HPE Apollo 80 System
Are you ready for a purpose-built HPC platform with powerful features such as Scalable Vector Extensions (SVE) and High Bandwidth Memory (HBM)?
The HPE Apollo 80 System offers customers the opportunity to build HPC clusters with one of the most advanced Arm® processors on the planet combined with the Hewlett Packard Enterprise HPC robust ecosystem of software and HPE Pointnext support. HPE Apollo 80 has a high-density configuration with 8 single socket Fujitsu A64FX™ based servers in a 2U platform. The A64FX SVE and HBM deliver leadership floating-point and high memory bandwidth performance as compared to not only other Arm platforms, but current x86 based platforms as well. The HPE Cray Programming Environment offers an excellent development environment for customers developing their own code and porting to the new SVE architecture.
HPE Apollo 6500 Gen10 Plus System
Does your enterprise need to simplify management, reduce costs, and improve reliability and performance for high-performance computing (HPC) and AI workloads?
Built for the exascale era, the HPE Apollo 6500 Gen10 Plus System accelerates performance with NVIDIA® HGX A100 Tensor Core GPUs and AMD Instinct™ MI100 with Infinity Fabric™ accelerators to take on some of the most complex HPC and AI workloads. This purpose-built platform provides enhanced performance with premier graphics processing units (GPU), fast GPU interconnect, high-bandwidth fabric, and configurable GPU topology, providing rock-solid reliability, availability, and serviceability (RAS). Configure with single or dual processor options for a better balance of processor cores, memory, and I/O. Improve system flexibility with support for 4, 8, 10, or 16 GPUs and a broad selection of operating systems and options, all within a customized design to reduce costs, improve reliability, and provide leading serviceability.
HPE Apollo 35 v2 System
Are your high-performance computing (HPC) applications memory-bound?
The HPE Apollo 35 v2 System provides a high density AMD EPYC compute solution with exceptional memory bandwidth and capacity per socket. Offering four servers in 2U, with up to 64 cores and 512 GB DDR4 3200 MT/s memory per socket, the HPE Apollo 35 v2 System, with second-generation AMD EPYC processors, is well suited for memory bandwidth or capacity bound HPC workloads, such as computational fluid dynamics, weather simulation, and oil and gas exploration. With high-performance core density per server and support for high-bandwidth network interfaces, the HPE Apollo 35 v2 System delivers excellent HPC performance at both node and rack level.
HPE Apollo 2000 Gen10 Plus System
Do you need a density-optimized, scalable system to meet the changing demands of your digital transformation journey? The HPE Apollo 2000 Gen10 Plus System is a shared infrastructure chassis with flexible support for up to 4 ProLiant XL225n Gen10+ servers (AMD) or up to 4 ProLiant XL220n Gen10+ servers (Intel®) or 2 XL290n Gen10+ servers (Intel), helping you increase your rack space density. Server nodes can be serviced without impacting operation of other nodes in the same chassis for increased server up-time. It delivers the flexibility to tailor the system to the precise needs of your demanding high-performance computing (HPC) workloads with the right compute, flexible I/O, and storage options. The system can be deployed with a single server, leaving room to scale as customer's needs grow, bringing the power of supercomputing to data centers of any size. It is ideal for HPC applications in industry verticals like manufacturing, oil and gas, life sciences, and financial services.
HPE Apollo 6500 Gen10 System
Do you need increased computing performance for high performance computing (HPC) and deep learning?
The HPE Apollo 6500 Gen10 System is an ideal HPC and deep learning platform providing unprecedented performance with industry-leading1 GPUs, fast GPU interconnect, high bandwidth fabric, and a configurable GPU topology to match your workloads. The ability of computers to autonomously learn, predict, and adapt using massive data sets is driving innovation and competitive advantage across many industries and applications are driving these requirements. The system with rock-solid reliability, availability, and serviceability (RAS) features includes up to eight GPUs per server, NVLink for fast GPU-to-GPU communication, Intel® Xeon® Scalable processors support, choice of high-speed / low latency fabric, and is workload enhanced using flexible configuration capabilities. While aimed at deep learning workloads, the system is suitable for complex simulation and modeling workloads.
HPE ProLiant XL750f Gen9 Server
Fuel ground breaking research in science and engineering with leading edge technology, while going greener than ever before. The HPE ProLiant XL750f Gen9 Server supports NVIDIA® Tesla® K40 XL GPUs. Applications that benefit from GPUs include seismic processing, biochemistry simulations, weather and climate modeling, image, video and signal processing, computational finance, computational physics, CAE, CFD, and data analytics.
The HPE Apollo 8000 System reaches new heights of performance density, with 4x the teraflops per square foot and up to 40% more FLOPs per watt than comparable air cooled servers.1 At the same time, the HPE Apollo 8000 System helps reduce your carbon footprint, saving up to 3,800 tons of CO2 per year.2 That’s about the same amount of CO2 produced per year by 790 cars!
HPE Apollo 8000 iCDU Rack
The HPE Apollo 8000 Intelligent Cooling Distribution Unit (iCDU) Rack provides 320 kW of efficient and resilient cooling using the lower half of a standard rack footprint. The iCDU connects to a standard 2.5-inch facility water pipe and cools up to four HPE Apollo f8000 racks.
The iCDU serves as a heat exchanger between the primary facilities and the secondary IT cooling. It isolates the secondary IT cooling loop for consistent water quality, containment, pressure and flow. The secondary loop remains at sub-atmospheric temperatures and the water flowing from redundant iCDUs to HPE Apollo f8000 racks is pumped under vacuum keeping water in place, for operational resiliency and serviceability.
Smart sensors automatically track thermal activity, dynamically adjusting system components to enhance system cooling for optimum efficiency.
The iCDU comes with a modular plumbing kit with quick disconnect 2.5 inch stainless connectors and flexible hoses for fast and easy deployment.
HPE Apollo f8000 Rack
With industry leading performance density, the HPE Apollo f8000 Rack holds up to 144 HPE ProLiant Servers with plenty of CPU, accelerator, memory and networking options in a standard rack footprint.
The HPE Apollo f8000 Rack powers HPC workloads with 3-phase high voltage AC, single stage power rectification and high voltage DC distribution. Smart sensors automatically track and dynamically adjust system components for optimum efficiency.
Water coming into the rack is distributed through manifolds that split out to thermal bus bars for heat transfer from the dry disconnect server trays. Water going out of the rack features isolation valves and is aggregated for energy recycling.
HPE Apollo 8000 System Manager provides real time data from hundreds of smart sensors and environmental controls; server data available with HPE Integrated Lights-Out, HPE Advanced Power Management; system monitoring, management and optimization.
HPE Apollo 6000 Power Shelf
Optimize rack scale power and increase efficiency with the HPE Apollo Power Shelf. This 1.5U shelf supplies 14.4 kW or 15.9 kW of power supporting 1-3 HPE Apollo a6000 Chassis depending on power load. Choose from single or 3-phase AC input for 12 x 12V DC cables from the HPE Apollo Power Shelf to the chassis.
Each HPE Apollo Power Shelf can hold up to 6 power supplies: 2650W Platinum hot-plug (15.9 kW non-redundant) or 2400W Platinum hot-plug (14.4 kW non-redundant). Choose from N, N+1, and N+N redundancy configurations to meet your workload needs.
HPE Advanced Power Management simplifies rack, chassis, server and component-level power monitoring and management, so you can get both the best performance and the highest level of efficiency.