Cloud computing has opened new options of collaboration between research teams in the field of high performance computing and numerical research. Running computational workloads in virtual machines became common in recent years. However, the use of computing containers provides many additional advantages besides just proving new possible runtime choice. One of the most important (and often underappreciated) is an option to improve the reproducibility of research results based on complex mathematical modeling. This paper provides an overview of architecture based on computing containers and continuous integration tools we used to achieve reproducible numerical result
Cloud-based research collaboration platforms render scalable, secure and inventive environments that...
The High Performance Computing (HPC) domain aims to optimize code in order to use the last multicore...
High Performance Computing (HPC) facilities provide vast computational power and storage, but genera...
Numerical reproducibility has received increased emphasis in the scientific community. One reason th...
At Pawsey Supercomputing Centre we support researchers with the maintenance of a wide variety of alg...
As computational work becomes more and more integral to many aspects of scientific research, computa...
The rapid growth of information technology and internet access has moved many offline activities onl...
Virtualization technology plays a vital role in cloud computing. In particular, benefits of virtuali...
peer reviewedContainers are an emerging technology that hold promise for improving productivity and ...
Recently in many scientific disciplines, e.g. physics, chemistry, biology and multidisciplinary rese...
The HPC community is actively researching and evaluating tools to support execution of scientific ap...
Often, there is a particular type of applications in different scientific domains, i.e., non-interac...
High performance computing refers to the practice of aggregating computing power in a way that deliv...
PhD ThesisCloud computing is a service-oriented approach to distributed computing that has many att...
Moving applications for big data to the cloud is becoming increasingly important for scientific comp...
Cloud-based research collaboration platforms render scalable, secure and inventive environments that...
The High Performance Computing (HPC) domain aims to optimize code in order to use the last multicore...
High Performance Computing (HPC) facilities provide vast computational power and storage, but genera...
Numerical reproducibility has received increased emphasis in the scientific community. One reason th...
At Pawsey Supercomputing Centre we support researchers with the maintenance of a wide variety of alg...
As computational work becomes more and more integral to many aspects of scientific research, computa...
The rapid growth of information technology and internet access has moved many offline activities onl...
Virtualization technology plays a vital role in cloud computing. In particular, benefits of virtuali...
peer reviewedContainers are an emerging technology that hold promise for improving productivity and ...
Recently in many scientific disciplines, e.g. physics, chemistry, biology and multidisciplinary rese...
The HPC community is actively researching and evaluating tools to support execution of scientific ap...
Often, there is a particular type of applications in different scientific domains, i.e., non-interac...
High performance computing refers to the practice of aggregating computing power in a way that deliv...
PhD ThesisCloud computing is a service-oriented approach to distributed computing that has many att...
Moving applications for big data to the cloud is becoming increasingly important for scientific comp...
Cloud-based research collaboration platforms render scalable, secure and inventive environments that...
The High Performance Computing (HPC) domain aims to optimize code in order to use the last multicore...
High Performance Computing (HPC) facilities provide vast computational power and storage, but genera...