HPE Apollo Systems
Breakthrough performance with economies of power and cooling in less space.
The HPE Apollo high-density server family is built for the highest levels of performance and efficiency. They are rack-scale compute, storage, networking, power and cooling—massively scale-up and scale-out—solutions for your big data analytics, object storage, and high-performance computing (HPC) workloads. From water-cooling that’s 1,000x more efficient than air to “right-sized scaling” with 2X the compute density for workgroup and private cloud workloads, the HPE Apollo line is a dense, high-performance, tiered approach for organizations of all sizes.
New Possibilities for the Data-Driven Organization
Add purpose-built Compute to your infrastructure and accelerate time to value by reducing implementation time from months to days. Apply just the right amount of scalability, performance and efficiency with a selection of hyperscale server systems optimized for specific workloads types and sizes.
Optimize scale, performance and cost-efficiency for each type of data and manage volume, velocity and variety accordingly. Use HPE Apollo to provide just the capacity and performance you need with scale-up and scale-out, workload-optimized solutions.
Enjoy significant capital and operating expense savings with high-density economic building blocks for efficient implementations at scale. Achieve up to 30 servers and 3.6 petabytes of capacity in a 42U4 rack in the HPE Apollo 4500.
The HPE Apollo 8000 is the world’s first warm-water liquid cooling system. These systems accomplish groundbreaking speed, density, energy-efficiency and even economic and ecological sustainability.
Complete HPE Apollo Portfolio
See all components across the entire HPE Apollo line of high density servers to explore and compare details.
Performance-optimized, air-cooled solution for getting the most out of your infrastructure—and your investment.
- 20 percent more performance for single-threaded applications6
- 60 percent less space than a computing blade7
- $3 million USD of TCO savings over three years with 1,000 servers8
Bridging to scale-out architecture for traditional data centers. Highly dense, packing a lot of performance and workload capacity into small spaces.
- Four independent hot-pluggable HPE Apollo 2000 servers in a single 2U
- 2x the performance density of standard 1U servers, at a comparable cost
What's New in the Portfolio
HPE Apollo 6500: High Density GPU Compute
Solve problems faster with up to 15 Tflops of single-precision performance per 2U node. The new HPE Apollo 6500 increases your return on IT investment by accelerating the performance of your data center workloads with up to eight GPUs or coprocessors. With high-powered analysis and prediction, you will solve your most demanding problems in the shortest time.
HPE Apollo 4520: Extreme Density, Flexible Scale
Configure and tune according to your needs. Optimized for parallel file systems in clustered storage environments, the Apollo 4520 offers dual-server high availability configurations with up to 23 LFF drives per node storage capacity. It leverages Intel® Xeon® E5-2600v4 Series processors, and is an optimal fit for workloads deploying Lustre parallel file systems and Microsoft Storage Spaces.
HPE Apollo Next Generation Sequencing Solution
In this competitive global marketplace, organizations of every size and industry are striving to achieve greater speed, efficiency, accuracy, and savings. The life sciences industry in particular is realizing these demands to keep pace with the significant improvements in the field of genomics. Next generation sequencing (NGS) technologies are rapidly transforming the industry, and require high performance computing (HPC) systems that deliver unmatched levels of performance, scalability and affordability to address the major concerns of researchers and providers in this space. HPE understands these needs, and has developed a solution to execute genome analytics faster and more cost-effectively.
Build Out Your High-performance Infrastructure
Tap into our extended ecosystem of partners, integrators and ISV’s ready to deliver the right HPE Apollo system for your unique needs.
Learn how HPE can harness the power of your data to generate intelligent insights and innovative services to drive better business results.
Breakthroughs are business as usual as HPE helps empower a new wave of research.
Administrators, engineers and executives are now tasked with solving some of the world’s most complex challenges revolving around advanced computations for science, business, education, pharmaceuticals and beyond.
Institution aims to create the world’s most efficient data center with the HPE Apollo 8000 System.
Data center managers should use this Magic Quadrant to understand the modular server market and evaluate the related vendors and their offerings.
Gdańsk University of Technology is planning to build the fastest supercomputer in Poland, developed via a partnership with Megatel and Action.
Highly efficient modular data centers are a key part of this leading online auction company’s growth strategy.
Offered by Hewlett Packard Enterprise & Intel
Intel and its logo are trademarks of Intel Corporation in the US and / or other countries.
4x teraFLOPS and FLOPS/watt: Based on Hewlett Packard Enterprise internal estimates. Apollo HPE 8000 provides 4x more teraFLOPS per square foot than IBM 1U rack servers, based on rack and power density, assuming the same processors.
Based on 10 systems and 8 TB HDDs
Four servers in 2U vs. 4U of rack space—at a comparable cost.
Based on 10 HPE Apollo 4530 Systems with 8 TB HDDs
Carbon footprint: Hewlett Packard Enterprise internal estimate; HPE Apollo 8000 vs. an air-cooled data center with 3 MW of IT. A standard sustainability formula was used to derive CO2 savings in tons using the kWh savings based on real-world data center analysis
Benchmarks from Synopsys, presented at Synopsys SNUG conference 2014
Hewlett Packard Enterprise internal estimate compared to Dell M620 10U/16 servers, HP 160 in 48U
Hewlett Packard Enterprise internal estimate based on power savings of $471,000 USD savings in power plus cost savings of $2,782,000 USD