This work presents a new trace-based parallel discrete event simulation framework designed for predicting the behavior of a novel computing platform running energy-aware parallel applications. Discrete event traces capture the runtime be- havior of parallel applications on existing systems and form the basis for the simulation. The simulation framework pro- cesses the events of the input trace by applying simulation models that modify event properties. Thus, the output are again event traces that describe the predicted application behavior on the simulated target platform. Both input and simulated traces can be visualized and analyzed with estab- lished tools. The modular design of the framework enables the simulation of different aspects s...
The common third level trigger and forth level reconstruction farm for the future HERA-B experiment ...
© 2015 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Industry trends indicate that many-core heterogeneous processors will be the next-generation answer ...
This work presents a new trace-based parallel discrete event simulation framework designed for predi...
Delivering high performance in an energy-efficient manner is of great importance in conducting resea...
High-throughput computing (HTC) is a powerful paradigm allowing vast quantities of independent work ...
The past decade witnessed a rapid development of powerful but energy-hungry parallel and distributed...
New challenges and opportunities emerge as computing interacts with our surroundings in unprecedente...
International audienceIn recent years, research has been conducted in the area of large systems mode...
High Throughput Computing (HTC) is a powerful paradigm allowing vast quantities of independent work ...
International audienceMonitoring and assessing the energy efficiency of supercomputers and data cent...
With the growing capabilities of the Internet of Things and proliferation of mobile devices interest...
In this thesis we propose a new simulation platform specifically designed for modelling cloud comput...
Achieving Exascale computing is one of the current leading challenges in High Performance Computing ...
[[abstract]]In recent years, it has gradually become popular to use discrete-event simulation as a t...
The common third level trigger and forth level reconstruction farm for the future HERA-B experiment ...
© 2015 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Industry trends indicate that many-core heterogeneous processors will be the next-generation answer ...
This work presents a new trace-based parallel discrete event simulation framework designed for predi...
Delivering high performance in an energy-efficient manner is of great importance in conducting resea...
High-throughput computing (HTC) is a powerful paradigm allowing vast quantities of independent work ...
The past decade witnessed a rapid development of powerful but energy-hungry parallel and distributed...
New challenges and opportunities emerge as computing interacts with our surroundings in unprecedente...
International audienceIn recent years, research has been conducted in the area of large systems mode...
High Throughput Computing (HTC) is a powerful paradigm allowing vast quantities of independent work ...
International audienceMonitoring and assessing the energy efficiency of supercomputers and data cent...
With the growing capabilities of the Internet of Things and proliferation of mobile devices interest...
In this thesis we propose a new simulation platform specifically designed for modelling cloud comput...
Achieving Exascale computing is one of the current leading challenges in High Performance Computing ...
[[abstract]]In recent years, it has gradually become popular to use discrete-event simulation as a t...
The common third level trigger and forth level reconstruction farm for the future HERA-B experiment ...
© 2015 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Industry trends indicate that many-core heterogeneous processors will be the next-generation answer ...