ThinkSystem PM9D3a Read Intensive NVMe PCIe 5.0 x4 SSDs Product Guide (2024)

Abstract

The ThinkSystem PM9D3a Read Intensive NVMe PCIe 5.0 x4 SSDs, available in capacities up to 12.8TB, are general-purpose yet high-performance NVMe PCIe Gen 5 SSDs. Available in both 2.5-inch and E3.S EDSFF form factors, they are engineered for greater performance and endurance in a cost-effective design, and to support a broader set of workloads. Now with SED encryption as standard, these drives help ensure data security, even when the drive is removed from the server.

This product guide provides essential presales information to understand the PM9D3a SSDs and their key features, specifications, and compatibility. This guide is intended for technical specialists, sales specialists, sales engineers, IT architects, and other IT professionals who want to learn more about the SSDs and consider their use in IT solutions.

Change History

Changes in the September 2, 2024 update:

  • Updated the performance data for the E3.S 1T drives - Technical specifications section

Introduction

The ThinkSystem PM9D3a Read Intensive NVMe PCIe 5.0 x4 SSDs, available in capacities up to 15.36TB, are general-purpose yet high-performance NVMe PCIe Gen 5 SSDs. They are engineered for greater performance and endurance in a cost-effective design, and to support a broader set of workloads. Now with SED encryption as standard, these drives help ensure data security, even when the drive is removed from the server.

The PM9D3a SSDs are available in E3.S 1T EDSFF and 2.5-inch form factors.

SED support: All drives listed in this product guide include SED drive encryption. Our naming convention for new drives doesn’t include SED in the name.


Figure 1. ThinkSystem PM9D3a Read Intensive NVMe PCIe 5.0 x4 SSDs

Did you know?

The PM9D3a SSDs are part of the new family of PCIe 5.0 SSDs that match the performance of the ThinkSystem V3 and V4 families of servers. By having a Gen 5 host interface, sequential performance is doubled compared to Gen 4 SSDs. The NVMe host interface also maximizes flash storage performance and minimizes latency.

Lenovo Read Intensive SSDs like the PM9D3a SSDs are suitable for read-intensive and general-purpose data center workloads, however their NVMe PCIe interface means the drives also offer high performance. Overall, these SSDs provide outstanding IOPS/watt and cost/IOPS for enterprise solutions.

Part number information

The following table lists the part numbers and feature codes for ThinkSystem servers.

Table 1. Ordering information
Part numberFeatureDescriptionVendor part number
2.5-inch hot-swap drives
4XB7A93066C0GKThinkSystem 2.5" U.2 PM9D3a 960GB Read Intensive NVMe PCIe 5.0 x4 HS SSD MZWL6960HFJA-00AW7
4XB7A93067C0GLThinkSystem 2.5" U.2 PM9D3a 1.92TB Read Intensive NVMe PCIe 5.0 x4 HS SSD MZWL61T9HFLT-00AW7
4XB7A93068C0GNThinkSystem 2.5" U.2 PM9D3a 3.84TB Read Intensive NVMe PCIe 5.0 x4 HS SSD MZWL63T8HFLT-00AW7
4XB7A93069C0GPThinkSystem 2.5" U.2 PM9D3a 7.68TB Read Intensive NVMe PCIe 5.0 x4 HS SSD MZWL67T6HBLC-00AW7
4XB7A93095C1WLThinkSystem 2.5" U.2 PM9D3a 15.36TB Read Intensive NVMe PCIe 5.0 x4 HS SSD MZWL615THBLF-00AW7
E3.S 1T hot-swap drives
4XB7A93078C1AFThinkSystem E3.S PM9D3a 1.92TB Read Intensive NVMe PCIe 5.0 x4 HS SSDMZ3L61T9HFLT-00AW7
4XB7A93079C1AEThinkSystem E3.S PM9D3a 3.84TB Read Intensive NVMe PCIe 5.0 x4 HS SSDMZ3L63T8HFLT-00AW7
4XB7A93080C1ABThinkSystem E3.S PM9D3a 7.68TB Read Intensive NVMe PCIe 5.0 x4 HS SSDMZ3L67T6HBLC-00AW7
4XB7A93081C1WUThinkSystem E3.S PM9D3a 15.36TB Read Intensive NVMe PCIe 5.0 x4 HS SSDMZ3L615THBLF-00AW7

The part numbers include the following items:

  • One solid-state drive
  • Attached hot-swap tray (for hot-swap drives)
  • Documentation flyer

Features

Non-Volatile Memory Express (NVMe) is PCIe high performance SSD technology that provides high I/O throughput and low latency. NVMe interfaces remove SAS/SATA bottlenecks and unleash all of the capabilities of contemporary NAND flash memory. Each of the PM9D3a SSDs have direct PCIe 5.0 x4 connection, which provides at significantly greater bandwidth and lower latency than SATA/SAS-based SSD solutions. NVMe drives are also optimized for heavy multi-threaded workloads by using internal parallelism and many other improvements, such as enlarged I/O queues.

