Armonk/Stuttgart, 12. September - IBM kündigt heute die weltweite Verfügbarkeit des ersten Cell-Prozessor-basierten Computer-Systems an. Erste Anwender wie das Fraunhofer Institut, die Universität von Manchester oder RapidMind Inc stellen bereits rechenintensive Anwendungen für die Systeme bereit. Das neue System, genannt IBM BladeCenter QS20, ist ein Cell Broadband Engine (Cell BE)-basiertes Bladesystem für Unternehmen und Institutionen, die Nutzen aus der hohen Rechenleistung und den besonderen Eigenschaften des Cell-Prozessors für grafikintensive Anwendungen ziehen können. Das BladeCenter QS20 erweitert die Einsatzbereiche des Cell-Chips in Anwendungsgebiete wie medizinische Bildverarbeitung, Luft- und Raumfahrt, digitale Animation, Kommunikation sowie die Öl- und Gas-Exploration.

Beta-Versionen des QS20-Systems sind bereits bei Kunden in USA, UK, Spanien, Deutschland, Frankreich, Japan und Korea im Einsatz.

Unter den ersten Anwendern ist die Universität von Manchester mit ihrem Forschungszweig für Computing. Dort hat man sich zum Ziel gesetzt, High Performance Computing-Werkzeuge den Mitarbeitern und Studenten zur Verfügung zu stellen, unter anderem für Einsatzgebiete in der Bioinformatik, Molekularmodellierung und bei ingenieurswissenschaftlichen Anwendungen.

Ein weiterer 'Early Adopter' ist die Firma RapidMind in Waterloo, Canada. Dort stellt man Entwicklungsplattformen für Softwareentwickler bereit, die die neue Generation von Hochleistungsprozessoren schnell und effektiv für eigene Zwecke einsetzen möchten.

Das Fraunhofer-Institut für industrielle Mathematik ist eine Forschungseinrichtung, die sich spezialisiert hat auf Hochleistungsrechenprojekte im Bereich von Mathematik, Materialforschung, und mechanical Engineering. Dort verwendet man die Cell-basierten Systeme zur Softwareentwicklung für neue Multicore-Systeme und Visualisierungsanwendungen.

Spezifische Einsatzfelder, wie 3D Animation Rendering, Kompression, Verschlüsselung, seismische und medizinische Bilddatenverarbeitung sind die Bereiche, in denen der Cell-Prozessor sich besonders gut zur Schaffung oder Beschleunigung von stark visuellen Real-time-Anwendungen eignet.

Anwendungsbeispiele können sein:

in der Medizintechnik: Das IBM BladeCenter QS20 kann für Ärzte die Zeit dramatisch verkürzen, die für den Vergleich und die Kartografierung von dreidimensionalen medizinischen Bilddaten benötigt wird. Damit werden auch schnellere Analyse- und Diagnosezeiten denkbar.

in der Luft- und Raumfahrt: Signalverarbeitung und Radardaten basieren auf der Kombination der Analyse von Ortsdaten mit hoher Geschwindigkeit und Genauigkeit. Mit dem neuen System könnten solche Ergebnisse mit höherer Bildgenauigkeit und Auflösung wiedergegeben werden.

in der Erdöl- und Erdgasexploration: Innovationen in der Visualisierung seismischer Daten erlauben höhere Genauigkeit bei der Ortsauswahl von Bohrungen, in schnellerer Zeit. Die Fehlerrate auch bei Hochseebohrungen könnte dabei sinken.

Die Kombination des IBM BladeCenter-Systems mit dem Cell BE-Prozessor ist ein Beispiel für die fortlaufende enge Zusammenarbeit von IBM mit Kunden, um diesen durch den Einsatz von IBM Technologie und Expertise zu neuen, innovativen Lösungen zu verhelfen.

Weitere Informationen in der original US-Presseinformation anbei.

IBM MAKES FIRST CELL COMPUTER GENERALLY AVAILABLE

ARMONK, NY, September 12, 2006 -- IBM today announced that it is making its first computing system based on the Cell Broadband Engine (Cell BE) generally available on a global basis, with early adopters such as University of Manchester, RapidMind, Inc. and Fraunhofer Institute deploying compute-intensive applications on early ship versions.

The IBM BladeCenter QS20 is a Cell BE-based blade system designed for businesses that can benefit from high performance computing power and the unique capabilities of the Cell BE processor to run graphic-intensive applications. The IBM BladeCenter QS20 will expand the use of Cell into industries such as medical imaging, aerospace, defense, digital animation, communications and oil and gas – with the ability to dramatically transform those industries.

