ASCOM: Affordable Sequence-aware COntention Modeling in crossbar-based MPSoCs
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hdl:2117/389470
Document typeConference lecture
Defense date2023
PublisherAssociation for Computing Machinery (ACM)
Rights accessOpen Access
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ProjectSuPerCom - Sustainable Performance for High-Performance Embedded Computing Systems (EC-H2020-772773)
BSC - COMPUTACION DE ALTAS PRESTACIONES VIII (AEI-PID2019-107255GB-C21)
BSC - COMPUTACION DE ALTAS PRESTACIONES VIII (AEI-PID2019-107255GB-C21)
Abstract
Multicore interference that arises when several accesses contend for the same shared hardware resources poses a challenge to the already demanding consolidated verification and validation practice. The Sequence-Aware Pairing (SeAP) model approach exploits the parallelism granted by crossbars to derive tighter contention bounds. We show that SeAP suffers from scalability issues that hinders its applicability to more complex contention scenarios. We address SeAP limitations in terms of scalability by identifying two complementary techniques to reduce SeAP execution time requirements. We assess the proposed approaches to show how they effectively enable the application of SeAP to large sequences of accesses to the crossbar with limited impact on tightness, and scaling gracefully with the number of co-running cores.
CitationGiesen, J. [et al.]. ASCOM: Affordable Sequence-aware COntention Modeling in crossbar-based MPSoCs. A: ACM Symposium on Applied Computing. "SAC '23: proceedings of the 38th ACM/SIGAPP Symposium on Applied Computing". New York: Association for Computing Machinery (ACM), 2023, p. 471-474. ISBN 978-1-4503-9517-5. DOI 10.1145/3555776.3577793.
ISBN978-1-4503-9517-5
Publisher versionhttps://dl.acm.org/doi/10.1145/3555776.3577793