Abstract is missing.
- Behavioral Emulation for Scalable Design-Space Exploration of Algorithms and ArchitecturesNalini Kumar, Carlo Pascoe, Christopher Hajas, Herman Lam, Greg Stitt, Alan D. George. 5-17 [doi]
- Closing the Performance Gap with Modern C++Thomas Heller, Hartmut Kaiser, Patrick Diehl, Dietmar Fey, Marc Alexander Schweitzer. 18-31 [doi]
- Energy Efficient Runtime Framework for Exascale SystemsYousri Mhedheb, Achim Streit. 32-44 [doi]
- Extreme-Scale In Situ Visualization of Turbulent Flows on IBM Blue Gene/Q JUQUEENJens Henrik Göbbert, Mathis Bode, Brian J. N. Wylie. 45-55 [doi]
- The EPiGRAM Project: Preparing Parallel Programming Models for ExascaleStefano Markidis, Ivy Bo Peng, Jesper Larsson Träff, Antoine Rougier, Valeria Bartsch, Rui Machado, Mirko Rahn, Alistair Hart, Daniel Holmes, Mark Bull, Erwin Laure. 56-68 [doi]
- Work Distribution of Data-Parallel Applications on Heterogeneous SystemsSuejb Memeti, Sabri Pllana. 69-81 [doi]
- Reducing Manipulation Overhead of Remote Data-Structure by Controlling Remote Memory Access OrderYuichiro Ajima, Takafumi Nose, Kazushige Saga, Naoyuki Shida, Shinji Sumimoto. 85-97 [doi]
- SONAR: Automated Communication Characterization for HPC ApplicationsSteffen Lammel, Felix Zahn, Holger Fröning. 98-114 [doi]
- An Overview of the Sirocco Parallel Storage SystemMatthew L. Curry, H. Lee Ward, Geoff Danielson, Jay F. Lofstead. 121-129 [doi]
- Analyzing Data Properties Using Statistical Sampling Techniques - Illustrated on Scientific File Formats and Compression FeaturesJulian M. Kunkel. 130-141 [doi]
- Delta: Data Reduction for Integrated Application Workflows and Data StorageJay F. Lofstead, Gregory Jean-Baptiste, Ron Oldfield. 142-152 [doi]
- Investigating Read Performance of Python and NetCDF When Using HPC Parallel FilesystemsMatthew Jones, Jonathan D. Blower, Bryan Lawrence, Annette Osprey. 153-168 [doi]
- Early Application Performance at the Hartree Centre with the OpenPOWER ArchitectureMike Ashworth, Jianping Meng, Vedran Novakovic, Sersi Siso. 173-187 [doi]
- Early Experiences Porting the NAMD and VMD Molecular Simulation and Analysis Software to GPU-Accelerated OpenPOWER PlatformsJohn E. Stone, Antti-Pekka Hynninen, James C. Phillips, Klaus Schulten. 188-206 [doi]
- Exploring Energy Efficiency for GPU-Accelerated POWER ServersThorsten Hater, Benedikt Anlauf, Paul F. Baumeister, Markus Bühler, Jiri Kraus, Dirk Pleiter. 207-227 [doi]
- First Experiences with ab initio Molecular Dynamics on OpenPOWER: The Case of CPMDValéry Weber, A. Cristiano I. Malossi, Ivano Tavernelli, Teodoro Laino, Costas Bekas, Manish Modani, Nina Wilner, Tom Heller, Alessandro Curioni. 228-234 [doi]
- High Performance Computing on the IBM Power8 PlatformIstván Z. Reguly, Abdoul-Kader Keita, Rafik Zurob, Michael B. Giles. 235-254 [doi]
- Measuring and Managing Energy in OpenPOWERTodd Rosedah, Charles Lefurgy, Martha A. Broyles. 255-267 [doi]
- Performance Analysis of Spark/GraphX on POWER8 ClusterXinyu Que, Lars Schneidenbach, Fabio Checconi, Carlos H. A. Costa, Daniele Buono. 268-285 [doi]
- Performance of the 3D Combustion Simulation Code RECOM®-AIOLOS on IBM® POWER8® ArchitectureAlexander Berreth, Benedetto Risio, Markus Bühler, Benedikt Anlauf, Pascal Vezolle. 286-292 [doi]
- Performance-Portable Many-Core Plasma Simulations: Porting PIConGPU to OpenPower and BeyondErik Zenker, René Widera, Axel Huebl, Guido Juckeland, Andreas Knüpfer, Wolfgang E. Nagel, Michael Bussmann. 293-301 [doi]
- A Comparative Study of Application Performance and Scalability on the Intel Knights Landing ProcessorCarlos Rosales, John Cazes, Kent Milfeld, Antonio Gómez-Iglesias, Lars Koesterke, Lei Huang, Jérôme Vienne. 307-318 [doi]
- Application Suitability Assessment for Many-Core TargetsChris J. Newburn, Jim Sukha, Ilya Sharapov, Anthony D. Nguyen, Chyi-Chang Miao. 319-338 [doi]
- Applying the Roofline Performance Model to the Intel Xeon Phi Knights Landing ProcessorDouglas Doerfler, Jack Deslippe, Samuel Williams, Leonid Oliker, Brandon Cook, Thorsten Kurth, Mathieu Lobet, Tareq M. Malas, Jean-Luc Vay, Henri Vincenti. 339-353 [doi]
- Dynamic SIMD Vector Lane SchedulingOlaf Krzikalla, Florian Wende, Markus Höhnerbach. 354-365 [doi]
