Mithilfe eines globalen, hochauflösenden Modells des Erdsystems untersucht TOPIO die Lese- und Schreibgeschwindigkeiten für große Datenmengen auf Höchstleistungsdateisystemen sowie Ansätze, die die Datenmenge durch Komprimierung reduzieren, ohne dass dabei ein erheblicher Informationsverlust entsteht.
EE-HPC testet einen Ansatz zur Verbesserung der Energieeffizienz von HPC-Systemen durch die automatische, jobspezifische Regulierung von Systemparametern und -einstellungen.
DEGREE is investigating a method for increasing energy efficiency in data centers by dynamically controlling cooling circuit temperatures, and is developing guidelines for implementing the resulting concepts.
Im Forschungsprojekt ENRICH werden die aktuellsten Entwicklungen im Bereich der Informationstechnologien und der Rechenzentren auf Ressourceneffizienz und deren Nachhaltigkeitspotential hin untersucht.
SiVeGCS coordinates and ensures the availability of HPC resources of the Gauss Centre for Supercomputing, addressing issues related to funding, operation, training, and user support across Germany's national HPC infrastructure.
The main goal of ExaFLOW is to address key algorithmic challenges in CFD (Computational Fluid Dynamics) to enable simulation at exascale, guided by a number of use cases of industrial relevance, and to provide open-source pilot implementations.
The Mont-Blanc project aims to design a new type of computer architecture capable of setting future HPC standards, built from energy-efficient solutions used in embedded and mobile devices.
Motivated by the sustainability strategy, green IT strategy, and HPC strategy of the state of Baden-Württemberg, this project investigated how principles of sustainability could be applied to the High-Performance Computing Center Stuttgart (HLRS).
The limiting factor in the development of an exascale high-performance computer systems is power consumption. The Mont-Blanc2 project focused on the task of developing a next-generation HPC system using embedded technologies to address this challenge.
The EXCESS scientific and technological concept in addressing energy efficiency is defined by novel execution models between common high-performance computing infrastructures and embedded systems.
The project aims to develop novel load balancing mechanisms that can be applied during runtime in a wide range of parallel and high performance computing systems, allowing for a fine-tuning of the trade-off between performance guarantees and system efficiency according to the application needs.
JUNIPER was an EU FP7-ICT project, started in December 2012, that aimed to establish a development platform for new-generation, data-demanding applications.
