Title :
Sparse matrix computations on clusters with GPGPUs
Author :
Cardellini, Valeria ; Fanfarillo, Alessandro ; Filippone, Salvatore
Author_Institution :
Dipt. di Ing. Civile e Ing. Inf., Univ. di Roma “Tor Vergata”, Rome, Italy
Abstract :
Hybrid nodes containing GPUs are rapidly becoming the norm in parallel machines. We have conducted some experiments regarding how to plug GPU-enabled computational kernels into PSBLAS, a MPI-based library specifically geared towards sparse matrix computations. In this paper, we present our findings on which strategies are more promising in the quest for the optimal compromise among raw performance, speedup, software maintainability, and extensibility. We consider several solutions to implement the data exchange with the GPU focusing on the data access and transfer, and present an experimental evaluation for a cluster system with up to two GPUs per node. In particular, we compare the pinned memory and the Open-MPI approaches, which are the two most used alternatives for multi-GPU communication in a cluster environment. We find that OpenMPI turns out to be the best solution for large data transfers, while the pinned memory approach is still a good solution for small transfers between GPUs.
Keywords :
graphics processing units; linear algebra; message passing; parallel machines; sparse matrices; GPGPU; GPU-enabled computational kernel; MPI-based library; PSBLAS; cluster system; data access; data transfer; multiGPU communication; open-MPI approach; parallel machine; pinned memory approach; sparse matrix computation; Graphics processing units; Kernel; Libraries; Peer-to-peer computing; Performance evaluation; Sparse matrices; Synchronization; GPGPU computing; Message Passing Interface (MPI); Sparse matrices;
Conference_Titel :
High Performance Computing & Simulation (HPCS), 2014 International Conference on
Conference_Location :
Bologna
Print_ISBN :
978-1-4799-5312-7
DOI :
10.1109/HPCSim.2014.6903665
