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Máy chủ IBM System x3850 X6 - 624154A

Model: x3850X6          Mã P/N: 624154A          Thương hiệu: Lenovo/IBM
- CPU: 2x Compute Book Xeon 18C E7-8860v4 140W 2.2GHz/45M - RAM: 4x16GB - HDD: O/Bay HS 2.5in SAS/SATA - DVD: Option (Chưa kèm) - RAID: 12 Gb SAS/SATA RAID 0, 1, or 10 with ServeRAID M5210; optional upgrades to RAID 5 and 50 are available (zero-cache; 1 GB non-backed cache; 1 GB or 2 GB flash-backed cache). Upgrades to RAID 6 or 60 available for M5210 with 1 GB or 2 GB upgrades. - Network Controller : Mezzanine LOM (ML2) slot for dual-port 10 GbE cards with SFP+ or RJ-45 connectors or quad-port GbE cards with RJ-45 connectors. See the Ethernet column in the Standard models table. Dedicated 1 GbE port for systems management. - PSU: 2x900W (all 80 PLUS Platinum certified) - Form: 4U

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Form factor/height 4U Rack
Processor (std/max) Xeon 18C E7-8860v4 140W 2.2GHz/45MB/ up to 1866MHz DDR4 memory access,24 cores per processor
Memory (std/max) Up to 6TB, 96 DIMM slots supporting 64GB LRDIMMs
Disk bays Up to eight 2.5-inch Serial Attached SCSI (SAS) hard disk drives (HDDs) or SAS solid state drives (SSDs);or up to sixteen 1.8-inch eXFlash SSDs or up to 4 NVMe PCIe SSDs
RAID support RAID 0, 1, 10 standard; optional RAID 5, 6, 50, 60
Power supply (std/max) Up to four common 1400W or 900W AC or 4 x 750W DC
Hot-swap components Half-length I/O Books, Full-length I/O Books, power supplies, fans, hard disk drives, SSDs
Network interface controller (NIC)
Trusted platform module (TPM)		 One ML2 socket; ML2 card choices include: 4 x 1GbE copper or 2 x 10GbE SFP+ or 2 x 10GbE 10BaseT; 4 x 10GbE; 2 x 40GbE/FDR VPI adapter; Dedicated 1GbE on-board management port
Expansion Slots Up to 11 PCIe; Gen3 (up to 11), Gen 2 (up to 2), up to five x16 slots; up to six full-length, full-height
Maximum internal storage Up to 8 x 2.5-inch SAS/SATA HDDs or up to 8 x 2.5-inch SSDs or up to 16 x 1.8-inch eXFlash SSDs or up to four x 2.5-inch NVMe PCIe SSDs
Energy-efficiency compliance ENERGY STAR® compliance (model dependent); up to 40ºC operating temp; 2 fan zones with up to 6 fans
Systems management Lenovo XClarity, Alert on LAN 2, automatic server restart, ServerGuide, IMM2, light path diagnostics (independently powered), Wake on LAN, Dynamic System Analysis, Predictive Failure Analysis on storage, processors, adapter slots, VRMs, fans, power supplies and memory
Operating systems supported Microsoft Windows Server, Red Hat Enterprise Linux Server, SUSE Linux Enterprise Server, VMware vSphere Hypervisor
Limited warranty 3-year customer replaceable unit and onsite service, next business day 9×5, service upgrades available

Abstract

The Lenovo System x3850 X6 server, machine type 6241, is a four-socket 4U rack-mounted server that represents the sixth generation of the Enterprise X-Architecture. Now with Intel Xeon E7 v4 processors, the x3850 X6 delivers fast application performance, is based on an agile system design, and is a resilient platform that is needed for mission-critical databases, enterprise applications, and virtualized environments.

This product guide provides essential pre-sales information to understand the x3850 X6 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 x3850 X6 and consider its use in IT solutions.

China customers: For China customers and sellers, we also have the Lenovo System x3850 X6 and x3850 X6 Essential product guide which includes the x3850 X6 Essential offering.

Change History

Changes in the January 17 update:

New Intel S3250 Enterprise Entry SATA SSDs – Internal drive options section

New PM863a Enterprise Entry SATA SSDs – Internal drive options section

New 32GB TruDDR4 LRDIMM Memory option (limited processor support) – Memory options section

New Emulex VFA5.2 ML2 2×10 GbE SFP+ Adapter with FCoE/iSCSI – Network adapters section

Removed withdrawn compute books with E7 v2 processors

Removed withdrawn network adapters:

Emulex VFA5 ML2 Dual Port 10GbE SFP+ Adapter, 00D1996

Emulex VFA5 2×10 GbE SFP+ PCIe Adapter, 00JY820

Removed withdrawn network adapter FoD upgrades:

Emulex VFA5 ML2 FCoE/iSCSI License (FoD), 00D8544

Emulex VFA5 FCoE/iSCSI SW for PCIe Adapter (FoD), 00JY824

Qlogic 8200 VFA FCoE/iSCSI License (FoD), 00Y5624

Emulex VFA III/IIIr FCoE/iSCSI License (FoD), 95Y3760

Removed withdrawn HDDs:

500GB 7.2K 6Gbps NL SATA 2.5″ G3HS HDD, 00AJ136

300GB 15K 12Gbps SAS 2.5″ G3HS 512e HDD, 00NA221

600GB 15K 12Gbps SAS 2.5″ G3HS 512e HDD, 00NA231

900GB 10K 12Gbps SAS 2.5″ G3HS 512e HDD, 00NA251

1.2TB 10K 12Gbps SAS 2.5″ G3HS 512e HDD, 00NA261

Removed withdrawn GPU:

NVIDIA Quadro M6000, 00KH377

Removed withdrawn embedded virtualization:

USB Memory Key for VMware ESXi 5.1 Update 2, 00ML233

Introduction

The Lenovo System x3850 X6 server, machine type 6241, is a four-socket 4U rack-mounted server that represents the sixth generation of the Enterprise X-Architecture. Now with Intel Xeon E7 v4 processors, the x3850 X6 delivers fast application performance, is based on an agile system design, and is a resilient platform that is needed for mission-critical databases, enterprise applications, and virtualized environments.

The x3850 X6 packs numerous fault-tolerant and high-availability features into a high-density, 4U rack-optimized lid-less package that helps reduce the space that is needed to support massive network computing operations and simplify servicing. The x3850 X6 supports up to four Intel Xeon E7 high-performance processors and up to 6 TB of memory.

Suggested use: mission-critical scalable databases, business analytics, virtualization, enterprise applications, and cloud applications.