The ThinkSystem PM9D3a Read Intensive NVMe PCIe 5.0 x4 SSDs have the following features:

  • Available in three form factors:
    • 2.5-inch drive in a hot-swap tray
    • E3.S 1T EDSFF drive in a hot-swap tray
  • Direct PCIe 5.0 x4 connection for each NVMe drive, resulting in up to 14 GBps overall throughput, compared to 7.5 GBps for a PCIe 4.0 connection.
  • Based on Samsung TLC flash technology
  • Advanced ECC Engine and End-to-End Data Protection
  • Samsung’s SSD virtualization technology allows a single SSD to be subdivided into smaller SSDs, up to 64, providing independent virtual workspaces. It also enables SSDs to take on certain tasks typically carried out by the server CPUs, such as Single-Root I/O Virtualization (SR-IOV), requiring fewer server CPUs and SSDs.
  • V-NAND Machine Learning enables the SSD to accurately predict and verify cell characteristics, as well as detect any variations in circuit patterns.
  • Fail-In-Place technology ensures the SSD operates normally even when errors occur at the chip level. It allows the SSD to identify failing NAND cells, and actually recover then relocate the data without interrupting normal operations or impacting performance.
  • Protect data integrity from unexpected power loss with Samsung's advanced power-loss protection architecture
  • Supports Self-Monitoring, Analysis and Reporting Technology (S.M.A.R.T).
  • Supports the following specifications:
    • PCI Express Base Specification Rev. 5.0
    • NVM Express Specification Rev. 2.0
    • NVM Express Management Interface Specification Rev. 1.2

SSDs have a huge but finite number of program/erase (P/E) cycles, which affect how long they can perform write operations and thus their life expectancy. Mixed Use SSDs have a higher write endurance compared to Read Intensive SSDs. SSD write endurance is typically measured by the number of program/erase cycles that the drive can incur over its lifetime, which is listed as total bytes written (TBW) in the device specification.

The TBW value that is assigned to a solid-state device is the total bytes of written data that a drive can be guaranteed to complete. Reaching this limit does not cause the drive to immediately fail; the TBW simply denotes the maximum number of writes that can be guaranteed. A solid-state device does not fail upon reaching the specified TBW. However, at some point after surpassing the TBW value (and based on manufacturing variance margins), the drive reaches the end-of-life point, at which time the drive goes into read-only mode.

Because of such behavior, careful planning must be done to use SSDs in the application environments to ensure that the TBW of the drive is not exceeded before the required life expectancy.

For example, the PM9D3a 3.84 TB drive has an endurance of 7,008 TB of total bytes written (TBW). This means that for full operation over five years, write workload must be limited to no more than 3,840 GB of writes per day, which is equivalent to 1.0 full drive writes per day (DWPD). For the device to last three years, the drive write workload must be limited to no more than 6,400 GB of writes per day, which is equivalent to 1.7 full drive writes per day.

The benefits of drive encryption

All ThinkSystem PM9D3a Read Intensive NVMe PCIe 5.0 x4 SSDs support drive encryption.

Self-encrypting drives (SEDs) provide benefits in three main ways:

  • By encrypting data on-the-fly at the drive level with no performance impact
  • By providing instant secure erasure (cryptographic erasure, thereby making the data no longer readable)
  • By enabling auto-locking to secure active data if a drive is misplaced or stolen from a system while in use

The following sections describe the benefits in more details.

Automatic encryption

It is vital that a company keep its data secure. With the threat of data loss due to physical theft or improper inventory practices, it is important that the data be encrypted. However, challenges with performance, scalability, and complexity have led IT departments to push back against security policies that require the use of encryption. In addition, encryption has been viewed as risky by those unfamiliar with key management, a process for ensuring a company can always decrypt its own data. Self-encrypting drives comprehensively resolve these issues, making encryption both easy and affordable.

When the self-encrypting drive is in normal use, its owner need not maintain authentication keys (otherwise known as credentials or passwords) in order to access the data on the drive. The self-encrypting drive will encrypt data being written to the drive and decrypt data being read from it, all without requiring an authentication key from the owner.

