Presentation
GPU Accelerated Sparse Cholesky Factorization
DescriptionThe solution of sparse symmetric positive definite linear systems is an important computational kernel in large-scale scientific and engineering modeling and simulation. We will solve the linear systems using a direct method, in which a Cholesky factorization of the coefficient matrix is performed using a right looking approach and the resulting triangular factors are used to compute the solution. Sparse Cholesky factorization is compute intensive. In this work we investigate techniques for reducing the factorization time in sparse Cholesky factorization by offloading some of the dense matrix operations on a GPU.
We will describe the techniques we have considered. We achieved up to 4x speedup compared to the CPU-only version.
We will describe the techniques we have considered. We achieved up to 4x speedup compared to the CPU-only version.