The following figure shows the Lenovo System x3850 X6.

IBM System x3850 X6 v4 -01

Figure 1. Lenovo System x3850 X6, machine type 6241

Did you know?

The x3850 X6 server employs a lid-less design where all serviceable components are front- and rear-accessible. In addition, each major subsystem is implemented as modular “book” design, such as the Compute Books and I/O Books. This configuration means that components are easy to upgrade and service, which translates to greater uptime of applications to your users. The x3850 X6 offers enterprise scalability and advanced RAS features to support the most demanding mission-critical applications that require 24×7 operations.

Key features

The increasing demand for cloud-computing and analytics workloads by enterprises to meet social, mobile, and Big Data requirements drives innovation to find new ways to build informational systems. Clients are looking for cost-optimized fit-for-purpose IT solutions that manage large amounts of data, easily scale performance, and provide enterprise class reliability.

Built on decades of innovation, Lenovo introduces the sixth generation of Enterprise X-Architecture technology, Lenovo X6 servers. Lenovo X6 servers are fast, agile, and resilient:

Fast application performance means immediate access to actionable information.

Agile system design helps to reduce acquisition costs and provide the ability to upgrade processor and memory technology at each refresh within the same chassis.

Resilient platforms maximize application uptime and promote easy integration in virtual environments.

Lenovo X6 servers continue to lead the way as the shift toward mission-critical scalable databases, business analytics, virtualization, enterprise applications, and cloud-computing applications accelerates.

Fast application performance

The server offers numerous features to boost performance:

Based on the Intel Xeon E7 family of processors:

Models based on E7-4800 v4 and E7-8800 v4 processors

Also available are models based on E7 v3 processors

Supports up to four E7 v4 processors with a total of 96 cores and 192 threads to maximize the concurrent running of multi-threaded applications.

Improves productivity by offering superior system performance with processors up to 24 cores, core frequencies up to 3.2 GHz core speeds, L3 cache of up to 60 MB, and three QPI interconnect links at up to 9.6 GTps.

Supports DDR4 memory at speeds up to 1866 MHz, or DDR3 memory at speeds up to 1600 MHz

Supports up to 96 DIMM sockets, with 24 DIMMs per processor.

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 going beyond processor thermal design power (TDP).

Intel Hyper-Threading Technology boosts performance for multi-threaded applications by enabling simultaneous multi-threading 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 Advanced Vector Extensions (AVX) improves floating-point performance for compute-intensive technical and scientific applications.

Supports a 12 Gbps SAS RAID portfolio.

The usage of solid-state drives (SSDs) instead of, or along with, traditional spinning 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.

Optional support for high-performance PCIe-attached NVMe Flash Storage solid-state drives (SSDs) can significantly improve I/O performance.

PCI Express 3.0 I/O adapter slots 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).

With Intel Integrated I/O Technology, the PCI Express 3.0 controller is integrated into the Intel Xeon processor. This integration helps reduce I/O latency and increase overall system performance.

Support for up to two graphics processing units (GPUs) and co-processors to maximize computing power.

Energy-efficient electronic components help lower operational costs, including highly efficient 900 W AC and 1400 W AC power supplies with 80 PLUS Platinum certification.

Agile system design

The server provides many scalability and flexibility features:

Innovative module “book” design for each of the three subsystems: Compute Books, Storage Book, and I/O Books. Front and rear access means that you can easily scale the system by adding components without removing the entire server from the rack.

The modular book design also allows clients to create the configuration that fits their application and environment needs, which reduces acquisition costs while giving them the flexibility to grow and modify their configuration later.

The book design also means that subsystem upgrades are simpler, quicker to perform, and have a lower impact on the rest of the server.

Using 64 GB LRDIMMs, the server supports up to 6 TB of memory.

Up to 16x 1.8-inch SSD bays, or up to eight 2.5-inch bays, provide a flexible and scalable all-in-one platform to meet your increasing demands.

Offers up to 11 PCIe slots plus a dedicated Mezzanine LOM (ML2) adapter slot. Most slots are PCIe 3.0 to maximize I/O scalability.

PCIe slots are implemented in I/O Books to maximize modularity. Choose from Half-length I/O Books or Full-length I/O Books, depending on the adapters that you need to deploy.

Most components are common between the four-socket x3850 X6 and eight-socket x3950 X6, making for a simple upgrade path with minimal parts on the floor.

Resilient platform

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

Upward Integration Modules for standard hypervisors enable the creation and management of policies to maintain high availability of virtual machines and concurrent updating of the system firmware, with no impact on application performance or availability.

Advanced Processor Recovery allows the system to automatically switch access and control of networking, management, and storage in the event of a processor 1 failure, providing higher availability and productivity.

Advanced Page Retire proactively protects applications from corrupted pages in memory, which is crucial for scaling memory to terabytes.

Redundant bit steering, memory mirroring, and memory rank sparing for redundancy in the event of a non-correctable memory failure.

Intel Execute Disable Bit functionality can help 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, which is protected from all other software running on a system.

Redundant Intel Platform Controller Hub (PCH) connections to the processors allow the platform to maintain access to networking, storage, and server management during a processor failure.

Hot-swap drives support RAID redundancy for data protection and greater system uptime.

Hot-swap I/O Books enabling you to install or replace adapters while the server is still running.

Tool-less lid-less design provides front and rear access for easy upgrades and serviceability. There is no need to pull the server out of the rack to access internal components.

Hot-swap power supplies and hot-swap dual-motor redundant fans provide availability for mission-critical applications.

An LCD diagnostics panel that is combined with individual light path diagnostic LEDs quickly lead the technician to failed (or failing) components, which simplifies servicing, speeds up problem resolution, and helps improve system availability.

Proactive Platform Alerts (including PFA and SMART alerts): Processors, voltage regulators, memory, internal storage (SAS/SATA HDDs and SSDs, NVMe SSDs, flash storage adapters), fans, power supplies, RAID controllers, and server ambient and sub-component temperatures. Alerts can be surfaced through the system IMM 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.

Built-in Integrated Management Module Version II (IMM2) continuously monitors system parameters, triggers alerts, and performs recovering actions in case of failures to minimize downtime.

Includes a special Mezzanine LOM (ML2) adapter slot with support for adapters with either two 10 Gb ports or four 1 Gb ports. Supports direct connectivity to the IMM2 service processor for out-of-band systems management.

Integrated industry-standard Unified Extensible Firmware Interface (UEFI) enables improved setup, configuration, and updates, and simplifies error handling.

Two integrated Trusted Platform Modules (TPMs) v1.2 enable advanced cryptographic functionality, such as digital signatures and remote attestation.