Drive retirement and disposal

When hard drives are retired and moved outside the physically protected data center into the hands of others, the data on those drives is put at significant risk. IT departments retire drives for a variety of reasons, including:

  • Returning drives for warranty, repair, or expired lease agreements
  • Removal and disposal of drives
  • Repurposing drives for other storage duties

Nearly all drives eventually leave the data center and their owner's control. Corporate data resides on such drives, and when most leave the data center, the data they contain is still readable. Even data that has been striped across many drives in a RAID array is vulnerable to data theft because just a typical single stripe in today’s high-capacity arrays is large enough to expose for example, hundreds of names and bank account numbers.

In an effort to avoid data breaches and the ensuing customer notifications required by data privacy laws, companies use different methods to erase the data on retired drives before they leave the premises and potentially fall into the wrong hands. Current retirement practices that are designed to make data unreadable rely on significant human involvement in the process, and are thus subject to both technical and human failure.

The drawbacks of today’s drive retirement practices include the following:

  • Overwriting drive data is expensive, tying up valuable system resources for days. No notification of completion is generated by the drive, and overwriting won’t cover reallocated sectors, leaving that data exposed.
  • Methods that include degaussing or physically shredding a drive are expensive. It is difficult to ensure the degauss strength is optimized for the drive type, potentially leaving readable data on the drive. Physically shredding the drive is environmentally hazardous, and neither practice allows the drive to be returned for warranty or expired lease.
  • Some companies have concluded the only way to securely retire drives is to keep them in their control, storing them indefinitely in warehouses. But this is not truly secure because a large volume of drives coupled with human involvement inevitably leads to some drives being lost or stolen.
  • Professional disposal services is an expensive option and includes the cost of reconciling the services as well as internal reports and auditing. Transporting of the drives also has the potential of putting the data at risk.

Self-encrypting drives eliminate the need to overwrite, destroy, or store retired drives. When the drive is to be retired, it can be cryptographically erased, a process that is nearly instantaneous regardless of the capacity of the drive.

Instant secure erase

The self-encrypting drive provides instant data encryption key destruction via cryptographic erasure. When it is time to retire or repurpose the drive, the owner sends a command to the drive to perform a cryptographic erasure. Cryptographic erasure simply replaces the encryption key inside the encrypted drive, making it impossible to ever decrypt the data encrypted with the deleted key.

Self-encrypting drives reduce IT operating expenses by reducing asset control challenges and disposal costs. Data security with self-encrypting drives helps ensure compliance with privacy regulations without hindering IT efficiency. So called "Safe Harbor" clauses in government regulations allow companies to not have to notify customers of occurrences of data theft if that data was encrypted and therefore unreadable.

Furthermore, self-encrypting drives simplify decommissioning and preserve hardware value for returns and repurposing by:

  • Eliminating the need to overwrite or destroy the drive
  • Securing warranty returns and expired lease returns
  • Enabling drives to be repurposed securely

Auto-locking

Insider theft or misplacement is a growing concern for businesses of all sizes; in addition, managers of branch offices and small businesses without strong physical security face greater vulnerability to external theft. Self-encrypting drives include a feature called auto-lock mode to help secure active data against theft.

Using a self-encrypting drive when auto-lock mode is enabled simply requires securing the drive with an authentication key. When secured in this manner, the drive’s data encryption key is locked whenever the drive is powered down. In other words, the moment the self-encrypting drive is switched off or unplugged, it automatically locks down the drive’s data.

When the self-encrypting drive is then powered back on, it requires authentication before being able to unlock its encryption key and read any data on the drive, thus protecting against misplacement and theft.

While using self-encrypting drives just for the instant secure erase is an extremely efficient and effective means to help securely retire a drive, using self-encrypting drives in auto-lock mode provides even more advantages. From the moment the drive or system is removed from the data center (with or without authorization), the drive is locked. No advance thought or action is required from the data center administrator to protect the data. This helps prevent a breach should the drive be mishandled and helps secure the data against the threat of insider or outside theft.

Technical specifications

The following tables present the technical specifications for the PM9D3a SSDs.

