HPE Cray Supercomputing

HPE Cray Supercomputing

Exascale computing isn't a marketing catchphrase misused in this sector; it refers to machines capable of a quintillion operations every second. Few platforms truly develop themselves to achieve this magnitude. SanSo Networks Private Limited works as a recognised HPE Cray Supercomputing Dealer in Delhi, giving research institutions and enterprises access to infrastructure originally built for some of the world's fastest supercomputers.

What the Architecture Actually Looks Like Inside the Cabinet:

The HPE Cray Supercomputing EX system is built around liquid-cooled blade chassis, with a single EX4000 cabinet housing up to 64 compute blade slots across 8 chassis, supporting as many as 98,304 AMD EPYC cores in one rack. Direct liquid cooling reaches processors, GPUs, and switches through cold plates connected to a cooling distribution unit, eliminating the heated air exhaust that conventional air-cooled racks generate at this density. As a trusted HPE Cray Supercomputing Supplier in Delhi, we work with institutions whose simulation or modelling workloads have already outgrown what standard cluster architecture can sustain.

What the Slingshot Interconnect Actually Solves:

Node count alone doesn't make a supercomputer fast; the fabric connecting those nodes does. HPE's Slingshot interconnect implements a high-radix, 64-port switch fabric based on Dragonfly topology, scalability up to hundreds of thousands of nodes with traffic passing at just three hops, all while each port maintains 200 Gb/s.

What This Architecture Actually Delivers:

  • The vastly parallel HPC and AI workflows scale out on tens of thousands of cores, where a communication issue just cannot take place.
  • Closed loop liquid cooling-removes heat at the source, providing room-neutral thermal output even for extreme compute density.
  • Slingshot fabric provides low-latency and high-bandwidth communication among nodes as the system size increases.
  • Converged HPC, AI and analytics workflows are a cohesive software stack, including the PHE Cray Operating System.
  • Modular cabinet design allows capacity to expand incrementally as computational requirements grow over time.

Where This Class of Infrastructure Gets Deployed:

Institutions of research, government and other laboratories that have significant simulation requirements and a heavy workload of simulation tasks across India are relying more and more on certified and reliable HPE Cray Supercomputing Distributors in India, whenever their standard high-performance computing cluster becomes inadequate. They are enabled by a high-performance supercomputing infrastructure that increases the speed at which they can perform research and simulation work of this nature.

Let's Discuss the Scale Your Project Demands:

Is your existing infrastructure sufficient for your upcoming large project? If the answer is No, then we, being the experienced HPE Cray Supercomputing Partner in Delhi, are here to help you out. We will try to understand your project specifically in terms of computation requirements, workload profile and deployment objectives before advising you on the most suitable configuration. Send us your project information, and we will advise you about the right number of nodes, architecture and infrastructure size suitable for your project.

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