Industry-standard Advanced Encryption Standard (AES) NI support for faster and stronger encryption.

Lenovo XClarity Administrator provides proactive systems management. It offers comprehensive systems management tools that help increase uptime, reduce costs, and improve productivity through advanced server management capabilities.

Solid-state drives (SSDs) offer better reliability than traditional mechanical HDDs for greater uptime.

Built-in diagnostic tests, using Dynamic Systems Analysis (DSA) Preboot, speed up troubleshooting tasks to reduce service time.

Three-year customer-replaceable unit and onsite limited warranty, 9×5 next business day. Optional service upgrades are available.

 

Locations of key components and connectors

The following figure shows the front of the x3850 X6 server.

IBM System x3850 X6 v4 -02

Figure 2. Front view of the Lenovo System x3850 X6

The following figure shows the rear of the x3850 X6 server.

IBM System x3850 X6 v4 -03

Figure 3. Rear view of the Lenovo System x3850 X6

Standard specifications

The following table lists the standard specifications.

Table 1. Standard specifications
ComponentsSpecification
Machine type 6241
Firmware Lenovo-signed firmware
Form factor 4U rack
Processor Models with E7 v4 processors: One, two or four Intel Xeon E7-4800 v4 or E7-8800 v4 processors, each in a Compute Book. Processor options have between 4 and 24 cores with core frequencies up to 3.2 GHz. Three QPI links up to 9.6 GT/s each. Compute Books have TruDDR4 memory up to 1866 MHz, but cannot be mixed. Up to 60 MB L3 cache. Intel C602J chipset.

 

Models with E7 v3 processors: One, two or four Intel Xeon E7-4800 v3 or E7-8800 v3 processors, each in a Compute Book. Processor options between 4 cores (3.2 GHz) and 18 cores (up to 2.5 GHz). Three QPI links up to 9.6 GT/s each. Compute Books have either DDR3 memory up to 1600 MHz or TruDDR4 memory up to 1866 MHz, but cannot be mixed. Up to 45 MB L3 cache. Intel C602J chipset.
Memory Up to 96 DIMM sockets (24 DIMMs per processor, installed in the Compute Book). RDIMMs and LRDIMMs (Load Reduced DIMMs) are supported, but memory types cannot be intermixed. Memory is either TruDDR4 memory (up to 1866 MHz) or DDR3 memory (up to 1600 MHz), depending on the Compute Book selected. DDR3 memory and TruDDR4 memory cannot be mixed in the same Compute Book. Compute Books with DDR3 memory and Compute Books with TruDDR4 memory cannot be mixed in the same system.
Memory maximums Models with TruDDR4 Compute Books:

 

  • With RDIMMs: Up to 3 TB with 96x 32 GB RDIMMs and four processors
  • With LRDIMMs: Up to 6 TB with 96x 64 GB LRDIMMs and four processors

Models with DDR3 Compute Books:

  • With RDIMMs: Up to 1.5 TB with 96x 16 GB RDIMMs and four processors
  • With LRDIMMs: Up to 6 TB with 96x 64 GB LRDIMMs and four processors
Memory protection ECC, Chipkill, RBS, memory mirroring, and memory rank sparing.
Disk drive bays Up to 16 1.8″ SSD bays, or up to 8 2.5″ hot-swap SAS/SATA bays, or up to 4x 2.5” hot-swap PCIe NVMe SSD drive bays.
Maximum internal storage Up to 30.7 TB with 8x 3.84 TB 2.5-inch SAS SSDs or
Up to 16 TB with 8x 2 TB 2.5-inch NL SAS HDDs, or
Up to 8 TB with 4x 2 TB 2.5-inch PCIe NVMe SSDs.
RAID support 12 Gb SAS/SATA RAID 0, 1, or 10 with ServeRAID M5210; optional upgrades to RAID 5 and 50 are available (zero-cache; 1 GB non-backed cache; 1 GB or 2 GB flash-backed cache). Upgrades to RAID 6 or 60 available for M5210 with 1 GB or 2 GB upgrades.
Optical and tape bays No internal bays. See http://support.lenovo.com/en/documents/pd011281 for external DVD options.
Network interfaces Mezzanine LOM (ML2) slot for dual-port 10 GbE cards with SFP+ or RJ-45 connectors or quad-port GbE cards with RJ-45 connectors. See the Ethernet column in the Standard models table. Dedicated 1 GbE port for systems management.
PCI Expansion slots Up to 11 PCIe slots plus dedicated Mezzanine LOM slot. The slots are as follows:

 

  • Two PCIe 3.0 x8 slots for internal RAID controllers (Storage Book)
  • Two PCIe 3.0 x16 slots (x16-wired), half length, full height (Primary I/O Book)
  • One PCIe 3.0 x16 (x8-wired), half length, full height (Primary I/O Book)
  • One ML2 slot for network adapter (PCIe 3.0 x8) (Primary I/O Book)
  • Two optional I/O Books, each with three slots, all full height (using these I/O Books requires four processors). Optional books are hot-swap capable.

Optional I/O Books can be either of the following options:

  • Half-length I/O Book: Two PCIe 3.0 x8 slots, one PCIe 3.0 x16 slot.
  • Full-length I/O Book: Two PCIe 3.0 x16, one PCIe 2.0 x4 slot; two aux power connectors: 150 W and 75 W. Supports one double-wide GPU up to 300 W.
Ports Front: Two USB 3.0, one USB 2.0, and one DB-15 video ports. Rear: Four USB 2.0, one DB-15 video, one DB-9 serial, and one 1 GbE RJ-45 systems management. Internal: USB 2.0 port for embedded hypervisor.
Cooling Calibrated Vectored Cooling™. Up to ten redundant hot-swap fan packs and five fan zones with N+1 fan redundancy. Each fan pack includes two counter-rotated dual-motor fans.
Power supply Up to four redundant hot-swap 900 W AC or 1400 W AC power supplies (all 80 PLUS Platinum certified). -48 V 750 W DC power supplies are available through CTO.
Hot-swap parts Drives, power supplies, fans, and optional I/O Books.
Video Matrox G200eR2 with 16 MB memory that is integrated into the IMM2. Maximum resolution is 1600 x 1200 at 75 Hz with 16 M colors.
Security features Power-on password, admin password, and two Trusted Platform Modules (TPMs).
Systems management UEFI, Integrated Management Module II (IMM2) with remote presence feature, Predictive Failure Analysis, Light Path Diagnostics, Automatic Server Restart, Lenovo XClarity Administrator, IBM Systems Director and Active Energy Manager™, and ServerGuide.
Operating systems Microsoft Windows Server 2016, 2012 R2, 2012, and 2008 R2, RHEL 6 and 7, SLES 11 and 12, and VMware vSphere ESXi. See the Supported operating systems section for details.
Limited warranty Three-year customer-replaceable unit (CRU) and onsite limited warranty with 9×5 next business day (NBD).
Service and support Optional service upgrades are available through Lenovo Services offerings: 4-hour or 2-hour response time, 8-hour fix time, 1-year or 2-year warranty extension, and remote technical support for Lenovo hardware and some Lenovo / OEM applications.
Dimensions Height: 173 mm (6.8 in.), width: 482 mm (19.0 in.), depth: 804 mm (31.6 in), depth with cable management brackets installed: 836 mm (32.9 in), depth with Full-length I/O Book installed: 921 mm (36.2 in)
Weight Minimum configuration: 35.9 kg (79.2 lb), typical: 46.4 kg (102.3 lb), maximum: 54.7 kg (120 lb)

