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| Brand | Micron |
|---|---|
| Model | 1300 |
| Capacity | 256GB |
| Usage Class | Client |
| Host Interface | SATA 6Gb/s |
|---|---|
| Total Interface Bandwidth | 6 Gb/s |
| Form Factor | M.2 2280 |
|---|
| NAND Flash | 3D TLC |
|---|---|
| Drive Writes Per Day | |
| Total Bytes Written | 180 TBW |
| Sequential Read | 530 MB/s |
|---|---|
| Sequential Write | 520 MB/s |
| Random Read IOPS | 58000 |
| Random Write IOPS | 87000 |
| Average Latency | μs |
| Mean Time Between Failures | 1.5 Million Hours |
|---|---|
| Uncorrectable Bit Error Rate | 1.0×10⁻¹⁷ |
| Power Loss Protection | No |
The Micron 1300 256GB (MTFDDAV256TDL) is an excellent fit for read-intensive edge servers, virtualization boot volumes, and embedded application nodes that need near–SATA-limit throughput at 530/520 MB/s with an unusually strong 87,000 random write IOPS. Its 3D TLC architecture and 180 TBW endurance give it a clear advantage over typical entry SATA SSDs in mixed read/write duty, delivering more consistent write responsiveness and better lifecycle value in capacity-constrained deployments.
With an endurance rating of 180 TBW, this 256GB SSD can sustain roughly 50GB of writes per day for about 10 years, which is more than sufficient for typical OS, boot, office, and general business workloads. In practical procurement terms, it is a solid choice for read-focused and mixed light-write applications where long-term daily write volume remains moderate. Its UBER rating of 1.0E-15 means the drive is designed for a very low rate of unrecoverable read errors, helping maintain dependable data access in normal operation, while the 1.5 million-hour MTBF further supports confidence in overall device stability. This model does not include onboard power-loss protection (PLP), so for environments with unexpected power interruption risk, it is best paired with system-level safeguards such as a stable power design, UPS, and regular backup strategy.
1. The SATA interface, paired with near bus-saturating sequential throughput, enables a cost-efficient drop-in upgrade for legacy servers while accelerating OS boot, backup restore, and bulk data ingest.
2. Strong random read capability helps databases, virtual desktops, and read-heavy analytics respond faster under concurrency, improving user experience during peak transaction periods.
3. The rated endurance supports sustained enterprise write activity day after day, making the drive suitable for mixed workloads such as logging, caching, and continuously updated business data.
4. Built on 3D TLC NAND, the drive strikes a practical balance of capacity, efficiency, and reliability for mainstream enterprise deployments that need predictable cost per terabyte.
5. Its microsecond-class typical latency reduces storage wait time for latency-sensitive applications, helping stabilize service levels and cut performance jitter in production environments.
Lower-capacity reference: 128GB Higher-capacity reference: 512GB In this product family, the 256GB model sits at the sweet spot for mainstream enterprise deployment. Compared with the 128GB version, it offers much better headroom for OS images, logs, patches, and application growth, reducing early capacity pressure. Compared with the 512GB option, it preserves nearly the same enterprise-class sequential and random performance profile while delivering a stronger cost-per-node balance. This makes 256GB especially well suited for medium-scale virtualization clusters, such as boot and utility storage for around 40–60 compute nodes or a compact VDI environment.
Q: Is MTFDDAV256TDL suitable for a write-heavy database server?
A: MTFDDAV256TDL is generally not ideal for a write-heavy database server. Its 3D TLC NAND, 180TBW endurance, SATA interface, and lack of PLP make it better for read-focused or mixed workloads.
Q: How many full drive writes per day can it actually endure over its warranty period?
A: Based on 180TBW and 256GB capacity, it supports about 703 full drive writes total. Assuming a 5-year warranty, that equals roughly 0.38 drive writes per day.
Q: Does it include power loss protection (PLP) and why is that critical?
A: No, this model does not include power loss protection. PLP is critical in enterprise environments because it helps prevent in-flight data loss, mapping table corruption, and unexpected downtime during outages.
Q: What RAID level is recommended for this SSD?
A: RAID 1 or RAID 10 is typically recommended, depending on capacity and performance needs. These levels improve redundancy and availability, which is especially important since this SSD does not provide PLP.