Lenovo ThinkSystem SR950 Server (Xeon SP Gen 2) Product Guide

The Lenovo ThinkSystem SR950 is Lenovo's flagship server, suitable for mission-critical applications that need the most processing power possible in a single server. Now supporting second-generation Intel Xeon Scalable Family processors, the powerful 4U ThinkSystem SR950 can expand from two to as many as eight processors. The modular design of SR950 speeds upgrades and servicing with easy front or rear access to all major subsystems that ensures maximum performance and maximum server uptime.

This product guide provides essential presales information to understand the ThinkSystem SR950 server, its key features and specifications, components and options, and configuration guidelines. This guide is intended for technical specialists, sales specialists, sales engineers, IT architects, and other IT professionals who want to learn more about the SR950 and consider its use in IT solutions.

Changes in the March 24, 2023 update:

The power supplies in the SR950 do not support 240Vdc in China - Power supplies section

Introduction

The Lenovo ThinkSystem SR950 server is designed for your most demanding, mission-critical workloads, such as in-memory databases, large transactional databases, batch and real-time analytics, ERP, CRM, and virtualized server workloads. Now supporting second-generation Intel Xeon Scalable Family processors, the powerful 4U ThinkSystem SR950 can grow from two to eight processors, and with 96 DIMM sockets, supports up to 24 TB of high-speed memory. The SR950 also now supports Intel Optane DC Persistent Memory for the ultimate in performance. The modular design of SR950 speeds upgrades and servicing with easy front or rear access to all major subsystems to maximize server availability.

The SR950 packs numerous fault-tolerant and high-availability features into a high-density, 4U rack-optimized design that reduces the space needed to support massive network computing operations and simplify servicing.

The following figure shows the Lenovo ThinkSystem SR950.

Figure 1. Lenovo ThinkSystem SR950

Did you know?

The SR950 server supports up to eight processors in a single 4U chassis. You can upgrade from a 2-socket system to an 8-socket system without having to replace the server enclosure or upgrade to a physically larger design. The SR950 offers enterprise scalability and advanced RAS features to support the most demanding mission-critical applications that require 24x7 operations.

Key features

The Lenovo ThinkSystem SR950 server is designed for your most demanding, CPU and memory intensive, mission-critical workloads, such as in-memory databases, large transactional databases, batch and real-time analytics, ERP, CRM, and virtualized server workloads. The powerful 4U ThinkSystem SR950 can grow from two to eight second-generation Intel Xeon Processor Scalable Family CPUs, delivering up to 36% total performance improvement over the first generation processor (based on Intel internal testing). The modular design of SR950 speeds upgrades and servicing with easy front and rear access to all major subsystems, to maximize server uptime.

Scalability and performance

The SR950 offers numerous features to boost performance, improve scalability, and reduce costs:

Supports second-generation Intel Xeon Processor Scalable processors
Dense server offering where up to 8 processors and 96 DIMMs are housed in only 4U of rack space.
Offers a simple upgrade path that enables the server to be initially configured with as few as two processors and then later be upgraded to up to eight processors simply by adding a compute tray and system boards.
Supports the Gold and Platinum level processors in the Intel Xeon Processor Scalable Family, including the "top bin" highest-performing 205 W processors available from Intel.
Up to eight processors, each with up to 28 cores and 56 threads (for a total of up to 448 threads) to maximize the concurrent execution of multithreaded applications.
Intelligent and adaptive system performance with Intel Turbo Boost Technology 2.0 allows processor cores to run at maximum speeds during peak workloads by temporarily exceeding processor TDP.
Intel Hyper-Threading Technology boosts performance for multithreaded applications by enabling simultaneous multithreading within each processor core, up to two threads per core.
Intel Virtualization Technology integrates hardware-level virtualization hooks that allow operating system vendors to better use the hardware for virtualization workloads.
Intel Speed Select Technology provides improvements in server utilization and guaranteed per-core performance service levels with more granular control over processor performance.
Intel Deep Learning Boost (Vector Neural Network Instruction set or VNNI) is designed to deliver significant, more efficient Deep Learning (Inference) acceleration for high-performance Artificial Intelligence (AI) workloads.
Intel Advanced Vector Extensions 512 (AVX-512) enable acceleration of enterprise-class workloads, including databases and enterprise resource planning (ERP).
Support for up to 96 TruDDR4 DIMMs operating at up to 2933 MHz means you have the fastest available memory subsystem and memory capacity of up to 24 TB using 96x 256 GB 3DS RDIMMs.
Supports 2933 MHz Performance+ memory DIMMs which allow configurations of 2 DIMMs per channel to operate at the 2933 MHz rated memory speed.
Supports the new Intel Optane DC Persistent Memory; up to 48 Data Center Persistent Memory Modules (DCPMMs) can be installed in conjunction with regular system memory. DCPMMs are up to 512 GB each, for a total of up to 24 TB of Persistent Memory.
With both Persistent Memory and RDIMMs installed, the server supports up to a total of 36 TB of memory, 24 TB of Persistent Memory + 12 TB of regular system memory.
Up to 24x 2.5-inch HDDs or SSDs provide a flexible and scalable all-in-one platform to meet your increasing demands.
Of the 24x drive bays, support for up to 12 NVMe PCIe SSDs maximizes drive I/O performance, in terms of throughput, bandwidth, IOPS, and latency.
The use of solid-state drives (SSDs) instead of, or along with, mechanical hard disk drives (HDDs), can improve I/O performance. An SSD can support up to 100 times more I/O operations per second (IOPS) than a typical HDD.
New high-speed RAID controllers provide 12 Gb SAS connectivity to the drive backplanes. A variety of RAID adapters are available, with cache up to 8 GB and support for 12 drives on a single controller.
Supports the Lenovo-patented M.2 adapter design for convenient operating system boot functions. Available M.2 adapters support either one M.2 drive, or two M.2 drives in a RAID 1 configuration, for the boot drive performance and reliability.
The server has a dedicated flexible LAN-on-motherboard (LOM) slot offering a variety of 10 GbE or Gigabit Ethernet adapters that do not occupy one of the standard PCIe slots.
A total of up to 17 rear-accessible PCIe slots: 14 general-purpose PCIe 3.0 slots plus slots dedicated to the LOM adapter and two ML2 adapters. In addition, the server has two internal slots for RAID or HBA adapters.
The server offers PCI Express 3.0 I/O expansion capabilities that improve the theoretical maximum bandwidth by almost 100% (8 GTps per link using 128b/130b encoding) compared to the previous generation of PCI Express 2.0 (5 GTps per link using 8b/10b encoding).

