XLFortran forLinux:面向Linux系统的科学技术和工程领域编译器的最佳选择,支持广泛的数学、科学及高性能计算。
XL Fortran for Linux: for Linux distributions, the compiler of choice for the scientific and engineering communities to support extensive numerical, scientific and high-performance computing.
XLFortran forAIX:面向 AIX 系统的科学技术和工程领域编译器的最佳选择,支持广泛的数学、科学及高性能计算。
XL Fortran for AIX: For AIX systems, the compiler of choice for the scientific and engineering communities to support extensive numerical, scientific and high-performance computing.
在现代高性能计算中,为了满足大容量、分布式、高性能和高可靠的存储要求,需要使用网格技术。
In modern high performance computing, grid technology is required in a great capacity and high reliable distributed storage system.
该系统有效地把高性能计算资源和网格技术结合在一起,取得了良好的应用效果。
This system makes high performance compute resource combine efficiently with grid system to get good application result.
而分布计算中间件凭借其良好的可扩展性和高可用性、高性能成为实现分布计算的关键技术之一。
By right of high performance, high availability, and good scalability, distributed computing middleware becomes one of the key technologies to implement distributed computing.
高性能计算机技术是现代科学技术研究、工程技术开发和大规模数据处理的基础。
High performance computer technology is the base of the modern scientific and technological researches, engineering development and large-scale data processing.
此技术可应用于并行计算机互连网络和分布式高性能计算机群的互连网络。
This technology is able to be applied to the parallel computer interconnection network and the network of…
本文重点研究高性能计算机“高带宽、低延迟”互连系统技术,以支持高性能计算机系统计算能力和效率的更好发挥。
Some problems in realizing the "high bandwidth, low latency" of interconnection system are solved to increase the interconnection communication ability and efficiency.
高性能计算机技术已经成为现代科学研究、工程技术开发和大规模数据处理的关键支撑技术。
High performance computing technology has now become the key factor of science research, application technology development and massive data processing.
随着计算机技术的迅猛发展,应用高性能计算和一些新的算法进行分子模拟的研究已经成为一个新的研究方向。
With the development of computer science and technology, the research on the molecular simulation with the high performance computing and the new algorithm are becoming a new hot topic.
数据挖掘技术起源于从统计方法,模式识别,数据库,人工智能,高性能和并行计算和可视化。
Data mining techniques have their origins in methods from statistics, pattern recognition, databases, artificial intelligence, high performance and parallel computing and visualization.
此技术可应用于并行计算机互连网络和分布式高性能计算机群的互连网络。
This technology is able to be applied to the parallel computer interconnection network and the network of the distributed high performance co…
开展基于网格的高性能计算平台相关理论与技术的研究开发具有非常重要的理论意义和实际应用价值。
To put more energy in studying the related theories and tools of the GHPCP has very important theories significance and application value.
开展基于网格的高性能计算平台相关理论与技术的研究开发具有非常重要的理论意义和实际应用价值。
To put more energy in studying the related theories and tools of the GHPCP has very important theories significance and application value.
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