Add to ORKGAs thermal constraints reduce the pace of CPU performance improvements, the cost and scalability of future HPC architectures will be increasingly dominated by the interconnect. In this work we perform an in-depth study of the communication requirements across a broad spectrum of important scientific applications, whose computational methods include: finite-difference, lattice-boltzmann, particle in cell, sparse linear algebra, particle mesh ewald, and FFT-based solvers. We use the IPM (integrated Performance Monitoring) profiling framework to collect detailed statistics on communication topology and message volume with minimal impact to code performance. By characterizing the parallelism and communication requirements of such a diverse set ...
Scientific applications will have to scale to many thousands of processor cores to reach petascale. ...
Supercomputing applications rely on strong scaling to achieve faster results on a larger number of p...
The design of modern parallel machines leads to powerful machines, but with complex architectures an...
The path towards realizing peta-scale computing isincreasingly dependent on building supercomputers ...
The path towards realizing peta-scale computing is increasingly dependent on building supercomputer...
Abstract—As detailed in recent reports, HPC architectures will continue to change over the next deca...
We synthesize the link bandwidth requirement for a binary hypercube topology using a set of five s...
Since the invention of the transistor, clock frequency increase was the primary method of improving ...
Since the invention of the transistor, clock frequency increase was the primary method of improving ...
The paper presents some advanced high performance (HPC) and parallel computing (PC) methodologies fo...
As high-performance computing (HPC) systems advance towards exascale (10^18 operations per second), ...
Since the invention of the transistor, clock frequency increase was the primary method of improving ...
After a decade where HEC (high-end computing) capability was dominated by the rapid pace of improvem...
227 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1988.Most future supercomputers wi...
We review possible and probable industrial applications of HPCC focusing on the software and hardwar...
Scientific applications will have to scale to many thousands of processor cores to reach petascale. ...
Supercomputing applications rely on strong scaling to achieve faster results on a larger number of p...
The design of modern parallel machines leads to powerful machines, but with complex architectures an...
The path towards realizing peta-scale computing isincreasingly dependent on building supercomputers ...
The path towards realizing peta-scale computing is increasingly dependent on building supercomputer...
Abstract—As detailed in recent reports, HPC architectures will continue to change over the next deca...
We synthesize the link bandwidth requirement for a binary hypercube topology using a set of five s...
Since the invention of the transistor, clock frequency increase was the primary method of improving ...
Since the invention of the transistor, clock frequency increase was the primary method of improving ...
The paper presents some advanced high performance (HPC) and parallel computing (PC) methodologies fo...
As high-performance computing (HPC) systems advance towards exascale (10^18 operations per second), ...
Since the invention of the transistor, clock frequency increase was the primary method of improving ...
After a decade where HEC (high-end computing) capability was dominated by the rapid pace of improvem...
227 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1988.Most future supercomputers wi...
We review possible and probable industrial applications of HPCC focusing on the software and hardwar...
Scientific applications will have to scale to many thousands of processor cores to reach petascale. ...
Supercomputing applications rely on strong scaling to achieve faster results on a larger number of p...
The design of modern parallel machines leads to powerful machines, but with complex architectures an...