Availability and serviceability

The SR950 is based on a modular service model where all components and options can be removed from the front or rear of the system, even parts that are located in the center of the machine such as fans, memory DIMMs, and processors. The SR950 is designed for 99.99% availability.

Watch the following video to show how easy it is to service the SR950 server:
https://lenovopress.com/lp0899-thinksystem-sr950-ease-of-service-video

The SR950 provides many features to simplify serviceability and increase system uptime:

The server offers Single Device Data Correction (SDDC, also known as Chipkill), Adaptive Double-Device Data Correction (ADDDC, also known as Redundant Bit Steering or RBS), memory mirroring, and memory rank sparing for redundancy in the event of a non-correctable memory failure.
The server offers hot-swap drives, supporting RAID redundancy for data protection and greater system uptime.
The Dual M.2 Boot Adapter uses RAID-1 so that the two M.2 drives installed are configured as a redundant pair.
The server has up to four hot-swap N+N redundant power supplies to help keep the server operational in the event of a power supply or utility supply failure.
Each compute tray has 6 hot-swap N+1 redundant fans (a total of 12 fans when two compute trays are installed) to maximize availability for business-critical applications.
The power source-independent light path diagnostics functionality provides individual light path LEDs that lead the technician to failed (or failing) components, which simplifies servicing, speeds up problem resolution, and helps increase system availability.
The included LCD system information display panel provides greater diagnostic function by listing all error messages and VPD data needed for a service call, thereby speeding problem resolution and increasing system uptime.
Proactive Platform Alerts (including PFA and SMART alerts): Processors, voltage regulators, memory, internal storage (SAS/SATA HDDs and SSDs, NVMe SSDs, M.2 storage, and flash storage adapters), fans, power supplies, RAID controllers, ambient temperature, and subcomponent temperatures. Alerts can be surfaced through the XClarity Controller to managers such as Lenovo XClarity Administrator, VMware vCenter, and Microsoft System Center. These proactive alerts let you take appropriate actions in advance of possible failure, thereby increasing server uptime and application availability.
Solid-state drives (SSDs) offer more reliability than mechanical HDDs for greater uptime.
The built-in XClarity Controller continuously monitors system parameters, triggers alerts, and performs recovery actions in case of failures to minimize downtime.
Built-in diagnostics in UEFI, using Lenovo XClarity Provisioning Manager, speed up troubleshooting tasks to reduce service time.
Lenovo XClarity Provisioning Manager supports diagnostic functions and collects service data to USB key drive or remote CIFS share folder for troubleshooting, to reduce servicing time.
Auto-restart in the event of a momentary loss of AC power (based on power policy setting in the XClarity Controller service processor).
Support for the XClarity Administrator Mobile app running on a supported smartphone and connected to the server through the service-enabled USB port, enables additional local systems management functions.
Three-year or one-year customer-replaceable unit and onsite limited warranty, 9 x 5 next business day. Optional service upgrades are available.