  • E3.S 1T drives
  • 2.5-inch drives

E3.S 1T drives

Table 2. Technical specifications
Feature1.92 TB drive3.84 TB drive7.68 TB drive15.36 TB drive
InterfacePCIe 5.0 x4PCIe 5.0 x4PCIe 5.0 x4PCIe 5.0 x4
Capacity1.92 TB3.84 TB7.68 TB15.36 TB
SED encryptionTCG Opal 2.02TCG Opal 2.02TCG Opal 2.02TCG Opal 2.02
Endurance (drive
writes per day for 5 years)
1 DWPD1 DWPD1 DWPD1 DWPD
Endurance
(total bytes written)
3,504 TB7,008 TB14,016 TB28,032 TB
Data reliability
(UBER)
< 1 in 1017 bits read< 1 in 1017 bits read< 1 in 1017 bits read< 1 in 1017 bits read
MTBF2,500,000 hours2,500,000 hours2,500,000 hours2,500,000 hours
Performance & Power - PCIe 5.0 host interface
IOPS reads (4 KB blocks)1,700,0001,700,0002,000,0002,000,000
IOPS writes (4 KB blocks)150,000250,000300,000350,000
Sequential read rate (128KBblocks)12,000 MBps12,000 MBps12,000 MBps12,000 MBps
Sequential write rate (128KBblocks)3500 MBps6800 MBps6800 MBps6800 MBps
Latency (random R/W)65 µs / 9 µs65 µs / 9 µs65 µs / 9 µs65 µs / 9 µs
Latency (sequential R/W)9 µs / 9 µs9 µs / 9 µs9 µs / 9 µs9 µs / 9 µs
Typical power (R/W)11.0 W / 10.8 W12.5 W / 15.3 W14.0 W / 16.0 W14.7 W / 16.0 W
Performance & Power - PCIe 4.0 host interface
IOPS reads (4 KB blocks)1,700,0001,700,0001,700,0001,700,000
IOPS writes (4 KB blocks)150,000250,000300,000350,000
Sequential read rate (128KBblocks)7000 MBps7000 MBps7000 MBps7000 MBps
Sequential write rate (128KBblocks)3500 MBps6200 MBps6200 MBps6200 MBps
Latency (random R/W)65 µs / 9 µs65 µs / 9 µs65 µs / 9 µs65 µs / 9 µs
Latency (sequential R/W)9 µs / 9 µs9 µs / 9 µs9 µs / 9 µs9 µs / 9 µs
Typical power (R/W)9.8 W / 10.2 W10.4 W / 14.1 W11.5 W / 14.8 W12.3 W / 14.8 W

2.5-inch drives

Table 3. Technical specifications
Feature960 GB drive1.92 TB drive3.84 TB drive7.68 TB drive15.36 TB drive
InterfacePCIe 5.0 x4PCIe 5.0 x4PCIe 5.0 x4PCIe 5.0 x4PCIe 5.0 x4
Capacity960 GB1.92 TB3.84 TB7.68 TB15.36 TB
SED encryptionTCG Opal 2.02TCG Opal 2.02TCG Opal 2.02TCG Opal 2.02TCG Opal 2.02
Endurance (drive
writes per day for 5 years)
1 DWPD1 DWPD1 DWPD1 DWPD1 DWPD
Endurance
(total bytes written)
1,752 TB3,504 TB7,008 TB14,016 TB28,032 TB
Data reliability
(UBER)
< 1 in 1017 bits read< 1 in 1017 bits read< 1 in 1017 bits read< 1 in 1017 bits read< 1 in 1017 bits read
MTBF2,500,000 hours2,500,000 hours2,500,000 hours2,500,000 hours2,500,000 hours
Performance & Power - PCIe 5.0 host interface
IOPS reads (4 KB blocks)1,000,0001,700,0002,000,0002,000,0002,000,000
IOPS writes (4 KB blocks)70,000150,000250,000300,000350,000
Sequential read rate (128KBblocks)12,000 MBps12,000 MBps12,000 MBps12,000 MBps12,000 MBps
Sequential write rate (128KBblocks)1600 MBps3500 MBps6200 MBps6200 MBps6200 MBps
Latency (random R/W)65 µs / 12 µs65 µs / 9 µs65 µs / 9 µs65 µs / 9 µs65 µs / 9 µs
Latency (sequential R/W)9 µs / 9 µs9 µs / 9 µs9 µs / 9 µs9 µs / 9 µs9 µs / 9 µs
Typical power (R/W)10.8 W / 7.8 W11.0 W / 10.8 W12.5 W / 15.3 W14.0 W / 16.0 W14.7 W / 16.0 W
Performance & Power - PCIe 4.0 host interface
IOPS reads (4 KB blocks)1,000,0001,700,0001,700,0001,700,0001,700,000
IOPS writes (4 KB blocks)70,000150,000250,000300,000350,000
Sequential read rate (128KBblocks)7000 MBps7000 MBps7000 MBps7000 MBps7000 MBps
Sequential write rate (128KBblocks)1600 MBps3500 MBps6200 MBps6200 MBps6200 MBps
Latency (random R/W)65 µs / 12 µs65 µs / 9 µs65 µs / 9 µs65 µs / 9 µs65 µs / 9 µs
Latency (sequential R/W)9 µs / 9 µs9 µs / 9 µs9 µs / 9 µs9 µs / 9 µs9 µs / 9 µs
Typical power (R/W)7.8 W / 7.2 W9.8 W / 10.2 W10.4 W / 14.1 W11.5 W / 14.8 W12.3 W / 14.8 W

Server support

The following tables list the ThinkSystem servers that are compatible.