- High Performance Optimizations for Nuclear Physics Code MFDn on KNLBrandon Cook, Pieter Maris, Meiyue Shao, Nathan Wichmann, Marcus Wagner, John O'Neill, Thanh Phung, Gaurav Bansal. 366-377 [doi]
- Optimization of the Sparse Matrix-Vector Products of an IDR Krylov Iterative Solver in EMGeo for the Intel KNL Manycore ProcessorTareq M. Malas, Thorsten Kurth, Jack Deslippe. 378-389 [doi]
- Optimizing a Multiple Right-Hand Side Dslash Kernel for Intel Knights CornerAaron Walden, Sabbir Ahmed Khan, Bálint Joó, Desh Ranjan, Mohammad Zubair. 390-401 [doi]
- Optimizing Excited-State Electronic-Structure Codes for Intel Knights Landing: A Case Study on the BerkeleyGW SoftwareJack Deslippe, Felipe H. da Jornada, Derek Vigil-Fowler, Taylor Barnes, Nathan Wichmann, Karthik Raman, Ruchira Sasanka, Steven G. Louie. 402-414 [doi]
- Optimizing Wilson-Dirac Operator and Linear Solvers for Intel® KNLBálint Joó, Dhiraj D. Kalamkar, Thorsten Kurth, Karthikeyan Vaidyanathan, Aaron Walden. 415-427 [doi]
- A C++ Programming Model for Heterogeneous System ArchitectureRalph Potter, Russell J. Bradford, Alastair Murray, Uwe Dolinsky. 433-450 [doi]
- Battling Memory Requirements of Array Programming Through StreamingMads Ruben Burgdorff Kristensen, James Avery, Troels Blum, Simon Andreas Frimann Lund, Brian Vinter. 451-469 [doi]
- From Describing to Prescribing Parallelism: Translating the SPEC ACCEL OpenACC Suite to OpenMP Target DirectivesGuido Juckeland, Oscar R. Hernandez, Arpith C. Jacob, Daniel Neilson, Verónica G. Vergara Larrea, Sandra Wienke, Alexander Bobyr, William C. Brantley, Sunita Chandrasekaran, Mathew E. Colgrove, Alexander Grund, Robert Henschel, Wayne Joubert, Matthias S. Müller, Dave Raddatz, Pavel Shelepugin, Brian Whitney, Bo Wang, Kalyan Kumaran. 470-488 [doi]
- GPU-STREAM v2.0: Benchmarking the Achievable Memory Bandwidth of Many-Core Processors Across Diverse Parallel Programming ModelsTom Deakin, James Price, Matt Martineau, Simon McIntosh-Smith. 489-507 [doi]
- Porting the MPI Parallelized LES Model PALM to Multi-GPU Systems - An Experience ReportHelge Knoop, Tobias Gronemeier, Christoph Knigge, Peter Steinbach. 508-523 [doi]
- Software Cost Analysis of GPU-Accelerated Aeroacoustics Simulations in C++ with OpenACCMarco Nicolini, Julian Miller, Sandra Wienke, Michael Schlottke-Lakemper, Matthias Meinke, Matthias S. Müller. 524-543 [doi]
- Task-Based Cholesky Decomposition on Knights Corner Using OpenMPJoseph Dorris, Jakub Kurzak, Piotr Luszczek, Asim YarKhan, Jack J. Dongarra. 544-562 [doi]
- Using C++ AMP to Accelerate HPC Applications on Multiple PlatformsM. Graham Lopez, Christopher Bergstrom, Ying Wai Li, Wael R. Elwasif, Oscar R. Hernandez. 563-576 [doi]
- Analysis of Memory Performance: Mixed Rank Performance Across MicroarchitecturesMourad Bouache, John L. Glover III, Jalil Boukhobza. 579-590 [doi]
- Considering I/O Processing in CloudSim for Performance and Energy EvaluationHamza Ouarnoughi, Jalil Boukhobza, Frank Singhoff, Stéphane Rubini, Erwann Kassis. 591-603 [doi]
- Early Evaluation of the "Infinite Memory Engine" Burst Buffer SolutionWolfram Schenck, Salem El Sayed, Maciej Foszczynski, Wilhelm Homberg, Dirk Pleiter. 604-615 [doi]
- Motivation and Implementation of a Dynamic Remote Storage System for I/O Demanding HPC ApplicationsMatthias Neuer, Jürgen Salk, Holger Berger, Erich Focht, Christian Mosch, Karsten Siegmund, Volodymyr Kushnarenko, Stefan Kombrink, Stefan Wesner. 616-626 [doi]
- Parallel I/O Architecture Modelling Based on File System CountersSalem El Sayed, Matthias Bolten, Dirk Pleiter. 627-637 [doi]
- User-Space I/O for µ s-level Storage DevicesAnastasios Papagiannis, Giorgos Saloustros, Manolis Marazakis, Angelos Bilas. 638-648 [doi]
- Scaling Spark on LustreNicholas Chaimov, Allen D. Malony, Costin Iancu, Khaled Z. Ibrahim. 649-659 [doi]
- Accelerating Application Migration in HPCRamy Gad, Simon Pickartz, Tim Süß, Lars Nagel, Stefan Lankes, André Brinkmann. 663-673 [doi]
- Migrating LinuX Containers Using CRIUSimon Pickartz, Niklas Eiling, Stefan Lankes, Lukas Razik, Antonello Monti. 674-684 [doi]
- Providing Security in Container-Based HPC Runtime EnvironmentsHolger Gantikow, Christoph Reich, Martin Knahl, Nathan L. Clarke. 685-695 [doi]