T. Peterka, Hongfeng Yu, R. Ross, K. Ma, R. Latham
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引用次数: 87
摘要
除了作为模拟引擎的作用,现代超级计算机还可以用于科学可视化。它们广泛的并发性、并行存储系统和高性能互连可以减轻科学数据集的规模和复杂性的扩展,并为这些数据的现场可视化做好准备。在IBM Blue Gene/P (BG/P)上测试并行卷渲染的持续研究中,我们测量了大型数据集上磁盘I/O、渲染和合成的性能,并评估了与系统特定I/O和通信模式相关的瓶颈。为了扩展体绘制算法中直接发送图像合成阶段的可扩展性,我们在交换许多小消息时限制了合成核的数量。为了改进体渲染器的数据加载阶段,我们详细研究了该算法的I/O签名。这项研究的结果证实了像BG/P这样的分布式内存计算体系结构是解决大型可视化问题的可扩展平台。
End-to-End Study of Parallel Volume Rendering on the IBM Blue Gene/P
In addition to their role as simulation engines, modern supercomputers can be harnessed for scientific visualization. Their extensive concurrency, parallel storage systems, and high-performance interconnects can mitigate the expanding size and complexity of scientific datasets and prepare for in situ visualization of these data. In ongoing research into testing parallel volume rendering on the IBM Blue Gene/P (BG/P), we measure performance of disk I/O, rendering, and compositing on large datasets, and evaluate bottlenecks with respect to system-specific I/O and communication patterns. To extend the scalability of the direct-send image compositing stage of the volume rendering algorithm, we limit the number of compositing cores when many small messages are exchanged. To improve the data-loading stage of the volume renderer, we study the I/O signatures of the algorithm in detail. The results of this research affirm that a distributed-memory computing architecture such as BG/P is a scalable platform for large visualization problems.
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