Table 4. Server support (Part 1 of 4)
Part NumberDescriptionAMD V32S Intel V34S 8S Intel V3Multi NodeGPU Rich

SR635 V3 (7D9H / 7D9G)

SR655 V3 (7D9F / 7D9E)

SR645 V3 (7D9D / 7D9C)

SR665 V3 (7D9B / 7D9A)

ST650 V3 (7D7B / 7D7A)

SR630 V3 (7D72 / 7D73)

SR650 V3 (7D75 / 7D76)

SR850 V3 (7D97 / 7D96)

SR860 V3 (7D94 / 7D93)

SR950 V3 (7DC5 / 7DC4)

SD535 V3 (7DD8 / 7DD1)

SD530 V3 (7DDA / 7DD3)

SD550 V3 (7DD9 / 7DD2)

SR670 V2 (7Z22 / 7Z23)

SR675 V3 (7D9Q / 7D9R)

SR680a V3 (7DHE)

SR685a V3 (7DHC)

SR780a V3 (7DJ5)

E3.S 1T hot-swap drives
4XB7A93078ThinkSystem E3.S PM9D3a 1.92TB Read Intensive NVMe PCIe 5.0 x4 HS SSDNNNNNNNNNNNYNNNNNN
4XB7A93079ThinkSystem E3.S PM9D3a 3.84TB Read Intensive NVMe PCIe 5.0 x4 HS SSDNNNNNNNNNNNYNNNNNN
4XB7A93080ThinkSystem E3.S PM9D3a 7.68TB Read Intensive NVMe PCIe 5.0 x4 HS SSDNNNNNNNNNNNYNNNNNN
4XB7A93081ThinkSystem E3.S PM9D3a 15.36TB Read Intensive NVMe PCIe 5.0 x4 HS SSDNNNNNNNNNNNYNNNNNN
Table 5. Server support (Part 2 of 4)
Part NumberDescription1S V3EdgeSuper Computing1S Intel V22S Intel V2

ST50 V3 (7DF4 / 7DF3)

ST250 V3 (7DCF / 7DCE)

SR250 V3 (7DCM / 7DCL)

SE350 (7Z46 / 7D1X)

SE350 V2 (7DA9)

SE360 V2 (7DAM)

SE450 (7D8T)

SE455 V3 (7DBY)

SD665 V3 (7D9P)

SD665-N V3 (7DAZ)

SD650 V3 (7D7M)

SD650-I V3 (7D7L)

SD650-N V3 (7D7N)

ST50 V2 (7D8K / 7D8J)

ST250 V2 (7D8G / 7D8F)

SR250 V2 (7D7R / 7D7Q)

ST650 V2 (7Z75 / 7Z74)

SR630 V2 (7Z70 / 7Z71)

SR650 V2 (7Z72 / 7Z73)

E3.S 1T hot-swap drives
4XB7A93078ThinkSystem E3.S PM9D3a 1.92TB Read Intensive NVMe PCIe 5.0 x4 HS SSDNNNNNNNNNNNNNNNNNNN
4XB7A93079ThinkSystem E3.S PM9D3a 3.84TB Read Intensive NVMe PCIe 5.0 x4 HS SSDNNNNNNNNNNNNNNNNNNN
4XB7A93080ThinkSystem E3.S PM9D3a 7.68TB Read Intensive NVMe PCIe 5.0 x4 HS SSDNNNNNNNNNNNNNNNNNNN
4XB7A93081ThinkSystem E3.S PM9D3a 15.36TB Read Intensive NVMe PCIe 5.0 x4 HS SSDNNNNNNNNNNNNNNNNNNN
Table 6. Server support (Part 3 of 4)
Part NumberDescriptionAMD V1Dense V24S V28S4S V11S Intel V1

SR635 (7Y98 / 7Y99)

SR655 (7Y00 / 7Z01)

SR655 Client OS

SR645 (7D2Y / 7D2X)

SR665 (7D2W / 7D2V)

SD630 V2 (7D1K)

SD650 V2 (7D1M)

SD650-N V2 (7D1N)

SN550 V2 (7Z69)

SR850 V2 (7D31 / 7D32)

SR860 V2 (7Z59 / 7Z60)

SR950 (7X11 / 7X12)

SR850 (7X18 / 7X19)

