Are you looking for a compact 1U server that works in a variety of environments?
The dense and compact HPE ProLiant DL20 Gen9 server powered by Intel® Pentium®, Core i3 and E3-1200 v5/v6 processors provides a unique blend of enterprise-class capabilities at a great value—making it an ideal rack server platform for growing businesses and service providers. It offers outstanding configuration flexibility to cater to a wide variety of business requirements at an affordable price point. The ProLiant DL20 Gen9 server offers a range of HPE Qualified Options to fit most needs like affordable drives for light workloads, solid state drives for the demanding requirements, from a single non-hot plug power supply to an efficient HPE hot plug redundant power supply, from multiple storage controllers to the HPE FlexibleLOM networking cards—helping customers find the right configuration for their workloads.
Do you need to rapidly transform massive data streams?
The HPE Apollo 6500 System provides the tools and the confidence to deliver high performance computing (HPC) innovation. The system consists of three key elements: the HPE ProLiant XL270d Gen9 Server tray, the HPE Apollo d6500 Chassis, and the HPE Apollo 6000 Power Shelf.
The XL270d Gen9 Server provides up to 56 Tflops of single precision performance per server with eight NVIDIA® Tesla M40 GPU and two Intel® Xeon® E5-2600 v4 processors in a 2U server. With a configurable internal PCIe Gen3 fabric, choose to optimize the GPU topology to match your specific needs. High-bandwidth, low-latency networking is tightly coupled to the accelerators allowing you to take full advantage of your network. Two x16 PCIe Gen3 slots for your choice of high speed fabrics.
The Apollo 6500 System: Your next accelerated computing solution.
Do you need a scalable dense storage system for your Big Data, object storage or data analytics? The HPE Apollo 4510 Gen10 System offers revolutionary storage density in a 4U form factor. Fitting in HPE standard 1075 mm rack, with one of the highest storage capacities in any 4U server with standard server depth. When you are running Big Data solutions, such as object storage, data analytics, content delivery, or other data-intensive workloads, the HPE Apollo 4510 Gen10 System allows you to save valuable data center space. Its unique, density-optimized 4U form factor holds up to 60 large form factor (LFF) and additional 2 small form factor (SFF) or M.2 drives. For configurability, the drives can be NVMe, SAS, or SATA disk drives or solid state drives.
Do you need a platform purpose-built to address your High Performance Computing, virtualized, and memory-centric workloads? Try something EPYC™. Hewlett Packard Enterprise is extending the worlds' most secure industry standard servers  to include the HPE ProLiant DL385 Gen10 server, utilizing the AMD EPYC 7000 Series processors. This platform has been designed with the security you need and the flexibility you require to accommodate demanding enterprise workloads. With up to 64 cores, up to 32 DIMMs, or 4 TB memory capacity and support for up to 24 NVMe drives, the HPE ProLiant DL385 Gen10 server delivers a low cost virtual machine (VM) with unprecedented security.
Is your business looking to capitalize on real-time analytics and insights, by adopting SAP® HANA® to transform itself into a data-driven enterprise? HPE Superdome Flex for SAP HANA offer industry-leading performance and modular scalability, mission-critical reliability, and optimum cost-efficiency. Designed with memory-driven computing principles to uniquely handle the scale, performance and reliability demand of SAP S/4HANA®, enabling enterprises of any size to analyze and process massive amounts of data at the digital core in real time. Design, deployment, migration, and remote services from HPE Pointnext will help you to fully modernize your SAP application environment and transition smoothly to SAP HANA.
Are you struggling to keep up with the increasing demands on your mission-critical data environment? The HPE Superdome Flex server is a compute breakthrough to power critical applications, accelerate data analytics and tackle HPC and AI workloads holistically. It delivers an unmatched combination of flexibility, performance and reliability for critical environments of any size. Its unique modular architecture and unparalleled scale allows you to start small and grow at your own pace. Leveraging its in-memory design and groundbreaking performance, you can process and analyze the growing amount of data moving through your business at extreme speed. With superior reliability, availability, serviceability (RAS) and end-to-end security, the HPE Superdome Flex Server safeguards your vital workloads. The HPE Pointnext Services portfolio, partner ecosystem, and HPE´s mission-critical expertise complement the platform value to ensure your move to HPE Superdome Flex is a success.
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.
The HPE Apollo a6000 Chassis provides power, cooling, and I/O infrastructure to support HPE ProLiant XL Servers and options today and for years to come. This 5U chassis holds up to 10 server trays vertically and fits in a standard rack. The Innovation Zone in the back of the chassis holds up to 10 I/O modules, with dual HPE FlexibleLOMs supporting 1GbE or 10GbE. Power is delivered through an external 1.5U power shelf (14.4 kW or 15.9 kW) supporting up to 6 chassis depending on power load. Choose from single or 3-phase AC input, with 12 x 12V DC cables from the power shelf to the chassis. An HPE Advanced Power Management module helps optimize rack, chassis, and server power insight and management.
Has your data center become an inflexible, monolithic, hard-wired, under-utilized collection of systems and complex processes that require excessive manpower to operate? The HPE Integrity Superdome 2 Server family based on a blade design, a common network fabric, comprehensive cross-domain control and advanced power and cooling management delivers a mainframe replacement. The Hewlett Packard Enterprise Converged Infrastructure (CI) delivers consolidation, modernization, shared services and business continuity initiatives by simplifying, consolidating and automating everything from the start. It provides mission-critical scalability and reliability for the most demanding applications and workloads, while supporting up to thirty-two 8 core Intel® Itanium® 9700 processors. The HPE Integrity Superdome 2 Server supports up to 8 TB of memory and has ECC and built-in redundancy, helping you take advantage of the performance benefits of Itanium processors.
Do you require higher performance computation for deep learning, high-performance computing (HPC) workloads, or graphics? Companies are facing greater computational and graphics requirements as large and complex computational models become more commonplace. Traditional CPU technology is no longer able to keep up with these increasing demands. NVIDIA® accelerators for HPE ProLiant servers seamlessly integrate GPU computing with select HPE server families. Designed for power-efficient, high-performance supercomputing, NVIDIA accelerators deliver dramatically higher application acceleration than a CPU-only approach for a range of deep learning, scientific, and commercial applications. The thousands of NVIDIA CUDA® cores of each accelerator allow it to divide large computing or graphics tasks into thousands of smaller tasks that can be run concurrently, thus enabling much faster simulations and improved graphics fidelity for extremely demanding 3D models.