The server is shipped with the following items:

Rail kit

Cable management brackets

2.8 m (9.18 ft) C13-C14 power cord (one for each power supply)

Documentation CD and safety/warranty/installation information

Standard models

This section lists the Standard and TopSeller models of the x3850 X6 server.

The following table lists the models with E7 v4 processors.

Table 2. Standard and TopSeller models with E7 v4 processors
Model†Intel Xeon Processor*
(in a Compute Book)		MemoryRAIDDrive bays
Drives		Ethernet‡I/O
slots§		Power
supplies
x3850 X6 models with E7 v4 processors (TruDDR4 memory)
6241-14x 1x E7-4809 v4 8C
2.1GHz 20M 115W		 2x 8GB
(1866MHz)¤		 Optional Optional 4x 1 GbE 6 std
12 max		 1x 900W
HS / 4
6241-24x** 2x E7-4820 v4 10C
2.0GHz 25M 115W		 4x 16GB
(1866MHz)¤		 1x M5210 4x 2.5″ / 8
Open bay		 4x 1 GbE 6 std
12 max		 2x 900W
HS / 4
6241-44x** 2x E7-4850 v4 16C
2.1GHz 40M 115W		 4x 16GB
(1866MHz)¤		 1x M5210 4x 2.5″ / 8
Open bay		 4x 1 GbE 6 std
12 max		 2x 900W
HS / 4
6241-54x** 2x E7-8860 v4 18C
2.2GHz 45M 140W		 4x 16GB
(1866MHz)¤		 1x M5210 4x 2.5″ / 8
Open bay		 4x 1 GbE 6 std
12 max		 2x 900W
HS / 4
6241-94x** 2x E7-8890 v4 24C
2.2GHz 60M 165W		 4x 16GB
(1866MHz)¤		 1x M5210 4x 2.5″ / 8
Open bay		 4x 1 GbE 6 std
12 max		 2x 900W
HS / 4
x3850 X6 TopSeller models with E7 v4 processors (TruDDR4 memory) – North America only
6241-E1U 2x E7-4820 v4 10C
2.0GHz 25M 115W		 4x 16GB
(1866MHz)¤		 1x M5210 4x 2.5″ / 8
Open bay		 4x 1 GbE 6 std
12 max		 2x 900W
HS / 4
6241-E2U 2x E7-4850 v4 16C
2.1GHz 40M 115W		 4x 16GB
(1866MHz)¤		 1x M5210 4x 2.5″ / 8
Open bay		 4x 1 GbE 6 std
12 max		 2x 900W
HS / 4
6241-E3U 2x E7-8890 v4 24C
2.2GHz 60M 165W		 4x 16GB
(1866MHz)¤		 1x M5210 4x 2.5″ / 8
Open bay		 4x 1 GbE 6 std
12 max		 2x 900W
HS / 4

† x in the Machine Type Model (MTM) represents a country-specific letter (for example, the EMEA MTM is 6241-A4G, and the US MTM is 6241-A4U). Ask a Lenovo representative for specifics.
* Processor detail: Processor quantity and model, cores, core speed, L3 cache, and TDP.
¤ The DIMMs in these models operate at the speed indicated to match the memory bus speed of the processor
‡ Model F3x, F4x, B3x include the Broadcom NetXtreme II ML2 Dual Port 10GbE SFP+ adapter (BCM57810S based). All other models include Intel I350-T4 ML2 Quad Port GbE Adapter (I350-AM4 based).
§ Models with six slots have the Primary I/O Book (four slots) and Storage Book (two slots) standard.
** Models 24x, 44x, 54x and 94x not available in North America.

The following table lists the models with E7 v3 processors.

Table 3. Standard and TopSeller models with E7 v3 processors
Model†Intel Xeon Processor*
(in a Compute Book)		MemoryRAIDDrive bays
Drives		Ethernet‡I/O
slots§		Power
supplies
x3850 X6 models with E7 v3 processors and TruDDR4 memory
6241-D5x 1x E7-4809 v3 8C
2.0GHz 20MB 115W		 2x 8GB DDR4
(1866MHz)¤		 Optional Optional 4x 1 GbE 6 std
12 max		 1x 900W
HS / 4
6241-F2x 2x E7-4820 v3 10C
1.9GHz 25MB 115W		 4x 16GB DDR4
(1866MHz)¤		 1x M5210 4x 2.5″ / 8
Open bay		 4x 1 GbE 6 std
12 max		 2x 900W
HS / 4
6241-F4x 2x E7-4850 v3 14C
2.2GHz 35MB 115W		 4x 16GB DDR4
(1866MHz)¤		 1x M5210 4x 2.5″ / 8
Open bay		 2x 10GbE‡ 6 std
12 max		 2x 900W
HS / 4
6241-G2x 2x E7-8860 v3 16C
2.2GHz 40MB 140W		 4x 16GB DDR4
(1866MHz)¤		 1x M5210 4x 2.5″ / 8
Open bay		 4x 1 GbE 6 std
12 max		 2x 900W
HS / 4
6241-G4x 2x E7-8890 v3 18C
2.5GHz 45MB 165W		 4x 16GB DDR4
(1866MHz)¤		 1x M5210 4x 2.5″ / 8
Open bay		 4x 1 GbE 6 std
12 max		 2x 900W
HS / 4
x3850 X6 models with E7 v3 processors and DDR3 memory
6241-D4x 1x E7-4809 v3 8C
2.0GHz 20MB 115W		 2x 8GB DDR3
1600MHz		 Optional Optional 4x 1 GbE 6 std
12 max		 1x 900W
HS / 4
6241-F1x 2x E7-4820 v3 10C
1.9GHz 25MB 115W		 4x 16GB DDR3
1600MHz		 1x M5210 4x 2.5″ / 8
Open bay		 4x 1 GbE 6 std
12 max		 2x 900W
HS / 4
6241-F3x 2x E7-4850 v3 14C
2.2GHz 35MB 115W		 4x 16GB DDR3
1600MHz		 1x M5210 4x 2.5″ / 8
Open bay		 2x 10GbE‡ 6 std
12 max		 2x 900W
HS / 4
6241-G1x 2x E7-8860 v3 16C
2.2GHz 40MB 140W		 4x 16GB DDR3
1600MHz		 1x M5210 4x 2.5″ / 8
Open bay		 4x 1 GbE 6 std
12 max		 2x 900W
HS / 4
6241-G3x 2x E7-8890 v3 18C
2.5GHz 45MB 165W		 4x 16GB DDR3
1600MHz		 1x M5210 4x 2.5″ / 8
Open bay		 4x 1 GbE 6 std
12 max		 2x 900W
HS / 4