Manageability and security

Powerful systems management features simplify local and remote management of the SR950:

The server includes an XClarity Controller (XCC) to monitor server availability and perform remote management. XCC Enterprise is included as standard, which enables remote KVM and remote media files (ISO and IMG image files), boot capture, and power capping.
Lenovo XClarity Administrator offers comprehensive hardware management tools that help to increase uptime, reduce costs, and improve productivity through advanced server management capabilities.
New UEFI-based Lenovo XClarity Provisioning Manager, accessible from F1 during boot, provides system inventory information, graphical UEFI Setup, platform update function, RAID Setup wizard, operating system installation function, and diagnostic functions.
Support for Lenovo XClarity Energy Manager which captures real-time power and temperature data from the server, and provides automated controls to lower energy costs.
Integrated Trusted Platform Module (TPM) 2.0 support enables advanced cryptographic functionality, such as digital signatures and remote attestation.
Supports Secure Boot to ensure that only a digitally signed operating system can be used. Supported with HDDs and SSDs as well as M.2 drives in the M.2 Adapter.
Industry-standard Advanced Encryption Standard (AES) NI support for faster, stronger encryption.
Intel Execute Disable Bit functionality can prevent certain classes of malicious buffer overflow attacks when combined with a supported operating system.
Intel Trusted Execution Technology provides enhanced security through hardware-based resistance to malicious software attacks, allowing an application to run in its own isolated space, protected from all other software running on a system.

Energy efficiency

The SR950 offers the following energy-efficiency features to save energy, reduce operational costs, and increase energy availability:

The server can be used in environments up to ASHRAE A4 with ambient temperatures up to 45 °C.
The server is Energy Star 3.0 compliant.
Energy-efficient planar components help lower operational costs.
High-efficiency power supplies with 80 PLUS Platinum certifications
Intel Intelligent Power Capability powers individual processor elements on and off as needed, to reduce energy draw.
Low-voltage 1.2 V DDR4 memory offers energy savings compared to 1.35 V and 1.5 V DDR3 DIMMs.
Solid-state drives (SSDs) consume as much as 80% less power than mechanical 2.5-inch HDDs.
The server uses hexagonal ventilation holes, which can be grouped more densely than round holes, providing more efficient airflow through the system.
Optional Lenovo XClarity Energy Manager provide advanced data center power notification, analysis, and policy-based management to help achieve lower heat output and reduced cooling needs.

Components and connectors

The following figure shows the front of the SR950 server.

Figure 2. Front view of the Lenovo ThinkSystem SR950

The following figure shows the rear of the SR950 server. The server has up to 17 PCIe slots, depending on the riser cards selected, and the number of processors installed.

Figure 3. Rear view of the Lenovo ThinkSystem SR950

The processors and other components are located on compute trays, the Upper Compute Tray and the Lower Compute Tray. Each compute tray holds up to four processors on two system boards. The compute trays are accessible from the front of the server, as shown in the following figure.

Figure 4. Lower Compute Tray partially removed

The server has one or two compute trays. Each compute tray contains:

One or two compute system boards, each comprising:
- Two processors
- 24 DIMMs
Six hot-swap fans, accessible even when the compute tray is installed
12x 2.5-inch hot-swap drive bays
One PCIe slot reserved for a RAID adapter for internal SAS/SATA drives

The following figure shows the rear of the compute tray with its two compute system boards, one of them removed.

Figure 5. Compute tray with two compute system boards

The compute system board is shown in the following figure. Each system board holds two processors and 24 DIMM sockets, 12 per processor. The system board also has connections for the NVMe ports used to connect to the PCIe NVMe drive bays at the front of the server.

Figure 6. Compute system board

Processors installed in the compute system boards are numbered as shown in the following figure.

Figure 7. Processor numbering (viewed from the rear of the compute trays)

For some four-socket storage-rich configurations, a storage tray is used in the upper tray area instead of a compute tray. The following figure shows the key components of the storage tray.

Figure 8. Storage tray

All slots and ports at the rear of the server are housed in the I/O tray as shown in the following figure.

Figure 9. I/O tray

System architecture

The following figure shows the architecture of the SR950 at a high level. The system boards with processors and memory are installed in compute trays along with the drive bays and storage adapter. The I/O board houses all onboard PCIe slots as well as the slots for the riser cards the offer the remaining PCIe slots.

Figure 10. SR950 architecture

The specific connections between system boards, processors and PCIe slots are dependent on the server configuration. This is described in detail in the Server configurations section. Specific processor-slot connections based on each configuration are described in the Slot availability by server configuration section.

The following figure shows System board 1 where processors 1 and 2 are installed. The slots on the I/O board are connected directly to these processors (or indirectly through the Intel C624 Platform Controller Hub, PCH).

