Jeffrey Vetter Section Head - Advanced Computing Systems Research Contact VETTER@ORNL.GOV All Publications Comparing Llama-2 and GPT-3 LLMs for HPC kernels generation Experience Migrating OpenCL to SYCL: A Case Study on Searches for Potential Off-Target Sites of Cas9 RNA-Guided Endonucleases on AMD GPUs Experience Deploying Graph Applications on GPUs with SYCL On-Sensor Data Filtering using Neuromorphic Computing for High Energy Physics Experiments Evaluation of OpenAI Codex for HPC Parallel Programming Models Kernel Generation A survey on processing-in-memory techniques: Advances and challenges Encoding integers and rationals on neuromorphic computers using virtual neuron A MultiGPU Performance-Portable Solution for Array Programming Based on Kokkos Abisko: Deep codesign of an architecture for spiking neural networks using novel neuromorphic materials Understanding SYCL Portability for Pseudorandom Number Generation: a Case Study with Gene-Expression Connectivity Mapping A 3D Implementation of Convolutional Neural Network for Fast Inference Understanding Performance Portability of SYCL Kernels: A Case Study with the All-Pairs Distance Calculation in Bioinformatics on GPUs OpenACC Unified Programming Environment for Multi-hybrid Acceleration with GPU and FPGA... Evaluating performance and portability of high-level programming models: Julia, Python/Numba, and Kokkos on exascale nodes Tiling Framework for Heterogeneous Computing of Matrix based Tiled Algorithms Understanding Portability of Automotive Workload: A Case Study with the Points-to-Image Kernel in SYCL on Heterogeneous Computing Platforms Adrastea: An Efficient FPGA Design Environment for Heterogeneous Scientific Computing and Machine Learning Virtual Neuron: A Neuromorphic Approach for Encoding Numbers Understanding Performance Portability of Bioinformatics Applications in SYCL on an NVIDIA GPU IRIS-BLAS: Towards a Performance Portable and Heterogeneous BLAS Library... KokkACC: Enhancing Kokkos with OpenACC Leveraging Compiler-Based Translation to Evaluate a Diversity of Exascale Platforms SparseLU, A Novel Algorithm and Math Library for Sparse LU Factorization LaRIS: Targeting Portability and Productivity for LAPACK Codes on Extreme Heterogeneous Systems by Using IRIS Evaluating Nonuniform Reduction in HIP and SYCL on GPUs Pagination First page « First Previous page ‹‹ Page 1 Current page 2 Page 3 … Next page ›› Last page Last » Key Links ORCID LinkedIn GitHub Personal Home Page Google Scholar Publications
Research Highlight High Performance Adaptive Physics Refinement to Enable Large-Scale Tracking of Cancer Cell Trajectory
