par Hamdani, Yahya;Richard, Pascal;Bertout, Antoine;Goossens, Joël 
;Grolleau, Emmanuel
Référence Proceedings (Euromicro Conference on Real-Time Systems)
Publication A Paraître, 2026-05-11
;Grolleau, EmmanuelRéférence Proceedings (Euromicro Conference on Real-Time Systems)
Publication A Paraître, 2026-05-11
Article révisé par les pairs
| Résumé : | We address the problem of scheduling periodic implicit-deadline real-time tasks on $m$ uniform processors. We introduce PCG$^*$, an optimal TL-plane algorithm based on PCG~\cite{chen2008}, which guarantees at most $2(m - 1)$ preemptions per TL-plane, matching the best-known theoretical bound for uniform platforms. The proposed algorithm advances the state of the art by offering an optimal real-time scheduling solution with a tight preemption bound within TL-planes. The numerical experiments presented in this work provide strong evidence that PCG$^*$ yields a substantial reduction in the number of preemptions relative to PCG. When applied to identical processor platforms, PCG$^*$ is also a best-possible polynomial time algorithm in terms of preemptions in a TL-plane, matching the $(m-1)$ preemption bound achieved by LRE-TL \cite{funk2010}. |