Figure 11. System board 1 connections to the I/O board

The processors within the chassis communicate via UltraPath Interconnect (UPI) ports. These ports allow high speed communication between the CPUs. UPI replaces the Intel QuickPath Interconnect (QPI). One UPI link connects the two processors on each system board (UPI 3) and the other two UPI links are used to connect the other processors in adjacent boards to form four-way and larger systems.

In four-processor configurations, the design of the UPI links is either in a mesh or a ring topology. When a processor has 3 UPI ports, it can be used in a 4-socket mesh configuration where all processors are directly connected to every other processor. 5200 Series processors only have 2 UPI ports (ports 1 and 2) and therefore do not support mesh topology. These two UPI configurations are shown in the following figure.

Figure 12. Mesh (left) and Ring (right) topologies for four-socket configurations

Ring topology with 8200 Series processors: As discussed in the Server configurations section, the “Four-Socket Upgradable / Storage Rich” configuration is a four-socket configuration that uses a Ring topology but uses 8200 Series processors.

The server supports an 8-socket configuration (8200 Series processors required). The following figure shows the UPI links used to connect eight processors.

Figure 13. 8-socket topology

Refer to the processor options table for information on the number UPI links each processor option has for the SR950 system.

Server configurations

The SR950 supports five different configurations, depending on the desired number of processors, drive bays, PCIe slots, and upgradability to an 8-socket configuration.

Notes:

The configurations listed here represent Lenovo's recommendations regarding the selection of compute system boards, I/O riser cards, and NVMe drive bays to maximize the available resources. You can select fewer drives and lower slot counts by using lower-slot-count riser cards to meet application requirements.
The use of only two, three or six processors in configurations where supported will reduce the available I/O slots and NVMe drive bays. This is described in details in the Internal storage section and the I/O expansion options section.
Configurations 1 and 2 support either two, three or four processors, however the use 5200 Series processors requires that four processors be selected. Two or three 5200 Series processors are not supported in these configurations due to the way the processors are connected.
Configurations 3 and 4 are designed to be easily upgradable to 8 processors. As a result, 8200 Series processors are required.

When building a server in the configurator, the feature codes in the following table are key to selecting the right configuration.

Table 1. Feature codes for selecting base server configurations
Part number	Feature code	Description
CTO only	BMQC	SR950 2S to 8S Base v2 (Upgrade to 8S using the 4S Performance to 8S upgrade kit)
CTO only	AUNY	SR950 2S to 4S Base (Upgrade to 8S using the 4S Performance to 8S upgrade kit)
CTO only	BMQE	SR950 2S to 4S Base v2 (Simple upgrade without needing the upgrade kit)
CTO only	AUKF	SR950 2S to 8S Base (Simple upgrade without needing the upgrade kit)
CTO only	AX3Y	12 Hard Drive Maximum System
CTO only	AX3Z	24 Hard Drive Maximum System

Upgrades: Configurations 1-4 can be upgraded to an 8-socket configuration (Configuration 5) as described in the Server configuration upgrades section.

Table 2. Server configurations
	Configuration 1. Four-Socket Performance The highest-performing 4-socket server, at the lowest cost, when up to 12 drives is enough, and without the need for a simple upgrade. Supports 2, 3 or 4 processors (if using 5200 Series processors, 4 processors must be selected). 4 sockets configured in mesh topology for best performance. 12 drive bays, 6 of which support NVMe drives (4 NVMe with 3 processors, and 2 NVMe with 2 processors). 15 rear PCIe slots with 4 processors (10 rear slots with 3 processors, and 6 rear slots with 2 processors). Filler installed in the upper tray area. Can be upgraded to 8S but requires the 4S Performance to 8S Upgrade Kit, additional components, and Lenovo hardware installation. Select feature codes AUNY and AX3Y.
	Configuration 2. Four-Socket Performance/ Storage Rich The highest-performing 4-socket server, when needing more than 12 drives without the need for a simple upgrade. Supports 2, 3 or 4 processors (if using 5200 Series processors, 4 processors must be selected). 4 processors configured in mesh topology for best performance. 24 drives, 12 of which support NVMe drives (8 NVMe with 3 processors, and 4 NVMe with 2 processors). 13 rear PCIe slots with 4 processors (9 rear slots with 3 processors, and 5 rear slots with 2 processors). Storage tray installed in the upper tray area. Can be upgraded to 8S but requires the 4S Performance to 8S Upgrade Kit, additional components, and Lenovo hardware installation. Select feature codes AUNY and AX3Z.
	Configuration 3. Four-Socket Upgradable The lowest-cost 4-socket server capable of a simple upgrade to 8 socket, and when 12 drive bays with 4 processors is enough storage. 2 or 4 processors, must be 8200 Series processors. 4 processors in a ring topology. 12 drive bays including up to 6 NVMe (2 NVMe with 2 processors). Up to 15 rear PCIe slots with 4 processors (6 rear slots with 2 processors). Filler installed in the upper tray area. Upgradable to 8-socket with an additional compute tray and two system boards. Once upgraded, the system will have 24 drive bays. Select feature codes AUKF and AX3Y.
	Configuration 4. Four-Socket Upgradable / Storage Rich 4-socket server capable of a simple upgrade to 8-socket, and needing more than 12 drive bays with 4 processors. Requires 4 processors, must be 8200 Series. 4 processors in a ring topology. 24 drive bays (including up to 4 NVMe). 10 rear PCIe slots. Two compute trays, with one system board in each tray. Upgradable to 8-socket with two additional system boards. Once upgraded, the server will support 12 NVMe drives. Select feature codes AUKF and AX3Z.
	Configuration 5. Eight-Socket Storage Rich Full featured 6- or 8-socket server with up to 24 drive bays, and the maximum number of PCIe x16 slots. Requires 6 or 8 processors, must be 8200 Series. 24 drive bays, 12 of which support NVMe drives (8 NVMe with 6 processors). 17 rear PCIe slots (13 rear slots with 6 processors installed). Two compute trays each with two system boards. Select feature codes AUKF and AX3Z.

