Western Digital

Western Digital WDS100T2B0B 1TB WD Blue 3D NAND SSD M.2

4.7 (24849 reviews)

A reliable 1TB M.2 SATA SSD with 3D NAND technology delivering up to 560 MB/s reads and 1.75 million hours MTTF.

$199.99*
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*Price sourced from Amazon.com. Last updated:Jul 14, 2026.Price and availability are subject to change.

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Overview

The Western Digital WD Blue 3D NAND SSD (WDS100T2B0B) is a 1TB M.2 2280 SATA drive built on WD's 3D NAND flash technology. It delivers sequential read speeds up to 560 MB/s and sequential write speeds up to 530 MB/s, which translates to noticeably faster boot times, application launches, and file transfers compared to a traditional hard drive. The M.2 form factor connects directly to the motherboard without SATA or power cables, making it especially clean to install in laptops and compact desktop builds.

Reliability is a core strength of this drive. Western Digital rates it at 1.75 million hours mean time to failure and up to 500 TBW of write endurance, giving confidence that it will hold up under years of daily use. The drive has been tested through WD's F.I.T. Lab for compatibility with a broad range of systems, reducing the guesswork when upgrading. While its SATA interface means it will not match the raw throughput of NVMe drives, it remains an excellent choice for users upgrading from a hard drive or older SSD who want proven reliability and consistent performance at the 1TB capacity point.

Key Features

3D NAND SATA SSD for capacities up to 4TB with enhanced reliability; As used for storage capacity, one terabyte (TB) = one trillion bytes. Total accessible capacity varies depending on operating environment

Sequential read speeds up to 560MB/s and sequential write speeds up to 530MB/seconds; As used for transfer rate or interface, megabyte per second (MB/s) = one million bytes per second and gigabit per second (Gb/s) = one billion bits per second

An industry leading 1.75M hrs mean time to failure (MTTF) and up to 500 TBs written (TBW) for enhanced reliability; MTTF based on internal testing using Telcordia stress part testing; TBW calculated using Jedec client workload (JESD219).Slumber (mW):56

WD F.I.T. Lab certification for compatibility with a wide range of computers

Specifications

Capacity
1TB
Interface
SATA III 6 Gb/s
Form Factor
M.2 2280
Sequential Read Speed
Up to 560 MB/s
Sequential Write Speed
Up to 530 MB/s
NAND Technology
3D NAND
MTTF
1.75 million hours
Endurance (TBW)
Up to 500 TBW
Slumber Power
56 mW

Crucial MX500 SATA SSD (500GB / 1TB / 2TB) — Editorial Review & Use Cases

The Crucial MX500 family (CT500MX500SSD1, CT1000MX500SSD1, CT2000MX500SSD1, plus the M.2 SATA variants CT1000MX500SSD4) is Crucial's mainstream-pro SATA III SSD line — TLC NAND with DRAM cache, ~560 MB/s sequential read / 510 MB/s sequential write, 5-year warranty / 360TBW endurance (1TB model), AES-256 hardware encryption, and Power Loss Immunity protection. Per Crucial's official MX500 product page, the MX500 has been a 5+ year staple for SATA-port system upgrades, sitting one tier above the entry-level BX500 (QLC NAND, no DRAM) and below NVMe-class options.

What the MX500 Specifically Wins Over BX500

  • TLC NAND (vs BX500's QLC NAND) — TLC has 3x the endurance of QLC at the same density. Real-world: MX500 handles 360TBW (terabytes written) endurance on the 1TB model vs BX500's 240TBW. Translates to longer reliable life under sustained write workloads
  • DRAM cache (vs BX500's DRAM-less design) — sustained random write performance is markedly better. For databases, VMs, video edit scratch, the DRAM cache prevents the "cliff" where sustained writes drop to QLC-direct speeds (~80-100 MB/s vs MX500's sustained 500+ MB/s)
  • AES-256 hardware encryption — supports OPAL 2.0 / TCG hardware encryption for secure-erase + drive-level encryption. BitLocker / FileVault leverage it for hardware-accelerated encryption
  • Power Loss Immunity (PLI) — onboard capacitors flush in-flight writes to NAND on power loss. Reduces risk of file system corruption on unexpected shutdowns. Critical for desktop / workstation use
  • 5-year warranty + Crucial / Micron parent reliability
  • Solid SATA III interface compatibility — works with any SATA port (desktop motherboard, laptop SATA, USB-SATA enclosure) without TRIM / driver issues
  • M.2 SATA variant (CT*MX500SSD4) — for M.2 SATA slots (not NVMe!) — verify motherboard slot supports SATA M.2 before purchasing this variant

Where the MX500 Specifically Fits

  • SATA-port system upgrades — older motherboards / SATA-only systems where NVMe isn't an option
  • Boot drive on older PCs — replaces HDD with SSD for dramatic boot + app responsiveness improvements
  • Secondary game / media drive in newer PCs with NVMe primary + SATA secondary
  • Mac / Linux servers + NAS arrays — TLC + DRAM + 5-year warranty + PLI is the appropriate reliability tier
  • Workstation scratch drive — Photoshop / Premiere / DaVinci Resolve scratch + cache without NVMe overhead
  • Database / VM hosting — sustained write performance + endurance suit small-to-medium DB workloads
  • External USB-SATA enclosure use — portable SSD with SATA III speeds (~560 MB/s) via USB 3 enclosure
  • Older laptop SATA upgrade — replaces 2.5" HDD with SSD for substantial battery life + responsiveness gain
  • Surveillance / DVR storage — DRAM + TLC handles continuous-write workloads
  • Linux servers requiring TRIM-aware SSDs — fully supported via fstrim

