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| Brand | Micron |
|---|---|
| Model | 7600 PRO |
| Capacity | 1920GB |
| Usage Class | Enterprise |
| Host Interface | PCIe Gen5 NVMe |
|---|---|
| Total Interface Bandwidth | 32 Gb/s |
| Form Factor | U.2 |
|---|
| NAND Flash | 3D TLC |
|---|---|
| Drive Writes Per Day | 1 |
| Total Bytes Written | 3500 TBW |
| Sequential Read | 12000 MB/s |
|---|---|
| Sequential Write | 3300 MB/s |
| Random Read IOPS | 1800000 |
| Random Write IOPS | 180000 |
| Average Latency | 75 μs |
| Mean Time Between Failures | 2.5 Million Hours |
|---|---|
| Uncorrectable Bit Error Rate | 1.0×10⁻¹⁷ |
| Power Loss Protection | Yes |
The Micron 7600 PRO 1920GB is optimized for read-intensive AI data pipelines, CDN edge caching, and high-concurrency content delivery, combining PCIe Gen5 bandwidth with up to 12,000 MB/s sequential reads and 1.8M random read IOPS to accelerate latency-sensitive access patterns. With 3D TLC NAND, 1 DWPD endurance, and 3,500 TBW in a 1.92TB class, it delivers a strong balance of capacity efficiency and sustained reliability for infrastructure that needs Gen5 read performance without overprovisioning for heavier write tiers.
With an endurance rating of 3,500 TBW and 1 DWPD, the MTFDLAL1T9THG-1BP1DFCYYT is built to handle sustained daily write activity over its intended service life, far beyond the needs of typical OS, boot, and mainstream application workloads. In practical terms, under normal enterprise system-disk or read-centric server usage, this level of endurance supports many years of reliable operation and provides comfortable headroom for long-term deployment planning. For enterprise reliability, integrated Power Loss Protection helps preserve in-flight data and metadata during an unexpected power interruption, reducing the risk of corruption and unclean shutdown-related failures. Its UBER specification of 1.0E-17 indicates an extremely low unrecoverable bit error rate, while the 2.5 million-hour MTBF further reflects a design optimized for dependable, data-center-class operation.
1. The PCIe Gen5 NVMe interface provides next-generation host bandwidth, reducing storage bottlenecks in GPU servers, high-frequency analytics, and scale-out databases.
2. This level of sequential read throughput shortens dataset ingestion, checkpoint loading, and large-file streaming, helping enterprise applications start and respond faster.
3. Its strong random read capability is well suited for virtualization, OLTP databases, and metadata-heavy cloud workloads where massive parallel access drives user experience.
4. With an endurance profile designed for one full drive rewrite per day and 3D TLC NAND, it delivers a practical balance of write life, capacity efficiency, and cost for mainstream enterprise deployments.
5. The low typical latency helps keep transaction response times predictable, improving QoS consistency for latency-sensitive services such as real-time analytics and online applications.
Reference capacities in the same series: Lower capacity: 960GB Higher capacity: 3840GB At 1920GB, this SSD sits at the sweet spot of the product stack. Compared with the 960GB model, it gives materially better space headroom for OS images, logs, metadata, and growth buffers, reducing early capacity pressure in mixed enterprise workloads. Compared with the 3840GB option, it delivers a stronger balance of acquisition cost, usable capacity, and near-equivalent mainstream enterprise performance. This makes 1920GB especially well suited for mid-scale virtualization clusters, such as shared boot and application storage for about 40 to 60 business service instances.
Q: Is MTFDLAL1T9THG-1BP1DFCYYT suitable for a write-heavy database server?
A: Yes, it can support database workloads, but with 1 DWPD and 3D TLC NAND, it is better suited for mixed-use or read-intensive environments rather than highly write-heavy database applications.
Q: How many full drive writes per day can it actually endure over its warranty period?
A: This model is rated for 1 DWPD, meaning it can sustain one full drive write per day across its warranty period, consistent with its 3500 TBW endurance specification.
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 unexpected outages, which is critical for maintaining data integrity and reducing corruption risk.
Q: What RAID level is recommended for this SSD?
A: The recommended RAID level depends on your priority. RAID 1 or RAID 10 is preferred for performance and redundancy, while RAID 5 or RAID 6 may suit capacity-focused deployments.