International audienceParallel file systems are at the core of HPC I/O infrastructures. Those systems minimize the I/O time of applications by separating files into fixed-size chunks and distributing them across multiple storage targets. Therefore, the I/O performance experienced with a PFS is directly linked to the capacity to retrieve these chunks in parallel. In this work, we conduct an in-depth evaluation of the impact of the stripe count (the number of targets used for striping) on the write performance of BeeGFS, one of the most popular parallel file systems today. We consider different network configurations and show the fundamental role played by this parameter, in addition to the number of compute nodes, processes and storage targe...
Parallel scientific applications require high-performance I/O support from underlying file systems. ...
Rapid increases in the computational speeds of multiprocessors have not been matched by correspondin...
Fast file systems are critical for high-performance scientific computing, since many scientific appl...
International audienceParallel file systems are at the core of HPC I/O infrastructures. Those system...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
As we move towards the Exactable era of supercomputing, node-level failures are becoming more common...
Phenomenal improvements in the computational performance of multiprocessors have not been matched by...
Rapid increases in the computational speeds of multiprocessors have not been matched by correspondin...
Phenomenal improvements in the computational performance of multiprocessors have not been matched by...
I/O has become the major bottleneck in application performance as processor speed has skyrocket over...
Multiprocessors have permitted astounding increases in computational performance, but many cannot me...
Parallel scientific applications require high-performance I/O support from underlying file systems. ...
Data-set sizes are growing. New techniques are emerging to organize and analyze these data-sets. The...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
Parallel scientific applications require high-performance I/O support from underlying file systems. ...
Rapid increases in the computational speeds of multiprocessors have not been matched by correspondin...
Fast file systems are critical for high-performance scientific computing, since many scientific appl...
International audienceParallel file systems are at the core of HPC I/O infrastructures. Those system...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
As we move towards the Exactable era of supercomputing, node-level failures are becoming more common...
Phenomenal improvements in the computational performance of multiprocessors have not been matched by...
Rapid increases in the computational speeds of multiprocessors have not been matched by correspondin...
Phenomenal improvements in the computational performance of multiprocessors have not been matched by...
I/O has become the major bottleneck in application performance as processor speed has skyrocket over...
Multiprocessors have permitted astounding increases in computational performance, but many cannot me...
Parallel scientific applications require high-performance I/O support from underlying file systems. ...
Data-set sizes are growing. New techniques are emerging to organize and analyze these data-sets. The...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
Parallel scientific applications require high-performance I/O support from underlying file systems. ...
Rapid increases in the computational speeds of multiprocessors have not been matched by correspondin...
Fast file systems are critical for high-performance scientific computing, since many scientific appl...