Enterprise-Class Solid State Drives
Built for Extreme Performance
The capacity to do more
Micron understands the importance of providing large capacity SSDs to manage today’s demanding workloads, and delivers SSDs with industry leading capabilities.
Lower total cost, better performance
Upgrading from HDDs to SSDs results in lower total cost of ownership (TCO), plus added resource savings through lower average power consumption. This upgrade also frees valuable space in the data center, allowing multiple HDDs to be replaced with fewer SSDs.
Speed and flexibility for bottom-line value
Micron data center SSDs deliver blazing fast throughput and low latency, accelerating data delivery. Its broad enterprise-sized portfolio of SSDs provides solutions that match the needs of a wide range of application workloads.
7450 Series
7450 MAX, 3 DWPD: 0.8 - 12.8 TB (U.3) / 0.4 - 3.2 TB (M.2) / 0.8 - 6.4 TB (E1.S)
7450 PRO, 1 DWPD: 0.96 - 15.36 TB (U.3) / 0.48 - 3.84 TB (M.2) / 0.96 - 7.68 TB (E1.S)
NVMe PCIe 4.0 1x4
MICRON 7450 SSD: KEY BENEFITS
176-layer NAND improves storage performance for data center workloads
Industry-leading 176-layer NAND, coupled with Micron CMOSunder-array (CuA) technology and PCIe Gen4, enables the 7450 SSD to yield faster read and write speeds, up to 1 million IOPS, enabling faster booting and application responsiveness.
2ms and below QoS latency enables impressive responsiveness in data center workloads
The 7450 SSD delivers 2ms and below 99.9999% read latency.7 This low and consistent latency can improve performance in latency-sensitive data center applications, including databases like Microsoft SQL Server, Oracle, MySQL, RocksDB, Cassandra and Aerospike, among others.
Capacity, form factor and security options fit a wide variety of data center workloads
The 7450 SSD delivers an impressive array of capacities, from 400GB to 15.36TB9 and has the industry’s broadest variety of form factors, including U.3, M.2 and E1.S. It is the only PCIe Gen4 U.3 SSD in the industry available in both 15mm and 7mm,8 plus there is an industry-leading 7.68TB E1.S option. These capacity and form factors choices help meet rapidly evolving power and thermal needs in your data center
9400 Series
9400 MAX: 6.4 - 25.8 TB (U.2, 3 DWPD)
9400 PRO: 3.84 - 15.36 TB (U.2, 1 DWPD)
NVMe PCIe 4.0 1x4
MICRON 9400 SSD: KEY BENEFITS
Leading capacity requires fewer servers to capitalize on immense data
The Micron 9400 SSD has industry-leading capacity of 30TB, doubling the maximum capacity of Micron’s prior-generation performance NVMe SSD.3Increased capacity per SSD means that the same amount of data can be stored in half as many servers. That means half as many servers to procure and half as many servers to manage. Free IT resources to innovate — not manage hardware.
Leading storage performance that impacts real-world applications
The Micron 9400 SSD enables up to 2.3X higher mixed workload IOPS than the other leading competitor.4Micron’s mixed, random performance frees workloads to power through demand spikes in content delivery networks (caching), AI training and performancefocused databases.
Higher power efficiency that reduces total cost of ownership (TCO)4 compared to prior SSD generation
A major component of the total cost of ownership is a combination of workload results (IOPS) and the amount of power consumed (in watts).5 Higher power efficiency means you get more throughput (higher IOPS) for the energy consumed (watts) to do that work.The Micron 9400 has up to 77% better power efficiency6 than our prior-generation SSD. The 9400 SSD improves power efficiency and helps you save money while reducing your environmental impact.
6500 ION Series
6500 ION 30.72 TB (U.2, E1.L 0.3 DWPD)
9400 PRO: 3.84 - 15.36 TB (U.2, 1 DWPD)
NVMe PCIe 4.0 1x4
Faster reads, writes, fills, and rebuilds than the competing data center QLC SSD
• 34% better average read latency
• 58% faster sequential writes
• Up to 62% more 4KB random read IOPS
• Over 30X more 4KB random write IOPS at a queuedepth (QD) of 128 and over 10X more at QD1
• Ideal for artificial intelligence data lakes, object stores,general purpose bulk cloud storage, NoSQL databases,and content delivery
Lower operating costs than the competing QLC SSD via improved power efficiency and endurance.
• Up to 20% reduction in power consumption
• Up to 56% better power efficiency (IOPS/watt)
• More than 10X better 4KB random write endurance(RDWPD)
• Nearly 1PB per U or 35PB per rack storage toreduce server sprawl
Better price-performance with industry-leading security that surpasses the competing QLC SSD.
• Leading die density enables sustainable affordabilityversus the competing QLC SSD
• Supply chain resiliency, including multiple SSDassembly and test sites, versus single assemblysite for the competing QLC SSD
• The only 30.72TB TAA-compliant, value-focusedNVMe SSD with FIPS 140-3 L2 certifiability
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