Based on the Power Architecture, the Cell BE was originally developed by IBM, Sony and Toshiba for use in gaming consoles. Cell BE’s breakthrough multi-core architecture and ultra high-speed communications capabilities deliver vastly improved, real-time response effectively delivering 'supercomputer-like performance' by incorporating IBM’s advanced multi-processing technologies usually reserved for the company’s most sophisticated servers.

Beta versions of the IBM BladeCenter QS20 are already in use at customer sites across the U.S., as well as in the United Kingdom, Spain, Germany, France, Japan and Korea.

Early deployments include the University of Manchester, the United Kingdom's largest single-site university, which boasts a research computing division that is among the world leaders – with the goal to provide world class, leading high performance computational facilities to staff and students at the University. 'We are early adopters of the IBM BladeCenter QS20 because it has the potential to give us significantly improved performance, take up less space, and consume less power,' said W. T. Hewitt, Director of Research Computing, University of Manchester. 'High performance computing systems built from blade systems based on the Cell Broadband Engine have the potential to change the economics associated with supercomputing, and thus we are looking at migrating the range of our scientific applications including bio-informatics, molecular modeling and engineering applications onto the systems to dramatically improve their performance, at the same time as reducing our costs.'

Another early adopter is RapidMind, Inc., a Waterloo, Canada-based development platform company which enables software developers to quickly and effectively take advantage of a new generation of high performance processors. 'The IBM BladeCenter QS20 offers our customers the opportunity to continue to use the simplicity of the RapidMind Development Platform while leveraging the performance of the Cell Broadband Engine,' said Ray DePaul, President CEO of RapidMind Inc. 'Application vendors are eager to adopt new innovations that drive performance benefits and the new Cell-based system from IBM is proving to be extremely effective at workloads such as image processing.'

Fraunhofer Institute for Industrial Mathematics is a German-based research institution, specializing in providing high performance computing research results in mathematics, material research, mechanical engineering to industries across the globe. 'We are using IBM's new BladeCenter QS20 as an ideal platform to develop software for emerging multicore system, and dramatically improve our own in house visualization applications,' said Dr. Franz-Josef Pfreundt, Head of the Competence Center for HPC and Visualization, Fraunhofer Institute for Industrial Mathematics. 'The powerful development environment allows for our Institute to run mathematical, medical visualization and GraPA based in-house applications at lightning-fast speed, processing millions of pieces of data in just seconds- allowing us to process, interpret and deliver research results faster.'

The IBM BladeCenter QS20 system will rely on the Cell BE processor to accelerate computationally intense workloads associated other specific industry needs, such as 3D animation rendering, compression, and encryption, and seismic and medical imaging to help companies create and run highly visual, immersive, real-time applications.

Specific examples include:

Medical industry: The IBM BladeCenter QS20 can dramatically reduce the time it takes for physicians to compare and map 3D medical images, which typically are taken over months or years with different resolutions and different devices. Running the medical image application on the QS20 can enable physicians to map multiple images in seconds compared to minutes – improving accuracy, reducing diagnosis time, and saving patient anxiety.

Aerospace defense industry: Signal processing and radar results in the aerospace industry is based on combining analysis, location and terrain with speed and accuracy. Radar application and solutions running on the IBM BladeCenter QS20 will result in a higher fidelity and higher resolution of radar output, which means operators will be able to see objects and information never previously captured through current radar systems.

Oil and gas industry: New innovations in seismic imaging are allowing energy companies to locate and drill for oil more accurately and in less time - which can dramatically improve the profitability of new drilling operations. These compute intensive applications – ideal for IBM BladeCenter Q220 – can also be used to reduce current deep sea drilling 'miss' rates, potentially saving millions in unnecessary costs for drilling operations.

The combination of IBM's BladeCenter system with the Cell BE processor is an example of IBM's continued collaboration with clients to help them create breakthrough solutions using IBM technology and expertise. Last year, IBM announced it is collaborating with Mercury Computer Systems to enable them to build Cell BE-based solutions targeted at multiple industries. IBM will also continue to work with the broader community through Blade.org, Power.org and open standards to bring additional Cell BE-based solutions to market.

IBM, BladeCenter, Power Architecture and QS20 are trademarks of IBM Corporation in the United States and/or other countries.

All other company/product names and service marks may be trademarks or registered trademarks of their respective companies.

Cell Broadband Engine is a trademark of Sony Computer Entertainment Inc.