General

Brand	Micron
Model	7600 MAX
Capacity	6400GB
Usage Class	Enterprise

Interface

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

Physical Dimension

Form Factor	E3.S 7.5mm

Flash & Endurance

NAND Flash	3D TLC
Drive Writes Per Day	3
Total Bytes Written	35000 TBW

Performance

Sequential Read	14000 MB/s
Sequential Write	6500 MB/s
Random Read IOPS	2100000
Random Write IOPS	560000
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 MAX 6.4TB is purpose-built for latency-sensitive scale-out databases, AI data staging, and high-transaction virtualization tiers that need PCIe Gen5 throughput, combining up to 14,000 MB/s read bandwidth and 2.1M random-read IOPS with 3 DWPD endurance. Compared with typical same-class TLC enterprise SSDs, this MPN stands out by pairing very high queue-depth performance with 35,000 TBW durability, making it a stronger fit for write-active deployments that cannot trade endurance for speed.

Endurance & Reliability

With an endurance rating of 35,000 TBW and 3 DWPD, the MTFDLBQ6T4THS-1BP1DFCYY is designed for sustained enterprise write workloads and can reliably handle full-drive writes three times per day throughout its rated service life. In typical mixed-use server or storage applications, this level of endurance provides substantial headroom for many years of operation, making it a dependable choice even for demanding system, cache, or data-intensive roles. For enterprise reliability, the drive includes power-loss protection (PLP), which helps preserve in-flight data and metadata during unexpected power interruptions, reducing the risk of corruption and unclean shutdown issues. Its UBER of 1.0E-17 indicates an extremely low unrecoverable bit error rate, supporting high data integrity, while the 2.5-million-hour MTBF further reflects a design built for continuous datacenter-class operation.

Technical Specs & Insights

1. The PCIe Gen5 NVMe architecture provides the bandwidth and responsiveness needed to keep next-generation compute platforms saturated, reducing storage-induced stalls in AI, analytics, and virtualization clusters.
2. Its top-tier sequential read performance shortens the time to load massive models, scan large datasets, and stream content across data-intensive enterprise workflows.
3. The outstanding random read capability supports extremely high concurrent transaction rates, making it well suited for latency-sensitive databases, key-value stores, and inference-serving tiers.
4. Enterprise endurance at multiple full-drive writes per day enables reliable operation under sustained logging, caching, and mixed-write workloads without premature wear concerns.
5. Built with 3D TLC NAND and tuned for very low typical latency, it delivers a strong balance of consistent enterprise performance, predictable QoS, and cost-efficient capacity for mainstream data center deployment.

Capacity Sweet

Lower-capacity reference: 3.2TB Higher-capacity reference: 7.68TB In this series, the 6.4TB model sits in a strong sweet spot. Compared with the 3.2TB option, it gives much better headroom for mixed workloads, longer refresh cycles, and denser consolidation without meaningfully changing the expected enterprise SSD performance profile. Compared with the 7.68TB version, it usually delivers a more attractive cost-per-deployment while still preserving ample usable capacity and balanced latency behavior. It is especially well suited for mid-scale virtualization clusters, such as hosting boot and application volumes for roughly 60 to 80 business workloads per node.

FAQ