power management (DPM). To avoid hard faults caused by voltage and frequency scaling, some overhead always be imposed on the performance of applications due to the latency of DVFS. Besides, on many-core architectures, the design of multiple voltage domains has made the latency of DVFS a much more significant issue. In this paper, we propose an efficient DVFS scheme to prevent hard faults, meanwhile eliminating the impact of latency of DVFS as possible. The main idea is applying Retroactive Frequency Scaling (RFS) where the latency of DVFS might be introduced. Based on the analysis, our approach is expected to achieve noticeable performance improvement on many-core architectures.

机译：动态电压和频率缩放（DVFS）是用于动态电源管理（DPM）的广泛使用的高效技术。为了避免由电压和频率缩放引起的硬故障，由于DVFS的延迟，总是会给应用程序的性能带来一些开销。此外，在多核体系结构上，多个电压域的设计使DVFS的延迟成为更加重要的问题。在本文中，我们提出了一种有效的DVFS方案来防止硬故障，同时尽可能消除DVFS延迟的影响。主要思想是应用追溯频率缩放（RFS），可能会引入DVFS的延迟。根据分析，我们的方法有望在多核体系结构上实现显着的性能改进。

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《Information and communication technology》|2014年|674-679|共6页
会议地点 Bali(ID)
作者
Zhiquan Lai; Baokang Zhao; Jinshu Su;
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作者单位

National University of Defense Technology, China;

National University of Defense Technology, China;

National Key Laboratory of Parallel and Distributed Processing (PDL), China, National University of Defense Technology, China;

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原文格式 PDF
正文语种 eng
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关键词
efficient; DVFS; hard fault; many-core; retroactive frequency scaling (RFS);

机译：高效DVFS；硬故障多核追溯频率缩放（RFS）;

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专利

1. Latency-aware DVFS for efficient power state transitions on many-core architectures [J] . Lai Zhiquan, Lam King Tin, Wang Cho-Li, Journal of supercomputing . 2015,第7期

机译：延迟感知的DVFS可在多核架构上进行有效的电源状态转换
2. A low-overhead soft-hard fault-tolerant architecture, design and management scheme for reliable high-performance many-core 3D-NoC systems [J] . Dang Khanh N., Meyer Michael, Okuyama Yuichi, Journal of supercomputing . 2017,第6期

机译：低开销的软硬容错架构，设计和管理方案，用于可靠的高性能多核3D-NoC系统
3. Adaptive fault-tolerant architecture and routing algorithm for reliable many-core 3D-NoC systems [J] . Akram Ben Ahmed, Abderazek Ben Abdallah Journal of Parallel and Distributed Computing . 2016,第jula期

机译：可靠的多核3D-NoC系统的自适应容错架构和路由算法
4. Efficient DVFS to Prevent Hard Faults for Many-Core Architectures [C] . Zhiquan Lai, Baokang Zhao, Jinshu Su Asian Conference on Availability, Reliability and Security . 2014

机译：高效的DVF，以防止多核架构的硬故障
5. An efficient design space exploration framework to optimize power-efficient heterogeneous many-core multi-threading embedded processor architectures. [D] . Datta, Kushal. 2011

机译：一个有效的设计空间探索框架，用于优化省电的异构多核多线程嵌入式处理器体系结构。
6. Efficient BinDCT hardware architecture exploration and implementation on FPGA [O] . Abdessalem Ben Abdelali, Ichraf Chatti, Marwa Hannachi, 2016

机译：高效的BinDCT硬件架构探索和FPGA实现
7. Efficient DVFS to Prevent Hard Faults for Many-Core Architectures [O] . Lai, Zhiquan, Zhao, Baokang, Su, Jinshu 2014

机译：高效的DVFS可以防止多核架构出现硬故障

Efficient DVFS to Prevent Hard Faults for Many-Core Architectures

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