Variability-Tolerant Workload Allocation for MPSoC Energy Minimization under Real-Time Constraints

FRANCESCO PATERNA; ANDREA ACQUAVIVA; FRANCESCO PAPARIELLO; GIUSEPPE DESOLI; LUCA BENINI

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Variability-Tolerant Workload Allocation for MPSoC Energy Minimization under Real-Time Constraints

机译：实时约束下用于MPSoC能耗最小化的可变容忍工作量分配

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Sub-50nm CMOS technologies are affected by significant variability, which causes power and performance variations among nominally similar cores in MPSoC platforms. This undesired heterogeneity threatens execution predictability and energy efficiency. We propose two techniques to allocate sets of barrier-synchronized tasks. The first technique models allocation as an ILP and achieves optimal results, but requires an offline solver. The second technique adopts a two-stage heuristic approach, and it can be adapted to work online. We tested our approach on the virtual prototype of a next-generation industrial multicore platform. Experimental results demonstrate that our approach minimizes deadline violations while increasing energy efficiency.

机译：低于50nm的CMOS技术受重大变化的影响，这会导致MPSoC平台中名义上相似的内核之间的功率和性能发生变化。这种不希望的异质性威胁了执行的可预测性和能源效率。我们提出了两种技术来分配屏障同步任务集。第一种技术将分配建模为ILP并获得最佳结果，但是需要离线求解器。第二种技术采用了两阶段启发式方法，可以适应于在线工作。我们在下一代工业多核平台的虚拟原型上测试了我们的方法。实验结果表明，我们的方法最大程度地减少了违反期限的情况，同时提高了能源效率。

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《ACM Transactions on Embedded Computing Systems》 |2012年第4期|共24页
作者
FRANCESCO PATERNA; ANDREA ACQUAVIVA; FRANCESCO PAPARIELLO; GIUSEPPE DESOLI; LUCA BENINI;
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正文语种 eng
中图分类程序设计、软件工程;
关键词
Algorithms; Variability; MPSoC; Real-time; Energy minimization;

机译：算法;可变性;MPSoC;实时;能耗最小化;

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专利

1. Variability-Tolerant Workload Allocation for MPSoC Energy Minimization under Real-Time Constraints [J] . FRANCESCO PATERNA, ANDREA ACQUAVIVA, FRANCESCO PAPARIELLO, ACM Transactions on Embedded Computing Systems . 2012,第4期

机译：实时约束下用于MPSoC能耗最小化的可变容忍工作量分配
2. Thermal-Aware Task Scheduling for Energy Minimization in Heterogeneous Real-Time MPSoC Systems [J] . Junlong Zhou, Tongquan Wei, Mingsong Chen, IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems . 2016,第8期

机译：异构实时MPSoC系统中用于热量最小化的热感知任务调度
3. Workload-Ahead-Driven Online Energy Minimization Techniques for Battery-Powered Embedded Systems with Time-Constraints [J] . YUAN CAI, MARCUS T. SCHMITZ, BASHIR M. AL-HASHIMI, ACM Transactions on Design Automation of Electronic Systems . 2007,第1期

机译：具有时间约束的电池供电嵌入式系统的提前工作量驱动在线能量最小化技术
4. Variability-tolerant Run-time Workload Allocation for MPSoC Energy Minimization under Real-time Constraints [C] . Francesco Paterna, Andrea Acquaviva, Alberto Caprara, 7th ACM computing frontiers conference 2010 . 2010

机译：实时约束下用于MPSoC能耗最小化的耐变差运行时工作量分配
5. Energy efficient resource allocation for virtual network services with dynamic workload in cloud data centers. [D] . Guan, Xinjie. 2015

机译：云数据中心中具有动态工作负载的虚拟网络服务的节能资源分配。
6. Smart HVAC Control in IoT: Energy Consumption Minimization with User Comfort Constraints [O] . Jordi Serra, David Pubill, Angelos Antonopoulos, -1

机译：物联网中的智能HVAC控制：通过用户舒适度约束将能耗降至最低
7. Energy-Efficient Task Allocation and Scheduling for Multi-Mode MPSoCs under Lifetime Reliability Constraint [O] . Lin Huang, Qiang Xu 2010

机译：寿命可靠性约束下多模mpsoC的节能任务分配与调度

Variability-Tolerant Workload Allocation for MPSoC Energy Minimization under Real-Time Constraints

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