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- No due date•0/1 issues closed
A milestone with sub-issues on functionality with HIP
No due date•4/4 issues closed- No due date•92/93 issues closed
Allowing QUDA to run on non CUDA platforms
No due date•4/9 issues closedThe soul of QUDA 2.0 is multi-RHS solver, multigrid setup, tensor-core accleration and the integration of NVSHMEM. Nothing much really.....
No due date•110/130 issues closedIssues that need to be closed for the QUDA 1.0 release
No due date•111/112 issues closedWhile #776 includes a complete reimplementation of all dslash kernels using the accessor framework, we cannot yet delete the legacy kernels until these final tasks are completed.
No due date•4/9 issues closed- No due date•0/1 issues closed
issues for the next release
No due date•37/64 issues closedFixes that did not make it into 0.9.0
No due dateIssues that we won't fix for 0.8.0 or that showed up after the 0.8.0 release
No due date•7/7 issues closedFeatures and fixes needed for 0.9.0 release
No due date•189/189 issues closedMinor fixes and cleanup.
No due date•19/19 issues closedInitial release of version 0.8.0
No due date•86/86 issues closedFirst objective here is to get adaptive multigrid working for Wilson fermions only. Subsequently we will target other actions (e.g., Clover). This first pass will focus on implementation of the final algorithm, and not the set up procedure. The aim is to reproduce the algorithms performed by qcdmg and qdp++. All new CUDA kernels should be mirrored by host-side test functions (taken from qcdmg?) 1. QIO incorporation for reading null space vectors. 2. Objectification of gauge fields for more general fields. 3. Objectification of solvers to easily piece together arbitrary nestings. 4. Block orthogonalization routines. 5. Coarse grid operator. 6. Generalization of library to multiple grids. 7. Prolongation and restriction operators.
No due date•20/24 issues closed