† x in the Machine Type Model (MTM) represents a country-specific letter (for example, the EMEA MTM is 6241-A4G, and the US MTM is 6241-A4U). Ask a Lenovo representative for specifics.
* Processor detail: Processor quantity and model, cores, core speed, L3 cache, and TDP.
¤ The DIMMs in these models operate at the speed indicated to match the memory bus speed of the processor
‡ Model F3x, F4x, B3x include the Broadcom NetXtreme II ML2 Dual Port 10GbE SFP+ adapter (BCM57810S based). All other models include Intel I350-T4 ML2 Quad Port GbE Adapter (I350-AM4 based).
§ Models with six slots have the Primary I/O Book (four slots) and Storage Book (two slots) standard.

SAP HANA Workload Optimized models

The Lenovo System x3850 X6 Workload Optimized Solutions for SAP HANA provide optimal solutions for SAP NetWeaver Business Warehouse, data mart, and SAP Business Suite, Powered by SAP HANA applications. Preconfigured workload optimized server models for SAP HANA applications are configured with up to 1 TB of memory and are upgradeable to support larger single node and scale-out cluster implementations.

Note: For CTO configurations of SAP HANA models, select base model 6241-AC3

The following table lists the Workload Optimized Solution models for SAP HANA with E7 v4 processors

Table 4. Workload Optimized Solution models for SAP HANA with E7 v4 processors
ModelIntel Xeon
(Compute Book)		MemoryRAIDDrive bays
Drives		EthernetI/O
slots		Power
supplies
SAP HANA models with E7 v4 processors and TruDDR4 memory – Standard models
6241-
8Ax		 2x E7-8880 v4
22C 2.2GHz
55M 150W		 128 GB
16x 8GB
DDR4 RDIMM		 1x M5210
+ upgrades*		 8x 2.5″ bays
6x 1.2 TB SAS HDD
2x 400 GB S3710 SSD		 1x 4x1GbE ML2
2x Mellanox 10Gb*		 6 std
12 max		 4x 1400W
HS / 4
6241-
8Bx		 2x E7-8880 v4
22C 2.2GHz
55M 150W		 256 GB
16x 16GB
DDR4 RDIMM		 1x M5210
+ upgrades*		 8x 2.5″ bays
6x 1.2 TB SAS HDD
2x 400 GB S3710 SSD		 1x 4x1GbE ML2
2x Mellanox 10Gb*		 6 std
12 max		 4x 1400W
HS / 4
6241-
8Cx		 2x E7-8880 v4
22C 2.2GHz
55M 150W		 512 GB
16x 32GB
DDR4 RDIMM		 1x M5210
+ upgrades*		 8x 2.5″ bays
6x 1.2 TB SAS HDD
2x 400 GB S3710 SSD		 1x 4x1GbE ML2
2x Mellanox 10Gb*		 6 std
12 max		 4x 1400W
HS / 4
6241-
8Dx		 4x E7-8880 v4
22C 2.2GHz
55M 150W		 512 GB
32x 16GB
DDR4 RDIMM		 1x M5210
+ upgrades*		 8x 2.5″ bays
6x 1.2 TB SAS HDD
2x 400 GB S3710 SSD		 1x 4x1GbE ML2
2x Mellanox 10Gb*		 12 std
12 max		 4x 1400W
HS / 4
6241-
8Fx		 4x E7-8880 v4
22C 2.2GHz
55M 150W		 1024 GB
32x 32GB
DDR4 RDIMM		 1x M5210
+ upgrades*
+ 1x M5225
+ upgrades*		 8x 2.5″ bays
6x 1.2 TB SAS HDD
2x 400 GB S3710 SSD		 1x 4x1GbE ML2
2x Mellanox 10Gb*		 12 std
12 max		 4x 1400W
HS / 4
SAP HANA models with E7 v4 processors and TruDDR4 memory – TopSeller models (North America only)
6241-
EKU		 2x E7-8880 v4
22C 2.2GHz
55M 150W		 256 GB
16x 16GB
DDR4 RDIMM		 1x M5210
+ upgrades*		 8x 2.5″ bays
6x 1.2 TB SAS HDD
2x 400 GB S3710 SSD		 1x 4x1GbE ML2
2x Mellanox 10Gb*		 6 std
12 max		 4x 1400W
HS / 4

* See the list of specific components below

The following table lists the Workload Optimized Solution models for SAP HANA with E7 v3 processors

