Gradient descent algorithm for the optimization of fixed priorities in real-time systems

IF 3.7 2区计算机科学 Q1 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE Journal of Systems Architecture Pub Date : 2024-06-04 DOI:10.1016/j.sysarc.2024.103198

Juan M. Rivas , J. Javier Gutiérrez , Ana Guasque , Patricia Balbastre

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Abstract

This paper considers the offline assignment of fixed priorities in partitioned preemptive real-time systems where tasks have precedence constraints. This problem is crucial in this type of systems, as having a good fixed priority assignment allows for an efficient use of the processing resources while meeting all the deadlines. In the literature, we can find several proposals to solve this problem, which offer varying trade-offs between the quality of their results and their computational complexities. In this paper, we propose a new approach, leveraging existing algorithms that are widely exploited in the field of Machine Learning: Gradient Descent, the Adam Optimizer, and Gradient Noise. We show how to adapt these algorithms to the problem of fixed priority assignment in conjunction with existing worst-case response time analyses. We demonstrate the performance of our proposal on synthetic task-sets with different sizes. This evaluation shows that our proposal is able to find more schedulable solutions than previous heuristics, approximating optimal but intractable algorithms such as MILP or brute-force, while requiring reasonable execution times.

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用于优化实时系统中固定优先级的梯度下降算法

本文探讨了任务有优先级限制的分区抢占式实时系统中固定优先级的离线分配问题。这个问题在这类系统中至关重要，因为良好的固定优先级分配可以在满足所有截止日期要求的同时有效利用处理资源。在文献中，我们可以找到几种解决这一问题的方案，它们在结果质量和计算复杂性之间做出了不同的权衡。在本文中，我们提出了一种新方法，利用机器学习领域广泛使用的现有算法：梯度下降算法、亚当优化算法和梯度噪声算法。我们展示了如何将这些算法与现有的最坏情况响应时间分析相结合，以适应固定优先级分配问题。我们在不同规模的合成任务集上演示了我们建议的性能。评估结果表明，与之前的启发式算法相比，我们的建议能够找到更多可调度的解决方案，近似于 MILP 或蛮力等最优但难以解决的算法，同时要求合理的执行时间。

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来源期刊

Journal of Systems Architecture 工程技术-计算机：硬件

CiteScore

8.70

自引率

15.60%

发文量

226

审稿时长

46 days

期刊介绍： The Journal of Systems Architecture: Embedded Software Design (JSA) is a journal covering all design and architectural aspects related to embedded systems and software. It ranges from the microarchitecture level via the system software level up to the application-specific architecture level. Aspects such as real-time systems, operating systems, FPGA programming, programming languages, communications (limited to analysis and the software stack), mobile systems, parallel and distributed architectures as well as additional subjects in the computer and system architecture area will fall within the scope of this journal. Technology will not be a main focus, but its use and relevance to particular designs will be. Case studies are welcome but must contribute more than just a design for a particular piece of software. Design automation of such systems including methodologies, techniques and tools for their design as well as novel designs of software components fall within the scope of this journal. Novel applications that use embedded systems are also central in this journal. While hardware is not a part of this journal hardware/software co-design methods that consider interplay between software and hardware components with and emphasis on software are also relevant here.