Of course you can use the machines on which Linux is installed as the operating system to perform a large number of smaller jobs. In addition, there is also a 10 Gb/s Ethernet network for accessing external data. This makes this network extremely suitable for calculation tasks across multiple computers. This network is both fast in bandwidth (amount of data per second) and in latency (minimum time required for communication). The nodes in the cluster are interconnected via a 56 Gb/s Infiniband network. In addition, the Data Handling facilities, the size of 3PB, are also available for Peregrine. In addition, each node has 1TB of local disk space. This storage is accessed through the Luster parallel file system. For jobs that require extra memory, there are 7 nodes with 48 Intel Xeon 2.6GHz cores and 1024 or 2048 GB internal memory.Įach node of the cluster can access 463TByte of hard drive storage.In addition, there are 42 nodes equipped with special accelerator cards 6 with 2 Nvidia K40 cards 36 virtual nodes with 1 Nvidia V100 GPU card.There are 210 'default' nodes with 24 or 28 Intel Xeon 2.5 GHz cores or 64 AMD EPYC 7601 cores and 28 GB or 512 internal memory.The cluster nodes come in three variants. ![]() ![]() The 5740 CPU cores and 220000 CUDA cores cluster is available for general use by University of Groningen scientists and is eminently suited to solve computing problems for which a single computer is not powerful enough. It aims to build up supercomputing and data processing capacities by buying world- class exascale supercomputers, post exascale facilities, and supporting an ambitious HPC research and innovation agenda.To perform large complex calculations, the university has its own high performance computing (HPC) cluster called Peregrine. With €7 billion in funding from Horizon Europe, Digital Europe Programme and the Connecting Europe Facility the Commission will strengthen investments in supercomputing. Europe's first exascale supercomputer, JUPITER, is expected to be operational in 2023.Īs part of the digital decade, HPC is key to Europe’s future prosperity, digital transformation and resilience. The next generation (exascale) will perform more than one billion billion (10¹⁸) operations per second, a computing power level comparable to aggregating the computing capabilities of the mobile phones of the EU’s entire population. Today, world-class supercomputers are able to perform more than 10¹⁵ - at least one million billion, operations per second (petascale performance). A few top-of-the-range systems exceed 10¹⁷- at least one hundred million billion, operations per second (pre-exascale performance). It has a direct impact on the digital supply chain, such as designing new materials, cars and aeroplanes, and bioengineering and manufacturing. Moreover, HPC has proved to be of great importance in developing new applications and products. Supercomputers are actively involved in the quest for treatments for COVID-19. And, it can help us understand the origins and evolution of epidemics and diseases. ![]() It is also starting to play a key role in medicine: HPC can be used in drug design, from testing drug candidate molecules to repositioning existing drugs for new diseases. HPC can be used in a large number of application areas: from monitoring and mitigating the effects of climate change and producing safer and greener vehicles to increasing cybersecurity and advancing the frontiers of knowledge in nearly every scientific field. HPC is key to processing and analysing this growing volume of data, and to making the most of it for the benefit of citizens, businesses, researchers and public administrations. As a result, the nature of computing is changing, with an increasing number of data-intensive critical applications. In today’s world, more and more data is constantly being generated, from 79 zettabytes globally in 2021 to an expected 181 zettabytes in 2025 (1 zettabyte is equal to 1 trillion gigabytes). In the digital decade, high performance computing (HPC) is at the core of major advances and innovation, and a strategic resource for Europe's future.
0 Comments
Leave a Reply. |