Table 5. Workload Optimized Solution models for SAP HANA with E7 v3 processors
ModelIntel Xeon
(Compute Book)		MemoryRAIDDrive bays
Drives		EthernetI/O
slots		Power
supplies
SAP HANA models with E7 v3 processors and TruDDR4 memory – Standard models
6241-
HQx		 4x E7-8880 v3
18C 2.3GHz
45MB 150W		 1024 GB
32x 32GB
DDR4 RDIMM		 1x M5210
+ upgrades*
1x M5120
+ upgrades*		 8x 2.5” HS
6x 1.2 TB SAS HDD
2x 400 GB S3700 SSD		 1x 4x1GbE ML2
2x Mellanox 10Gb*		 12 std
12 max		 4x 1400W
HS / 4
6241-
HRx		 4x E7-8880 v3
18C 2.3GHz
45MB 150W		 512 GB
32x 16GB
DDR4 RDIMM		 1x M5210
+ upgrades*		 8x 2.5” HS
6x 1.2 TB SAS HDD
2x 400 GB S3700 SSD		 1x 4x1GbE ML2
2x Mellanox 10Gb*		 12 std
12 max		 4x 1400W
HS / 4
6241-
HSx		 2x E7-8880 v3
18C 2.3GHz
45MB 150W		 512 GB
16x 32GB
DDR4 RDIMM		 1x M5210
+ upgrades*		 8x 2.5” HS
6x 1.2 TB SAS HDD
2x 400 GB S3700 SSD		 1x 4x1GbE ML2
2x Mellanox 10Gb*		 6 std
12 max		 4x 1400W
HS / 4
6241-
HTx		 2x E7-8880 v3
18C 2.3GHz
45MB 150W		 256 GB
16x 16GB
DDR4 RDIMM		 1x M5210
+ upgrades*		 8x 2.5” HS
6x 1.2 TB SAS HDD
2x 400 GB S3700 SSD		 1x 4x1GbE ML2
2x Mellanox 10Gb*		 6 std
12 max		 4x 1400W
HS / 4
6241-
HUx		 2x E7-8880 v3
18C 2.3GHz
45MB 150W		 128 GB
16x 8GB
DDR4 RDIMM		 1x M5210
+ upgrades*		 8x 2.5” HS
6x 1.2 TB SAS HDD
2x 400 GB S3700 SSD		 1x 4x1GbE ML2
2x Mellanox 10Gb*		 6 std
12 max		 4x 1400W
HS / 4
SAP HANA models with E7 v3 processors and DDR3 memory – Standard models
6241-
HVx		 4x E7-8880 v3
18C 2.3GHz
45MB 150W		 1024 GB
32x 32 GB
DDR3 LRDIMM		 1x M5210
+ upgrades*
1x M5120
+ upgrades*		 8x 2.5” HS
6x 1.2 TB SAS HDD
2x 400 GB S3700 SSD		 1x 4x1GbE ML2
2x Mellanox 10Gb*		 12 std
12 max		 4x 1400W
HS / 4
6241-
HWx		 4x E7-8880 v3
18C 2.3GHz
45MB 150W		 512 GB
32x 16 GB
DDR3 RDIMM		 1x M5210
+ upgrades*		 8x 2.5” HS
6x 1.2 TB SAS HDD
2x 400 GB S3700 SSD		 1x 4x1GbE ML2
2x Mellanox 10Gb*		 12 std
12 max		 4x 1400W
HS / 4
6241-
HXx		 2x E7-8880 v3
18C 2.3GHz
45MB 150W		 512 GB
16x 32 GB
DDR3 RDIMM		 1x M5210
+ upgrades*		 8x 2.5” HS
6x 1.2 TB SAS HDD
2x 400 GB S3700 SSD		 1x 4x1GbE ML2
2x Mellanox 10Gb*		 6 std
12 max		 4x 1400W
HS / 4
6241-
HYx		 2x E7-8880 v3
18C 2.3GHz
45MB 150W		 256 GB
16x 16 GB
DDR3 RDIMM		 1x M5210
+ upgrades*		 8x 2.5” HS
6x 1.2 TB SAS HDD
2x 400 GB S3700 SSD		 1x 4x1GbE ML2
2x Mellanox 10Gb*		 6 std
12 max		 4x 1400W
HS / 4
6241-
HZx		 2x E7-8880 v3
18C 2.3GHz
45MB 150W		 128 GB
16x 8 GB
DDR3 RDIMM		 1x M5210
+ upgrades*		 8x 2.5” HS
6x 1.2 TB SAS HDD
2x 400 GB S3700 SSD		 1x 4x1GbE ML2
2x Mellanox 10Gb*		 6 std
12 max		 4x 1400W
HS / 4

* See the list of specific components below

Each of these HANA models include the following components

ServeRAID M5210 controller (46C9110) with 2GB cache upgrade with flash backup (47C8664), plus Performance Accelerator (47C8710) and SSD Caching Enabler (47C8712)

Models HQx, HVx: ServeRAID M5120 RAID controller for external connectivity (81Y4478), with 1GB cache upgrade with flash backup (47C8660) plus Performance Accelerator (47C8710) and SSD Caching Enabler (47C8712).

Model 8Fx: ServeRAID M5225-2GB RAID controller for external connectivity (00AE938) plus Performance Accelerator (47C8710) and SSD Caching Enabler (47C8712).

Six 1.2TB 10K 6Gbps SAS 2.5″ G3HS HDD (00AJ146)

Models with E7 v4 processors: Two Intel S3710 400GB Enterprise Performance SATA G3HS 2.5″ SSDs (00YC325)

Models with E7 v3 processors: Two S3700 400GB SATA 2.5″ MLC G3HS Enterprise SSDs (00AJ161)

One Intel I350-T4 ML2 Quad Port GbE Adapter (00D1998)

Models with E7 v4 processors: Two Mellanox ConnectX-3 10 GbE Adapters (00D9690) plus four SFP+ SR Transceivers (46C3447)

Models with E7 v3 processors: Two Mellanox ConnectX-3 40GbE / FDR IB VPI Adapters (00D9550) plus four Mellanox QSA Adapters (QSFP to SFP+) (90Y3842) and four SFP+ SR Transceivers (46C3447)

Models with 12 standard slots: Two X6 Half-length I/O Books (44X4049)

Lenovo solution for SAP HANA media

Note: The operating system software is not included with the SAP HANA models. Operating system selection must be a separate line item included in order: SLES for SAP with standard or priority support. The SAP HANA Software is included, but the license is sold separately by SAP or an SAP business partner. VMware Enterprise Plus license sold separately. IBM Spectrum Scale (GPFS) is available from Lenovo separately.

For more information about the standard features of the server, see the Standard specifications section.

Upgrading Compute Books

With the x3850 X6, machine type 6241, Lenovo supports upgrading the server processors by simply by replacing the Compute Books. The process to upgrade is made very simple because of the innovative book design of the x3850 X6.

Supported upgrades are:

E7 v2 processors to E7 v3 processors with DDR3 DIMMs (optionally keep existing memory)

E7 v2 processors to E7 v3 processors with DDR4 DIMMs (new DDR4 DIMMs required)

E7 v2 processors to E7 v4 processors (new DDR4 DIMMs required)

E7 v3 processors with DDR3 to E7 v4 processors (new DDR4 DIMMs required)

E7 v3 processors with DDR4 to E7 v4 processors (optionally keep existing memory)

Notes:

Upgrades to E7 v3 and v4 processors are only supported with machine type 6241. If you want to upgrade an X6 server with machine type 3837, contact your local representative.

eXFlash DIMMs (now withdrawn) are not supported with TruDDR4 memory; Only DDR3 memory is supported

Intel Xeon E7 v3 and v4 processors require minimum firmware levels. Consult the documentation that is included with the Compute Books.

