Visible to the public Design and Analysis of SIC: A Provably Timing-Predictable Pipelined Processor Core

Submitted by grigby1 on Mon, 10/05/2020 - 2:00pm
TitleDesign and Analysis of SIC: A Provably Timing-Predictable Pipelined Processor Core
Publication TypeConference Paper
Year of Publication2018
AuthorsHahn, Sebastian, Reineke, Jan
Conference Name2018 IEEE Real-Time Systems Symposium (RTSS)
Date PublishedDec. 2018
PublisherIEEE
ISBN Number978-1-5386-7908-1
Keywordscompositionality, Hardware, microprocessor chips, monotonicity, multi-core, Multicore processing, multicore timing analysis, multiprocessing systems, pipeline processing, Pipelines, pipelining, pubcrawl, Real-time Systems, SIC, Silicon carbide, standard in-order pipeline design, strictly in-order core, Task Analysis, Timing, timing anomalies, timing compositionality, timing predictability, timing-predictable pipelined processor core, WCET, WCET analysis, worst-case execution time
Abstract

We introduce the strictly in-order core (SIC), a timing-predictable pipelined processor core. SIC is provably timing compositional and free of timing anomalies. This enables precise and efficient worst-case execution time (WCET) and multi-core timing analysis. SIC's key underlying property is the monotonicity of its transition relation w.r.t. a natural partial order on its microarchitectural states. This monotonicity is achieved by carefully eliminating some of the dependencies between consecutive instructions from a standard in-order pipeline design. SIC preserves most of the benefits of pipelining: it is only about 6-7% slower than a conventional pipelined processor. Its timing predictability enables orders-of-magnitude faster WCET and multi-core timing analysis than conventional designs.
URLhttps://ieeexplore.ieee.org/document/8603236
DOI10.1109/RTSS.2018.00060
Citation Keyhahn_design_2018
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