De Europese Organisatie voor Nucleair Onderzoek (CERN) fabricado por servidores GPU de alta densidad de GIGABYTE debe cumplir con los procesadores AMD EPYC ™ de segunda generación. Hun doel: het verwerken van de enorme hoeveelheid gegevens die wordt geproduceerd door subatomaire deeltjes experimentanten uitgevoerd con Large Hadron Collider (LHC). De indrukwekkende verwerkingskracht van het multi-core ontwerp van de GPU-servers heeft de studie van hoge-energiefysica naar nieuwe hoogten gestuwd.
Founded in 1954, the European Organization for Nuclear Research (CERN) is the largest particle physics laboratory in the world. It combines advanced scientific instruments with an unequipo de clever of scientists to perform some of the planet's most important physics experiments. Their goal is to discover new knowledge beyond our current understanding of the Standard Model of particle physics. Of the many projects of CERN, the largest intensive energy energía is the particle accelerator: Gran Colisionador de Hadrones (LHC). To more quickly detect the subatomic particle known as the beauty (or bottom) quark, CERN has decided to invest in additional computing equipment to analyze the vast amounts of raw data produced by the LHC.
GIGABYTE is from the best HPC technology from keuze voor toonangevende
When CERN looked for ways to expand their data processing equipment, the top priority was acquiring High Performance Computing (HPC) capabilities. Los servidores específicos de Ze Wilden se encuentran en procesadores AMD EPYC ™ de segunda generación y procesadores gráficos combinados. They also had to support complemento de servidores PCIe Gen 4.0 cards. GIGABYTE fue un gran éxito al enfrentarse a that answered their aiguag. El CERN está muy interesado en GIGABYTE G482-Z51, un modelo que cumple con PCIe Gen 4.0 GPGPU cards en un chasis de 4U. GIGABYTE has a lot of experience with HPC applications. When the technología AMD PCIe Gen 4.0 and plataformas brought their x86 and Market, GIGABYTE immediately reacted to take advantage of its technological know-how y experiencia de todos los servidores GPU integran PCIe Gen 4.0 en adelante. GIGABYTE optimized the integrated hardware design of the server, from the electronic components and circuit board to the powerful power supply. Signal integrity was maximized by minimizing signal loss at fast transmitido between CPU y GPU y between GPU. Dicho resultado en un servidor GPU se reunió con una mayor frecuencia, un mayor número de bandas y un mayor número de casos. To effectively process huge amounts of data with HPC technology, there is much more to it than just the combined processing power of the CPU and GPU. High speed transfer is crucial; the it is now about computing and storing data between multiple service clusters, the about the accelerated processing y communication of data between devices connected via the Internet. The GIGABYTE G482-Z51 overcomes this challenge with its PCIe Gen 4.0 interface, which supports high-performance network cards. The increased bandwidth enables faster data transmission, which in turn improves the performance of the entire HPC system, making it possible to process the 40 terabytes of raw data that the particle accelerator generates every second.
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GIGABYTE El servidor GPU de la series GIGABYTE G482 ha sido diseñado para no tener ningún problema con los datos offers incredible computing power, RAM speed and bandwidth.
Servers Op Maat Ontworpen Voorzien CERN van Geavanceerde Rekenkracht
To quickly analyze the massive amounts of data generated by experiments conducted at the LHC, CERN has independently developed its own powerful add-on cards to perform all of the calculations. They have combined these cards with graphics cards designed for image processing. The combined power of these specialized tools became the latest technology and computadoras advanced it. GIGABYTE has customized the G482-Z51 to meet specific customer requirements:
- Special ontworpen uitbreidingssloten en kleine aanpassingen aan het BIOS
Om rekening te houden met de zelfontwikkelde add-on kaarten van CERN, heeft GIGABYTE de uitbreidingssloten van de G482-Z51 aangepast. GIGABYTE voerde ook data simulations uit en maakte kleine aanpassingen aan het BIOS om all computerkaarten beter aan het moederbord te koppelen, zodat elke kaart de maximal PCIe Gen 4.0-snelheid kon halen.
- An advanced heat dissipation solution
CERN had voor zowat alles speciale behoeftes, van de stroomvoorziening tot de netwerkinterfacekaarten a opstelling van de acht GPGPU-kaarten. Het warmteverbruik van deze verweven I / O-apparaten was ook niet Allemaal hetzelfde. GIGABYTE maakte gebruik van zijn experience in ontwerpen voor warmtedissipatie e integratietechnieken om de luchtstroom con binnen de servers te kanaliseren, zodat overermatige hitte geen probleem zou worden.
GIGABYTE werkte nauw samen met AMD om de horizon for HPC applications uit te breiden
One of the most notable advantages of the AMD CPU is its multi-core design. In striving to strengthen the position of the processor AMD EPYC ™ in the server market, GIGABYTE plays an important role. By creating an AMD EPYC™ server that demonstrates top performance, system stability in consistent quality, GIGABYTE was able to meet CERN's need for a solution that can analyze large amounts of data in HPC workloads. Los servicios de respuesta de GIGABYTE and in-depth experience in research and development were exactly what the customer needed to meet their specific requirements. Pushing computing power to its limits with state-of-the-art technological prowess, GIGABYTE has taken an impressive step forward in applying HPC solutions to academic research in scientific discovery.
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GIGABYTE El servidor GPU de la series GIGABYTE G482 ha sido diseñado para no tener ningún problema con los datos offers incredible computing power, RAM speed and bandwidth.