3D Compaction: A Novel Blocking-Aware Algorithm for Online Hardware Task Scheduling and Placement on 2D Partially Reconfigurable Devices

机译：3D压缩：一种用于在线硬件任务计划和在2D部分可重新配置的设备上放置的新颖的块感知算法

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Few of the benefits of exploiting partially reconfigurable devices are power consumption reduction, cost reduction, and customized performance improvement. To obtain these benefits, one main problem needs to be solved is the task scheduling and placement. Existing algorithms tend to allocate tasks at positions where can block future tasks to be scheduled earlier denoted as "blocking-effect". To tackle this effect, a novel 3D total contiguous surface (3DTCS) heuristic is proposed for equipping our scheduling and placement algorithm with blocking awareness. The proposed algorithm is evaluated with both synthetic and real workloads (e.g. MDTC, matrix multiplication, hamming code, sorting, FIR, ADPCM, etc). The proposed algorithm not only has better scheduling and placement quality but also has shorter algorithm execution time compared to existing algorithms.

机译：利用部分可重新配置的设备的好处很少是降低功耗，降低成本和提高自定义性能。为了获得这些好处，需要解决的主要问题之一是任务调度和布置。现有算法趋向于将任务分配在可能阻塞将被提前调度的未来任务的位置处，该位置称为“阻塞效应”。为了解决此问题，提出了一种新颖的3D总连续曲面（3DTCS）启发式算法，以为我们的调度和放置算法配备块感知功能。所提出的算法是通过综合和实际工作负载（例如MDTC，矩阵乘法，汉明码，排序，FIR，ADPCM等）进行评估的。与现有算法相比，所提出的算法不仅具有更好的调度和放置质量，而且算法执行时间更短。

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《Reconfigurable computing: Architectures, tools and applications》|2010年|p.194-206|共13页
会议地点 Bangkok(TH);Bangkok(TH)
作者
Thomas Marconi; Yi Lu; Koen Bertels; Georgi Gaydadjiev;
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作者单位

Computer Engineering Laboratory, EEMCS TU Delft, The Netherlands;

Computer Engineering Laboratory, EEMCS TU Delft, The Netherlands;

Computer Engineering Laboratory, EEMCS TU Delft, The Netherlands;

Computer Engineering Laboratory, EEMCS TU Delft, The Netherlands;

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原文格式 PDF
正文语种 eng
中图分类计算技术、计算机技术;
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1. Reconfigurable Hardware Operating Systems: Online Scheduling of Hard Real-Time Tasks to Partially Reconfigurable Devices [J] . G. R. Kulkarni, Komal R. Borisagar Journal of active and passive electronic devices . 2013,第4期

机译：可重新配置的硬件操作系统：将硬实时任务的在线计划安排到部分可重新配置的设备上
2. An Online Task Placement Algorithm Based on MER Enumeration for Partially Reconfigurable Device [J] . Tieyuan PAN, Li ZHU, Lian ZENG, 電子情報通信学会技術研究報告. リコンフィギャラブルシステム. Reconfigurable Systems . 2015,第109期

机译：基于MER枚举的部分可重构设备在线任务分配算法。
3. Scheduling and Placement of Hardware/Software Real-Time Relocatable Tasks in Dynamically Partially Reconfigurable Systems [J] . PAO-ANN HSIUNG, CHUN-HSIAN HUANG, JIH-SHENG SHEN, ACM transactions on reconfigurable technology and systems . 2011,第1期

机译：动态部分可重配置系统中硬件/软件实时可重定位任务的调度和放置
4. 3D Compaction: A Novel Blocking-Aware Algorithm for Online Hardware Task Scheduling and Placement on 2D Partially Reconfigurable Devices [C] . Thomas Marconi, Yi Lu, Koen Bertels, International Symposium on Reconfigurable Computing . 2010

机译：3D Compaction：一种新型阻塞感知算法，用于在线硬件任务调度和在2D部分可重新配置设备上放置
5. Online placement and scheduling algorithms and methodologies for reconfigurable computing systems. [D] . Handa, Manish. 2004

机译：可重配置计算系统的在线放置和调度算法和方法。
6. Intraoperative evaluation of device placement in spine surgery using known-component 3D-2D image registration [O] . A Uneri, T De Silva, J Goerres, -1

机译：使用已知组件的3D-2D图像配准在脊柱外科手术中对器械放置进行术中评估
7. 3D Compaction: a Novel Blocking-aware Algorithm for Online Hardware Task Scheduling and Placement on 2D Partially Reconfigurable Devices [O] . Thomas Marconi, Yi Lu, Koen Bertels, 2012

机译：3D压缩：一种用于在线硬件任务计划和在2D部分可重新配置的设备上放置的新型块感知算法

3D Compaction: A Novel Blocking-Aware Algorithm for Online Hardware Task Scheduling and Placement on 2D Partially Reconfigurable Devices

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