Power/Performance Exploration of Single-core and Multi-core Processor Approaches for Biomedical Signal Processing

机译：用于生物医学信号处理的单核和多核处理器方法的功率/性能探索

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摘要

This study presents a single-core and a multi-core processor architecture for health monitoring systems where slow biosignal events and highly parallel computations exist. The single-core architecture is composed of a processing core (PC), an instruction memory (IM) and a data memory (DM), while the multi-core architecture consists of PCs, individual IMs for each core, a shared DM and an interconnection crossbar between the cores and the DM. These architectures are compared with respect to power vs performance trade-offs for a multi-lead electrocardiogram signal conditioning application exploiting near threshold computing. The results show that the multi-core solution consumes 66% less power for high computation requirements (50.1 MOps/s), whereas 10.4% more power for low computation needs (681 kOps/s).

机译：这项研究提出了一种用于健康监测系统的单核和多核处理器体系结构，其中存在缓慢的生物信号事件和高度并行的计算。单核体系结构由处理内核（PC），指令存储器（IM）和数据存储器（DM）组成，而多核体系结构则由PC，每个内核的单个IM，一个共享DM和一个核心与DM之间的互连交叉开关。针对利用近阈值计算的多导联心电图信号调理应用，将这些架构在功率与性能之间进行权衡。结果表明，多核解决方案在高计算需求（50.1 MOps / s）时功耗降低66％，而在低计算需求（681 kOps / s）时功耗高10.4％。

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来源
《Integrated circuit and system design : Power and timing modeling, optimization, and simulation》|2011年|p.102-111|共10页
会议地点 Madrid(ES);Madrid(ES)
作者
Ahmed Yasir Dogan; David Atienza; Andreas Burg; Igor Loi; Luca Benini;
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作者单位

Embedded Systems Lab. (ESL) - EPFL Lausanne - 1015, Switzerland;

Embedded Systems Lab. (ESL) - EPFL Lausanne - 1015, Switzerland;

Telecommunications Circuits Lab. (TCL) - EPFL Lausanne - 1015, Switzerland;

UNIBO-Micrel Lab, Viale Risorgimento 2, 40136, Bologna, Italy;

UNIBO-Micrel Lab, Viale Risorgimento 2, 40136, Bologna, Italy;

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会议组织
原文格式 PDF
正文语种 eng
中图分类设计与性能分析;
关键词
WBSN; ECG; parallel processing; near threshold computing;

机译：WBSN；心电图并行处理;接近阈值计算;

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专利

1. Low-power processor architecture exploration for online biomedical signal analysis [J] . Dogan A.Y., Constantin J., Atienza D., Circuits, Devices & Systems, IET . 2012,第5期

机译：用于在线生物医学信号分析的低功耗处理器架构探索
2. A Synchronization-Based Hybrid-Memory Multi-Core Architecture for Energy-Efficient Biomedical Signal Processing [J] . Rubén Braojos, Daniele Bortolotti, Andrea Bartolini, IEEE Transactions on Computers . 2017,第4期

机译：基于同步的混合内存多核体系结构，用于高效节能的生物医学信号处理
3. A CAD approach for suppression of power supply noise and performance analysis of some multi-core processors in pre-layout stage [J] . Mitra Partha, Bhaumik Jaydeb Microsystem technologies . 2019,第5期

机译：一种CAD方法，用于抑制预设阶段的一些多核处理器电源噪声和性能分析
4. Power/Performance Exploration of Single-core and Multi-core Processor Approaches for Biomedical Signal Processing [C] . Ahmed Yasir Dogan, David Atienza, Andreas Burg, International Workshop on Power and Timing Modeling, Optimization and Simulation . 2011

机译：用于生物医学信号处理的单核和多核处理器方法的电源/性能探索
5. Architecture and Circuit Cross-Cutting Approaches for Power-Efficient Multi-Core Processors. [D] . Ghasemi, Hamid Reza. 2015

机译：节能多核处理器的体系结构和电路交叉切割方法。
6. Learning-Directed Dynamic Voltage and Frequency Scaling Scheme with Adjustable Performance for Single-Core and Multi-Core Embedded and Mobile Systems [O] . Yen-Lin Chen, Ming-Feng Chang, Chao-Wei Yu, 2018

机译：具有学习性能的学习型动态电压和频率缩放方案适用于单核和多核嵌入式和移动系统
7. Power/Performance Exploration of Single-core and Multi-core Processor Approaches for Biomedical Signal Processing [O] . Ahmed Yasir Dogan, David Atienza, Andreas Burg, 2013

机译：生物医学信号处理的单核和多核处理器方法的功耗/性能探索
8. Performance of Power-Law Processor with Normalization for Random Signals ofUnknown Structure [R] . Nuttall, A. H. 1997

机译：具有未知结构随机信号归一化的幂律处理器性能

Power/Performance Exploration of Single-core and Multi-core Processor Approaches for Biomedical Signal Processing

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