Intel® Optane™ DC persistent memory is an innovative memory technology that delivers a unique combination of affordable large capacity and support for data persistence. Watch this animation to see how the technology can help businesses get faster insights from their data-intensive applications as well as deliver the benefits of consistently improved service scalability with higher virtual machine and container density.
Intel® Optane™ DC Persistent Memory Module (DCPMM) allows customers to breakthrough memory capacity barriers for unprecedented virtual machine, container, and application density. Deliver consistent QoS levels at scale to reach more customers and users while realizing improved TCO both from hardware and operating cost levels.
HPE Persistent Memory, available in 128, 256, and 512 GB modules, features Intel® Optane™ DC Persistent Memory to approach the speed of traditional DRAM with the persistence of storage, ensuring high capacity, high performance and ongoing data safety – even in the event of an interruption in power due to an unexpected power loss, system crash or normal system shutdown. HPE Persistent Memory modules are optimised for second-generation Intel® Xeon™ Scalable processors.
HPE Persistent Memory provides fast, high-capacity, cost-effective memory and storage to transform big data workloads and analytics possibilities – enabling data to be stored, moved and processed at unprecedented speed, improving TCO.
The need for businesses to consume and quickly manage vast amounts of data continues to challenge today's data centre infrastructure. HPE Persistent Memory delivers the right capacity for the right application.
Discover how Intel have collaborated with Google and NuoDB to enable enterprises to move critical transaction processing workloads to the cloud for scalability, performance, and cost advantages.
Read how Intel, SAP, and Accenture deliver a solution for high-performance, high-capacity, low-cost memory.
See why CERN calls DC Persistent Memory "a breakthrough in computing technology".
With Intel® Deep Learning Boost (Intel® DL Boost) and Intel® Optane™ DC persistent memory, TACC can now offer researchers new ways to solve enduring problems.
Learn how NuoDB and Intel® Optane™ enable enterprises to boost performance, cut costs, and improve scalability of their transaction processing systems.
Intel introduces the world’s first PCIe* SSDs with Intel® QLC Technology. Intel® QLC 3D NAND Technology provides up to 33% high areal density1 than its 3D NAND predecessor. It also uniquely features PCIe* acceleration, to deliver a reliable mix of performance, capacity, and value-making it a smart storage solution for both datacentre and client markets.
See the new Intel® SSD form factor that's in perfect harmony with the datacentre and brings a new standard of drive capacity, scalability, and operational efficiency while being free from legacy drive constraints.
In our smart and connected world, machines are increasingly learning to sense, reason, act, and adapt in the real world. Artificial Intelligence (AI) is the next big wave of computing, and Intel uniquely has the experience to fuel the AI computing era. AI will let us accelerate solutions to large-scale problems that would otherwise take months, years, or decades to resolve.
Intel® 3D NAND Technology is an innovative response to the industry's growing demand for data storage capacity. Compared to other available NAND solutions, Intel® 3D NAND Technology is designed on floating gate architecture with a smaller cell size and a highly efficient memory array, which enables higher capacity solutions and high reliability with strong protection from charge loss.
The technology market is evolving rapidly, creating exciting but complex new opportunities for resellers in areas including hybrid cloud, big data, security, analytics and IoT. At Westcoast, we provide our partners with access to all of the support, training and marketing needed to exploit these opportunities.
1 Performance results are based on testing as of the dates shown in configurations and may not reflect all publicly available security updates. See configuration disclosure for details. No product or component can be absolutely secure.
2 Software and workloads used in performance tests may have been optimized for performance only on Intel® microprocessors. Performance tests, such as SYSmark* and MobileMark*, are measured using specific computer systems, components, software, operations, and functions. Any change to any of those factors may cause the results to vary. You should consult other information and performance tests to assist you in fully evaluating your contemplated purchases, including the performance of that product when combined with other products. For more information go to www.intel.co.uk/benchmarks.
3 Performance results have been estimated based on Microsoft internal tests as of 9/25/2018 using Microsoft* Storage Spaces Direct and Windows Server* 2019 with Intel® Optane™ DC persistent memory and may not reflect all publicly available security updates. No product can be absolutely secure. Configurations: VMFleet. 312 VMs (26 per node) 12 node cluster, random 4 KB read I/O to 9.36 TiB active working set, 2x 28C future Intel® Xeon® Scalable processors (Cascade Lake), 384GB DRAM (12x 32GB), 1.5TB of Intel® Optane™ DC persistent memory, 4x 8TB Intel® P4510 NVMe* (Cliffdale) SSDs. 2018 record of 13.7M IOPs, 2016 record was 6.7M IOPs. Results have been estimated based on tests conducted by Microsoft on pre-production systems, and provided to you for informational purposes.
4 Performance results have been estimated based on VMware* internal tests as of 10/17/2018 using future version of VMware vSphere* running Redis* memtier workload and may not reflect all publicly available security updates. No product can be absolutely secure. Configurations: 2x 28C future Intel® Xeon® Scalable processors (codenamed Cascade Lake) on WolfPass platform with 12x 16GB DDR4 RDIMMs @ 2666 MT/s and 12x 512GB Intel® Optane™ DC persistent memory modules, running VMware vSphere*, 112 guest VMs running Centos 7, Redis 4.0.11, memtier benchmark with 80/20 GET/SET ratio. Result: @ 112 guest VMs, 4.1ms measured latency and 99% measured cpu utilization. @ 28 guest VMs, 2.3ms measured latency and 25% measured cpu utilization.
