The next-generation Intel® Optane™ SSD P5800X provides the performance needed to support your most data-intensive workloads.
Legacy storage systems are struggling to keep pace with the compute and network technologies emerging to handle today’s data-intensive workloads. Instead, the storage media become a bottleneck that inhibits IT innovation and bridles business growth.
Historically, DRAM and NAND acted as the performance buffer between compute and capacity storage, but they both leave an ever-widening gap for the modern, scaledout data center. DRAM is far too expensive to scale, and density will fall further behind relative to the CPU core growth rate. And NAND has sufficient capacity and cost to scale, but the performance that allows it to function as an efficient storage tier will continue to decrease with each subsequent generation.
The Intel® Optane™ SSD P5800X Series fills the critical storage performance gap, making these SSDs ideal for fast caching or tiering of hot data.
Even fast NAND SSDs are no longer adequate for data-driven applications that need to access and process data in real time or as a buffer to fast Ethernet (NIC) connections. With an industry-leading combination of low latency, high quality of service (QoS), fast throughput and high endurance Intel® Optane™ SSD P5800X accelerates access to large and complex data sets needed by enterprises and cloud service providers to run their high-demand workloads. Critically, unlike other SSD technology, Intel® Optane™ SSDs can read and write simultaneously without performance degradation.
The low-latency Intel® Optane™ SSD P5800X Series delivers near-nanosecond response times under any workload, maintaining consistent read response times, regardless of the write throughput. Average read response times remain below 6μs, while maintaining a 70/30 mixed read/write bandwidth of greater than 8GB/sec.
• 40% lower 4KB random read average latency
• < 6μs 4KB random read average latency
• Near-nanosecond capability with sub-4K block 512B 3μs random read average latency
Near-nanosecond latency means improved application response time. With its bidirectional capability, Intel® Optane™ SSD P5800X’s low latency remains consistent until you reach saturation and is improved even more by being able to read smaller 512B data chunks. For industries like financial services, this means the ability to speed time to insight for fraud detection, analytics, compliance, market modeling and securities market transactions.
In an environment of fast-growing data and demanding customer requirements, data centers need predictable application performance.
Capacity | 400 GB |
Status | Launched |
Launch Date | Q4 2020 |
Sequential Bandwidth - 100% Read (up to) | 7200 MB/s |
Sequential Bandwidth - 100% Write (up to) | 4800 MB/s |
Random Read (100% Span) | 1500000 IOPS (4K Blocks) |
Random Write (100% Span) | 1150000 IOPS (4K Blocks) |
Power - Active | 14W |
Power - Idle | 3.8W |
Vibration - Operating | 2.17 Grms, (5-700 Hz), random |
Vibration - Non-Operating | 3.13 Grms (5-800 Hz), random |
Shock (Operating and Non-Operating) | 1,000 G, 0.5 ms, half sine |
Operating Temperature Range | 0°C to 70°C |
Operating Temperature (Maximum) | 70 °C |
Operating Temperature (Minimum) | 0 °C |
Endurance Rating (Lifetime Writes) | 100 DWPD |
Mean Time Between Failures (MTBF) | 2 million hours |
Uncorrectable Bit Error Rate (UBER) | < 1 sector per 10^17 bits |
Warranty Period | 5 yrs |
Components | Intel(R) Optane(TM) Memory Media |
Weight | 0.308647lbs |
Form Factor | 2.5' 15mm |
Interface | PCIe 4.0 x4, NVMe |
Enhanced Power Loss Data Protection | Yes |
Hardware Encryption | AES 256 bit |
High Endurance Technology (HET) | Yes |
Temperature Monitoring and Logging | Yes |
End-to-End Data Protection | Yes |