KAUST selects Hewlett-Packard Enterprise to build the most powerful supercomputer system in the Middle East

Recent articles

King Abdullah University of Science and Technology (KAUST) has announced that Hewlett-Packard Enterprise, the world’s leading information and communication technology company, has been selected to build the next generation Shaheen 3 supercomputer, with the goal to provide the latest supercomputing and artificial intelligence capabilities and the advancement of scientific research in the field.Many areas including food, water, energy and environment.

Increasingly, supercomputing capabilities are a key factor in global innovation, industrial competitiveness and economic growth. Supercomputing has played an important role in accelerating the discovery of vaccines to fight the epidemic, in developing clean energy systems to increase sustainability, and in realizing new possibilities in artificial intelligence, making it an essential technology for solving problems. most challenging science and engineering in the world.

The Shaheen 3 supercomputer, set to be 20 times faster than the current system, is the most powerful supercomputing system in the Middle East to address critical areas that impact society and the environment. of Hewlett-Packard Enterprise, will occur. , revolutionizing KAUST’s ability to process huge amounts of data with enormous speed and volume, allowing its users to discover what was previously not possible and realize new possibilities for artificial intelligence.

The computer system will be built using the HPE Cray EX supercomputer, a next-generation platform designed to support unprecedented performance and scalability, including achieving exaflop speed; It allows KAUST to apply great computing power to faster and more accurate models and simulations of scientific problems.

Hewlett Packard Enterprise’s supercomputing capabilities enable large-scale AI by combining enormous computing power with the specialized capabilities needed to build machine learning models and train large amounts of data; Promote KAUST’s AI mission at scale by integrating the Machine Learning Technology Development Environment, a suite of software optimized for training and model development; By combining the machine learning software platform with leading supercomputing technologies, KAUST users can develop and train AI models faster and more accurately to increase accuracy.

Commenting on the event, Antonio Neri, President and CEO of Hewlett Packard Corporation, said, “Our goal at Hewlett Packard Enterprise is to advance the way people live and work and we are honored to help support the vision. 2030 of Saudi Arabia for a new era of innovation through the enhancement of KAUST with the latest supercomputer systems ever, “he said, noting that the” Shaheen 3 “supercomputer system will greatly accelerate research at the university by applying supercomputing and large-scale artificial intelligence to increase accuracy in analyzing and solving complex scientific questions.

KAUST selects Hewlett-Packard Enterprise to build the most powerful supercomputer system in the Middle East

For his part, Professor Tony Chan, president of King Abdullah University of Science and Technology (KAUST), explained that the HPE Cray EX supercomputer system will allow us to conduct research on a larger scale, leading to significant scientific, economic and noting that, in line with Vision 2030, we seek to strive to meet the ever-increasing demand for active, solution-oriented teachers, as well as external partners, for faster and more efficient computing resources, KAUST’s supercomputing resources will be used by more than half of the faculty, students, postdoctoral fellows and researchers from more than 20 institutions in the Kingdom of Saudi Arabia.

The Shaheen 3 supercomputer system will be fully operational in 2023, as the new system will process unique datasets in areas of interest such as clean combustion, Red Sea ecosystems, climate modeling and Arabian plate tectonics, while providing analysis. , models and simulations at a high rate of accuracy KAUST users are targeting a wide range of applications, including the design of new low-cost, high-performance photovoltaic solar cell materials, as well as new industrial catalytic processes to increase the energy efficiency while reducing waste It will also be used in the fields of personal preventive health care, drug discovery and increased hydrocarbon recovery With low environmental and economic costs, genetic and genomic approaches are used to improve drought tolerance and resilience of plants in desert environments.

Equipped with more than 2,800 NVIDIA Grace Hopper Superchips and tightly interconnected CPU / GPU accelerators, the Shaheen 3 supercomputer will enable the development of new scalable technologies in key areas of AI such as deep learning, reinforcement learning and unified learning, the visual computing, natural computing and language processing, as well as providing unique opportunities to extend traditional high-performance computing workloads, in addition to the GPU-accelerated section, will facilitate the wide use of applied AI in scientific applications and engineering, including Computational Chemistry and Scientific Biology and Materials Science, which were previously useless due to the large-scale nature of the data sets produced and used at KAUST. In the coming years, applications will increase as Shaheen 3 is expected to deliver 100 petaflops / sec performance and outstanding AI modeling capabilities.

Dr David Keyes, head of the Center for Supercomputing at KAUST and professor of applied and computational mathematics at the university, pointed out that the supercomputer system is a global scientific tool used by scientists and engineers in every discipline for tasks such as simulation, experimental data. analysis, learning from observed data and efficient data storage and retrieval.It will be the main scientific resource that will enable researchers from different disciplines to exchange information and software tools, especially that progress in one field stimulates progress in several fields.

KAUST, as one of the world’s leading supercomputer centers, builds on the success of its first supercomputer, Shaheen 1, launched in 2009, followed by Shaheen 2, a Cray-based supercomputer, which is 25 times faster than its predecessor. sec.

Dr. Jisoo Lee, Director of Core Lab Facilities for Computing Research at KAUST, added that the Shaheen 2 system has provided 6.8 billion core processing hours to more than 1,467 users, resulting in the use of data in approximately 1,030 scientific publications so far. recognized for its excellence as a global university in computational science.

“AMD is committed to continuously advancing research and development in high-performance computing and leading technology in computer modeling, simulation and artificial intelligence,” said Forrest Norrod, senior vice president and general manager, AMD Data Center Solutions Business Group . support of AMD EPYC processors, Shaheen will contribute 3 is accelerating new discoveries that will have a regional and global impact on climate, clean energy and modeling of tectonic plate movement. This is made possible thanks to a collaboration between KAUST and HBE scientists. ”

“As we enter the age of artificial intelligence in Exascale computing, supercomputers like Shaheen 3 are becoming essential to transform society,” said Ian Buck, Vice President of Hypercycle and HPC at Nvidia. “Thanks to our deep collaboration with KAUST and Hewlett-Packard Enterprise, By adopting the new Grace Hopper Superchip, Shaheen 3 will be a key scientific tool that delivers unprecedented performance to help tackle the world’s toughest challenges.”

Read More About: Technology News

Leave a Reply