SR850P (7D2F / 2D2G)

SR860 (7X69 / 7X70)

ST50 (7Y48 / 7Y50)

ST250 (7Y45 / 7Y46)

SR150 (7Y54)

SR250 (7Y52 / 7Y51)

E3.S 1T hot-swap drives
4XB7A93078ThinkSystem E3.S PM9D3a 1.92TB Read Intensive NVMe PCIe 5.0 x4 HS SSDNNNNNNNNNNNNNNNNNNN
4XB7A93079ThinkSystem E3.S PM9D3a 3.84TB Read Intensive NVMe PCIe 5.0 x4 HS SSDNNNNNNNNNNNNNNNNNNN
4XB7A93080ThinkSystem E3.S PM9D3a 7.68TB Read Intensive NVMe PCIe 5.0 x4 HS SSDNNNNNNNNNNNNNNNNNNN
4XB7A93081ThinkSystem E3.S PM9D3a 15.36TB Read Intensive NVMe PCIe 5.0 x4 HS SSDNNNNNNNNNNNNNNNNNNN
Table 7. Server support (Part 4 of 4)
Part NumberDescription2S Intel V1Dense V1

ST550 (7X09 / 7X10)

SR530 (7X07 / 7X08)

SR550 (7X03 / 7X04)

SR570 (7Y02 / 7Y03)

SR590 (7X98 / 7X99)

SR630 (7X01 / 7X02)

SR650 (7X05 / 7X06)

SR670 (7Y36 / 7Y37)

SD530 (7X21)

SD650 (7X58)

SN550 (7X16)

SN850 (7X15)

E3.S 1T hot-swap drives
4XB7A93078ThinkSystem E3.S PM9D3a 1.92TB Read Intensive NVMe PCIe 5.0 x4 HS SSDNNNNNNNNNNNN
4XB7A93079ThinkSystem E3.S PM9D3a 3.84TB Read Intensive NVMe PCIe 5.0 x4 HS SSDNNNNNNNNNNNN
4XB7A93080ThinkSystem E3.S PM9D3a 7.68TB Read Intensive NVMe PCIe 5.0 x4 HS SSDNNNNNNNNNNNN
4XB7A93081ThinkSystem E3.S PM9D3a 15.36TB Read Intensive NVMe PCIe 5.0 x4 HS SSDNNNNNNNNNNNN

Storage controller support

NVMe PCIe SSDs require a NVMe drive backplane and some form of PCIe connection to processors. PCIe connections can take the form of either an adapter (PCIe Interposer or PCIe extender/switch adapter) or simply a cable that connects to an onboard NVMe connector.

PCIe 4.0 & 3.0 support: The PM9D3a SSDs offer a PCIe 5.0 host interface, however they are backward compatible with a PCIe 4.0 or PCIe 3.0 host interface. Note however that servers or NVMe retimer/switch adapters with a PCIe 4.0 or 3.0 host interface will not see the same performance levels (especially sequential read and write rates).

Consult the relevant server product guide for details about required components for NVMe drive support.

Operating system support

Table 8. Operating system support for ThinkSystem E3.S PM9D3a 3.84TB Read Intensive NVMe PCIe 5.0 x4 HS SSD, 4XB7A93079
Operating systems

SD530 V3

Microsoft Windows Server 2022Y
Red Hat Enterprise Linux 8.10Y
Red Hat Enterprise Linux 8.8Y
Red Hat Enterprise Linux 8.9Y
Red Hat Enterprise Linux 9.2Y
Red Hat Enterprise Linux 9.3Y
Red Hat Enterprise Linux 9.4Y
SUSE Linux Enterprise Server 15 SP5Y
SUSE Linux Enterprise Server 15 SP5 with XenY
Ubuntu 22.04.3 LTSY
VMware vSphere Hypervisor (ESXi) 7.0 U3Y
VMware vSphere Hypervisor (ESXi) 8.0 U2Y
VMware vSphere Hypervisor (ESXi) 8.0 U3Y

IBM SKLM Key Management support

To effectively manage a large deployment of SEDs in Lenovo servers, IBM Security Key Lifecycle Manager (SKLM) offers a centralized key management solution. Certain Lenovo servers support Features on Demand (FoD) license upgrades that enable SKLM support.

The following table lists the part numbers and feature codes to enable SKLM support in the management processor of the server.

