A Novel Shared-Clock Hybrid Scheduling Algorithm based on Controller Area Network

Yan, Biyun; Wei, Yehua Dennis

doi:10.4304/jcp.9.2.373-379

Cited by 4 publications

(2 citation statements)

References 7 publications

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“…In this stage the load is not balanced and the resources' utilization is relatively low. The secondary scheduling, a.k.a the stage two, covers from step (13) to (24). In this stage all resources are sorted chronological ascending.…”

Section: A Introduction To the Opt-min-min Scheduling Algorithmmentioning

confidence: 99%

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OPT-Min-Min Scheduling Algorithm of Grid Resources

Cao

Liu

Wang

et al. 2014

JSW

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As a newly emerged distributed computing platform, the Gird aims at the implementation of resources sharing and collaborative computing on the internet. Research on grid resource scheduling algorithm is one of the core problems of grid technology, as well as an essential part of grid resource management. Resource scheduling in grid environment refers to the application of tasks scheduling algorithm to assign the works in the grid to the right resources. During the allocation process, the computing performance of grid resource nodes, communication parameters and loading balance, etc., shall be put into consideration. Since they are all dynamic for both the grid resources and the grid resource nodes, requirements on grid resource scheduling algorithm are relatively higher if compared to those existing parallel resource scheduling algorithm. Based on the Min-Min scheduling algorithm, the OPT-Min-Min scheduling algorithm is presented to overcome the drawbacks. Upon the basis of applying Min-Min prescheduling into stage one, by adapting the strategy of tworounds scheduling, the assignment on heavy load resources are rescheduled to balance the load. Actual cases are used to illustrate the superiority of OPT-Min-Min scheduling algorithm to the Min-Min scheduling algorithm. Simulation experiments were carried out to the batch grid resource scheduling algorithms including Min-Min, Max-Min, Minmean and OPT-Min-Min. According to the ETC generation technique used in experimental benchmarks, ETC matrix was generated. By the comparing and analyzing the Min-Min, Max-Min and Min-mean scheduling algorithm, the validity of OPT-Min-Min scheduling algorithm is proved.

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Section: A Introduction To the Opt-min-min Scheduling Algorithmmentioning

confidence: 99%

“…If multiple resources meet the criteria at one time, the one with minimum execution time will catch the bid. Then redo the sorting, and repeat loop (14) - (24) until no task is available on resource R maxCT . The final feedback is the final Make span.…”

Section: A Introduction To the Opt-min-min Scheduling Algorithmmentioning

confidence: 99%

OPT-Min-Min Scheduling Algorithm of Grid Resources

Cao

Liu

Wang

et al. 2014

JSW

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Benchmarking and analysis of can transmision on real-time environment

Saranyaraj

Nandhakishore

Venkatesh

2015

2015 2nd International Conference on Electronics and Communication Systems (ICECS)

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This paper targets to relate the latency and performance among the Linux CAN drivers that is Socket CAN and RTCAN which are the open source CAN drivers. Linux is one of the open source kernel which is moreover a cost effective and is the best alternative compared with other expensive patented RTOS. Socket CAN is added to Linux kernel mainline which is idealized by most CAN developers, however RTCAN is an emerging trend in the field of development in which research work is in emergent phase. Here in this paper we are focusing on analysis of RTCAN to prove that it is better than the most preferred Socket CAN so that the developer's interest will be switched over RTCAN for more advanced and desired research based on their applications, which is solely dependent on the results obtained. Basically for the above mentioned analysis we perform virtual CAN analysis and hardware testing. The analysis of performance, latency and timing is compared between both SocketCAN and RTCAN. From the compared results, we will finally benchmark.

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Implementation of CAN Bus Protocol on XENOMAI RTOS on ARM Platform for Industrial Automation

Jitendrasinh

Deshpande²

2016

2016 International Conference on Computation of Power, Energy Information and Commuincation (ICCPEIC)

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A Novel Shared-Clock Hybrid Scheduling Algorithm based on Controller Area Network

Cited by 4 publications

References 7 publications

OPT-Min-Min Scheduling Algorithm of Grid Resources

OPT-Min-Min Scheduling Algorithm of Grid Resources

Benchmarking and analysis of can transmision on real-time environment

Implementation of CAN Bus Protocol on XENOMAI RTOS on ARM Platform for Industrial Automation

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