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Electronic Resource

Optimized homology searches of the gene and protein sequence data banks (1986)

Lawrence, Charles B. ; Goldman, Daniel A. ; Hood, Robert T.

Springer

Bulletin of mathematical biology 48 (1986), S. 569-583

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ISSN: 1522-9602

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Mathematics

Notes: Abstract A strategy is presented for searching the gene and protein sequence data banks which combines the use of two previously described algorthms. The implementation of this strategy is thoroughly evaluated with respect to sensitivity, specificity and speed. The establishment of standard benchmarks for comparing programs that rearch the sequence data banks for homology is proposed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02462324

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Paper (German National Licenses)

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An Application-Based Performance Evaluation of NASAs Nebula Cloud Computing Platform (2012)

Biswas, Rupak ; Mehrotra, Piyush ; Chang, Johnny ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The high performance computing (HPC) community has shown tremendous interest in exploring cloud computing as it promises high potential. In this paper, we examine the feasibility, performance, and scalability of production quality scientific and engineering applications of interest to NASA on NASA's cloud computing platform, called Nebula, hosted at Ames Research Center. This work represents the comprehensive evaluation of Nebula using NUTTCP, HPCC, NPB, I/O, and MPI function benchmarks as well as four applications representative of the NASA HPC workload. Specifically, we compare Nebula performance on some of these benchmarks and applications to that of NASA s Pleiades supercomputer, a traditional HPC system. We also investigate the impact of virtIO and jumbo frames on interconnect performance. Overall results indicate that on Nebula (i) virtIO and jumbo frames improve network bandwidth by a factor of 5x, (ii) there is a significant virtualization layer overhead of about 10% to 25%, (iii) write performance is lower by a factor of 25x, (iv) latency for short MPI messages is very high, and (v) overall performance is 15% to 48% lower than that on Pleiades for NASA HPC applications. We also comment on the usability of the cloud platform.

Keywords: Computer Systems

Type: ARC-E-DAA-TN5169 , 14th IEEE International Conferenc eon HPCC-2012; Jun 25, 2012; Liverpool; United Kingdom

Format: application/pdf

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NASA TECHNICAL REPORTS

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Evaluating the Suitability of Commercial Clouds for NASA's High Performance Computing Applications: A Trade Study (2018)

Heistand, Steve W. ; Kokron, Daniel S. ; Cheung, Samson H. ; [et al.]

In: CASI

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Publication Date: 2019-07-20

Description: NASAs High-End Computing Capability (HECC) Project is periodically asked if it could be more cost effective through the use of commercial cloud resources. To answer the question, HECCs Application Performance and Productivity (APP) team undertook a performance and cost evaluation comparing three domains: two commercial cloud providers, Amazon and Penguin, and HECCs in-house resourcesthe Pleiades and Electra systems. In the study, the APP team used a combination of the NAS Parallel Benchmarks (NPB) and six full applications from NASAs workload on Pleiades and Electra to compare performance of nodes based on three different generations of Intel Xeon processorsHaswell, Broadwell, and Skylake. Because of export control limitations, the most heavily used applications on Pleiades and Electra could not be used in the cloud; therefore, only one of the applications, OpenFOAM, represents work from the Aeronautics Research Mission Directorate and the Human and Exploration Mission Directorate. The other five applications are from the Science Mission Directorate.

Keywords: Computer Programming and Software

Type: ARC-E-DAA-TN56902

Format: application/pdf

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Expanding a Supercomputer Facility Using Modular Data Center Technology (2017)

