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ORCID6th IWOCL 2018: Oxford, UK
- Simon McIntosh-Smith, Ben Bergen:
Proceedings of the International Workshop on OpenCL, IWOCL 2018, Oxford, United Kingdom, May 14-16, 2018. ACM 2018
Full papers and technical presentations
- Zheming Jin, Hal Finkel:
Performance-oriented Optimizations for OpenCL Streaming Kernels on the FPGA. 1:1-1:8 - Zheming Jin, Hal Finkel:
Nuclear Reactor Simulation on OpenCL FPGA: a Case Study of RSBench. 2:1-2:9 - Nicholas Wilson:
DCompute: Compiling D to SPIR-V for seamless integration with OpenCL. 3:1-3:3 - James J. Davis, Joshua M. Levine, Edward A. Stott, Eddie Hung, Peter Y. K. Cheung, George A. Constantinides:
KOCL: Kernel-level Power Estimation for Arbitrary FPGA-SoC-accelerated OpenCL Applications. 4:1 - Cedric Nugteren:
CLBlast: A Tuned OpenCL BLAS Library. 5:1-5:10 - Michael Royce Carroll:
Improving Performance of OpenCL Workloads on Intel Processors with Profiling Tools. 6:1 - Mehdi Goli, Luke Iwanski, John W. Lawson
, Uwe Dolinsky, Andrew Richards:
TensorFlow Acceleration on ARM Hikey Board. 7:1-7:4 - Philip Heinisch, Katharina Ostaszewski:
MatCL: A new easy-to use OpenCL toolbox for MathWorks Matlab. 8:1 - Toby St Clere Smithe, Ralph Potter:
Building a brain with SYCL and modern C++. 9:1 - Katharina Ostaszewski, Philip Heinisch, Hendrik Ranocha:
Advantages and pitfalls of OpenCL in computational physics. 10:1 - Michael Wong, Ruymán Reyes:
What's New in SYCL 1.2.1 and How to Explore the Features. 11:1 - Callum Fare:
Enabling Profiling For SYCL Applications. 12:1 - Michael Kinsner, Dirk Seynhaeve:
High performance asynchronous host-device communication through the Intel® FPGA host pipe extension for OpenCL™ applications. 13:1 - Ben Ashbaugh:
Debugging and Analyzing Programs Using the Intercept Layer for OpenCL Applications. 14:1-14:2 - Christopher Erb, Joseph L. Greathouse:
clARMOR: A Dynamic Buffer Overflow Detector for OpenCL Kernels. 15:1-15:2 - Hongqiang Wang, Jay Yun, Alex Bourd:
OpenCL Optimization and Best Practices for Qualcomm Adreno GPUs. 16:1-16:8
Distributed & Heterogeneous Programming in C/C++ Workshop
- Gordon Brown, Christopher Di Bella, Michael Haidl, Toomas Remmelg, Ruymán Reyes, Michel Steuwer:
Introducing Parallelism to the Ranges TS. 17:1-17:5 - Ronan Keryell, Lin-Ya Yu:
Early experiments using SYCL single-source modern C++ on Xilinx FPGA: Extended Abstract of Technical Presentation. 18:1-18:8 - David Pfander, Gregor Daiß, Dominic Marcello, Hartmut Kaiser, Dirk Pflüger:
Accelerating Octo-Tiger: Stellar Mergers on Intel Knights Landing with HPX. 19:1-19:8 - Michael Wong, Hal Finkel:
Distributed & Heterogeneous Programming in C++ for HPC at SC17. 20:1-20:7
Posters
- Petr F. Kartsev:
High performance OpenCL realization of Burrows-Wheeler transform on GPU. 21:1-21:2 - Petr F. Kartsev:
Application of computational GPU OpenCL kernels for near-realtime audio processing. 22:1-22:2 - Petr F. Kartsev:
The OpenCL solver for Ginzburg-Landau equations modified for nonsmooth vortex problems. 23:1-23:2 - Tamás Fekete, Gergely Mezei:
OpenCL-Based Performance Enhancement of Model Transformations. 24:1-24:2 - Petr F. Kartsev:
Pseudospectral method to decrease mesh size for nonlinear Ginzburg-Landau equation. 25:1-25:2 - Hongqiang Wang, Jay Yun, Qinghua Dai, Javier Girado:
Accelerating Typical Image Processing Operations using Qualcomm Adreno OpenCL Extensions. 26:1 - Alejandro Acosta, Carlos Merino, Johannes Totz:
Analysis of OpenCL Support for Mobile GPUs on Android. 27:1-27:6 - Tai-Liang Chen, Shih-Huan Chien, Jenq-Kuen Lee:
ViennaCL++: Enable TensorFlow/Eigen via ViennaCL with OpenCL C++ Flow. 28:1-28:2 - Michal Mrozek:
Shaping Open Source Compute ecosystem with Neo and clDNN. 29:1
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