Chuancai Gu scite author profile

The response time analysis problem is intractable for most existing real-time task models, except the simplest ones. Exact solutions for this problem in general have exponential complexity, and may run into scalability problems for large-scale task systems. In this paper, we study approximate analysis for static-priority scheduling of the Digraph Real-Time task model, which is a generalization of most existing graph-based real-time task models. We present two approximate analysis methods RBF and IBF, both of which have pseudo-polynomial complexity. We quantitatively evaluate their analysis precision using the metric speedup factor. We prove that RBF has a speedup factor of 2, and this is tight even for dual-task systems. The speedup factor of IBF is an increasing function with respect to k, the number of interfering tasks. This function converges to 2 as k approaches infinity and equals 1 when k = 1, implying that the IBF analysis is exact for dual-task systems. We also conduct simulation experiments to evaluate the precision and efficiency of RBF and IBF with randomly generated task sets. Results show that the proposed approximate analysis methods have very high efficiency with low precision loss.

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Distributed Dynamic Packet Scheduling for Handling Disturbances in Real-Time Wireless Networks

Zhang

Gong

et al. 2017

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Bounding Carry-in Interference to Improve Fixed-Priority Global Multiprocessor Scheduling Analysis

Guan

Han

et al. 2015

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Demo Abstract: A Cross-Device Testing and Reporting System for Large-Scale Real-Time Wireless Networks

Gong

Han

et al. 2017

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Chuancai Gu

Partitioned mixed-criticality scheduling on multiprocessor platforms

Approximate Response Time Analysis of Real-Time Task Graphs

Distributed Dynamic Packet Scheduling for Handling Disturbances in Real-Time Wireless Networks

Bounding Carry-in Interference to Improve Fixed-Priority Global Multiprocessor Scheduling Analysis

Demo Abstract: A Cross-Device Testing and Reporting System for Large-Scale Real-Time Wireless Networks

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