If you are shopping for used servers, enterprise SSDs, or planning to add U.2 NVMe drives to a workstation, NAS, or storage node, you quickly run into model names like P5510, P5620, PM9A3, SN640, 7450 PRO, and CD8.

Those names are not very intuitive on their own. Just from the number, it is often hard to tell whether a drive is aimed at high performance, high endurance, large capacity, read-heavy workloads, or mixed workloads. This article organizes several common U.2 series by vendor and positioning, so it is easier to build a practical mental map before comparing exact capacity, endurance, and pricing.

One thing to note up front: each series usually includes multiple capacity points, firmware variants, interface generations, and endurance tiers. The goal here is to explain the general role of each series, not to serve as a full SKU-by-SKU spec sheet.

01 A Quick Way to Think About U.2 Drives

Enterprise U.2 SSDs can be roughly grouped into a few categories:

• General-purpose models: suitable for most servers and virtualization workloads, with balanced read/write behavior.
• Read-optimized models: better for read-heavy databases, object storage, content delivery, and cache layers.
• Mixed-workload models: better for databases, logs, and virtualized environments with meaningful write pressure.
• High-endurance models: better when write volume is high and low latency matters.
• High-capacity QLC models: better when cost per TB matters more than sustained heavy writes.

For individuals and small teams, the most common mistake is not buying something “too slow,” but buying the wrong class of drive. A large-capacity QLC drive is not ideal for heavy write workloads, and a high-endurance Optane drive is usually overkill for pure archival storage.

02 Solidigm / Intel

Solidigm inherited Intel’s NAND SSD business, so these lines are often discussed together.

D7-P5510 / P5620

These are both very typical PCIe 4.0 datacenter NVMe series and are common in general servers, virtualization platforms, and enterprise storage nodes.

• D7-P5510 is generally seen as a more general-purpose or read-oriented option.
• P5620 is usually treated as a more write-capable mixed-workload tier with higher endurance.

If you want a drive family that works well across a wide range of enterprise use cases, these are usually safe options. Their appeal is not that one specific metric is extreme, but that they are balanced, stable, and widely available.

D5-P5316

D5-P5316 stands out because it follows a high-capacity QLC approach.

Its main attraction is not extreme write performance, but density and cost per TB. For object storage, colder data, large read-heavy datasets, or environments where rack-level capacity matters a lot, this type of drive is very attractive.

Its limits are also clear: it is not a great choice for sustained heavy writes, demanding random-write workloads, or frequent rewriting. It is better understood as a high-density capacity drive than a high-endurance performance drive.

Optane DC P4800X

P4800X belongs in a completely different category. It is not a normal NAND product, but part of Intel’s Optane / 3D XPoint line.

This type of drive is usually known for:

• Very low latency
• Excellent small-block random performance
• Extremely high write endurance

If your workload is heavy logging, metadata-intensive work, low-latency databases, cache layers, or very high write pressure, Optane behaves very differently from ordinary NAND SSDs. The downside is just as obvious: capacity is usually limited and pricing is not friendly. Today, many people think of it as a special-purpose “legendary” drive rather than a normal high-capacity enterprise SSD.

03 Samsung

Samsung enterprise NVMe drives are also common in servers and OEM platforms, especially in branded systems and cloud deployments.

PM9A3

PM9A3 is a common PCIe 4.0 enterprise series with a mainstream datacenter positioning. It is often compared to drives such as the P5510.

It is a good fit for:

• General servers
• Virtualization hosts
• Balanced enterprise workloads

If you want an enterprise U.2 drive that is modern enough, performs well, and is relatively easy to find, PM9A3 is usually a strong candidate.

983 DCT

983 DCT is older, but many people still remember it because it was widespread in earlier enterprise platforms.

Its appeal today is maturity, broad market availability, and often better pricing. It works well in budget-sensitive environments where you still want a known and well-supported enterprise model. It feels more like a reliable veteran than a first choice for the newest platform.

PM1733 / PM1735

PM1733 and PM1735 are also representative Samsung enterprise NVMe families on the higher-performance side.

