Ding Han, Guohui Li, Quan Zhou, Jianjun Li, Yong Yang, Xiaofei Hu
{"title":"两部分执行场景分析的高效执行框架","authors":"Ding Han, Guohui Li, Quan Zhou, Jianjun Li, Yong Yang, Xiaofei Hu","doi":"10.1145/3465474","DOIUrl":null,"url":null,"abstract":"\n Response Time Analysis\n (\n RTA\n ) is an important and promising technique for analyzing the schedulability of real-time tasks under both\n Global Fixed-Priority\n (\n G-FP\n ) scheduling and\n Global Earliest Deadline First\n (\n G-EDF\n ) scheduling. Most existing RTA methods for tasks under global scheduling are dominated by partitioned scheduling, due to the pessimism of the\n \n \n \n \n \n \n \n -based interference calculation where\n \n \n \n \n \n \n \n is the number of processors. Two-part execution scenario is an effective technique that addresses this pessimism at the cost of efficiency. The major idea of two-part execution scenario is to calculate a more accurate upper bound of the interference by dividing the execution of the target job into two parts and calculating the interference on the target job in each part. This article proposes a novel RTA execution framework that improves two-part execution scenario by reducing some unnecessary calculation, without sacrificing accuracy of the schedulability test. The key observation is that, after the division of the execution of the target job, two-part execution scenario enumerates all possible execution time of the target job in the first part for calculating the final\n Worst-Case Response Time\n (\n WCRT\n ). However, only some special execution time can cause the final result. A set of experiments is conducted to test the performance of the proposed execution framework and the result shows that the proposed execution framework can improve the efficiency of two-part execution scenario analysis by up to\n \n \n \n \n \n \n \n in terms of the execution time.\n","PeriodicalId":7063,"journal":{"name":"ACM Trans. Design Autom. Electr. Syst.","volume":"58 1","pages":"3:1-3:24"},"PeriodicalIF":0.0000,"publicationDate":"2022-01-31","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"An Efficient Execution Framework of Two-Part Execution Scenario Analysis\",\"authors\":\"Ding Han, Guohui Li, Quan Zhou, Jianjun Li, Yong Yang, Xiaofei Hu\",\"doi\":\"10.1145/3465474\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"\\n Response Time Analysis\\n (\\n RTA\\n ) is an important and promising technique for analyzing the schedulability of real-time tasks under both\\n Global Fixed-Priority\\n (\\n G-FP\\n ) scheduling and\\n Global Earliest Deadline First\\n (\\n G-EDF\\n ) scheduling. Most existing RTA methods for tasks under global scheduling are dominated by partitioned scheduling, due to the pessimism of the\\n \\n \\n \\n \\n \\n \\n \\n -based interference calculation where\\n \\n \\n \\n \\n \\n \\n \\n is the number of processors. Two-part execution scenario is an effective technique that addresses this pessimism at the cost of efficiency. The major idea of two-part execution scenario is to calculate a more accurate upper bound of the interference by dividing the execution of the target job into two parts and calculating the interference on the target job in each part. This article proposes a novel RTA execution framework that improves two-part execution scenario by reducing some unnecessary calculation, without sacrificing accuracy of the schedulability test. The key observation is that, after the division of the execution of the target job, two-part execution scenario enumerates all possible execution time of the target job in the first part for calculating the final\\n Worst-Case Response Time\\n (\\n WCRT\\n ). However, only some special execution time can cause the final result. 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An Efficient Execution Framework of Two-Part Execution Scenario Analysis
Response Time Analysis
(
RTA
) is an important and promising technique for analyzing the schedulability of real-time tasks under both
Global Fixed-Priority
(
G-FP
) scheduling and
Global Earliest Deadline First
(
G-EDF
) scheduling. Most existing RTA methods for tasks under global scheduling are dominated by partitioned scheduling, due to the pessimism of the
-based interference calculation where
is the number of processors. Two-part execution scenario is an effective technique that addresses this pessimism at the cost of efficiency. The major idea of two-part execution scenario is to calculate a more accurate upper bound of the interference by dividing the execution of the target job into two parts and calculating the interference on the target job in each part. This article proposes a novel RTA execution framework that improves two-part execution scenario by reducing some unnecessary calculation, without sacrificing accuracy of the schedulability test. The key observation is that, after the division of the execution of the target job, two-part execution scenario enumerates all possible execution time of the target job in the first part for calculating the final
Worst-Case Response Time
(
WCRT
). However, only some special execution time can cause the final result. A set of experiments is conducted to test the performance of the proposed execution framework and the result shows that the proposed execution framework can improve the efficiency of two-part execution scenario analysis by up to
in terms of the execution time.