There is growing interest in studying large scale graphs having millions of vertices and billions of edges, up to the point that a specific benchmark, called Graph500, has been defined to measure the performance of graph algorithms on modern computing architectures. At first glance, Graphics Processing Units (GPUs) are not an ideal platform for the execution of graph algorithms that are characterized by low arithmetic intensity and irregular memory access patterns. For studying really large graphs, multiple GPUs are required to overcome the memory size limitations of a single GPU. In the present paper, we propose several techniques to minimize the communication among GPUs.
Enhanced GPU-based distributed breadth first search / Bernaschi, Massimo; Carbone, Giancarlo; Mastrostefano, Enrico; Bisson, Mauro; Fatica, Massimiliano. - ELETTRONICO. - (2015), pp. 1-8. (Intervento presentato al convegno ACM International Conference on Computing Frontiers 2015 tenutosi a Ischia; Italy nel 18-21 May 2015) [10.1145/2742854.2742887].
Enhanced GPU-based distributed breadth first search
BERNASCHI, Massimo;CARBONE, Giancarlo;MASTROSTEFANO, Enrico;BISSON, MAURO;
2015
Abstract
There is growing interest in studying large scale graphs having millions of vertices and billions of edges, up to the point that a specific benchmark, called Graph500, has been defined to measure the performance of graph algorithms on modern computing architectures. At first glance, Graphics Processing Units (GPUs) are not an ideal platform for the execution of graph algorithms that are characterized by low arithmetic intensity and irregular memory access patterns. For studying really large graphs, multiple GPUs are required to overcome the memory size limitations of a single GPU. In the present paper, we propose several techniques to minimize the communication among GPUs.| File | Dimensione | Formato | |
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