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| Brand | Intel |
|---|---|
| Model | DC P4510 |
| Capacity | 1.0 TB |
| Usage Class | Enterprise/Read-Intensive |
| Host Interface | PCIe 3.1 x4, NVMe |
|---|---|
| Total Interface Bandwidth | 32 Gb/s |
| Form Factor | 2.5 inch 15mm (U.2) |
|---|
| NAND Flash | 64L 3D TLC |
|---|---|
| Drive Writes Per Day | 1 |
| Total Bytes Written | 1380 TBW |
| Sequential Read | 2850 MB/s |
|---|---|
| Sequential Write | 1100 MB/s |
| Random Read IOPS | 465000 |
| Random Write IOPS | 70000 |
| Average Latency | 85 μs |
| Mean Time Between Failures | 2 Million Hours |
|---|---|
| Uncorrectable Bit Error Rate | 1.0×10⁻¹⁷ |
| Power Loss Protection | Yes |
| MPN | SSDPE2KX010T801 |
|---|
Compared with SSDPE2KX010T801, the Intel DC P4510 SSDPE2KX010T8OS delivers a clear generational step forward with 64-layer 3D TLC NAND and NVMe over PCIe 3.1 x4, translating into stronger platform efficiency and higher practical throughput for read-centric cloud storage tiers. At 1.0 TB with 2850/1100 MB/s, 465K/70K IOPS, and 1 DWPD endurance rated for 1380 TBW, this drive is a particularly strong fit for virtualized infrastructure, scale-out web serving, and data streaming workloads that need predictable latency and better density than the earlier SSDPE2KX010T801.
With an endurance rating of 1,380 TBW and 1 DWPD, the SSDPE2KX010T8OS can sustain writing its full 1 TB capacity every day throughout its rated service life, which is more than sufficient for typical OS, boot, and mainstream server application workloads. In practical terms, for lighter system-disk or read-intensive use cases, this level of endurance provides long-term, worry-free operation and strong margin over normal enterprise usage patterns. For enterprise reliability, built-in power loss protection helps preserve in-flight data and metadata during an unexpected power interruption, reducing the risk of corruption and improving recovery confidence. Its UBER of 1.0E-17 indicates an extremely low unrecoverable bit error rate, and together with the 2 million hour MTBF, it reflects a drive designed for dependable data integrity and stable operation in professional environments.
1. The PCIe Gen3 x4 NVMe architecture removes legacy storage bottlenecks, enabling faster host communication and more consistent performance in virtualized and database-heavy enterprise environments.
2. Its strong sequential read capability accelerates large-block data movement, reducing backup, restore, analytics scan, and media-streaming wait times across enterprise workloads.
3. The high random read performance supports dense OLTP, VDI, and metadata-intensive applications by serving far more small I/O requests in parallel with less application queuing.
4. A write endurance rating suited to one full drive rewrite per day makes it a practical fit for mixed-use enterprise deployments that need predictable lifespan under steady daily write activity.
5. Built on 64-layer 3D TLC NAND and backed by low typical latency, the drive balances enterprise-class capacity efficiency with responsive access times for cloud platforms and latency-sensitive services.
Lower capacity reference: 512 GB Higher capacity reference: 2.0 TB Capacity positioning analysis: Within this product family, 1.0 TB is the practical sweet spot. Compared with the 512 GB model, it provides much better headroom for OS images, log growth, firmware updates, and spare capacity, easing day-to-day space pressure while keeping the expected enterprise-class sequential and random performance essentially unchanged. Compared with the 2.0 TB option, it typically offers a more efficient balance of acquisition cost and usable capacity without giving up mainstream performance characteristics. It is especially well suited for small-to-midsize virtualization clusters, such as supporting about 40 to 60 mixed business application VMs.
Q: Is SSDPE2KX010T8OS suitable for a write-heavy database server?
A: It can support moderate write-intensive database workloads, but with 1 DWPD and 1380 TBW, it is better suited for mixed-use environments rather than extremely write-heavy, high-endurance database servers.
Q: How many full drive writes per day can it actually endure over its warranty period?
A: This model is rated at 1 DWPD, meaning it can sustain one full 1.0 TB drive write per day over its warranty period, within the specified endurance limits.
Q: Does it include power loss protection (PLP) and why is that critical?
A: Yes, it includes power loss protection. PLP helps preserve in-flight data and metadata during sudden power failures, which is critical for maintaining data integrity and reducing corruption risks.
Q: What RAID level is recommended for this SSD?
A: For most server deployments, RAID 10 is recommended because it provides strong performance, redundancy, and lower rebuild risk. RAID choice should still depend on your capacity, protection, and workload priorities.