The following table summarizes the configurations.

Table 3. SR950 server configurations
Configuration	Supported processors	Lower Tray	Upper Tray	Processor Topology	Maximum storage	Maximum PCIe slots	Upgrade to 8S?
4S Performance	2 or 4 Any processor†	Compute Tray	Filler	4S Mesh*	12 drives (6 NVMe)	15	Yes‡
4S Performance/ Storage Rich	4 Any processor	Compute Tray	Storage Tray	4S Mesh*	24 drives (12 NVMe)	13	Yes‡
4S Upgradable	2 or 4 8200 Series only	Compute Tray	Filler	4S Ring	12 drives (6 NVMe)	15	Yes**
4S Upgradable/ Storage Rich	4 8200 Series only	Compute Tray with 1 system board	Compute Tray with 1 system board	4S Ring	24 drives (4 NVMe)	10	Yes**
8S Storage Rich	8 8200 Series only	Compute Tray	Compute Tray	8S	24 drives (12 NVMe)	17	Not applicable

† If using 5200 Series processors, then 4 processors must be selected. Using two 5200 Series processors is not supported.
* Mesh topology requires a processor with 3 UPI connections; Processors such as the 5200 series with only 2 UPI connections will operate in Ring topology. See the table in the Processor options section.
‡ Upgrade requires the ThinkSystem SR950 4S Performance to 8S Upgrade Kit, 4TA7A10969. See the Server configuration upgrades section below.
** After upgrade, maximum storage will be 24 drives (12 NVMe), and up to 17 total PCIe slots available (may require replacement riser cards)

For details about PCIe slot availability based on each server configuration, see Slot availability by server configuration.

Server configuration upgrades

This section describes the system upgrades you can perform in the field. The upgrades are based on the configurations that are described in the Server configurations section.

Key components in the upgrades are listed in the following table.

Table 4. System upgrades
Part number	Feature code	Description
4TA7A10969	Various	ThinkSystem SR950 4S Performance to 8S Upgrade Kit
7XG7A03955	B4Y1	ThinkSystem SR950 2-CPU, 24 DIMM Compute System Board
4C87A80579	Various	ThinkSystem SR950 Upper Compute Tray Kit with 19k fans, 6-8S Upgrade Gen2 v2
4C87A37049	Various	ThinkSystem SR950 Upper Compute Tray Kit with 19k fans, 6-8S Upgrade Gen2

4S Performance to 8S Upgrade Kit, 4TA7A10969, includes the following components:

4 mid-plane UPI & sideband interconnects

The Compute System Board option, 7XG7A03955, includes the following components:

One compute system board v2, without processors or memory

The Upper Compute Tray Kit, 4C87A37049, includes the following components:

1x compute tray with 12 drive bays and 1 slot for storage adapter
6x 19K RPM system fans
1x compute system board
3x 4-bay drive bay fillers

Note: The Upper Compute Tray Kit does not include drive backplanes

The following table describes the before and after configurations and the components you will need to order to achieve the desired configuration.

