Low latency excellence

The Micron 7500 NVMe SSD is the world’s most advanced mainstream PCIe Gen4 data center SSD and the first with 200+ layer NAND.

Micron^® 7500 NVMe^™ SSD

Key benefits

PCIe® 4.0 NVMe™ technology with sequential performance up to 7,000MB/s and random performance up to 1.1M IOPS2
Built on the world’s most advanced 232-layer NAND1
Support for high-density applications with capacities up to 15.36TB³
Excellent sub-1ms latency⁵ for 99.9999% quality of service
Micron's Secure Execution Environment enables dedicated hardware encryption

Product brief

Best for:

Storage and solution architects
IT managers
Commercial channel partners

Features:

Power loss protection
Enterprise data path protection
Firmware activated without reset
Secure erase/secure boot
Firmware activated without reset
Hardware root of trust, secure signed firmware
TRIM support with garbage collection
5-year limited warranty⁴

More product info

Specs:

World’s most advanced mainstream data center SSD
Increased performance and power efficiency while supporting the latest in security
Built on Micron’s industry-leading 232-layer NAND

Product overview

The Micron^® 7500 NVMe^TM SSD is the world’s most advanced mainstream PCIe Gen4 data center SSD and the first with 200+ layer NAND. It is built with leading-edge technology to deliver low and consistent QoS latency, superior performance across a wide range of workloads, and offers broad support for Open Compute Project (OCP) features in standard firmware. The 7500 SSD is a versatile solution that delivers the performance required by complex and critical business workloads.

World’s most advanced mainstream data center SSD

Micron’s industry-leading 232-layer NAND¹ enables increased performance and power efficiency while supporting the latest in security, TCG-Opal 2.01, and industry standards – Open Compute Project (OCP) 2.0 and NVMe 2.0b.

Creating a new class of sub-1ms latency drives

Low and consistent latency enables rapid, reliable responsiveness for demand data center workloads, such as real-time analytics, content distribution and financial trading. The Micron 7500 SSD leads the way with sub-1ms latency⁵ for 6x9’s quality of service (QoS) that is up to 83% lower than the competition⁶.

Accelerate your workloads with class-leading Gen4 speed

With PCIe Gen4 dominating the data center, the superior performance of the Micron 7500 SSD will accelerate data center workloads, such as AI, databases and cloud computing. Demanding write-centric applications will see up to 242% better random write performance when compared to the competition⁴.

Key specifications

U.3/U.2		Micron 7500 PRO Read-Intensive (1 DWPD)					Micron 7500 MAX Mixed-Use (3 DWPD)
Capacity		960GB	1.92TB	3.84TB	7.68TB	15.36TB	800GB	1.6TB	3.2TB	6.4TB	12.8TB
Performance⁷ (4K random, 128K sequential)
	Seq Reads (MB/s)	6,800	6,800	6,800	7,000	7,000	6,800	6,800	6,800	7,000	7,000
	Seq Writes (MB/s)	1,400	2,700	5,300	5,900	5,900	1,400	2,700	5,300	5,900	5,900
	Random Reads (KIOPS)	800	1,000	1,100	1,100	1,100	800	1,00	1,100	1,100	1,100
	Random Writes (KIOPS)	85	145	180	215	250	145	270	390	400	410
	70/30 Random Read/Write (IOPS)	130	260	350	450	530	200	370	510	650	700
	Latency (typical, µs)⁸	70 (read) 15 (write)	70 (read) 15 (write)	70 (read) 15 (write)	70 (read) 15 (write)	70 (read) 15 (write)	70 (read) 15 (write)	70 (read) 15 (write)	70 (read) 15 (write)	70 (read) 15 (write)	70 (read) 15 (write)
Endurance (total bytes written in TB)	4K Random	1,752	3,504	7,008	14,016	28,032	4,380	8,760	17,520	35,040	70,080
Basic Attributes
	Interface	PCIe Gen4 1x4, NVMe (v2.4b)
	NAND	Micron 200+ layer 3D TLC NAND
Reliability
	MTTF	MTTF: 2.0M hours@ 0-55°C and 2.5M hours@ 0-50°C
	UBER	<1 sector per 1018 bits read
	Warranty	5-year
Environmental Characteristics
	Power	Sequential read (average RMS value): 15.5W (PRO and MAX) Sequential write (average RMS value): 18.3W (PRO and MAX)
	Operating Temp.	0-70°C (FOOTNOTE: If SMART temperature exceeds 77°C, performance will be throttled)

Note: All values provided are for reference only and are not warranted values. For warranty information, visit https://www.micron.com/support/sales-support/returns-and-warranties/enterprise-ssd-warranty or contact your Micron sales representative. Values represent the theoretical maximum endurance for the given transfer size and type. The endurance will vary by workload. Performance values measured at 25 watts.

Comparisons are made based on other leading PCIe Gen4 Data Center U.2/U.3 NVMe SSDs based on data center market share as noted in the http://forward-insights.com/reportslist.html and available on the open market at the time of this document’s initial publication. 1GB = 1 billion bytes, formatted capacity is less.
Performance measured using 7.68TB SSDs at queue depth (QD) = 256 with FIO (additional details on FIO are available here: https://fio.readthedocs.io/en/latest/).
30.72TB capacity is the largest option. User capacity: 1GB = 1 billion bytes; formatted capacity is less.
Warranty valid for 5 years from the original date of purchase or before writing the maximum total bytes written (TBW) as published in the product datasheet and as measured in the product’s SMART data, whichever comes first.
77% efficiency improvement is vs the Micron 9300 SSD. Efficiency is defined as performance per watt.
Additional information available here: http://www.micron.com/176
Performance measured under the following conditions: Steady-state as defined by SNIA Solid State Storage Performance Test Specification Enterprise v1.1; Drive write cache enabled; NVMe power state 0; Sequential workloads measured using FIO with a 128K IO size and a queue depth of 32; Random read workloads measured using FIO with a 4K IO size and queue depth of 256; Random write workloads measured using FIO with a 4K IO size and a queue depth of 128.
Latency values measured with random workloads using FIO, 4KB transfers, queue depth = 1; Typical latency = median, 50th percentile