Intel® Optane™ Storage for Enterprise
Accelerate access to critical data.
Accelerate Your Storage
Intel® Optane™ Solid State Drives fill the critical storage hierarchy gap to break through traditional NAND storage bottlenecks, accelerate applications, and enable more work per server. Intel® Optane™ SSDs are designed with low latency and high endurance, which provides high throughput and QoS. With this improved performance and latency, customers can speed up access to critical data needed to process transactions, gain new insights, and differentiate services.
Frequently Asked Questions
What is Intel® Optane™ storage?
Intel® Optane™ SSDs fill the critical storage hierarchy gap to break through traditional NAND storage bottlenecks, accelerate applications, and enable more work per server. With an industry-leading combination of high throughput, low latency, high QoS, and high endurance, Intel® Optane™ SSDs speed up access to critical data needed to process transactions, gain new insights, and differentiate services.
What is Intel® Optane™ technology?
Intel® Optane™ technology is the unique combination of Intel® Optane™ memory media with the Intel® advanced system memory controller, interface hardware, and software IP. The memory media architecture lets Intel® Optane™ technology act like DRAM, with byte addressability, high endurance, and write in place, or traditional storage with block addressability, depending on the use case or product form factor.
How does Intel® Optane™ technology differ from NAND?
The primary technology underlying Intel® Optane™ technology products is a new memory and storage media that is inherently different from NAND. The new storage media is transistorless and bit-addressable, faster and more durable than NAND, and also avoids many shortcomings of NAND drives. Intel® Optane™ SSDs offer breakthrough performance at all queue depths (and differentiated at low depths), making them 6x faster than NAND.1 They also provide consistently fast storage reads and fast storage writes without degradation under high write pressure and high loads. Intel® Optane™ SSDs improve quality of service (up to 60x better than NAND)2 and very high endurance storage (up to 20x more total terabytes written than NAND).3
How do Intel® Optane™ persistent memory and Intel® Optane™ SSDs complement each other?
Although Intel® Optane™ persistent memory (PMem) and Intel® Optane™ SSDs use the same Intel® Optane™ memory media, they are vastly different products. Intel® Optane™ PMem is in a DIMM package, operates on the DRAM bus, can be volatile or persistent, and acts as a DRAM replacement. Intel® Optane™ SSDs, on the other hand, are strictly used for fast storage residing in standard NAND package models (such as AIC, M.2, U.2, and EDSFF), reside on the PCIe bus using the NVMe protocol, are always persistent for storage reasons, and act as a fast storage replacement.4 5 6
Intel® Optane™ SSDs in the Real World: Customer Stories
Discover how enterprises confidently deploy solutions with Intel® Optane™ SSDs to increase application performance and optimize their investment.
DUG Technology: Exascale Flash Storage
DUG Technology switched from hard disk drives to petabytes of flash storage for enterprise for seismic analysis that requires high-performance computing.
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VK Reinvents Storage for Social Networks
VK, Russia’s largest social network, modernized its tiered storage with Intel® Optane™ technology to improve performance while lowering cost.
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The Los Angeles Dodgers Simplify IT Infrastructure
The Los Angeles Dodgers are building the future of baseball with Cisco and Intel® technology that delivers more computing power with less overhead.
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China Mobile Drives Edge-Cloud Collaboration
Intel® Optane™ technology helps China mobile accelerate data at the edge in communication and automation creating smarter decision-making and ground-breaking IoT services.
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Buy Intel® Optane™ SSDs from Our Trusted Partners
Dell EMC PowerMax
Learn how the Dell EMC PowerMax enterprise storage platform handles massive amounts of data quickly and intelligently.
Cisco HyperFlex
Cisco HyperFlex systems support a wide range of performance-intensive, mission-critical applications in a hyperconverged infrastructure (HCI).
DataON
DataON Storage shows the top 10 ways that Intel® Optane™ technology combines low latency, high endurance, QoS, and high throughput to remove data bottlenecks and make the most of CPU usage.
Optimize Workloads and Applications with a Full Spectrum of Intel® Optane™ SSD Storage Solutions
VMware vSAN
Enhance your VMware vSAN storage-virtualization software with Intel® Optane™ SSDs.
Microsoft Azure Stack HCI
Increase scalability, reliability, and affordability with Intel® Optane™ technology and Microsoft Azure Stack HCI.
Red Hat Ceph
Discover how using Intel® Optane™ SSDs with Red Hat Ceph Storage can help reduce latency and deliver higher IOPS for faster and more efficient performance.
VAST Data
Modernizing Splunk platforms with VAST Data Universal Storage can increase Splunk storage efficiency.
