Micron MTFDHBE1T6TDG-1AW1ZABYY User Manual

Micron® 7300 SSD With NVMe™

PCIe M.2 U.2

NVMe for the Masses

From data center IT to performance in the cloud, your applications demand
the fast, low latency and consistent performance of NVMe
save NVMe for only the top workloads. Expand the benefits of NVMe across
your data center with Micron’s 7300 SSDs. Built for workloads that demand
high throughput and low latency while staying within budget, the Micron 7300
is ideal for broadly deployed, mixed read-write, compute, and virtualized
workloads of today.

A Complete NVMe Platform

Get end-to-end NVMe — from system startup to caching to main data
storage. Whether you’re booting, storing, or caching, the Micron 7300
mainstream NVMe SSDs are the solution for data center infrastructures.

• System Startup: Start your systems right with data center NVMe in

80mm and 110mm M.2 form factor with boot-specific capacities as
low as 400GB.

• Storing: Unlock the value of vast data stores by finding the insights,

sorting them, and acting on them right away with the Micron 7300
PRO.

• Caching: When hot data drives your business day in and day out,

handle the extreme workloads with the high endurance and low,
predictable latency of the Micron 7300 MAX.

™

SSDs. Don’t

7300 SSD Key Benefits

NVMe Performance; Approachable Price Point

Get up to 6X the performance of data center SATA
SSDs at comparable prices

Single Port or Dual Port

Choose simple, scalable in-platform single port or dual
path, external storage controller dual port, dual
controller designs (enabling outside the drive
redundancy) so storage systems can share the IO load
for failover, high availability, or custom uses.

Micron’s 96L NAND Technology

Bring the kind of high performance and reliability
required for numerous applications with dense, efficient
96-layer 3D NAND architecture.

Security for Your Data

Solid, firmware-based security includes options for
TCG-Opal 2.0 and IEEE-1667 to support on-device
encryption for SEDs (self-encrypted drives). The 7300
also includes power-loss protection for data at-rest and
in-flight as well as data-center-class data path
protection for user and meta data.

A Real Cloud Pleaser

On-prem and off-prem cloud platforms support
workloads at immense scale. Affordable mainstream
NVMe SSDs like the Micron 7300 deliver the low­latency and high-performance combo that the cloud
demands with an average 25µs write latency2, up to
520K random read IOPS, and up to 3.0 GB/s read and

1.9 GB/s write throughput.

1

.

1. Micron 7300 PRO SSD 2TB U.2 with NVMe (3,000 MB/s sequential read) is 6X higher performance
vs Micron 5300 PRO SATA SSD 2TB
(540 MB/s sequential read. 540 MB/s is the ma ximum bandwidth available to any SATA device) and MSRP as of August 2019 .

2. 4KB transfers with a queue depth of 1 are used to measure READ/WRITE latency values.

Micron® 7300 SSD With NVMe™

7300 PRO: U.2 (7mm)

7300 MAX: U.2 (7mm)

Capacity

960GB

1.92TB

3.84TB

7.68TB

800GB

1.6TB

3.2TB

6.4TB

Seq. Read (MB/s)

Seq. Write (MB/s)

Rand. Read (K IOPS)

Rand. Write (K IOPS)

45

55

95

85

85

135

160

160

Endurance (Total bytes written in PB)

7300 PRO: M.2 (80mm, 110mm)

Read-Intensive, 1 Drive Write per Day

7300 MAX: M.2 (80mm)

Mixed-Use, 3 Drive Writes per Day

Capacity

480GB

960GB

1.92TB

3.84TB

400GB

800GB

Seq. Read (MB/s)4

Rand. Read (K IOPS)

Rand. Write (K IOPS)

Endurance (Total bytes written in PB)

Interface

Form Factor

U.2 (2.5-inch, 7mm), M.2 (22x80, 22x110)

NAND

UBER

<1 sector per 1017 bits read

Warranty

Sequential read: 12W MAX U.2 / 8.25W M.2
Sequential write: 12W MAX U.2 / 8.25W M.2

Flex Capacity™, AES 256-bit encryption, 256bit SED, power loss protection for data in-flight, end-to-end

Compliant

Target Workloads and Applications

Micron 7300 SSDs deliver NVMe to a broad range of applications and workloads.

• Distributed storage and in-platform compute: Heavily mixed read/write IO loading

• Online transaction processing: Demanding high, consistent transaction rates with low power

• Block and object stores: Vast pools of blocks and objects, massive streaming in limited physical space

• Emerging and read-intensive emerging applications (like machine learning and model training)

Key Specifications

PCIe M.2 U.2

3

Performance

3

Performance

Seq. Write (MB/s)

7300 Common Features

Basic
Attributes

Ave. Latency Random read: 90µs; Random write 25µs

MTTF 2 million device hours

Reliability

Environmental
Characteristics

Power

Operating Temp. 0-70°C

Read-Intensive, 1 Drive Write per Day

4

4

2,400 3,000 3,000 3,000 2,400 3,000 3,000 3,000

850 1,550 1,900 1,900 850 1,550 1,900 1,900

5

220 396 520 520 220 396 520 520

5

1.9 4.2 9.8 22.4 4.5 9.0 19.2 49

Mixed-Use, 3 Drive Writes per Day

1,300 2,400 3,000 3,000 1,300 2,400

4

425 850 1,550 1,550 425 850

5

110 220 396 520 110 220

5

17 45 55 75 40 85

1.1 1.9 4.2 9.8 2.2 4.5

PCIe Gen3 1x4, 2x2 NVMe

Micron 96-layer 3D TLC NAND

5 years

Advanced Features

3. Unformatted. 1GB = 1 billion bytes. Formatted capacity is less.

4. 128KB transfer size, QD = 32, steady state.

5. 4KB transfer size, QD = 512, s teady state.

6. No hardware, software or system can provide absolute security under all conditions. Micron assumes no liability for lost, stolen or corrup ted data arising from the use of any Micron products, including those products
that incorporate any of the mentioned security features.

6

enterprise data path protection, secure firmware, adaptive thermal monitoring, easy to install (U.2 hot
pluggable), Storage Executive SSD management tool, RAIN, Dual Port with Reservations, NVMe Subsystem
Reset, NVMe-MI over SMBus, Firmware Activate without reset, T-10 DIF support (520,4104,4160), TAA