Jeffrey Vetter Section Head - Advanced Computing Systems Research Contact VETTER@ORNL.GOV All Publications Quantitative Modeling of Data Structure Vulnerability With an Application-Centric Approach... Evaluating the Viability of Application-Driven Cooperative CPU/GPU Fault Detection A Versatile Performance and Energy Simulation Tool for Composite GPU Global Memory... Early Evaluation of Directive-Based GPU Programming Models for Productive Exascale Computing Classifying Soft Error Vulnerabilities in Extreme-Scale Scientific Applications Using a Binary Instrumentation Tool... Aspen: A Domain Specific Language for Performance Modeling PCM-Based Durable Write Cache for Fast Disk I/O... The Tradeoffs of Fused Memory Hierarchies in Heterogeneous Computing Architectures... Improving Programmer Productivity on Heterogeneous GPU Computing Systems by Broadening and Strengthening the Tools Ecosystem BlackjackBench: Portable Hardware Characterization Quartile and Outlier Detection on Heterogeneous Clusters Using Distributed Radix Sort. ... Network-friendly one-sided communication through multinode cooperation on petascale cray xt5 systems RXIO: Design and implementation of high performance RDMA-capable GridFTP... Memphis on an XT5: Pinpointing Memory Performance Problems on Cray Platforms Network-friendly one-sided communication through multinode cooperation on petascale cray xt5 systems Quantifying NUMA and Contention Effects in Multi-GPU Systems ... Virtual Topologies for Scalable Resource Management and Contention Attenuation in a Global Address Space Model on the Cray XT... Petascale direct numerical simulation of blood flow on 200K cores and heterogeneous architectures Maestro: Data Orchestation and Tuning for OpenCL Devices... Enabling a Highly-Scalable Global Address Space Model for Petascale Computing... Cooperative Server Clustering for a Scalable GAS Model on Petascale Cray XT5 Systems Initial Characterization of Parallel NFS Implementations Cooperative Server Clustering for a Scalable GAS Model on petascale cray XT5 Systems... Memphis: Finding and Fixing NUMA-related Performance Problems on Multi-core Platforms... The Scalable HeterOgeneous Computing (SHOC) Benchmark Suite... Pagination First page « First Previous page ‹â¶Ä¹ … Page 6 Current page 7 Page 8 Next page ›â¶Äº Last page Last » Key Links
Research Highlight High Performance Adaptive Physics Refinement to Enable Large-Scale Tracking of Cancer Cell Trajectory
