Package: singularity-container Source: singularity Version: 2.2.1+1.1 Architecture: amd64 Maintainer: Dave Love Installed-Size: 970 Depends: libc6 (>= 2.16) Filename: ./amd64/singularity-container_2.2.1+1.1_amd64.deb Size: 133972 MD5sum: 843fcc7cda014d3a2f6667b0c5115a1f SHA1: b1c59187e0017e833c5708fdbb68a9fb1a20be3b SHA256: 0b3d193eecd760bf6c81da51f7c2be58e71f7f7105ff9c7569a88dfa9c3df37d Section: admin Priority: optional Homepage: http://gmkurtzer.github.io/singularity Description: container platform focused on supporting "Mobility of Compute" Mobility of Compute encapsulates the development to compute model where developers can work in an environment of their choosing and creation and when the developer needs additional compute resources, this environment can easily be copied and executed on other platforms. Additionally as the primary use case for Singularity is targeted towards computational portability, many of the barriers to entry of other container solutions do not apply to Singularity making it an ideal solution for users (both computational and non-computational) and HPC centers. Package: singularity-container Version: 2.3.1+4.1 Architecture: amd64 Maintainer: NeuroDebian Team Installed-Size: 2465 Depends: libc6 (>= 2.16), python Filename: ./amd64/singularity-container_2.3.1+4.1_amd64.deb Size: 294496 MD5sum: 487b302fe9ec5eba50c8e8132b6bfe1c SHA1: 1b81e9fd8461d96960d72155e869583d9247bd2f SHA256: 1c93f36fc64318a30033bfa717c9b822278a707d8d01d88adf6ef9d13c4e4b63 Section: admin Priority: optional Homepage: http://gmkurtzer.github.io/singularity Description: container platform focused on supporting "Mobility of Compute" Mobility of Compute encapsulates the development to compute model where developers can work in an environment of their choosing and creation and when the developer needs additional compute resources, this environment can easily be copied and executed on other platforms. Additionally as the primary use case for Singularity is targeted towards computational portability, many of the barriers to entry of other container solutions do not apply to Singularity making it an ideal solution for users (both computational and non-computational) and HPC centers. Package: singularity-container Version: 2.3.2+1.1 Architecture: amd64 Maintainer: NeuroDebian Team Installed-Size: 2480 Depends: libc6 (>= 2.16), python Filename: ./amd64/singularity-container_2.3.2+1.1_amd64.deb Size: 293752 MD5sum: 88f6eda37e574c6f4cb7a7b38d4802be SHA1: 1d67368ad77c4acf0dfe0b85f49e1917243212b5 SHA256: 97545fb6fd5e7f37268589dd1921c69da3d34a395708e3ed1b668ce4ecf0b8c7 Section: admin Priority: optional Homepage: http://gmkurtzer.github.io/singularity Description: container platform focused on supporting "Mobility of Compute" Mobility of Compute encapsulates the development to compute model where developers can work in an environment of their choosing and creation and when the developer needs additional compute resources, this environment can easily be copied and executed on other platforms. Additionally as the primary use case for Singularity is targeted towards computational portability, many of the barriers to entry of other container solutions do not apply to Singularity making it an ideal solution for users (both computational and non-computational) and HPC centers. Package: singularity-container Version: 2.4.0+3.1 Architecture: amd64 Maintainer: Gregory M. Kurtzer Installed-Size: 2258 Depends: libc6 (>= 2.14), python, squashfs-tools Filename: ./amd64/singularity-container_2.4.0+3.1_amd64.deb Size: 304656 MD5sum: 537e500902687f09e02974f302e6732e SHA1: 01356d84881d504b7fd5ea84bd98ee48df0cbbcc SHA256: 03ed2eab2ef3988e35e9e1ddc7f4773ad0cde2b24a6edeaff641caebfa58b0ca Section: admin Priority: optional Homepage: http://gmkurtzer.github.io/singularity Description: container platform focused on supporting "Mobility of Compute" Mobility of Compute encapsulates the development to compute model where developers can work in an environment of their choosing and creation and when the developer needs additional compute resources, this environment can easily be copied and executed on other platforms. Additionally as the primary use case for Singularity is targeted towards computational portability, many of the barriers to entry of other container solutions do not apply to Singularity making it an ideal solution for users (both computational and non-computational) and HPC centers.