Table 9. FoD upgrades for SKLM support
Part numberFeature codeDescription
Security Key Lifecycle Manager - FoD (United States, Canada, Asia Pacific, and Japan)
00D9998A5U1SKLM for System x/ThinkSystem w/SEDs - FoD per Install w/1Yr S&S
00D9999AS6CSKLM for System x/ThinkSystem w/SEDs - FoD per Install w/3Yr S&S
Security Key Lifecycle Manager - FoD (Latin America, Europe, Middle East, and Africa)
00FP648A5U1SKLM for System x/ThinkSystem w/SEDs - FoD per Install w/1Yr S&S
00FP649AS6CSKLM for System x/ThinkSystem w/SEDs - FoD per Install w/3Yr S&S

The IBM Security Key Lifecycle Manager software is available from Lenovo using the ordering information listed in the following table.

Table 10. IBM Security Key Lifecycle Manager licenses
Part numberDescription
7S0A007FWWIBM Security Key Lifecycle Manager Basic Edition Install License + SW Subscription & Support 12 Months
7S0A007HWWIBM Security Key Lifecycle Manager For Raw Decimal Terabyte Storage Resource Value Unit License + SW Subscription & Support 12 Months
7S0A007KWWIBM Security Key Lifecycle Manager For Raw Decimal Petabyte Storage Resource Value Unit License + SW Subscription & Support 12 Months
7S0A007MWWIBM Security Key Lifecycle Manager For Usable Decimal Terabyte Storage Resource Value Unit License + SW Subscription & Support 12 Months
7S0A007PWWIBM Security Key Lifecycle Manager For Usable Decimal Petabyte Storage Resource Value Unit License + SW Subscription & Support 12 Months

The following tables list the ThinkSystem servers that support the FoD license upgrade.

Table 11. IBM SKLM Key Management license upgrade support (Part 1 of 4)
Part NumberDescriptionAMD V32S Intel V34S 8S Intel V3Multi NodeGPU Rich

SR635 V3 (7D9H / 7D9G)

SR655 V3 (7D9F / 7D9E)

SR645 V3 (7D9D / 7D9C)

SR665 V3 (7D9B / 7D9A)

ST650 V3 (7D7B / 7D7A)

SR630 V3 (7D72 / 7D73)

SR650 V3 (7D75 / 7D76)

SR850 V3 (7D97 / 7D96)

SR860 V3 (7D94 / 7D93)

SR950 V3 (7DC5 / 7DC4)

SD535 V3 (7DD8 / 7DD1)

SD530 V3 (7DDA / 7DD3)

SD550 V3 (7DD9 / 7DD2)

SR670 V2 (7Z22 / 7Z23)

SR675 V3 (7D9Q / 7D9R)

SR680a V3 (7DHE)

SR685a V3 (7DHC)

SR780a V3 (7DJ5)

A5U1SKLM for System x w/SEDs - FoD per Install w/1Yr S&SNNYNYYYNNNNNNNNNNN
AS6CSKLM for System x w/SEDs - FoD per Install w/3Yr S&SNNYNYYYNNNNNNNNNNN
Table 12. IBM SKLM Key Management license upgrade support (Part 2 of 4)
Part NumberDescription1S V3EdgeSuper Computing1S Intel V22S Intel V2

ST50 V3 (7DF4 / 7DF3)

ST250 V3 (7DCF / 7DCE)

SR250 V3 (7DCM / 7DCL)

SE350 (7Z46 / 7D1X)

SE350 V2 (7DA9)

SE360 V2 (7DAM)

SE450 (7D8T)

SE455 V3 (7DBY)

SD665 V3 (7D9P)

SD665-N V3 (7DAZ)

SD650 V3 (7D7M)

SD650-I V3 (7D7L)

SD650-N V3 (7D7N)

ST50 V2 (7D8K / 7D8J)

ST250 V2 (7D8G / 7D8F)

SR250 V2 (7D7R / 7D7Q)

ST650 V2 (7Z75 / 7Z74)

SR630 V2 (7Z70 / 7Z71)

SR650 V2 (7Z72 / 7Z73)

A5U1SKLM for System x w/SEDs - FoD per Install w/1Yr S&SNYYNNNNNNNNNNNYYNYY
AS6CSKLM for System x w/SEDs - FoD per Install w/3Yr S&SNYYNNNNNNNNNNNYYNYY
Table 13. IBM SKLM Key Management license upgrade support (Part 3 of 4)
Part NumberDescriptionAMD V1Dense V24S V28S4S V11S Intel V1

SR635 (7Y98 / 7Y99)

SR655 (7Y00 / 7Z01)

SR655 Client OS

SR645 (7D2Y / 7D2X)

SR665 (7D2W / 7D2V)

SD630 V2 (7D1K)

SD650 V2 (7D1M)

SD650-N V2 (7D1N)

SN550 V2 (7Z69)

SR850 V2 (7D31 / 7D32)

