papers
Publications (15)
cs.DC2013
LIKWID: Lightweight Performance Tools
Jan Treibig, Georg Hager, Gerhard Wellein
cs.PF2014
Exploring performance and power properties of modern multicore chips via simple machine models
Georg Hager, Jan Treibig, Johannes Habich +1
cs.DC2010
Leveraging shared caches for parallel temporal blocking of stencil codes on multicore processors and clusters
Markus Wittmann, Georg Hager, Jan Treibig +1
cs.DC2010
LIKWID: A lightweight performance-oriented tool suite for x86 multicore environments
Jan Treibig, Georg Hager, Gerhard Wellein
cs.PF2015
Quantifying performance bottlenecks of stencil computations using the Execution-Cache-Memory model
Holger Stengel, Jan Treibig, Georg Hager +1
cs.PF2011
Pushing the limits for medical image reconstruction on recent standard multicore processors
Jan Treibig, Georg Hager, Hannes G. Hofmann +2
cs.PF2009
Multi-core architectures: Complexities of performance prediction and the impact of cache topology
Jan Treibig, Georg Hager, Gerhard Wellein
cs.PF2013
Optimization of FASTEST-3D for Modern Multicore Systems
Christoph Scheit, Georg Hager, Jan Treibig +2
cs.PF2012
Best practices for HPM-assisted performance engineering on modern multicore processors
Jan Treibig, Georg Hager, Gerhard Wellein
cs.PF2015
Chip-level and multi-node analysis of energy-optimized lattice-Boltzmann CFD simulations
Markus Wittmann, Georg Hager, Thomas Zeiser +2
cs.PF2010
Efficient multicore-aware parallelization strategies for iterative stencil computations
Jan Treibig, Gerhard Wellein, Georg Hager
cs.PF2011
Expression Templates Revisited: A Performance Analysis of the Current ET Methodology
Klaus Iglberger, Georg Hager, Jan Treibig +1
cs.DC2013
Performance Engineering for a Medical Imaging Application on the Intel Xeon Phi Accelerator
Johannes Hofmann, Jan Treibig, Georg Hager +1
cs.PF2009
Introducing a Performance Model for Bandwidth-Limited Loop Kernels
Jan Treibig, Georg Hager
cs.DC2014
Comparing the Performance of Different x86 SIMD Instruction Sets for a Medical Imaging Application on Modern Multi- and Manycore Chips
Johannes Hofmann, Jan Treibig, Georg Hager +1