Compute books with E7 v4 processors do not support DDR3 memory

If you upgrade from E7 v3 processors with DDR4 to E7 v4 processors, you can transfer the 2133 MHz DDR4 memory DIMMs to the new compute books. If you also want to add additional memory to the E7 v4 compute book, it is supported to use either 2133 MHz or 2400 MHz DDR4 memory DIMMs. It is supported to mix 2133 MHz and 2400 MHz DIMMs in the same compute book.

If you plan to use your existing DDR3 memory to upgrade to a Compute Books with v3 processors (Compute Books with v4 processors do not support DDR3 memory), the process to upgrade is as follows:

Purchase Compute Books to replace the existing Compute Books

Check and if necessary, upgrade all firmware to at least the minimum levels needed to support the new processors

Power off the server and remove the existing Compute Books

Transfer all DDR3 memory DIMMs to the new Compute Books

Reinstall the new Compute Books

If you plan to upgrade to TruDDR4 memory, then you should also order the appropriate memory DIMMs to match your workload requirements. TruDDR4 DIMMs used in E7 v3 compute books can be used in E7 v4 compute books.

Upgrading to an 8-socket system

The x3850 X6 server has a flexible modular design that allows you to increase the server’s compute power and I/O capabilities by adding additional Compute Books and I/O Books. The modular design also means that if your business needs additional processing or I/O capability within the same system image, then it is possible to migrate to an eight-socket x3950 X6.

Lenovo supports upgrading a 4-socket X6 server to an 8-socket X6 server. The two recommended methods are as follows:

Start with a 4-socket x3950 X6 (8U chassis) and add additional processors when needed

Start with a 4-socket x3850 X6 (4U chassis) and upgrade it when needed using an RPQ process

Option 1: Start with a 4-socket x3950 X6

With this option, you plan for the need for future 8-socket performance in advance and purchase an x3950 X6 with only four Compute Books installed. The initial order would contain:

Four Compute Books with E7-8800 v3 or v4 series processors (not E7-4800 processors)

Four Power Supplies (preferably 1400W)

Two Primary IO Book standard

Two Storage Book Standard

Once the need arises to upgrade the server to six or eight processors, simply purchase more Compute Books with the same processor model, plus additional power supplies (as determined by using the Power Configurator), I/O Books, adapters and drives as needed.

For information about the x3950 X6, see the Lenovo System x3950 X6 Product Guide:
http://lenovopress.com/tips1251

Note: It is supported to install E7-4800-based Compute Books in a x3950 X6 from either an System x3850 X6 (machine type 3837) or a Lenovo System x3850 X6 (machine type 6241)

Option 2: Upgrade your 4-socket x3850 X6 using an RPQ

With this option, you don’t have to plan for 8-socket capacity up front. You start with an x3850 X6 then when you are ready to upgrade to a 6-socket or 8-socket server, you purchase an upgrade offering via an RPQ.

As part of the RPQ, a service engineer comes onsite with the new mechanical chassis and performs the field upgrade by transferring all components to the new chassis. This method also requires the x3850 X6 compute books be the same E7-8800 series processors as ordered for the RPQ, however, in this scenario, the server maintain the original serial number.

Note: Use of E7-4800 processors: Intel Xeon E7-4800 v2/v3/v4 processors cannot be used in an x3950 X6. If your x3850 X6 has Compute Books with E7-4800 processors, then these must be replaced with Compute Books with E7-8800 processors if you plan to upgrade to an x3950 X6. The memory in the Compute Books can be reused in the x3950 X6, however (provided the selected processors support the memory type, DDR3 or DDR4).

For this method, submit an RPQ for assessment and pricing. The existing x3850 X6 configuration will be evaluated and recommendations will be made based on the workload requirements.

The major parts of the 4U to 8U upgrade are the 8U chassis, the Storage Book and the Primary I/O Book. All the components in the package will be installed in the top portion of the chassis. The 4U system’s components will be transferred to the bottom section of the chassis.

Even though this upgrade requires a new 8U chassis replacing the existing 4U chassis, the majority of internal components can be moved from the x3850 X6 to the x3950 X6.

The x3850 X6 components that can be migrated to the x3950 X6 as part of the RPQ upgrade are:

Compute Books, provided they use Intel Xeon E7-8800 processors

All memory DIMMs

Storage Book

All internal drives

Primary I/O Book (and associated fans)

Half-length I/O Books

Full-length I/O Books

All adapters

All power supplies

The RPQ upgrade includes these parts:

New 8U chassis and 8-socket midplane

A second Storage Book

A second Primary I/O Book

The RPQ upgrade may also require new parts:

Additional Compute Books (a minimum of four Compute Books required in the x3950 X6)

Additional power supplies (a minimum of four are required in the x3950 X6)

Additional I/O Books, network adapters, drives as needed

There are key considerations for this upgrade:

Processor support: Intel Xeon E7-4800 v2/v3/v4 processors cannot be used in an x3950 X6. If your x3850 X6 has Compute Books with E7-4800 processors, then these must be replaced with Compute Books with E7-8800 processors if you plan to upgrade to an x3950 X6. The memory in the Compute Books can be reused in the x3950 X6, however.

All processors must be identical: All processors used in the x3950 X6 must be the identical. For example, all E7-8850 v3 processors. A minimum of four processors are required.

The upgrade does result in some parts no longer being used (“parts on the floor”):

Existing 4U chassis and 4-socket midplane

Compute Books that are based on E7-4800 processors

Original x3850 X6 server may need to be ordered configure-to-order (CTO) or Special Bid: To minimize “parts on the floor” (parts that cannot be used in the upgraded system), the original x3850 X6 should be configured with Compute Books containing E7-8800 processors. Since many standard models of the x3850 X6 (see Table 2) contain E7-4800 processors, you may need to use configure-to-order or order the server using Special Bid to create a server configuration with E7-8800 processors.

Serial number swap: The RPQ upgrade process also involves transferring the x3850 X6 serial number to the x3950 X6 chassis. This transfer makes the upgrade simpler from an asset or depreciation management point of view. This transfer also means that the old 4U chassis will be retired as it will no longer have a valid serial number.

Power supplies: Ideally all power supplies are the 1400W variant. Regardless of the selection, the power supplies coexistence rules as described in the Power supplies section must be followed.