They are often associated with:

• Strong sequential performance
• Higher-end datacenter positioning
• Better fit for bandwidth-heavy and high-IOPS workloads

If your host platform is already PCIe 4.0 and you care about databases, virtualization, compute nodes, or high-throughput storage, PM1733/PM1735 are often more attractive than entry-level or older enterprise SSDs.

04 Western Digital / HGST

Enterprise SSDs from the Western Digital / HGST ecosystem are also common, especially under the Ultrastar name.

Ultrastar SN640

SN640 is usually regarded as a read-optimized NVMe SSD.

It fits well in scenarios such as:

• Content delivery
• Read-heavy cloud storage
• Boot or image drives
• Read-heavy database replicas

The appeal of this class is usually the balance of capacity, power, and read-focused value. If your workload is mainly read-heavy, it can be more economical than a higher-endurance mixed-workload drive.

Ultrastar SN840

SN840 is generally understood as a higher-performance, higher-tier datacenter NVMe line.

If SN640 leans more toward read optimization, SN840 feels more like a performance-oriented enterprise NVMe option for heavier applications, virtualization, and data-platform workloads. For people targeting stronger platform capability, it is often worth a look, though price and availability may be less friendly.

05 Micron

Micron enterprise SSDs have also become very visible in the server market, and their product positioning is often relatively easy to understand.

7450 PRO / MAX

The 7450 family is a good example because the naming is direct:

• 7450 PRO: more mainstream enterprise usage, often suitable for general-purpose and read-oriented environments.
• 7450 MAX: more suitable for high-endurance and heavier-write scenarios.

That split is easy to understand. If you are deploying general servers, virtualization, or application infrastructure, PRO is often enough. If you are targeting databases, logs, or sustained write-heavy use, MAX is the better fit.

9400 Series

The 9400 family usually sits in a newer, stronger enterprise NVMe tier, aimed at higher throughput, higher IOPS, and more demanding server workloads.

If your goal is a newer platform with stronger performance and heavier business workloads, the 9400 line is often more attractive than the 7450. If you are only building a normal storage node or a home lab, it may not be the most cost-effective choice.

06 Kioxia

Kioxia is also a very common enterprise SSD vendor, especially in OEM servers, branded systems, and enterprise procurement channels.

CD6

CD6 is a typical PCIe 4.0 datacenter NVMe line with a mainstream enterprise positioning.

It is well suited to:

• General servers
• Cloud nodes
• Enterprise application deployment
• Balanced mixed workloads

If you want a drive family that is not overly specialized and tends to behave predictably in enterprise environments, CD6 is a reasonable candidate.

CD8

CD8 is generally viewed as a newer and higher-tier line with stronger platform specs and performance expectations.

If your focus is newer infrastructure, stronger performance targets, and a more modern datacenter setup, CD8 is usually more interesting than CD6. The tradeoff is that pricing is often higher as well.

07 A Fast Way to Narrow Down the Choice

If you simply want a quick starting point, this is a useful way to think about them:

• General-purpose and safe choices: P5510, PM9A3, CD6
• Mixed workloads and higher endurance: P5620, 7450 MAX
• High capacity and lower cost per TB: D5-P5316
• Ultra-low latency and extremely high endurance: Optane P4800X
• Higher-performance modern datacenter drives: PM1733/PM1735, SN840, 9400, CD8
• Mature older model with value pricing: 983 DCT

This is not a strict spec-sheet summary. It is better used as a practical orientation map.

08 Short Advice

If you are buying U.2 enterprise SSDs for a NAS, lab platform, or virtualization host, the three things to confirm first are:

1. Whether your backplane, cable, HBA, or motherboard actually supports U.2 NVMe.
2. Whether your workload cares more about capacity, endurance, or low latency.
3. Whether the drive is an OEM firmware variant that may affect compatibility or upgrades later.

The model absolutely matters, but so do interface support, cooling, power, and platform compatibility. If you understand the role of the series first, choosing the right capacity and price point becomes much easier.