Intel® Storage Software
Software stacks developed by Intel transform Intel® Optane™ SSDs into turnkey storage solutions for cloud or enterprise data center deployment.
Intel® Virtual RAID on CPU
This enterprise redundant array of independent disks (RAID) solution integrated into Intel® Xeon®-based platforms brings Intel® Optane™ SSDs and NVMe storage closer to the CPU for unparalleled performance potential and data protection.
Open Cache Acceleration Software
Sophisticated Open Cache Acceleration Software (Open CAS) is capable of detailed storage classification, allowing effective use of multiple storage media types, such as Intel® Optane™ SSDs and NAND SSDs.
Intel® Optane™ Technology Spans Memory and Storage
Optimize applications and workloads by making use of the full range of Intel® Optane™ storage for enterprise solutions and memory.
Intel® Optane™ Developer Tools
Cloud engineers and developer communities looking to solve specific data center storage issues benefit from storage projects that leverage open source software, defined storage frameworks, and useful toolkits.
Open Cache Acceleration Software
The open source caching project provides a flexible engine to classify storage I/O into different categories and create storage policies to direct storage I/O to specific media types.
Learn More About Enterprise Storage from Intel
제품 및 성능 정보
인텔은 2018년 11월 15일에 테스트를 실시했습니다. 낮은 QD에서 4K 70/30 읽기/쓰기 성능. FIO 3.1을 사용하여 측정했습니다. 공통 구성: 인텔® 2U 서버 시스템, OS: CentOS 7.5, 커널 4.17.6-1.el7.x86_64, 3.0GHz(18코어)의 인텔® 제온® Gold 6154 프로세서 2개, 2,666MHz의 256GB DDR4 RAM. 구성: 375GB 인텔® Optane™ SSD DC P4800X와 1.6TB 인텔® SSD DC P4600 비교. 인텔 마이크로코드: 0x2000043, 시스템 BIOS: 00.01.0013, 인텔® ME 펌웨어: 04.00.04.294, BMC 펌웨어: 1.43.91f76955, FRUSDR: 1.43. 벤치마크 결과는 추가 테스트가 수행됨에 따라 수정이 필요할 수도 있습니다.
2018년 11월 15일에 진행한 인텔 테스트 결과 기반: 응답시간은 FIO 3.1을 사용하여 4K 쓰기 워크로드 무작위 실행 중 QD 1에서 측정한 평균 읽기 지연 시간을 말합니다. 구성: 낮은 QD에서 4K 70/30 읽기/쓰기 성능. FIO 3.1을 사용하여 측정했습니다. 공통 구성: 인텔® 2U 서버 시스템, CentOS 7.5, 커널 4.17.6-1.el7.x86_64, 3.0GHz(18코어)의 인텔® 제온® Gold 6154 프로세서 2개, 2,666MHz의 256GB DDR4 RAM. 구성: 375GB 인텔® Optane™ SSD DC P4800X와 1.6TB 인텔® SSD DC P4610 비교. 인텔 마이크로코드: 0x2000043; 시스템 BIOS: 00.01.0013; 인텔® 관리 엔진(Intel® ME) 펌웨어: 04.00.04.294; 베이스보드 관리 컨트롤러(BMC) 펌웨어: 1.43.91f76955; FRUSDR: 1.43. 벤치마크 결과는 추가 테스트가 수행됨에 따라 수정이 필요할 수도 있습니다.
인텔: “혁신적인 성능, 데이터 세트 확장, 병목 현상 해소” 2019년 1월. intel.co.kr/content/www/kr/ko/products/docs/memory-storage/solid-state-drives/data-center-ssds/optane-ssd-dc-p4800x-p4801x-brief.html. 인텔: “클라우드 개념. 스토리지 최적화" 2019년 6월. intel.co.kr/content/www/kr/ko/products/docs/memory-storage/solid-state-drives/data-center-ssds/dc-p4610-p4618-series-brief.html.
성능은 사용, 구성 및 기타 요인에 의해 달라질 수 있습니다. https://edc.intel.com/content/www/us/en/products/performance/benchmarks/overview/에서 더 자세한 정보를 확인하십시오.
성능 결과는 공지된 날짜의 테스트를 기반으로 하며 공개된 모든 보안 업데이트를 반영하지 않았을 수도 있습니다. 자세한 내용은 공개된 구성 정보를 참조하십시오. 어떤 제품도 절대적으로 안전할 수는 없습니다.
비용과 결과는 다를 수 있습니다.
인텔® 기술은 지원되는 하드웨어, 소프트웨어 또는 서비스 활성화를 요구할 수 있습니다.