Package: cuda-drivers-fabricmanager-580 Description-md5: 6715a1a6e39ab2cdf04d9fe216556c20 Description-en: Meta-package for FM and Driver Convenience meta-package for installing fabricmanager and the cuda-drivers meta-package simultaneously while keeping version equivalence. This meta- package is branch-specific. Package: libnvidia-compute-580 Description-md5: c7c5b2d5b16b7e02eed65de795271363 Description-en: NVIDIA libcompute package This package provides a set of libraries which enable the NVIDIA driver to use GPUs for parallel general purpose computation through CUDA and OpenCL. Package: libnvidia-compute-580-server Description-md5: 11b7b8b816402e282453221bd66903b4 Description-en: NVIDIA libcompute package This package provides a set of libraries which enable the NVIDIA Server Driver to use GPUs for parallel general purpose computation through CUDA and OpenCL. Package: libnvidia-nscq-580 Description-md5: 06d90fb68ae67655c00815a4db03a64e Description-en: NVSwitch Configuration and Query library NVIDIA NVSwitch Configuration and Query (NSCQ) library provides a stable driver API used by DCGM for monitoring NVSwitch devices. Package: nvidia-fabricmanager-580 Description-md5: 3d49e1346de8fc10beaca066b0eb5df0 Description-en: Fabric Manager for NVSwitch based systems. Fabric Manager for NVIDIA NVSwitch based systems. Package: nvidia-fabricmanager-dev-580 Description-md5: 565605cc6a127d423c88c38e5c2f9a26 Description-en: Fabric Manager API headers and associated library Fabric Manager API headers and associated library Package: nvidia-imex-580 Description-md5: f7a765b2a95d4cabcc9695466d5f6cc8 Description-en: IMEX Manager for NVIDIA based systems. IMEX Manager for NVIDIA systems. Package: sift Description-md5: 7788bf12148938f8dc8e4675657ce605 Description-en: predicts if a substitution in a protein has a phenotypic effect SIFT is a sequence homology-based tool that sorts intolerant from tolerant amino acid substitutions and predicts whether an amino acid substitution in a protein will have a phenotypic effect. SIFT is based on the premise that protein evolution is correlated with protein function. Positions important for function should be conserved in an alignment of the protein family, whereas unimportant positions should appear diverse in an alignment.