Global Fixed Priority Scheduling with Preemption Threshold: Schedulability Analysis and Stack Size Minimization

Chao Wang; Zonghua Gu; Haibo Zeng

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Global Fixed Priority Scheduling with Preemption Threshold: Schedulability Analysis and Stack Size Minimization

机译：具有抢占阈值的全局固定优先级调度：可调度性分析和堆栈大小最小化

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摘要

Memory is a limited resource in cost-sensitive, resource-constrained embedded applications. Preemption Threshold Scheduling (PTS) is a well-known technique for reducing the system stack size requirement. We consider Global Fixed Priority Scheduling with Preemption Threshold (gFPPT), as integration of PTS with global Fixed-Priority scheduling on a homogeneous multiprocessor platform, and formulate the optimization problem of minimizing the system stack size requirement while guaranteeing schedulability. We present schedulability analysis, optimization algorithms for priority and preemption threshold assignment, and an ILP formulation for computing system stack size requirement. Performance evaluation shows that the system stack size requirement can be reduced significantly with gFPPT compared to preemptive scheduling.

机译：在成本敏感，资源受限的嵌入式应用程序中，内存是有限的资源。抢占阈值调度（PTS）是减少系统堆栈大小要求的众所周知的技术。我们将具有抢占阈值的全局固定优先级调度（gFPPT）视为PTS与同类多处理器平台上的全局固定优先级调度的集成，并提出了在保证可调度性的同时最小化系统堆栈大小要求的优化问题。我们提供可调度性分析，优先级和抢占阈值分配的优化算法，以及用于计算系统堆栈大小要求的ILP公式。性能评估表明，与抢先式调度相比，使用gFPPT可以显着减少系统堆栈大小要求。

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来源
《IEEE Transactions on Parallel and Distributed Systems》 |2016年第11期|3242-3255|共14页
作者
Chao Wang; Zonghua Gu; Haibo Zeng;
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作者单位

College of Computer Science, Zhejiang University, Hangzhou, China;

College of Computer Science, Zhejiang University, Hangzhou, China;

Department of Electrical and Computer Engineering, Virginia Tech, Blacksburg, VA;

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正文语种 eng
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Processor scheduling; Job shop scheduling; Algorithm design and analysis; Runtime; Optimization; Automotive engineering;

机译：处理器调度;车间作业调度;算法设计与分析;运行时间;优化;汽车工程;

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1. Schedulability analysis and stack size minimization with preemption thresholds and mixed-criticality scheduling [J] . Zhao Qingling, Gu Zonghua, Zeng Haibo, Journal of systems architecture . 2018,第期

机译：使用抢占阈值和混合关键性调度，调度分析和堆栈大小最小化
2. Efficient exact Boolean schedulability tests for fixed priority preemption threshold scheduling [J] . Saehwa Kim The Journal of Systems and Software . 2017,第deca期

机译：固定优先级抢占阈值调度的高效精确布尔可调度性测试
3. Efficient Optimal Priority Assignment for Fixed Priority Preemption Threshold Scheduling [J] . Kim Saehwa Journal of Information Recording . 2018,第2期

机译：固定优先级抢占阈值调度的高效最佳优先级分配
4. Exact response-time analysis for fixed-priority preemption-threshold scheduling [C] . IEEE Conference on Emerging Technologies and Factory Automation . 2010

机译：固定优先级抢占阈值调度的精确响应时间分析
5. Memory-Aware Scheduling for Fixed Priority Hard Real-Time Computing Systems [D] . Chaparro-Baquero, Gustavo. 2018

机译：固定优先级硬实时计算系统的内存感知调度
6. Assigning Priorities for Fixed Priority Preemption Threshold Scheduling [O] . Saehwa Kim 2015

机译：为固定优先级抢占阈值调度分配优先级
7. Assigning Priorities for Fixed Priority Preemption Threshold Scheduling [O] . Saehwa Kim 2015

机译：为固定优先级抢占阈值调度分配优先级

Global Fixed Priority Scheduling with Preemption Threshold: Schedulability Analysis and Stack Size Minimization

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