An HPC Workload Management Simulator
Project description
AccaSim: HPC Simulator for Workload Management
==============================================
*current version:* |version|
AccaSim is a Workload management [sim]ulator for [H]PC systems, useful for developing dispatchers and conducting controlled experiments in HPC dispatching research. It is scalable and highly customizable, allowing to carry out large experiments across different workload sources, resource settings, and dispatching methods.
AccaSim enables users to design novel advanced dispatchers by exploiting information regarding the current system status, which can be extended for including custom behaviors such as power consumption and failures of the resources. The researchers can use AccaSim for instance to mimic any real system by setting up the synthetic resources suitably, develop advanced power-aware, fault-resilient dispatching methods, and test them over a wide range of workloads by generating them synthetically or using real workload traces from HPC users.
For more information please visit the `webpage of AccaSim <http://accasim.readthedocs.io/en/latest/>`_
***************
What's new?
***************
- 12-07-2017 First version of the package.
- 19-07-2017 Documentation is moved to `http://accasim.readthedocs.io <http://accasim.readthedocs.io/en/latest/>`_
- 21-08-2017 Automatic plot generation for comparison of multiple workload schedules and benchmark files: Slowdown, Queue sizes, Load ratio, Efficiency, Scalability, Simulation time, Memory Usage.
- 13-11-2017 Simulating distinct dispatchers under the same system and simulator configuration can be managed under the Experimentation class. It also includes the automatic plot generation.
- 06-12-2017 A workload generator is available for generating new workloads from existing workloads.
==============================================
*current version:* |version|
AccaSim is a Workload management [sim]ulator for [H]PC systems, useful for developing dispatchers and conducting controlled experiments in HPC dispatching research. It is scalable and highly customizable, allowing to carry out large experiments across different workload sources, resource settings, and dispatching methods.
AccaSim enables users to design novel advanced dispatchers by exploiting information regarding the current system status, which can be extended for including custom behaviors such as power consumption and failures of the resources. The researchers can use AccaSim for instance to mimic any real system by setting up the synthetic resources suitably, develop advanced power-aware, fault-resilient dispatching methods, and test them over a wide range of workloads by generating them synthetically or using real workload traces from HPC users.
For more information please visit the `webpage of AccaSim <http://accasim.readthedocs.io/en/latest/>`_
***************
What's new?
***************
- 12-07-2017 First version of the package.
- 19-07-2017 Documentation is moved to `http://accasim.readthedocs.io <http://accasim.readthedocs.io/en/latest/>`_
- 21-08-2017 Automatic plot generation for comparison of multiple workload schedules and benchmark files: Slowdown, Queue sizes, Load ratio, Efficiency, Scalability, Simulation time, Memory Usage.
- 13-11-2017 Simulating distinct dispatchers under the same system and simulator configuration can be managed under the Experimentation class. It also includes the automatic plot generation.
- 06-12-2017 A workload generator is available for generating new workloads from existing workloads.
Project details
Release history Release notifications | RSS feed
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.
Source Distribution
accasim-0.1.0.tar.gz
(67.7 kB
view hashes)
Built Distributions
accasim-0.1.0-py3.6.egg
(195.4 kB
view hashes)
Close
Hashes for accasim-0.1.0-py2.py3-none-any.whl
Algorithm | Hash digest | |
---|---|---|
SHA256 | db10c657e4039dce7731da6b8cfee8191adacfffd33898c10bef024c28db111a |
|
MD5 | b02deca3252e759583eef24ec5aca9d5 |
|
BLAKE2b-256 | eda160a50e1cb4d816973a2d317cd691537fdc0171209af56084a0725c911954 |