General

Brand	Micron
Model	7600 MAX
Capacity	6400GB
Usage Class	Enterprise

Interface

Host Interface	PCIe Gen5 NVMe
Total Interface Bandwidth	32 Gb/s

Physical Dimension

Form Factor	E3.S

Flash & Endurance

NAND Flash	3D TLC
Drive Writes Per Day	3
Total Bytes Written	35040 TBW

Performance

Sequential Read	12000 MB/s
Sequential Write	7000 MB/s
Random Read IOPS	2100000
Random Write IOPS	675000
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 MTFDLBQ6T4THS-1BP1JABYYT 7600 MAX 6.4TB is engineered for write-intensive AI data pipelines, high-frequency OLTP databases, and mixed virtualization clusters that need sustained endurance, pairing PCIe Gen5 performance up to 12,000/7,000 MB/s with 3 DWPD and 35,040 TBW. Compared with typical mainstream Gen5 TLC SSDs, its 2.1M random-read IOPS and enterprise-grade write budget make it a stronger fit for latency-sensitive, always-on workloads where consistent QoS and longer usable life directly improve infrastructure efficiency.

Endurance & Reliability

With an endurance rating of 35,040 TBW and 3 DWPD, the MTFDLBQ6T4THS-1BP1JABYYT is built for sustained heavy-write enterprise workloads, allowing the full drive capacity to be rewritten three times per day throughout its rated service life. In practical terms, this level of endurance is far beyond typical OS, application, and mixed business storage demands, giving buyers strong confidence that it can support long-term deployment without premature wear concerns. For enterprise reliability, integrated power-loss protection (PLP) helps preserve in-flight data and metadata if power is interrupted unexpectedly, reducing the risk of corruption and improving system recovery confidence. Its ultra-low UBER of 1.0E-17, together with a 2.5 million-hour MTBF, indicates a very high standard of data integrity and operational dependability expected in business-critical environments.

Technical Specs & Insights

1. The PCIe Gen5 NVMe interface gives this drive the bandwidth headroom to keep GPU servers, high-speed databases, and next-generation storage nodes fed without the bus becoming the bottleneck.
2. Its 12000 MB/s sequential read performance accelerates large-block data movement, cutting the time needed to load AI models, analytics datasets, and multi-terabyte backup images.
3. With 2,100,000 K IOPS of random read capability, it sustains extremely dense transactional and virtualized workloads while keeping queue buildup under control during peak demand.
4. Rated for 3 DWPD and built on 3D TLC NAND, it balances enterprise-grade write endurance with cost-efficient capacity for heavily written cloud, logging, and mixed-workload environments.
5. A typical latency of 75 µs helps applications respond faster to small I/O requests, improving consistency for latency-sensitive databases, real-time analytics, and high-concurrency services.

Capacity Sweet

Lower capacity reference: 3.2TB Higher capacity reference: 12.8TB At 6.4TB, this SSD sits in the sweet spot of the family. Compared with the 3.2TB model, it provides much better headroom for data growth, overprovisioning, and mixed-workload stability, making capacity planning less restrictive. Compared with the 12.8TB option, it usually delivers a more attractive balance of acquisition cost, usable flash, and enterprise-class performance consistency, since sequential throughput and random IOPS remain broadly similar across the series. In practice, 6.4TB is well suited for a mid-scale virtualization cluster, such as hosting boot and application volumes for about 40 to 60 virtual machines.

FAQ