SR860 V2 (7Z59 / 7Z60)

SR950 (7X11 / 7X12)

SR850 (7X18 / 7X19)

SR850P (7D2F / 2D2G)

SR860 (7X69 / 7X70)

ST50 (7Y48 / 7Y50)

ST250 (7Y45 / 7Y46)

SR150 (7Y54)

SR250 (7Y52 / 7Y51)

A5U1SKLM for System x w/SEDs - FoD per Install w/1Yr S&SNNNNNNNNYYYYYYNNNNN
AS6CSKLM for System x w/SEDs - FoD per Install w/3Yr S&SNNNNNNNNYYYYYYNNNNN
Table 14. IBM SKLM Key Management license upgrade support (Part 4 of 4)
Part NumberDescription2S Intel V1Dense V1

ST550 (7X09 / 7X10)

SR530 (7X07 / 7X08)

SR550 (7X03 / 7X04)

SR570 (7Y02 / 7Y03)

SR590 (7X98 / 7X99)

SR630 (7X01 / 7X02)

SR650 (7X05 / 7X06)

SR670 (7Y36 / 7Y37)

SD530 (7X21)

SD650 (7X58)

SN550 (7X16)

SN850 (7X15)

A5U1SKLM for System x w/SEDs - FoD per Install w/1Yr S&SYYYYYYYNNNNN
AS6CSKLM for System x w/SEDs - FoD per Install w/3Yr S&SYYYYYYYNNNNN

Warranty

The PM9D3a SSDs carry a one-year, customer-replaceable unit (CRU) limited warranty. When the SSDs are installed in a supported server, these drives assume the server’s base warranty and any warranty upgrades.

Solid State Memory cells have an intrinsic, finite number of program/erase cycles that each cell can incur. As a result, each solid state device has a maximum amount of program/erase cycles to which it can be subjected. The warranty for Lenovo solid state drives (SSDs) is limited to drives that have not reached the maximum guaranteed number of program/erase cycles, as documented in the Official Published Specifications for the SSD product. A drive that reaches this limit may fail to operate according to its Specifications.

Physical specifications

The PM9D3a SSDs have the following physical specifications:

Dimensions and weight of the 2.5-inch drives (approximate, without the drive tray):

  • Height: 15 mm (0.6 in.)
  • Width: 70 mm (2.8 in.)
  • Depth: 100 mm (4.0 in.)
  • Weight: up to 170 g (6.0 oz)

Dimensions and weight of the E3.S 1T drives (approximate, without the drive tray):

  • Height: 7.5 mm (0.3 in.)
  • Width: 76 mm (3 in.)
  • Depth: 113 mm (4.4 in.)
  • Weight: up to 100 g (3.5 oz)

Operating environment

The PM9D3a SSDs are supported in the following environment:

  • Temperature (operating): 0 to 70 °C (32 to 158 °F)
  • Temperature (non-operating): -40 to 85 °C (-40 to 185 °F)
  • Relative humidity (non-operating): 5 to 95% (noncondensing)
  • Maximum altitude: 3,050 m (10,000 ft)
  • Shock, non-operating: 1,500 G (Max) at 0.5 ms
  • Vibration, non-operating: 20 GPEAK (10-2000 Hz) at 4 min/cycle, 4 cycle/axis on 3 axis.

Agency approvals

The PM9D3a SSDs conform to the following regulations:

  • Safety
    • cUL
    • CE
    • TUV-GS
    • CB
  • EMC
    • CE (EU)
    • BSMI (Taiwan)
    • KC (South Korea)
    • VCCI (Japan)
    • RCM (Australia)
    • FCC (USA) / IC (Canada)

Related publications and links

For more information, see the following documents:

Related product families

Product families related to this document are the following:

  • Drives

Trademarks

Lenovo and the Lenovo logo are trademarks or registered trademarks of Lenovo in the United States, other countries, or both. A current list of Lenovo trademarks is available on the Web at https://www.lenovo.com/us/en/legal/copytrade/.

The following terms are trademarks of Lenovo in the United States, other countries, or both:
Lenovo®
System x®
ThinkSystem®

The following terms are trademarks of other companies:

AMD is a trademark of Advanced Micro Devices, Inc.

Intel® is a trademark of Intel Corporation or its subsidiaries.

Linux® is the trademark of Linus Torvalds in the U.S. and other countries.

Microsoft®, Windows Server®, and Windows® are trademarks of Microsoft Corporation in the United States, other countries, or both.

Other company, product, or service names may be trademarks or service marks of others.

ThinkSystem PM9D3a Read Intensive NVMe PCIe 5.0 x4 SSDs Product Guide (2024)

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