One of the biggest problems in scientific HPC is ensuring that results are reproducible. That is, the code a scientist runs locally must be able to run identically on any computational resource. Until recently, the job of ensuring that fell to system administrators who needed to manage a complex web of tools and dependencies on those resources. However, with the introduction of HPC containers via Singularity, the ability to mobilize the compute environment has never been easier. Singularity allows anybody to run their own containers on HPC, ushering in a new era of computational mobility, validity, and reproducibility. **About the speaker**: Michael Bauer first began working with containers at GSI national lab in Darmstadt, Germany, in 201...
Report published in the Proceedings of the National Conference on "Education and Research in the Inf...
Docker has stormed into the IT landscape recently as a new abstraction for linux containers. Its eas...
Abstract In this talk we will discuss the key internals of modern computing hardware, and their evo...
The Singularity container runtime has become widely adopted as the de facto standard container platf...
Here we present Singularity, software developed to bring containers and reproducibility to scientifi...
Some of the main challenges in scientific computing today deal with performance-preserving portabili...
At Pawsey Supercomputing Centre we support researchers with the maintenance of a wide variety of alg...
Physicists want to use modern open source machine learning tools developed by industry for machine l...
What's Changed Add/all contributors by @vsoch in https://github.com/singularityhub/singularity-hpc/...
<p>Containers are proving to be an extremely valuable technology for science; Singularity focuses co...
<p>Containers are proving to be an extremely valuable technology for science; Singularity focuses co...
In this work we present our results from benchmarking Singularity containers running scientific calc...
scientists developing software for HPC systems face unique software engineering issues. Attempts to ...
Brief Description: This lecture will review key aspects of CERN’s central computing from mid-19...
Report published in the Proceedings of the National Conference on "Education and Research in the Inf...
Docker has stormed into the IT landscape recently as a new abstraction for linux containers. Its eas...
Abstract In this talk we will discuss the key internals of modern computing hardware, and their evo...
The Singularity container runtime has become widely adopted as the de facto standard container platf...
Here we present Singularity, software developed to bring containers and reproducibility to scientifi...
Some of the main challenges in scientific computing today deal with performance-preserving portabili...
At Pawsey Supercomputing Centre we support researchers with the maintenance of a wide variety of alg...
Physicists want to use modern open source machine learning tools developed by industry for machine l...
What's Changed Add/all contributors by @vsoch in https://github.com/singularityhub/singularity-hpc/...
<p>Containers are proving to be an extremely valuable technology for science; Singularity focuses co...
<p>Containers are proving to be an extremely valuable technology for science; Singularity focuses co...
In this work we present our results from benchmarking Singularity containers running scientific calc...
scientists developing software for HPC systems face unique software engineering issues. Attempts to ...
Brief Description: This lecture will review key aspects of CERN’s central computing from mid-19...
Report published in the Proceedings of the National Conference on "Education and Research in the Inf...
Docker has stormed into the IT landscape recently as a new abstraction for linux containers. Its eas...
Abstract In this talk we will discuss the key internals of modern computing hardware, and their evo...