Table 5. Upgrades to Server configurations (See Server configurations section for configuration definitions)
Initial configuration	Desired upgraded configuration	Parts to order and install
Configuration 1 (Four-Socket Performance) 2 processors installed	Configuration 1 (Four-Socket Performance) 4 processors installed	1x Compute System Board, 7XG7A03955 2x processor options (match installed) Memory DIMMs (matching installed is recommended)
Configuration 1 (Four-Socket Performance) 3 processors installed	Configuration 1 (Four-Socket Performance) 4 processors installed	1x processor option (match installed) Memory DIMMs (matching installed is recommended)
Configuration 1 (Four-Socket Performance) 4 processors installed (Includes SAP HANA models and configurations)	Configuration 5 (Eight-Socket Storage Rich) 8 processors installed	1x 4S Performance to 8S Upgrade Kit, 4TA7A10969 1x Upper Compute Tray Kit v2, 4C87A37049* 1x Compute System Board, 7XG7A03955 4x 82xx processor options (match installed)** Memory DIMMs (matching installed is recommended) Drive backplanes for upper compute tray RAID adapter or HBA for upper compute tray Drives for upper compute tray Additional/replacement PCIe riser cards Lenovo Basic Hardware Installation services
Configuration 2 (Four-Socket Performance/ Storage Rich) 4 processors installed (Includes customized SAP HANA models)	Configuration 5 (Eight-Socket Storage Rich) 8 processors installed
Configuration 2 (Four-Socket Performance/ Storage Rich) 2 processors installed	Configuration 2 (Four-Socket Performance/ Storage Rich) 4 processors installed	1x Compute System Board, 7XG7A03955 2x processor options (match installed) Memory DIMMs (matching installed is recommended)
Configuration 2 (Four-Socket Performance/ Storage Rich) 3 processors installed	Configuration 2 (Four-Socket Performance/ Storage Rich) 4 processors installed	1x processor option (match installed) Memory DIMMs (matching installed is recommended)
Configuration 3 (Four-Socket Upgradable) 2 processors installed	Configuration 3 (Four-Socket Upgradable) 4 processors installed	1x Compute System Board, 7XG7A03955 2x processor options (match installed) Memory DIMMs (matching installed is recommended)
Configuration 3 (Four-Socket Upgradable) 4 processors installed	Configuration 5 (Eight-Socket Storage Rich) 8 processors installed	1x Upper Compute Tray Kit v2, 4C87A37049* 1x Compute System Board, 7XG7A03955 4x 82xx processor options (match installed)* Memory DIMMs (matching installed is recommended) Drive backplanes for upper compute tray RAID adapter or HBA for upper compute tray Drives for upper compute tray Additional/replacement PCIe riser cards
Configuration 4 (Four-Socket Upgradable / Storage Rich) 4 processors installed	Configuration 5 (Eight-Socket Storage Rich) 8 processors installed	2x Compute System Board, 7XG7A03955 4x 82xx processor options (match installed)** Memory DIMMs (matching installed is recommended) Additional/replacement PCIe riser cards
Configuration 5 (Eight-Socket Storage Rich) 6 processors installed	Configuration 5 (Eight-Socket Storage Rich) 8 processors installed	2x processor option (match installed) Memory DIMMs (matching installed is recommended)

* The Upper Compute Tray Kit includes 1x Compute System Board
** 8-socket configurations must use Intel Xeon Platinum (82xx) processors

Configuration notes:

The added processors must match the processors already installed.
When upgrading to Configuration 5 (8-socket configuration), Platinum-level (82xx) processors must be used, as listed in the Processor options section. Gold processors do not support 8-socket configurations.
For best performance, each processor added should match the memory configuration of existing processors (number & size of DIMMs)
The ThinkSystem SR950 4S Performance to 8S Upgrade Kit, 4TA7A10969, contains the mid-chassis interconnects needed for an 8-socket configuration, replacing the existing interconnects. Lenovo installation is highly recommended due to the complexity of this upgrade. Installation cost will vary depending on location and scope of work.

SR950 upgrades from first-generation processors

It is supported to upgrade an SR950 server with first-generation Intel Xeon Scalable processors to second-generation processors.

The process is as follows:

Order up to 8 processor options to replace the processors you have installed. If desired, order Intel Optane DC Persistent Memory modules.
Before swapping hardware, upgrade all system firmware to the latest levels, 19A or later
Replace the processors
Install Intel Optane DC Persistent Memory (if ordered)

Note: The ASHRAE support and environmental restrictions as outlined in the SR950 (Xeon SP Gen 1) product guide still apply to an upgraded server. See the following link for details:
https://lenovopress.com/lp0647#operating-environment

Standard specifications

The following table lists the standard specifications.

