@article{LOF20,
Author = {Arno Luppold, Dominic Oehlert and Heiko Falk},
Title = {Compiling for the Worst Case: Memory Allocation for Multi-task and Multi-core Hard Real-time Systems.},
Journal = {<em>ACM Transactions on Embedded Computing Systems (TECS)</em>.},
Year = {(2020).},
Volume = {<strong>19</strong>.},
Number = {(2),},
Month = {March},
Note = {aluppold, doehlert, hfalk, ESD, multiopt, teamplay, WCC},
Publisher = {ACM:},
Series = {202003-tecs-luppold.pdf},
Isbn = {10.1145/3381752},
Howpublished = {20-95 LOF20 TECS},
Abstract = {Modern embedded hard real-time systems feature multiple tasks running on multiple processing cores. Schedulability analysis of such systems is usually performed on an abstract system level with each task being represented as a black box with fixed timing properties. If timing constraints are violated, optimizing the system on a code-level in order to achieve schedulability is a tedious task. To tackle this issue, we propose an extension to the WCET-Aware C Compiler framework WCC. We integrated an optimization framework based on Integer-Linear Programming into the WCC which is able to optimize a multi-core system with multiple tasks running on each core with regards to its schedulability. We evaluate the framework by providing two approaches on a schedulability aware static Scratchpad Memory (SPM) allocation: One based on Integer-Linear Programming (ILP) and one based on a genetic algorithm.}
}

@COMMENT{Bibtex file generated on 2026-5-15 with typo3 si_bibtex plugin. Data from https://www.tuhh.de/es/home/publications }