General

Brand	Micron
Model	7600 PRO
Capacity	1920GB
Usage Class	Enterprise

Interface

Host Interface	PCIe Gen5 NVMe
Total Interface Bandwidth	16 Gb/s

Physical Dimension

Form Factor	E1.S 15mm

Flash & Endurance

NAND Flash	3D TLC
Drive Writes Per Day	1
Total Bytes Written	3500 TBW

Performance

Sequential Read	12000 MB/s
Sequential Write	3300 MB/s
Random Read IOPS	1800000
Random Write IOPS	18000
Average Latency	75 μs

Reliability

Mean Time Between Failures	2.5 Million Hours
Uncorrectable Bit Error Rate	1.0×10⁻¹⁷
Power Loss Protection	Yes

Engineer's Note

The Micron 7600 PRO MTFDLCE1T9THG-1BP1EFCMA 1.92TB is purpose-built for read-dominant, latency-sensitive workloads such as CDN edge caching, AI inference data staging, and high-speed content delivery tiers, where its PCIe Gen5 interface, 12,000 MB/s sequential read, and 1.8M random read IOPS deliver substantially faster data access than typical Gen4-class deployments. With 3D TLC NAND, 1 DWPD endurance, and 3,500 TBW in a 1.92TB footprint, it offers a stronger balance of sustained reliability and read-optimized performance than general-purpose enterprise SSDs in the same capacity class.

Endurance & Reliability

With an endurance rating of 3,500 TBW and 1 DWPD, this 1.92TB SSD is designed to sustain the equivalent of writing its full capacity once per day throughout its rated service life, making it well suited for typical enterprise system-boot, application, and mixed read/write workloads. In practical terms, for common OS and infrastructure use cases, this level of endurance provides ample write headroom for many years of stable operation, including long-term deployment as a reliable system drive. Its enterprise-grade reliability is further strengthened by power-loss protection (PLP), which helps preserve in-flight data and protect metadata integrity during unexpected power interruptions, reducing the risk of corruption and unplanned recovery events. An UBER of 1.0E-17 and an MTBF of 2.5 million hours indicate a very low uncorrectable bit error rate and strong long-term dependability, giving procurement teams added confidence for business-critical environments.

Technical Specs & Insights

1. The PCIe Gen5 NVMe interface provides the bandwidth headroom needed to keep modern GPU servers, high-core-count databases, and composable storage platforms fed without the bus becoming the bottleneck.
2. Its sequential read performance accelerates large-block data movement, shortening checkpoint restores, analytics scans, and media or backup ingest windows in throughput-heavy environments.
3. The random read capability is tuned for highly parallel workloads, enabling faster response under dense VM consolidation, metadata-heavy storage, and latency-sensitive online transaction processing.
4. A 1 DWPD endurance profile makes it a strong fit for mixed-use enterprise deployments that need predictable write sustainability across daily database updates, logging, and virtualized infrastructure traffic.
5. Built on 3D TLC NAND with a typical latency of 75 µs, it balances flash density, cost efficiency, and consistently quick access times for cloud-scale services and mainstream enterprise applications.

Capacity Sweet

Lower capacity reference: 960GB Higher capacity reference: 3840GB Capacity positioning analysis: In this product family, the 1920GB model sits at a practical sweet spot. Compared with the 960GB version, it offers meaningfully better headroom for OS images, application data, logs, and growth buffers, reducing the risk of early capacity pressure. Compared with the 3840GB option, it typically delivers a more attractive balance of acquisition cost, usable endurance, and enterprise-class performance consistency, while maintaining similar sequential and random I/O behavior. It is especially well suited for mid-scale virtualization clusters, such as hosting boot and application volumes for about 40 to 60 business servers.

FAQ