This paper presents a pragmatic algorithm to buil a global time on any distributed system, which is optimal for homogeneous parallel machines. After some reflexions on time, clocks and distributed systems, we survey and criticize the classical approaches based on clock synchronisation techniques. Satisfying better our purposes, a statistical method is chosen as a building block to derive an original algorithm valid for any topology. This algorithm purposes because, after an acquisition phasis, it induces neither CPU nor message overhead. We provide in the conclusion some data about its behavior and performances on some parallel machines
A distributed system can be characterized by the fact that the global state is distributed and that ...
A distributed system consists of a collection of concurrently executing processes that do not use sh...
A distributed system consists of a set of processors that communicate by message transmission and th...
This paper presents a pragmatic algorithm to buil a global time on any distributed system, which is ...
Abstract: This paper1 introduces a simple real-time distributed computing model for message-passing ...
Abstract A distributed system can be characterized by the fact that the global state is distributed ...
AbstractThis paper introduces a simple real-time distributed computing model for message-passing sys...
We consider the classical problem of clock synchronization in distributed systems. Previously, this ...
This dissertation is in two parts, covering two distinct areas of distributed computing. The first p...
The increasing diffusion of shared-memory multi core machines has given rise to a change in the desi...
International audienceThis article presents the main real-time scheduling policies available to homo...
For real-time applications in a distributed system a common notion of time is indispensable. Clocks ...
Scheduling problems are essential for decision making in many academic disciplines, including operat...
The increasing diffusion of shared-memory multi-core machines has given rise to a change in the desi...
We study time and knowledge in synchronous and asynchronous reliable distributed systems. For both ...
A distributed system can be characterized by the fact that the global state is distributed and that ...
A distributed system consists of a collection of concurrently executing processes that do not use sh...
A distributed system consists of a set of processors that communicate by message transmission and th...
This paper presents a pragmatic algorithm to buil a global time on any distributed system, which is ...
Abstract: This paper1 introduces a simple real-time distributed computing model for message-passing ...
Abstract A distributed system can be characterized by the fact that the global state is distributed ...
AbstractThis paper introduces a simple real-time distributed computing model for message-passing sys...
We consider the classical problem of clock synchronization in distributed systems. Previously, this ...
This dissertation is in two parts, covering two distinct areas of distributed computing. The first p...
The increasing diffusion of shared-memory multi core machines has given rise to a change in the desi...
International audienceThis article presents the main real-time scheduling policies available to homo...
For real-time applications in a distributed system a common notion of time is indispensable. Clocks ...
Scheduling problems are essential for decision making in many academic disciplines, including operat...
The increasing diffusion of shared-memory multi-core machines has given rise to a change in the desi...
We study time and knowledge in synchronous and asynchronous reliable distributed systems. For both ...
A distributed system can be characterized by the fact that the global state is distributed and that ...
A distributed system consists of a collection of concurrently executing processes that do not use sh...
A distributed system consists of a set of processors that communicate by message transmission and th...