English

AstroGrid-D: Grid Technology for Astronomical Science

Distributed, Parallel, and Cluster Computing 2014-11-21 v1 Instrumentation and Methods for Astrophysics Databases Networking and Internet Architecture

Abstract

We present status and results of AstroGrid-D, a joint effort of astrophysicists and computer scientists to employ grid technology for scientific applications. AstroGrid-D provides access to a network of distributed machines with a set of commands as well as software interfaces. It allows simple use of computer and storage facilities and to schedule or monitor compute tasks and data management. It is based on the Globus Toolkit middleware (GT4). Chapter 1 describes the context which led to the demand for advanced software solutions in Astrophysics, and we state the goals of the project. We then present characteristic astrophysical applications that have been implemented on AstroGrid-D in chapter 2. We describe simulations of different complexity, compute-intensive calculations running on multiple sites, and advanced applications for specific scientific purposes, such as a connection to robotic telescopes. We can show from these examples how grid execution improves e.g. the scientific workflow. Chapter 3 explains the software tools and services that we adapted or newly developed. Section 3.1 is focused on the administrative aspects of the infrastructure, to manage users and monitor activity. Section 3.2 characterises the central components of our architecture: The AstroGrid-D information service to collect and store metadata, a file management system, the data management system, and a job manager for automatic submission of compute tasks. We summarise the successfully established infrastructure in chapter 4, concluding with our future plans to establish AstroGrid-D as a platform of modern e-Astronomy.

Keywords

Cite

@article{arxiv.1007.4053,
  title  = {AstroGrid-D: Grid Technology for Astronomical Science},
  author = {Harry Enke and Matthias Steinmetz and Hans-Martin Adorf and Alexander Beck-Ratzka and Frank Breitling and Thomas Bruesemeister and Arthur Carlson and Torsten Ensslin and Mikael Hoegqvist and Iliya Nickelt and Thomas Radke and Alexander Reinefeld and Angelika Reiser and Tobias Scholl and Rainer Spurzem and Juergen Steinacker and Wolfgang Voges and Joachim Wambsganss and Steve White},
  journal= {arXiv preprint arXiv:1007.4053},
  year   = {2014}
}

Comments

14 pages, 12 figures Subjects: data analysis, image processing, robotic telescopes, simulations, grid. Accepted for publication in New Astronomy

R2 v1 2026-06-21T15:52:02.624Z