Additional power: Depending on your workload and configuration you may need to provision for additional PDU outlets, cables and power capacity for your x3950 X6 server. Use the Lenovo Power Configurator to determine your total power draw to assist you in provisioning adequate power. You can download the Power Configurator from https://support.lenovo.com/documents/LNVO-PWRCONF

Additional rack space: An additional 4U of rack space is required when upgrading the x3850 X6 to the x3950 X6, for a total of 8U of rack space.

Down time: In order to upgrade the x3850 X6 server to an x3950 X6 server you will need to allow for down time. The server will need to be completely powered off and have some of its components removed for re-installation into the new x3950 X6 server.

Processor options

The x3850 X6 supports up to four Intel Xeon E7 processors, either E7 v4 or E7 v3. Processors are installed in Compute Books, one processor in each Compute Book. The following figure shows the components of the Compute Book:

One processor

A total of 24 DIMM slots, 12 on each side of the book

Two hot-swap dual-motor fans that are mounted on the front of the book

The x3850 X6 supports two or four Compute Books. Three Compute Books are not supported. A configuration of one Compute Book is only supported in standard models 6241-A4x and 6241-D5x.

Each Compute Book is installed in the front of the server, as shown in the following figure.

IBM System x3850 X6 v4 -04

Figure 4. Compute Book

The following table shows the processor options, grouped as follows:

E7-4800 v4 processors in Compute Books with TruDDR4 support

E7-8800 v4 processors in Compute Books with TruDDR4 support

E7-4800 v3 processors in Compute Books with DDR3 support

E7-8800 v3 processors in Compute Books with DDR3 support

E7-4800 v3 processors in Compute Books with TruDDR4 support

E7-8800 v3 processors in Compute Books with TruDDR4 support

Each option includes the processor installed in a Compute Book. Compute Books with one of the E7-4800 family of processors are supported only in a four-socket x3850 X6 server and cannot be used in an x3950 X6 server. All Compute Books installed in a server must be identical.

The table also shows the maximum memory bus speed each processor supports plus which server models have each processor standard. If there is no corresponding where-used model for a particular processor, this processor is only available through CTO.

<td class="text-cent​
Table 6. Compute book options (HT = Hyper Threading, TB = Turbo Boost 2.0)
Part number
Feature codes‡		Description
(processor installed in
a Compute Book)		L3
cache		QPI
speed		Memory
support		Memory bus
speed (RAS / 
Performance)†		HTTBModels
where
used
Intel Xeon E7-4800 v4 processors (not supported in the x3950 X6)
00WH302
ATX1 / ATXR		 X6 Compute Book E7-4809 v4
8C 2.1GHz 20M 115W		 20 MB 6.4 GHz TruDDR4 1866 MHz /
1333 MHz		 Y N 14x
00WH306
ATX2 / ATXS		 X6 Compute Book E7-4820 v4
10C 2.0GHz 25M 115W		 25 MB 6.4 GHz TruDDR4 1866 MHz /
1333 MHz		 Y N 24x, E1U
00WH310
ATX3 / ATXT		 X6 Compute Book E7-4830 v4
14C 2.0GHz 35M 115W		 35 MB 8 GHz TruDDR4 1866 MHz /
1333 MHz		 Y Y
00WH314
ATX4 / ATXU		 X6 Compute Book E7-4850 v4
16C 2.1GHz 40M 115W		 40 MB 8 GHz TruDDR4 1866 MHz /
1333 MHz		 Y Y 44x, E2U
Intel Xeon E7-8800 v4 processors (also supported in the x3950 X6)
00KH384
ATWZ / ATYF		 X6 Compute Book E7-8855 v4
14C 2.1GHz 35M 140W		 35 MB 8 GHz TruDDR4 1866 MHz /
1333 MHz		 Y Y
00WH322
ATX6 / ATXW		 X6 Compute Book E7-8860 v4
18C 2.2GHz 45M 140W		 45 MB 9.6 GHz TruDDR4 1866 MHz /
1600 MHz		 Y Y 54x
00WH318
ATX5 / ATXV		 X6 Compute Book E7-8867 v4
18C 2.4GHz 45M 165W		 45 MB 9.6 GHz TruDDR4 1866 MHz /
1600 MHz		 Y Y
00WH326
ATX7 / ATXX		 X6 Compute Book E7-8870 v4
20C 2.1GHz 50M 140W		 50 MB 9.6 GHz TruDDR4 1866 MHz /
1600 MHz		 Y Y
00WH330
ATX8 / ATXY		 X6 Compute Book E7-8880 v4
22C 2.2GHz 55M 150W		 55 MB 9.6 GHz TruDDR4 1866 MHz /
1600 MHz		 Y Y HANA
models
00WH334
ATX9 / ATXZ		 X6 Compute Book E7-8890 v4
24C 2.2GHz 60M 165W		 60 MB 9.6 GHz TruDDR4 1866 MHz /
1600 MHz		 Y Y 94x, E3U
00WH342
ATXB / ATY1		 X6 Compute Book E7-8891 v4
10C 2.8GHz 60M 165W		 60 MB 9.6 GHz TruDDR4 1866 MHz /
1600 MHz		 Y Y
00WH346
ATXC / ATY2		 X6 Compute Book E7-8893 v4
4C 3.2GHz 60M 140W		 60 MB 9.6 GHz TruDDR4 1866 MHz /
1600 MHz		 Y Y
Intel Xeon E7-4800 v3 processors with support for DDR3 memory (not supported in the x3950 X6)
00ML902
AS7T / AS8H		 X6 DDR3 Compute Book
E7-4809 v3 8C 2.0GHz 115W		 20 MB 6.4 GHz DDR3 1333 MHz /
1333 MHz		 Y N D4x
00ML906
AS7U / AS8J		 X6 DDR3 Compute Book
E7-4820 v3 10C 1.9GHz 115W		 25 MB 6.4 GHz DDR3 1333 MHz /
1333 MHz		 Y N F1x
00ML910
AS7V / AS8K		 X6 DDR3 Compute Book
E7-4830 v3 12C 2.1GHz 115W		 30 MB 8 GHz DDR3 1600 MHz /
1333 MHz		 Y Y
00ML914
AS7W / AS8L		 X6 DDR3 Compute Book
E7-4850 v3 14C 2.2GHz 115W		 35 MB 8 GHz DDR3 1600 MHz /
1333 MHz		 Y Y F3x
Intel Xeon E7-8800 v3 processors with support for DDR3 memory (also supported in the x3950 X6)
00ML922
AS7X / AS8M		 X6 DDR3 Compute Book
E7-8860 v3 16C 2.2GHz 140W		 40 MB 9.6 GHz DDR3 1600 MHz /
1600 MHz