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Exploring the performance–power–energy balance of low-power multicore and manycore architectures for anomaly detection in remote sensing

机译：探索用于遥感异常检测的低功率多核和多核架构的性能 - 功率 - 能量平衡

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In this paper, we perform an experimental study of the interactions between execution time (i.e., performance), power, and energy that occur in modern low-power architectures when executing the RX algorithm for detecting anomalies in hyperspectral images (i.e., signatures which are spectrally different from their surrounding data). We believe this is important because, for airborne and spaceborne remote sensing missions, power and/or energy can be in practice as relevant as performance. In this sense, this paper investigates whether several recent low-power multithreaded architectures, from ARM and NVIDIA, can be a practical alternative in this domain to a standard high-performance multicore processor, using the RX anomaly detector as a case study.

机译：在本文中，我们对执行低功耗架构中的RX算法（用于检测高光谱图像中的异常）执行时间（即性能），功率和能量之间的交互作用进行了实验研究，该交互作用发生在现代低功耗架构中与其周围的数据在频谱上有所不同）。我们认为这很重要，因为对于机载和太空遥感任务而言，功率和/或能量在实践中可能与性能相关。从这个意义上讲，本文以RX异常检测器为案例，研究了ARM和NVIDIA等几种最近的低功耗多线程体系结构是否可以在此领域替代标准高性能多核处理器。

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León Navarro Germán; Molero Jose M.; Garzon E.M.; García I.; Plaza Antonio; Quintana Ortí Enrique S.;
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年度 2015
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正文语种 eng
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专利

1. Exploring the performance-power-energy balance of low-power multicore and manycore architectures for anomaly detection in remote sensing [J] . Leon G., Molero J. M., Garzon E. M., Journal of supercomputing . 2015,第5期

机译：探索低功耗多核和多核架构的性能-功率-能量平衡，以进行遥感异常检测
2. Energy balance between voltage-frequency scaling and resilience for linear algebra routines on low-power multicore architectures [J] . Catalan Sandra, Herrero Jose R., Quintana-Orti Enrique S., Parallel Computing . 2018,第APRa期

机译：低功耗多核架构上线性代数例程的电压-频率缩放和弹性之间的能量平衡
3. An energy-aware performance analysis of SWIMM: Smith–Waterman implementation on Intel’s Multicore and Manycore architectures [J] . Enzo Rucci, Carlos García, Guillermo Botella, Concurrency, practice and experience . 2015,第18期

机译：SWIMM的节能感知性能分析：Smith-Waterman在英特尔多核和Manycore架构上的实现
4. Performance and Energy Analysis of the Iterative Solution of Sparse Linear Systems on Multicore and Manycore Architectures [C] . Jose I. Aliaga, Hartwig Anzt, Maribel Castillo, International conference on parallel processing and applied mathematics . 2014

机译：多核和众核架构上的稀疏线性系统迭代解决方案的性能和能量分析
5. Machine Learning Enabled Network-on-Chip Design for Low-Power, High-Performance, and Flexible Manycore Architectures [D] . Zheng, Hao. 2021

机译：机器学习支持芯片线路设计，用于低功耗，高性能和灵活的多核体系结构
6. A Low-Power CMOS Wireless Acoustic Sensing Platform for Remote Surveillance Applications [O] . Yong Wang, Ranran Zhou, Zhenyue Liu, 2020

机译：适用于远程监视应用的低功耗CMOS无线声学传感平台
7. Energy Balance between Voltage-Frequency Scaling and Resilience for Linear Algebra Routines on Low-Power Multicore Architectures [O] . Catalán Pallarés, Sandra, Herrero Zaragoza, José Ramón, Quintana Ortí, Enrique S., 2017

机译：低功耗多核架构上线性代数例程的电压 - 频率调整与弹性之间的能量平衡

Exploring the performance–power–energy balance of low-power multicore and manycore architectures for anomaly detection in remote sensing

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