Séminaire d’Eric RUTTEN (CR INRIA Grenoble)
2 mai 2017 @ 14 h 00 min - 15 h 00 min
GratuitEric Rutten (CR INRIA Grenoble, responsable de l’équipe Ctrl-A) sera de passage à l’IMT Atlantique (Mines-Nantes) le mardi 2 mai. Il donnera un exposé de 14h00 à 15h00 dans l’amphi Kastler.
Il y présentera les travaux récents développés au sein de l’équipe CTRL-A autour du contrôle discret pour les systèmes logiciels autonomiques (auto-adaptatifs) et leurs applications.
Title: Discrete control for autonomic computing, an overview
Abstract:
Due to the increasing complexity, scale and heterogeneity in computing systems and applications, including hardware, software, communications and networks, there are growing needs for runtime management of resources, in an automated self-adaptation to the variations due to data or the environment. Such feedback loops are the object of Autonomic Computing (AC) and can involve the use of Control Theory.
Discrete control targets the logical and coordination aspects of autonomic systems. It is defined as the supervisory control of discrete event systems (DES) in the control theory community, based on models such as finite state machines or Petri nets. It can be coupled with continuous controllers (e.g. in switching or hybrid systems).
Applications are amongst others in synchronisation in multi-thread programming, coordination of multiple autonomic loops, reconfiguration control of FPGA-based architectures.
Due to the increasing complexity, scale and heterogeneity in computing systems and applications, including hardware, software, communications and networks, there are growing needs for runtime management of resources, in an automated self-adaptation to the variations due to data or the environment. Such feedback loops are the object of Autonomic Computing (AC) and can involve the use of Control Theory.
Discrete control targets the logical and coordination aspects of autonomic systems. It is defined as the supervisory control of discrete event systems (DES) in the control theory community, based on models such as finite state machines or Petri nets. It can be coupled with continuous controllers (e.g. in switching or hybrid systems).
Applications are amongst others in synchronisation in multi-thread programming, coordination of multiple autonomic loops, reconfiguration control of FPGA-based architectures.
Ce séminaire est ouvert à tous !
