The hypothesis tested by this EPIC is that the CVMFS based proof of concept is a versatile way to make some of the software available for the network. The goals are to investigate if CVMFS can provide access to software containers, virtual environments, and how the POC could interact with the presentation layer to query for software and the MinSRC (CANFAR) to provide access to containers to be executed in the CANFAR system. In addition, previous POCs are tested by additional SRC nodes.
The hypothesis tested by this EPIC is that the CVMFS based proof of concept is a versatile way to make some of the software available for the network. The goals are to investigate if CVMFS can provide access to software containers, virtual environments, and how the POC could interact with the presentation layer to query for software and the MinSRC (CANFAR) to provide access to containers to be executed in the CANFAR system. In addition, previous POCs are tested by additional SRC nodes.
AC 1: The previous POCs are validated by multiple SRC nodes
AC 2: The POC is shown to provide access to containers for software
AC 3: It is tested whether the POC is suited for providing access to virtual environments
AC 4: It is documented or demonstrated how the POC could integrate with the presentation layer (for queries) and CANFAR (for access to the software from CANFAR).
AC 1: The previous POCs are validated by multiple SRC nodes
AC 2: The POC is shown to provide access to containers for software
AC 3: It is tested whether the POC is suited for providing access to virtual environments
AC 4: It is documented or demonstrated how the POC could integrate with the presentation layer (for queries) and CANFAR (for access to the software from CANFAR).