This document is the final scientific report of the project DE-SC000120 (A scalable Development Environment for Peta-Scale Computing)ÃÂ. The objective of this project is the extension of the Parallel Tools Platform (PTP) for applying it to peta-scale systems. PTP is an integrated development environment for parallel applications. It comprises code analysis, performance tuning, parallel debugging and system monitoring. The contribution of the Juelich Supercomputing Centre (JSC) aims to provide a scalable solution for system monitoring of supercomputers. This includes the development of a new communication protocol for exchanging status data between the target remote system and the client running PTP. The communication has to work for high ...
This deliverable identifies and analyses the programming models and the software libraries required ...
Task T7.1 “Scaling and Optimisation of Applications Codes” in Work Package 7 of PRACE-3IP aims to pr...
Petascale platforms with O(10{sup 5}) and O(10{sup 6}) processing cores are driving advancements in ...
The Eclipse Parallel Tools Platform (PTP) represents a development environment for parallel applicat...
This document summarizes the work done in task 7.6 of work package 7 of the PRACE-1IP project. The m...
Petascale systems will present several new challenges to performance and correctness tools. Such mac...
The Petascale Computing Enabling Technologies (PCET) project addressed challenges arising from curre...
AbstractThe Eclipse Parallel Tools Platform (PTP) is an open source Integrated Development Environme...
In the next five years, the DOE expects to build systems that approach a petaflop in scale. In the ...
There is a strong belief in the potential of large distributed memory parallel computers in the deve...
The increase in size and heterogeneity of today's HPC systems makes on-line monitoring to an essenti...
This deliverable reports on approaches to petascaling and evaluates promising petascaling techniques...
This is a detailed report on application requirements for European petaflop/s systems. It updates th...
Scientific applications in nanoscience, combustion modeling, fusion energy simulations, climate mode...
Petascale computers and computing systems have the potential to solve large-scale, data-intensive pr...
This deliverable identifies and analyses the programming models and the software libraries required ...
Task T7.1 “Scaling and Optimisation of Applications Codes” in Work Package 7 of PRACE-3IP aims to pr...
Petascale platforms with O(10{sup 5}) and O(10{sup 6}) processing cores are driving advancements in ...
The Eclipse Parallel Tools Platform (PTP) represents a development environment for parallel applicat...
This document summarizes the work done in task 7.6 of work package 7 of the PRACE-1IP project. The m...
Petascale systems will present several new challenges to performance and correctness tools. Such mac...
The Petascale Computing Enabling Technologies (PCET) project addressed challenges arising from curre...
AbstractThe Eclipse Parallel Tools Platform (PTP) is an open source Integrated Development Environme...
In the next five years, the DOE expects to build systems that approach a petaflop in scale. In the ...
There is a strong belief in the potential of large distributed memory parallel computers in the deve...
The increase in size and heterogeneity of today's HPC systems makes on-line monitoring to an essenti...
This deliverable reports on approaches to petascaling and evaluates promising petascaling techniques...
This is a detailed report on application requirements for European petaflop/s systems. It updates th...
Scientific applications in nanoscience, combustion modeling, fusion energy simulations, climate mode...
Petascale computers and computing systems have the potential to solve large-scale, data-intensive pr...
This deliverable identifies and analyses the programming models and the software libraries required ...
Task T7.1 “Scaling and Optimisation of Applications Codes” in Work Package 7 of PRACE-3IP aims to pr...
Petascale platforms with O(10{sup 5}) and O(10{sup 6}) processing cores are driving advancements in ...