Direct self-consistent field computations on GPU clusters

机译：GPU集群直接自我一致的现场计算

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We present an implementation of one of the direct self-consistent-field (DSCF) calculation techniques, the restricted Hartree-Fock method, on a high-performance computing cluster outfitted with graphics processing units (GPUs) and demonstrate its effectiveness and scalability up to 128 cluster nodes on molecules of as many as 1,732 atoms. We discuss the overall parallel application architecture that relies on message passing interface for distributing workload among GPU cluster nodes and POSIX threads to manage the use of GPUs internal to each node. This approach of combining coarse and fine-grain parallelism on a distributed memory system allows to perform DSCF calculations on molecules that up until now have been unattainable due to the excessive computational requirements.

机译：我们在以图形处理单元（GPU）配备的高性能计算集群上，我们介绍了一个直接的自我一致 - 场（DSCF）计算技术，限制的Hartree-Fock方法，并展示其有效性和可扩展性 128分子上的簇节点多达1,732原子。我们讨论依赖于消息传递接口的整体并行应用架构，以便在GPU群集节点和POSIX线程中分发工作负载以管理每个节点内部的GPU的使用。这种结合分布式存储器系统的粗糙和细粒行活性的这种方法允许对分子进行DSCF计算，直到现在由于过度的计算要求而无法实现。

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《IEEE International Symposium on Parallel Distributed Processing》|2010年||共8页
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Guochun Shi; Kindratenko V.; Ufimtsev I.; Martinez T.;
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中图分类 TP311.138-53;
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GPU; restricted Hartree-Fock;

机译：GPU;受限制的哈特福克;

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Direct self-consistent field computations on GPU clusters

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