Using MAST for modeling and response-time analysis of real-time applications with GPUs

IF 3.7 2区计算机科学 Q1 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE Journal of Systems Architecture Pub Date : 2024-11-08 DOI:10.1016/j.sysarc.2024.103300

Iosu Gomez , Unai Díaz de Cerio , Jorge Parra , Juan M. Rivas , J. Javier Gutiérrez , Michael González Harbour

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Abstract

The ever increasing computing demands in embedded systems is driving the adoption of hardware accelerators such as GPUs, which offer powerful platforms that can compute parallel workloads efficiently. Relevant critical applications that benefit from such platforms, for instance autonomous driving, usually impose additional real-time requirements that must be met to guarantee the correctness of the systems. In this paper, we propose exploiting readily available and extensively validated techniques to model and analyze real-time systems with GPUs. Specifically, we propose a methodology to employ the MAST model to characterize such systems, and different variants of the Offset-Based Response-Time Analysis techniques to validate the real-time requirements. We verify our approach with a real industrial application sourced from the railway industry. Through a comprehensive evaluation involving synthetic and real task-sets, we characterize the applicability of the approach, and we also show how estimated worst-case response times are aligned with real measurements up to 87.2%.

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利用 MAST 对使用 GPU 的实时应用程序进行建模和响应时间分析

嵌入式系统日益增长的计算需求推动了 GPU 等硬件加速器的应用，它们提供了能够高效计算并行工作负载的强大平台。受益于此类平台的相关关键应用（如自动驾驶）通常会提出额外的实时要求，必须满足这些要求才能保证系统的正确性。在本文中，我们建议利用现成的、经过广泛验证的技术，对使用 GPU 的实时系统进行建模和分析。具体来说，我们提出了一种采用 MAST 模型来描述此类系统的方法，以及基于偏移的响应时间分析技术的不同变体来验证实时性要求。我们通过铁路行业的实际工业应用来验证我们的方法。通过涉及合成任务集和实际任务集的综合评估，我们确定了该方法的适用性，并展示了估计的最坏情况响应时间与实际测量值的吻合度高达 87.2%。

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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.