Alexander Beck-Ratzka’s research while affiliated with Max Planck Institute for Gravitational Physics and other places

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Publications (4)


Figure 3.1: The UNICORE Rich Client (URC)
Figure 3.2: Available Commands of the UNICORE Commandline Client (UCC)
Figure 4.2: JavaGAT software architecture.
Figure 4.4: SIMON 6 concept design
UNICORE 6 — recent and future advancements
  • Article
  • Full-text available

December 2010

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405 Reads

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94 Citations

annals of telecommunications - annales des télécommunications

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Alexander Beck-Ratzka

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In the last three years activities in Grid computing have changed; in particular in Europe the focus moved from pure research-oriented work on concepts, architectures, interfaces, and protocols towards activities driven by the usage of Grid technologies in day-to-day operation of e-infrastructure and in applicationdriven use cases. This change is also reected in the UNICORE activities [1]. The basic components and services have been established, and now the focus is increasingly on enhancement with higher level services, integration of upcoming standards, deployment in e-infrastructures, setup of interoperability use cases and integration of applications. The development of UNICORE started back more than 10 years ago, when in 1996 users, supercomputer centres and vendors were discussing "what prevents the efficient use of distributed supercomputers?". The result of this discussion was a consensus which still guides UNICORE today: seamless, secure and intuitive access to distributed resources. Since the end of 2002 continuous development of UNICORE took place in several EU-funded projects, with the subsequent broadening of the UNICORE community to participants from across Europe. In 2004 the UNICORE software became open source and since then UNICORE is developed within the open source developer community. Publishing UNICORE as open source under BSD license has promoted a major uptake in the community with contributions from multiple organisations. Today the developer community includes developers from Germany, Poland, Italy, UK, Russia and other countries. The structure of the paper is as follows. In Section 2 the architecture of UNICORE 6 as well as implemented standards are described, while Section 3 focusses on its clients. Section 4 covers recent developments and advancements of UNICORE 6, while in section 5 an outlook on future planned developments is given. The paper closes with a conclusion.

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UNICORE 6 - Recent and Future Advancements

September 2010

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18 Reads

annals of telecommunications - annales des télécommunications

UNICORE is a European Grid Technology with more than 10 years of history. Originating from the Supercomputing domain, the latest version UNICORE 6 has turned into a general-purpose Grid technology that follows established standards and offers a rich set of features to its users. The paper starts with an architectural insight into UNICORE 6, highlighting the workflow features, standards and the different clients. Next, the current state of advancement is presented by describing recent developments. The paper closes with an outlook on future planned developments.


AstroGrid-D: Grid technology for astronomical science

July 2010

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82 Reads

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8 Citations

New Astronomy

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 (Section 2.1), and advanced applications for specific scientific purposes (Section 2.2), such as a connection to robotic telescopes (Section 2.2.3). 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.


JavaGAT adaptor for UNICORE 6 - Development and evaluation in the project AeroGrid

August 2009

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19 Reads

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1 Citation

Lecture Notes in Computer Science

Making applications Grid-aware (or Grid-enabled) requires the knowledge of the API of dierent Grid middlewares. The complexity of these systems, both in terms of underlying technology and functionality, remains high. Moreover, Grid middlewares like Globus and UNICORE are still undergoing many changes. Grid Application Toolkit (GAT), a high-level API for accessing Grid services, provides application developers with a unied, simple and middleware-independent interface to the Grid. In this paper, we present a newly developed adaptor for GAT to access UNICORE services. We also describe how the data management client DataFinder has been Grid-enabled with GAT to access remote les and submit computational jobs to the Grid. DataFinder provides primarily an easy-to-use tool for scientic data management in distributed environments. Within the project AeroGrid, a BMBF-funded project in the German D-Grid initiative, DataFinder is being used as user interface for performing complex simulations in a UNICORE-based Grid infrastructure.

Citations (2)


... However, the existing methods [6,10] of managing planners in systems with a hybrid structure, in conditions of uncertainty [1,5], require a large number of complex mathematical calculations [4,3], so we consider methods of a multi-agent approach for managing distributed computing at the Grid system level and managing calculations at the application level distributed computing in a cluster Grid system, integrated with traditional meta-planners and local resource managers of grid system nodes to optimize the work of planners. ...

Reference:

MULTIAGENT METHODS OF MANAGEMENT OF DISTRIBUTED COMPUTING IN HYBRID CLUSTERS
UNICORE 6 — recent and future advancements

annals of telecommunications - annales des télécommunications

... The software implementation is based on AstroGrid security-facade library [27] [28], which provides a Java implementation of both the service and client ends of the IVOA Credential Delegation Protocol [19]. Certificate and proxy validation is performed using Bouncy Castle 13 . ...

AstroGrid-D: Grid technology for astronomical science
  • Citing Article
  • July 2010

New Astronomy