Table 6. Standard specifications
Components	Specification
Machine type	7X11 - 1-year warranty 7X12 - 3-year warranty 7X13 - SAP HANA configurations with 3-year warranty
Form factor	4U rack
Processor	Up to eight second-generation Intel Xeon Platinum Scalable Processors or up to four second-generation Intel Xeon Gold Scalable Processors (formerly codenamed "Cascade Lake"). Supports processors with up to 28 cores, core speeds up to 3.8 GHz, and TDP ratings up to 205W. Processors and memory are located on system boards installed in compute trays: 2 processors per system board, 2 system boards per compute tray, and 2 compute trays in the server.
Chipset	Intel C624 chipset (formerly codenamed "Lewisburg")
Memory	Up to 96 DIMM sockets (12 DIMMs per processor, installed on each system board). Lenovo TruDDR4 RDIMMs, LRDIMMs and 3DS RDIMMs are supported. Each processor has 6 memory channels, with 2 DIMMs per channel. DIMM slots are shared between standard system memory and persistent memory. DIMMs are available in three speeds: 2666 MHz, 2933 MHz and Performance+ 2933 MHz. Performance+ DIMMs support 2933 MHz with two DIMMs installed per channel (2DPC), whereas 2933 MHz DIMMs support 2933 MHz with only 1 DIMM per channel (1DPC).
Persistent memory	Supports up to 48 Intel Optane DC Persistent Memory modules (DCPMMs) installed in the DIMM slots. Persistent memory is installed in combination with system memory DIMMs. Runs at 2666 MHz.
Memory maximums	With system memory DIMMs: Up to 24TB with 96x 256GB 3DS RDIMMs and eight processors (3TB per processor) With Persistent Memory in memory mode: Up to 24TB of Persistent Memory with 48x 512GB Intel Optane DC Persistent Memory modules and eight processors (3TB per processor) With Persistent Memory in AppDirect mode: Up to 36TB total memory (24TB of Persistent Memory using 48x 512GB DCPMMs + 12TB of system memory using 48x 256GB 3DS RDIMMs and eight processors) (4.5TB per processor) Note: Support of more than 1TB per processor (more than 4TB for a 4-processor system or 8TB for an 8-processor system) requires M-suffix or L-suffix processors. M-suffix processors support up to 2TB of memory per processor. L-suffix processors support up to 4.5TB of memory per processor. These calculations include any Persistent Memory installed. See the Processor options section for information.
Memory protection	ECC, SDDC (for x4-based memory DIMMs), ADDDC (for x4-based memory DIMMs), memory mirroring, and memory sparing.
Disk drive bays	Up to 24x 2.5" hot-swap SAS/SATA drive bays. With AnyBay backplanes, 12 bays can be configured to support PCIe NVMe drives.
Maximum internal storage	737.28TB using 24x 30.72TB 2.5-inch SAS/SATA SSDs 96TB using 12x 8TB 2.5-inch NVMe SSDs 57.6TB using 24x 2.4TB 2.5-inch HDDs
Storage controller	No embedded RAID 12 Gb SAS/SATA RAID adapters: RAID 530i (cacheless) supports RAID 0, 1, 10, 5, 50 RAID 730-8i with 1GB cache supports RAID 0, 1, 10, 5, 50 RAID 730-8i with 2GB flash-backed cache supports RAID 0, 1, 10, 5, 50, 6, 60 RAID 930-8i with 2GB flash-backed cache supports RAID 0, 1, 10, 5, 50, 6, 60 RAID 930-16i with 4GB flash-backed cache supports RAID 0, 1, 10, 5, 50, 6, 60 RAID 940-8i with 4GB flash-backed cache supports RAID 0, 1, 10, 5, 50, 6, 60 RAID 940-16i with 4GB or 8GB flash-backed cache supports RAID 0, 1, 10, 5, 50, 6, 60 12 Gb SAS/SATA non-RAID: 430-8i or 440-8i HBAs 430-16i or 440-16i HBAs
Optical and tape bays	No internal bays.
Network interfaces	Integrated 10Gb Ethernet controller, based on the Intel Ethernet Connection X722. The server supports 1 of 6 available LOM adapters, providing either 2- or 4-port Gigabit Ethernet, 2- or 4-port 10 GbE with SFP+ connections or 2- or 4-port 10 GbE with RJ45 connections. One port can optionally be shared with the XClarity Controller (XCC) management processor for Wake-on-LAN and NC-SI support. 1 or 2 ML2 adapter slots for additional network adapters.
PCI Expansion slots	Up to 17 PCIe 3.0 rear-accessible slots: Slots 1-4 on a riser, one of: Riser with 4x PCIe 3.0 x16 slots, all full-height half-length, all 75W Riser with 2x PCIe 3.0 x16 slots, all full-height half-length, both 75W Riser with 4x PCIe 3.0 x8 slots, full-height half-length, all 75W Slot 5: PCIe 3.0 x16, low-profile, 75W Slot 6: PCIe 3.0 x16, low-profile, 75W Slot 7: PCIe 3.0 x8, low-profile, 75W Slot 8: PCIe 3.0 x16 ML2, low-profile (supports NC-SI) Slot 9: PCIe 3.0 x8 LOM adapter slot, low-profile (supports NC-SI) Slots 10-15 on a riser, one of: Riser 5x16+ML2: Five PCIe 3.0 x16 slots, all full-height half-length, all 75W One PCIe 3.0 x16 ML2 slot, full-height half-length, 30W (no NC-SI support) Riser 2x16: Two PCIe 3.0 x16 slots, all full-height half-length, both 75W Riser 4x8: Four PCIe 3.0 x8 slots, full-height half-length, all 75W Slot 16-17 on a riser: PCIe 3.0 x8 low profile, 75W PCIe 3.0 x8 low profile, 75W Additional internal PCIe slots: One or two PCIe 3.0 x8 slots for storage adapters M.2 adapter slot
Ports	Front: Two USB 2.0 ports (one also for XCC local management), and one VGA video port. Rear: Two USB 3.0, one VGA video, one DB-9 serial, and one 1 GbE RJ-45 systems management. The serial port can be shared with the XCC for serial redirection functions. Only one VGA port can be used at a time.
Cooling	Up to 12 redundant hot-swap single-rotor fans, 6 in each compute tray. Each tray has N+1 fan redundancy.
Power supply	Up to four redundant hot-swap 1100 W or 1600 W power supplies (80 PLUS Platinum certified), supporting 200-240 V AC input. The 1100 W power supply also supports 100-127V AC input supply with a reduced capacity of 1050 W. No support for 240 V DC.
Hot-swap parts	Drives, power supplies, and fans.
Video	G200 graphics with 16 MB memory with 2D hardware accelerator, integrated into the XClarity Controller. Maximum resolution is 1920x1200 32bpp at 60Hz.
Security features	Power-on password, administrator's password, Trusted Platform Module (TPM), supporting TPM 1.2 or TPM 2.0. In China only, optional Trusted Cryptographic Module (TCM).
Systems management	XClarity Controller embedded management, XClarity Administrator centralized infrastructure delivery, XClarity Integrator plugins, and XClarity Energy Manager centralized server power management. XClarity Controller Enterprise functionality standard with the SR950. Light path diagnostics for local failure detection and reporting, with LCD diagnostic pull-out panel.
Operating systems	Microsoft Windows Server, Red Hat Enterprise Linux, SUSE Linux Enterprise Server, VMware ESXi. See the Operating systems section for specifics.
Limited warranty	One year or three-year (model dependent) customer-replaceable unit (CRU) and onsite limited warranty with 9x5 next business day (NBD).
Service and support	Optional service upgrades are available through Lenovo Services: 4-hour or 2-hour response time, 6-hour fix time, 1-year or 2-year warranty extension, software support for Lenovo hardware and some third-party applications.
Dimensions	Width: 447 mm (17.6 in.), height: 176 mm (6.9 in.), depth: 851 mm (33.5 in.). See Physical and electrical specifications for details.
Weight	Minimum configuration: 32.6 kg (71.9 lb.), Maximum configuration: 58.7 kg (129.4 lb.)