Thigpen, William W. ; Mehrotra, Piyush ; Hood, Robert T. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: With the expansion of high-end computing resources needed to support NASA's increasing demands for physics-based simulations, the facility housing Pleiades-the agency's largest supercomputer-recently reached its power and cooling capacity. In response, the NASA Advanced Supercomputing Division at Ames Research Center undertook a prototype project that resulted in a new facility based on modular data center technology. The facility, a ~1000 square-foot module on a concrete pad with room for 16-18 compute racks, was completed in fall 2016 and an SGI computer system, named Electra, was deployed there in early 2017. Cooling is performed via an evaporative system built into the module, and preliminary experience shows a Power Usage Effectiveness (PUE) of ~1.03. Electra achieved over a petaflop on the LINPACK benchmark, sufficient to rank number 96 on the November 2016 TOP500 list. The system consists of 1,152 InfiniBand-connected Intel Xeon Broadwell-based nodes. Its users access their files on a facility wide file system shared by all compute assets via Mellanox MetroX InfiniBand extenders, which connect the Electra fabric to Lustre routers InfiniBand fabric over fiber-optic links about 300 meters long. The prototype has exceeded expectations and is serving as a blueprint for future expansions.*

Keywords: Computer Systems

Type: ARC-E-DAA-TN41643 , SC17; Nov 12, 2018 - Nov 17, 2018; Denver, CO; United States

Format: application/pdf

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The ParaScope parallel programming environment (1993)

Torczon, Linda ; Kennedy, Ken ; Hood, Robert T. ; [et al.]

In: Other Sources

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Publication Date: 2019-08-28

Description: The ParaScope parallel programming environment, developed to support scientific programming of shared-memory multiprocessors, includes a collection of tools that use global program analysis to help users develop and debug parallel programs. This paper focuses on ParaScope's compilation system, its parallel program editor, and its parallel debugging system. The compilation system extends the traditional single-procedure compiler by providing a mechanism for managing the compilation of complete programs. Thus, ParaScope can support both traditional single-procedure optimization and optimization across procedure boundaries. The ParaScope editor brings both compiler analysis and user expertise to bear on program parallelization. It assists the knowledgeable user by displaying and managing analysis and by providing a variety of interactive program transformations that are effective in exposing parallelism. The debugging system detects and reports timing-dependent errors, called data races, in execution of parallel programs. The system combines static analysis, program instrumentation, and run-time reporting to provide a mechanical system for isolating errors in parallel program executions. Finally, we describe a new project to extend ParaScope to support programming in FORTRAN D, a machine-independent parallel programming language intended for use with both distributed-memory and shared-memory parallel computers.

Keywords: COMPUTER PROGRAMMING AND SOFTWARE

Type: IEEE, Proceedings (ISSN 0018-9219); 81; 2; p. 244-263.

Format: text

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High-End Computing Overview (2019)

Thigpen, William W. ; Ranjan, Shubha S. ; Hood, Robert T. ; [et al.]

In: CASI

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Publication Date: 2019-10-30

Description: No abstract available

Keywords: Computer Programming and Software

Type: ARC-E-DAA-TN72380

Format: application/pdf

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Performance Evaluation of an Intel Haswell- and Ivy Bridge-Based Supercomputer Using Scientific and Engineering Applications (2016)

Hood, Robert T. ; Saini, Subhash ; Baron, John ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: We present a performance evaluation conducted on a production supercomputer of the Intel Xeon Processor E5- 2680v3, a twelve-core implementation of the fourth-generation Haswell architecture, and compare it with Intel Xeon Processor E5-2680v2, an Ivy Bridge implementation of the third-generation Sandy Bridge architecture. Several new architectural features have been incorporated in Haswell including improvements in all levels of the memory hierarchy as well as improvements to vector instructions and power management. We critically evaluate these new features of Haswell and compare with Ivy Bridge using several low-level benchmarks including subset of HPCC, HPCG and four full-scale scientific and engineering applications. We also present a model to predict the performance of HPCG and Cart3D within 5%, and Overflow within 10% accuracy.

Keywords: Computer Systems

Type: ARC-E-DAA-TN36231 , HPCC 2016- IEEE International Conference on High Performance Computing and Communications; Dec 12, 2016 - Dec 14, 2016; Sydney; Australia

Format: application/pdf

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