Honest Limits Buyers Should Know

  • SATA III caps at 560 MB/s — NVMe is 6-12x faster. For workflows where SSD speed matters (large file editing, AAA game loading, video edit timeline scrubbing), NVMe (Crucial P3, WD Black SN850, Samsung 990 PRO) is dramatically faster. SATA SSD is the "adequate for most users" tier
  • Sustained writes can throttle on prolonged workloads. When the DRAM cache fills, sustained writes drop to ~200-300 MB/s direct-to-NAND. Multi-hour sustained workloads see this throttling; bursts of write activity don't
  • NOT for M.2 NVMe slots. The M.2 SATA variant (CT*MX500SSD4) only fits M.2 SATA slots (B-key or B+M-key with SATA support). Modern motherboards typically have M.2 NVMe slots (PCIe / M-key). Verify slot type before buying M.2 SATA — installing M.2 SATA in M.2 NVMe slot does NOT work
  • 2.5" form factor — needs SATA cable + SATA power. Desktop install needs an open SATA port + SATA power from PSU. Verify available before assuming installation works
  • 4K random IOPS lag behind NVMe. NVMe Gen3 SSDs deliver ~600K IOPS at 4K QD32; MX500 delivers ~95K. For database / VM hosting workloads, this matters; for everyday use, it doesn't
  • 3-bit TLC has slightly worse endurance than 2-bit MLC. Premium-tier SSDs (Samsung 970 PRO, Intel Optane) used MLC for higher endurance. MX500's TLC is mainstream-grade; not for write-heavy enterprise workloads
  • SLC cache size limits. The pseudo-SLC cache (used for fast writes) is 6-9% of total capacity. After exhausting it, writes drop to TLC-direct speeds
  • USB-SATA enclosure throughput depends on enclosure quality. Cheap UASP-disabled enclosures cap at 200-300 MB/s; quality ASMedia 2362-based enclosures hit the SATA III ceiling

Where Buyers Should Look Elsewhere

  • NVMe-class speeds → Crucial P3 / P3 Plus, WD Black SN770 / SN850X, Samsung 970 EVO Plus / 990 PRO
  • Budget SATA SSD (acceptable speed loss) → Crucial BX500 (QLC, DRAM-less, lower endurance)
  • Enterprise / 24/7 write-heavy → Crucial Pro / Samsung 870 PRO (MLC) / Intel Datacenter SSDs
  • External portable SSD (USB-C) → SanDisk Extreme Portable / Samsung T7 / WD My Passport SSD
  • Premium SATA with longer warranty → Samsung 870 EVO (5 yr, similar specs, slightly higher price)
  • Higher capacity (4TB / 8TB SATA SSD) → Samsung 870 QVO (QLC), Crucial MX500 4TB

Sources & Citations

  1. Crucial, "MX500 SATA SSD product family page," crucial.com (accessed 2026-05-18)
  2. Tom's Hardware, "SATA SSD comparison and benchmarks," tomshardware.com (accessed 2026-05-18)
  3. AnandTech, "Crucial MX500 review and TLC SSD coverage," anandtech.com (accessed 2026-05-18)
  4. Backblaze, "SSD reliability + endurance studies," backblaze.com (accessed 2026-05-18)

Last verified: 2026-05-18

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Pros & Cons

👍 Pros

  • Sequential read speeds up to 560 MB/s and writes up to 530 MB/s deliver snappy system responsiveness
  • 1.75 million hours MTTF and 500 TBW endurance rating indicate strong long-term reliability
  • M.2 2280 form factor requires no cables, keeping laptop and desktop builds clean
  • WD F.I.T. Lab certified for broad compatibility across a wide range of systems

👎 Cons

  • SATA interface limits maximum throughput compared to NVMe drives in the same M.2 form factor
  • Not compatible with M.2 slots that only support NVMe (PCIe-only keyed slots)
  • No included heat sink, though SATA drives generally run cooler than NVMe
  • Performance will not benefit users whose workloads demand sustained high-speed sequential writes beyond SATA limits

Frequently Asked Questions

This is a SATA III (6 Gb/s) drive in the M.2 2280 form factor. It is not NVMe, so it will not work in M.2 slots that only support NVMe.
It fits any system with an M.2 2280 SATA slot. Western Digital's F.I.T. Lab tests it for compatibility with a wide range of computers, but verify that your M.2 slot supports SATA-keyed drives.
The 1TB model is rated for up to 500 TBW (terabytes written), which is ample for years of typical consumer and workstation use.
Western Digital provides Acronis True Image WD Edition as a free download for cloning your existing drive to the WD Blue SSD.
Yes. With sequential read speeds up to 560 MB/s, it delivers fast boot times and responsive application loading as a primary system drive.