Daniel Prokesch scite author profile

Real-time systems need time-predictable platforms to allow static analysis of the worst-case execution time (WCET). Standard multi-core processors are optimized for the average case and are hardly analyzable. Within the T-CREST project we propose novel solutions for time-predictable multi-core architectures that are optimized for the WCET instead of the average-case execution time. The resulting time-predictable resources (processors, interconnect, memory arbiter, and memory controller) and tools (compiler, WCET analysis) are designed to ease WCET analysis and to optimize WCET performance. Compared to other processors the WCET performance is outstanding.The T-CREST platform is evaluated with two industrial use cases. An application from the avionic domain demonstrates that tasks executing on different cores do not interfere with respect to their WCET. A signal processing application from the railway domain shows that the WCET can be reduced for computation-intensive tasks when distributing the tasks on several cores and using the network-on-chip for communication. With three cores the WCET is improved by a factor of 1.8 and with 15 cores by a factor of 5.7.The T-CREST project is the result of a collaborative research and development project executed by eight partners from academia and industry. The European Commission funded T-CREST.

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Patmos: a time-predictable microprocessor

Schoeberl

Puffitsch

Hepp

et al. 2018

Real-Time Syst

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Compiling for Time Predictability

Puschner

Kirner

Huber

et al. 2012

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The T-CREST approach of compiler and WCET-analysis integration

Puschner

Prokesch

Huber

et al. 2013

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A Generator for Time-Predictable Code

Prokesch

Hepp

Puschner

2015

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Time-predictability is an essential property of software components of safety-critical hard real-time systems. Singlepath code generation produces code that forces every execution to follow the same trace of instructions, thus making the execution time of code independent of its input data. This supports the time predictability of components and simplifies their worst-case execution-time analysis. In this paper we present the implementation of a single-path code generator in a compiler for a timepredictable processor. The evaluation on a real-world application shows that single-path code generation is a practicable strategy for the construction of time-predictable software components.

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Daniel Prokesch

T-CREST: Time-predictable multi-core architecture for embedded systems

Patmos: a time-predictable microprocessor

Compiling for Time Predictability

The T-CREST approach of compiler and WCET-analysis integration

A Generator for Time-Predictable Code

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