Shaheen (supercomputer)

Shaheen is a supercomputer owned and operated by King Abdullah University of Science and Technology, Thuwal, Saudi Arabia. It consists primarily of a 36-cabinet Cray XC40 supercomputer. Built in partnership with Cray, Shaheen is intended to enable KAUST Faculty and Partners to research both large and small-scale projects, from inception to realization. Shaheen's creator is Majid Alghaslan, who was then KAUST's interim chief information officer. Alghaslan also named the machine.^[1]

Shaheen, named after the Peregrine Falcon, is the largest and most powerful supercomputer in the Middle East with a processing power of 5.54 petaflops with 196,608 cores. The first generation of Shaheen (2009-2015) was an IBM Blue Gene/P, originally built at IBM's Thomas J. Watson Research Center in Yorktown Heights, New York, and moved to KAUST in mid-2009. The second generation of Shaheen, project name "Shaheen II", was brought into service in the summer of 2015.

Systems[]

Shaheen II[]

The second generation of Shaheen has the following specifications:^[2]

Cray XC40 supercomputer with DataWarp technology
Cray Sonexion 2000 storage system

Shaheen I[]

The first generation of Shaheen included the following functional elements:

16 racks of Blue Gene/P, having a peak performance of 222 Teraflops
164 IBM IBM System x 3550 Xeon nodes, having a peak performance of 12 Teraflops

Performance[]

Shaheen I's performance and computing capabilities included:^[3]

65,536 independent processing cores.
10 Gbit/s access to world's academic and research networks.^{[citation needed]}

The file system and Spectra Logic TFinity tape system (https://spectralogic.com/2015/07/13/spectra-logic-tape-provides-archive-and-backup-solution-to-kaust-supercomputer/) were mounted across both the Blue Gene system and the Linux cluster. All elements of the system were connected together on a common network backbone that is accessible from all campus buildings. The systems were also be accessible from the Internet.

Services[]

The Shaheen system at KAUST Supercomputing Laboratory (KSL) is available to help KAUST users and projects, to provide training and advice, to develop and deploy applications, to provide consultation on best practices and to provide collaboration support as needed.

KAUST Faculty will have access to:

General support for Shaheen facility use, including usage scheduling of Shaheen and peripheral systems
High-performance computing support for "Grand Challenges" by collaboration with the Center to deliver fundamental breakthroughs in specific areas of research
Collaboration to provide high-performance computing applications, middleware, library, algorithm support and enablement services
Applications Enablement where users can task the CDCR to develop, enable, port and scale key applications
High-performance Computing Program Best Practice Management techniques
Participation with KAUST researchers in external projects
Training on high-performance computing systems management, programming, applications tuning and algorithms

Research Supported[]

KAUST, using the Shaheen systems, will focus on four specific research thrusts:

Resources, energy, and environment
Biosciences and bioengineering
Materials science and engineering
Applied mathematics and computational science

Data sets for this research will be unique in that they will come from the Saudi Arabia region, focusing on areas such as oil and gas reserves, Red Sea data, and other areas distinctive to KAUST.

Restrictions[]

Although KAUST does not support any kind of discrimination against any students or faculty based on religion, sex, or national origin, IBM and Cray have to comply with US Export regulations governing exporting high-end computing technology. As per the regulations^[4] a restriction had to be made to deny nationals of Syria, Iran, Sudan, Cuba, and North Korea from access to the supercomputer.

Institutional Partners[]

The Shaheen system at KAUST is made possible through a joint collaboration between the Cray and KAUST. In addition to IBM and Cray, KSL has partnered with the following partner research institutions and organizations:

The Oxford Center for Collaborative Applied Mathematics (OCCAM) at Oxford University
Massachusetts Institute of Technology (MIT)
Imperial College London
Hong Kong University of Science and Technology
Woods Hole Oceanographic Institution
Institut Français du Pétrole
National University of Singapore
American University in Cairo
Technische Universität München
GE Global Research
King Abdulaziz City for Science & Technology
King Fahd University of Petroleum and Minerals
Saudi Aramco
Indian Institute of Technology Kanpur

References[]

^ Jamshed, Shamoon (2015-05-12). Using HPC for Computational Fluid Dynamics: A Guide to High Performance Computing for CFD Engineers. ISBN 9780128017517.
^ http://investors.cray.com/phoenix.zhtml?c=98390&p=irol-newsArticle&ID=1990096
^ Shaheen's performance, from IBM's official website
^ KAUST Conditions of Usage from KSL's website

External links[]

[1] Jamshed, Shamoon (2015-05-12). Using HPC for Computational Fluid Dynamics: A Guide to High Performance Computing for CFD Engineers. ISBN 9780128017517.

[2] ttp://investors.cray.com/phoenix.zhtml?c=98390&p=irol-newsArticle&ID=1990096

[3] Shaheen's performance, from IBM's official website

[4] KAUST Conditions of Usage from KSL's website

[1]

[2]

[3]

[4]