Abstract In this paper we discuss environments for the full-system simulation of multicomputers. These environments are composed of a large collection of modules that simulate the compute nodes and the network, plus additional link-ing elements that perform communication and synchroniza-tion. We present our own environment, in which we integrate Simics with INSEE. We reuse as many Simics modules as possible to reduce the effort of hardware modeling, and also to simulate standard machines running unmodified operat-ing systems. This way we avoid the error-prone effort of de-veloping drivers and libraries. The environment we propose in this paper enables us to show some of the difficulties we found when integrating diverse tools, and how we we...
This work presents a new architecture layout to perform real time network simulations distributed a...
The paper describes a technique to simulate the execution of parallel software on a generic multiple...
We present our system-level co-simulation environment for mixed domain microsystems. The environment...
In this work we discuss a range of approaches to full-system simulation of distributed memory parall...
(eng) Our work deals with simulation of distributed memory parallel computers. The tool we realized ...
[[abstract]]In recent years, it has gradually become popular to use discrete-event simulation as a t...
Parallelizing the development cycles of hardware and software is becoming the industry’s norm for re...
As the speed increase of single-core processors keeps declining, it is important to adapt simulation...
With traditional event list techniques, evaluating a detailed discrete event simulation model can of...
Chapter from Fast Simulation of Computer Architectures, eds. Thomas M. Conte and Charles E. Gimarc. ...
In this thesis we propose a distributed-memory parallel-computer simulation system called PUPPET (Pe...
Full-system simulation of systems comprising hundreds of microcontrollers, at the level of in-struct...
Rapid advances in network interface cards have facilitated the interconnection of inexpensive deskto...
Summarization: The breakdown of Dennard scaling coupled with the persistently growing transistor cou...
Discrete event-driven simulation makes it possible to model a computer system in detail. However, su...
This work presents a new architecture layout to perform real time network simulations distributed a...
The paper describes a technique to simulate the execution of parallel software on a generic multiple...
We present our system-level co-simulation environment for mixed domain microsystems. The environment...
In this work we discuss a range of approaches to full-system simulation of distributed memory parall...
(eng) Our work deals with simulation of distributed memory parallel computers. The tool we realized ...
[[abstract]]In recent years, it has gradually become popular to use discrete-event simulation as a t...
Parallelizing the development cycles of hardware and software is becoming the industry’s norm for re...
As the speed increase of single-core processors keeps declining, it is important to adapt simulation...
With traditional event list techniques, evaluating a detailed discrete event simulation model can of...
Chapter from Fast Simulation of Computer Architectures, eds. Thomas M. Conte and Charles E. Gimarc. ...
In this thesis we propose a distributed-memory parallel-computer simulation system called PUPPET (Pe...
Full-system simulation of systems comprising hundreds of microcontrollers, at the level of in-struct...
Rapid advances in network interface cards have facilitated the interconnection of inexpensive deskto...
Summarization: The breakdown of Dennard scaling coupled with the persistently growing transistor cou...
Discrete event-driven simulation makes it possible to model a computer system in detail. However, su...
This work presents a new architecture layout to perform real time network simulations distributed a...
The paper describes a technique to simulate the execution of parallel software on a generic multiple...
We present our system-level co-simulation environment for mixed domain microsystems. The environment...