By the same authors

A Generic and Compositional Framework for Multicore Response Time Analysis

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Standard

A Generic and Compositional Framework for Multicore Response Time Analysis. / Altmeyer, Sebastian; Davis, Robert Ian; Soares Indrusiak, Leandro; Maiza, Claire; Nelis, Vincent ; Reineke, Jan.

RTNS '15 : Proceedings of the 23rd International Conference on Real Time and Networks Systems. ACM, 2015. p. 129-138.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Harvard

Altmeyer, S, Davis, RI, Soares Indrusiak, L, Maiza, C, Nelis, V & Reineke, J 2015, A Generic and Compositional Framework for Multicore Response Time Analysis. in RTNS '15 : Proceedings of the 23rd International Conference on Real Time and Networks Systems. ACM, pp. 129-138, 23rd International conference on Real-Time Networks and Systems (RTNS 2015), United Kingdom, 4/11/15. https://doi.org/10.1145/2834848.2834862

APA

Altmeyer, S., Davis, R. I., Soares Indrusiak, L., Maiza, C., Nelis, V., & Reineke, J. (2015). A Generic and Compositional Framework for Multicore Response Time Analysis. In RTNS '15 : Proceedings of the 23rd International Conference on Real Time and Networks Systems (pp. 129-138). ACM. https://doi.org/10.1145/2834848.2834862

Vancouver

Altmeyer S, Davis RI, Soares Indrusiak L, Maiza C, Nelis V, Reineke J. A Generic and Compositional Framework for Multicore Response Time Analysis. In RTNS '15 : Proceedings of the 23rd International Conference on Real Time and Networks Systems. ACM. 2015. p. 129-138 https://doi.org/10.1145/2834848.2834862

Author

Altmeyer, Sebastian ; Davis, Robert Ian ; Soares Indrusiak, Leandro ; Maiza, Claire ; Nelis, Vincent ; Reineke, Jan. / A Generic and Compositional Framework for Multicore Response Time Analysis. RTNS '15 : Proceedings of the 23rd International Conference on Real Time and Networks Systems. ACM, 2015. pp. 129-138

Bibtex - Download

@inproceedings{e881c530a2174990ae15036c91fae777,
title = "A Generic and Compositional Framework for Multicore Response Time Analysis",
abstract = "In this paper, we introduce a Multicore Response Time Analysis (MRTA) framework. This framework is extensible to different multicore architectures, with various types and arrangements oflocal memory, and different arbitration policies for the commoninterconnects. We instantiate the framework for single level localdata and instruction memories (cache or scratchpads), for a variety of memory bus arbitration policies, including: Round-Robin, FIFO, Fixed-Priority, Processor-Priority, and TDMA, and account for DRAM refreshes. The MRTA framework provides a general approach to timing verification for multicore systems that is parametric in the hardware configuration and so can be used at the architectural design stage to compare the guaranteed levels ofperformance that can be obtained with different hardware configurations. The MRTA framework decouples response timeanalysis from a reliance on context independent WCET values.Instead, the analysis formulates response times directly from thedemands on different hardware resources.",
keywords = "multiprocessor , response time analysis, real time systems, scheduling, processor, memory bus",
author = "Sebastian Altmeyer and Davis, {Robert Ian} and {Soares Indrusiak}, Leandro and Claire Maiza and Vincent Nelis and Jan Reineke",
year = "2015",
month = "11",
doi = "10.1145/2834848.2834862",
language = "English",
isbn = "978-1-4503-3591-1",
pages = "129--138",
booktitle = "RTNS '15",
publisher = "ACM",

}

RIS (suitable for import to EndNote) - Download

TY - GEN

T1 - A Generic and Compositional Framework for Multicore Response Time Analysis

AU - Altmeyer, Sebastian

AU - Davis, Robert Ian

AU - Soares Indrusiak, Leandro

AU - Maiza, Claire

AU - Nelis, Vincent

AU - Reineke, Jan

PY - 2015/11

Y1 - 2015/11

N2 - In this paper, we introduce a Multicore Response Time Analysis (MRTA) framework. This framework is extensible to different multicore architectures, with various types and arrangements oflocal memory, and different arbitration policies for the commoninterconnects. We instantiate the framework for single level localdata and instruction memories (cache or scratchpads), for a variety of memory bus arbitration policies, including: Round-Robin, FIFO, Fixed-Priority, Processor-Priority, and TDMA, and account for DRAM refreshes. The MRTA framework provides a general approach to timing verification for multicore systems that is parametric in the hardware configuration and so can be used at the architectural design stage to compare the guaranteed levels ofperformance that can be obtained with different hardware configurations. The MRTA framework decouples response timeanalysis from a reliance on context independent WCET values.Instead, the analysis formulates response times directly from thedemands on different hardware resources.

AB - In this paper, we introduce a Multicore Response Time Analysis (MRTA) framework. This framework is extensible to different multicore architectures, with various types and arrangements oflocal memory, and different arbitration policies for the commoninterconnects. We instantiate the framework for single level localdata and instruction memories (cache or scratchpads), for a variety of memory bus arbitration policies, including: Round-Robin, FIFO, Fixed-Priority, Processor-Priority, and TDMA, and account for DRAM refreshes. The MRTA framework provides a general approach to timing verification for multicore systems that is parametric in the hardware configuration and so can be used at the architectural design stage to compare the guaranteed levels ofperformance that can be obtained with different hardware configurations. The MRTA framework decouples response timeanalysis from a reliance on context independent WCET values.Instead, the analysis formulates response times directly from thedemands on different hardware resources.

KW - multiprocessor

KW - response time analysis

KW - real time systems

KW - scheduling

KW - processor

KW - memory bus

U2 - 10.1145/2834848.2834862

DO - 10.1145/2834848.2834862

M3 - Conference contribution

SN - 978-1-4503-3591-1

SP - 129

EP - 138

BT - RTNS '15

PB - ACM

ER -