Managing scientific software stacks has traditionally been a manual task that required a sizeable team with knowledge about the specifics of building each application. Keeping the software stack up to date also caused a significant overhead for system administrators as well as support teams. Furthermore, a flat module view and the manual creation of modules by different members of the teams can end up providing a confusing view of the installed software to end users. In addition, on many HPC clusters the OS images have to include auxiliary packages to support components of the scientific software stack, potentially bloating the images of the cluster nodes and restricting the installation of new software to a designated maintenance window.To...
Abstract. High Performance Computing (HPC) is becoming much more popular nowadays. Currently, the bi...
Abstract- High Performance Computing (HPC) Systems are used to solve highly challenging, complex, ti...
In order to get more results or greater accuracy, computational scientists execute mainly parallel o...
Managing scientific software stacks has traditionally been a manual task that required a sizeable te...
Maintaining a collection of software installations for a diverse user base can be a tedious, repetit...
Through the 1990s, HPC centers at national laboratories, universities, and other large sites designe...
Rationale: Many different tools exist for development of scientific computing applications. Most of ...
We outline four different tools developed to either solve a specific problem or streamline a workflo...
peer reviewedHigh Performance Computing (HPC) is increasingly identified as a strategic asset and en...
Scientific workflows for high-performance computing (HPC) are becoming increasingly complex. Develop...
In this paper, we discuss a prevalent issue facing the HPC community today: the lack of automation i...
The volume and variety of scientific data being generated at experimental facilities requires the se...
What if there was a way to avoid having to install a broad range of scientific software from scratch...
Abstract Software reliability is one of the corner stones of any successful user experience. Softwar...
<p>The progress in science and engineering greatly depends on new software advances, and computation...
Abstract. High Performance Computing (HPC) is becoming much more popular nowadays. Currently, the bi...
Abstract- High Performance Computing (HPC) Systems are used to solve highly challenging, complex, ti...
In order to get more results or greater accuracy, computational scientists execute mainly parallel o...
Managing scientific software stacks has traditionally been a manual task that required a sizeable te...
Maintaining a collection of software installations for a diverse user base can be a tedious, repetit...
Through the 1990s, HPC centers at national laboratories, universities, and other large sites designe...
Rationale: Many different tools exist for development of scientific computing applications. Most of ...
We outline four different tools developed to either solve a specific problem or streamline a workflo...
peer reviewedHigh Performance Computing (HPC) is increasingly identified as a strategic asset and en...
Scientific workflows for high-performance computing (HPC) are becoming increasingly complex. Develop...
In this paper, we discuss a prevalent issue facing the HPC community today: the lack of automation i...
The volume and variety of scientific data being generated at experimental facilities requires the se...
What if there was a way to avoid having to install a broad range of scientific software from scratch...
Abstract Software reliability is one of the corner stones of any successful user experience. Softwar...
<p>The progress in science and engineering greatly depends on new software advances, and computation...
Abstract. High Performance Computing (HPC) is becoming much more popular nowadays. Currently, the bi...
Abstract- High Performance Computing (HPC) Systems are used to solve highly challenging, complex, ti...
In order to get more results or greater accuracy, computational scientists execute mainly parallel o...