Age | Commit message (Collapse) | Author | |
---|---|---|---|
2019-07-06 | Add further non-CSE benchmark results @ P100 | Adrian Kummerlaender | |
2019-07-04 | Add further non-CSE benchmark results @ K2200 | Adrian Kummerlaender | |
2019-07-04 | Update benchmark plots | Adrian Kummerlaender | |
2019-07-04 | Update benchmark results of LDC @ Tesla P100 | Adrian Kummerlaender | |
2019-07-02 | Determine discrete velocities of D2Q9 and D3Q27 | Adrian Kummerlaender | |
2019-07-02 | Determine lattice speed of sound | Adrian Kummerlaender | |
2019-07-02 | Determine weights using Gauss-Hermite quadrature | Adrian Kummerlaender | |
2019-07-01 | Expand LDC benchmark scripts | Adrian Kummerlaender | |
2019-06-30 | Move OpenCL buffers into Memory class | Adrian Kummerlaender | |
2019-06-29 | Implement layout and memory padding | Adrian Kummerlaender | |
There are at least two distinct areas where padding can be beneficial on a GPU: 1. Padding the global thread sizes to support specific thread layouts e.g. (32,1) layouts require the global lattice width to be a multiple of 32 2. Padding the memory layout at the lowest level to align memory accesses i.e. some GPUs read memory in 128 Byte chunks and as such it is beneficial if the operations are aligned accordingly For lattice and thread layout sizes that are exponents of two these two padding areas are equivalent. However when one operates on e.g. a (300,300) lattice using a (30,1) layout, padding to 128 bytes yields a performance improvement of about 10 MLUPS on a K2200. Note that I am getting quite unsatisfied with how the Lattice class and its suroundings continue to accumulate parameters. The naming distinction between Geometry, Grid, Memory and Lattice is also not very intuitive. | |||
2019-06-28 | Move some common benchmark plots into helper functions | Adrian Kummerlaender | |
2019-06-27 | Add some benchmark plots | Adrian Kummerlaender | |
2019-06-25 | Adapt benchmark results format to be importable | Adrian Kummerlaender | |
2019-06-25 | Fix LDC 3D x-z-plane plot | Adrian Kummerlaender | |
2019-06-25 | Add raw data of Tesla P100 benchmarks | Adrian Kummerlaender | |
2019-06-24 | Add basic benchmark scripts, K2200 results | Adrian Kummerlaender | |
2019-06-22 | Add interactive 2D LDC notebook, fix material initialization | Adrian Kummerlaender | |
2019-06-22 | Add platform, precision and thread layout parameters | Adrian Kummerlaender | |
2019-06-22 | Extract parameters in GL interop example | Adrian Kummerlaender | |
2019-06-21 | Gather interop moments in a more generic manner | Adrian Kummerlaender | |
i.e. return unshifted moments in a implicitly ordered float4 array. Cell positions are reconstructed by a vertex shaded analogously to how it is done in compustream. | |||
2019-06-20 | Prototype OpenGL interoperation | Adrian Kummerlaender | |
2019-06-20 | Move back assignment | Adrian Kummerlaender | |
2019-06-18 | Expand square expressions | Adrian Kummerlaender | |
Yields another ~5-10 MLUPS in the simple D2Q9 example. Now averaging at ~840 MLUPS for D2Q9 and ~ 400 MLUPS for D3Q19 on a K2200. | |||
2019-06-17 | Extract population offset | Adrian Kummerlaender | |
2019-06-17 | Add function for exporting moments as VTK files | Adrian Kummerlaender | |
2019-06-16 | Add PyEVTK to environment | Adrian Kummerlaender | |
2019-06-16 | Replace some explicit dimension branching | Adrian Kummerlaender | |
2019-06-16 | Select thread layout depending on the descriptor's characteristics | Adrian Kummerlaender | |
2019-06-16 | Declutter gid and offset calculation | Adrian Kummerlaender | |
2019-06-16 | Add D3Q27 descriptor | Adrian Kummerlaender | |
2019-06-15 | Split descriptors and symbolic formulation | Adrian Kummerlaender | |
2019-06-15 | Add support for generating a D3Q19 kernel | Adrian Kummerlaender | |
Note how this basically required no changes besides generalizing cell indexing and adding the symbolic formulation of a D3Q19 BGK collision step. Increasing the neighborhood communication from 9 to 19 cells leads to a significant performance "regression": The 3D kernel yields ~ 360 MLUPS compared to the 2D version's ~ 820 MLUPS. | |||
2019-06-15 | Start to record some benchmarks | Adrian Kummerlaender | |
2019-06-15 | Consistently name population buffers | Adrian Kummerlaender | |
2019-06-14 | Extract geometry information | Adrian Kummerlaender | |
2019-06-13 | Further the separation between descriptor and lattice | Adrian Kummerlaender | |
2019-06-13 | Tidy up symbolic kernel generation | Adrian Kummerlaender | |
2019-06-13 | Add JupyterLab to environment | Adrian Kummerlaender | |
2019-06-13 | Add kernel customization point for velocity boundaries | Adrian Kummerlaender | |
2019-06-12 | Port LDC example to new structure | Adrian Kummerlaender | |
2019-06-12 | Make it easier to exchange initial equilibration logic | Adrian Kummerlaender | |
2019-06-12 | Restructuring | Adrian Kummerlaender | |
2019-06-12 | Initialize material numbers using given geometry function | Adrian Kummerlaender | |
2019-06-12 | Collect moments outside of the lattice class | Adrian Kummerlaender | |
2019-06-12 | Move kernel template into separate file | Adrian Kummerlaender | |
2019-06-12 | Allocate moments buffer only on device | Adrian Kummerlaender | |
2019-06-11 | Restore wrongly deleted file from 75d0088 | Adrian Kummerlaender | |
2019-06-11 | Move equilibrization to kernel | Adrian Kummerlaender | |
2019-06-11 | Move D2Q9 codegen into separate file | Adrian Kummerlaender | |
2019-06-11 | Preshift population field pointer | Adrian Kummerlaender | |
Now averaging ~ 820 MLUPS again |