The server is shipped with the following items:

Rail kit
Documentation flyer
Power cords (model and region dependent)

Models

ThinkSystem SR950 models can be configured by using the Lenovo Data Center Solution Configurator (DCSC).

Configure-to-order (CTO) models are used to create models with factory-integrated server customizations. For CTO models, two types of base CTO models are available for the SR950 as listed in the columns in the following table:

General purpose base CTO models are for general business (non-HPC) and is selectable by choosing General Purpose mode in DCSC.
AI and HPC base models are intended for Artificial Intelligence (AI) and High Performance Computing (HPC) configurations and solutions are enabled using the AI & HPC Hardware - ThinkSystem Hardware mode in DCSC. These configurations, along with Lenovo EveryScale Solutions, can also be built using System x and Cluster Solutions Configurator (x-config). Tip: Some HPC and AI models are not listed in DCSC and can only be configured in x-config.

Preconfigured server models may also be available for the SR950, however these are region-specific; that is, each region may define their own server models, and not all server models are available in every region.

The following table lists the base CTO models of the ThinkSystem SR950 server.

Table 7. Base CTO models
Machine Type/Model General purpose	Machine Type/Model for AI and HPC	Description
7X12CTO1WW	7X12CTOLWW	ThinkSystem SR950 – 3-year warranty
7X11CTO1WW	7X11CTOLWW	ThinkSystem SR950 – 1-year warranty
7X13CTO1WW	None	ThinkSystem SR950 – SAP HANA configurations with 3-year warranty

The following tables list the available models, grouped by region.

Models for Australia and New Zealand
Models for South East Asian regions (ASEAN)
Models for EMEA regions
Models for India
Models for Japan
Models for USA and Canada

Refer to the Specifications section for information about standard features of the server.

Common to all models:

All models include a rail kit.