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HUAWEI E9000 Blade Server CH140 V3 Compute Node

The CH140 V3 compute node (CH140 V3 for short) is installed in a half-width slot and contains two 2-socket child compute nodes. Each child comput node uses Intel® new-generation Grantley-EP CPUs to provide high computing density and powerful computing capabilities.
The CH140 V3 is installed in a E9000 chassis and is managed by the management module MM910 in a centralized manner.
The chassis can house a maximum of 32 CH140 V3 child compute nodes, which deliver twice as high computing density as common half-width 2-socket compute nodes. Featuring high computing density, the CH140 V3s apply to virtualization, cloud computing, databases, high-performance computing (HPC), and cluster deployment to meet high-end enterprise service requirements.
E9000 _-半宽
 
CH140-e
Figure 1 Components of the CH140 V3
srcc_inst_04

1 Child compute node A 2 Child compute node B
3 Mezz 1 4 Mezz 2
5 Signal transfer board 6 Expansion baseboard

Figure 2 Components of a child compute node
srcc_inst_05_02

1 Hard disk 2 Hard disk tray
3 (Optional) Trusted Platform
Module (TPM)
4 (Optional) MicroSD card
5 Dual inline-memory module
(DIMM)
6 Heat sink
7 CPU 8 Main board

E9000 _后视图-LIUA

NO. Name Description
1 Hard disk The CH140 V3 supports two child compute
nodes. Each child compute node supports a
hard disk drive (HDD) or a solid-state drive (SSD).
2 Hard disk tray The hard disk tray is used to support hard disks.
3 (Optional) TPM The Trusted Platform Module (TPM) is a security
solution that complies with the Trusted
Computing Group (TCG) standards. It enhances
platform security by preventing viruses or
unauthorized operations.
4 (Optional)
MicroSD card
The mainboard provides two microSD card slots.
Each slot supports a microSD card with a
maximum capacity of 32 GB, and the microSD
card can be used as the boot medium for a
compute node. If two microSD cards are
installed, they are configured as RAID 1.
5 DIMM A child compute node provides 8 dual in-line
memory module (DIMM) slots for installing
DIMMs (4 DIMMs for each CPU).
Maximum memory speed: 2400 MHz
Memory protection: error-correcting code (ECC)
DIMM type: registered DIMM (RDIMM) and
load-reduced DIMM (LRDIMM)
A compute node does not allow mixed use of
DIMM types (RDIMMs and LRDIMMs) or DIMM
specifications (such as the capacity, bit width,
number of ranks, and height). Therefore, all
DIMMs on a compute node must use the same
BOM number. For details about the BOM
numbers, see Huawei Server Compatibility Checker.
RDIMMs: up to 256 GB for 8 x 32 GB
RDIMMs and two CPUs
LRDIMMs: up to 512 GB for 8 x 64 GB
LRDIMMs and two CPUs
6 Heat sink The heat sink is used to cool CPUs. Each CPU
is configured with one heat sink.
7 CPU A child compute node supports two CPUs.
The following CPUs are supported:
Intel  Xeon  E5-2600 v3 (Haswell-EP) CPUs of 55 W, 65 W, 75 W, 85 W,
90 W,105 W, 120 W, 135 W, and 145 W,
with a maximum of 18 cores per CPU.
Intel  Xeon  E5-2600 v4 (Broadwell-EP)
CPUs of 55 W, 65 W, 75 W, 85 W,
90 W,105 W, 120 W, 135 W, and 145 W,
with a maximum of 22 cores per CPU.
Each CPU integrates a memory controller for
supporting four DDR4 memory channels.
Each channel supports DDR4 DIMMs of 1600
MHz, 1866 MHz, 2133 MHz and 2400 MHz.
Each CPU integrates a Peripheral Component
Interconnect Express (PCIe) controller with
40 lanes and supports PCIe 3.0.
Every two CPUs are interconnected through
two QuickPath Interconnect (QPI) links,
with each link delivering up to 9.6 GT/s.
The maximum core frequency supported by
the CPUs reaches 3.5 GHz.
8 Mainboard The mainboard holds the CPUs, DIMMs, hard disk
interface modules, power control module,iBMC
(integrated baseboard management controller),
logic module, chipset and display adapter.
The server chipset is the Platform Controller
Hub (PCH) using the Intel庐 C610 chip.
A video chip with 32 MB display memory
integrated into the HI1710 chip of iBMC. The
maximum resolution is 1920 x 1200 at 60 Hz
with 16 M colors.

Table 2 PCIe slot description

PCIe
Device
CPU PCIe
Standard
Connector
Bandwidth
Bus
Width
Port Device
Size
Mezz 1 CPU 1 of
both child
compute
nodes
PCIe 3.0 x8x8 x8x8 Port 3A Non-standard
device
Mezz 2 CPU 1 of
both child
compute
nodes
PCIe 3.0 x8x8 x8x8 Port 2A Non-standard
device

Figure 3 Positions of the connectors and other components
srcc_inst_06_02

1 CPU 1 2 Slot DIMM100 (2A1)
3 Slot DIMM100 (2B1) 4 Slot DIMM130 (2D1)
5 Slot DIMM120 (2C1) 6 MicroSD card 1 (top)
MicroSD card 2 (bottom)
7 Hard disk tray 8 BIOS battery
9 Hard disk indicator 10 Health indicator
11 UID button/indicator 12 Power button/indicator
13 TPM card connector 14 Platform control hub (PCH)
15 CPU 2 16 Slot DIMM000 (1A1)
17 Slot DIMM010 (1B1) 18 Slot DIMM030 (1D1)
19 Slot DIMM020 (1C1) 20 Power connector
21 Positioning pin 22 Midplane signal connector

HUAWEI E9000 Blade Server Compute nodes configurations as below :
03054855 IT1DSRCA06 Romley EP computes the node-CH121
03055640 IT11SRCC02 The Romley EP computes the node-CH140
03054861 IT1DGRUA03 4 * X8 PCIe Resource Extension The Romley EP compute node, -CH220
03054862 IT1DGRUA04 2 * X16 PCIe Resource Extension The Romley EP compute node, -CH221
03054852 IT1DSESA02 15 * 2.5 “HDD storage expansion Romley EP compute node -CH222
03030QMF IT1DSRCD03 Romley, 4P, 48DIMM Compute the node -CH240
03054986 IT11SBCA03 Boxboro EX RAID 0/1 compute node -CH242
03055236 IT11SBCA05 Boxboro EX RAID 0/1/10/5/50/6/60 1GB Cache Compute node -CH242
03030SAB IT11SBCB01 Brickland EX compute node CH242 V3 8HDD
03030SAD IT11SBCB02 Brickland EX compute node CH242 V3 4HDD
S1010FCG IvyBridge EP CPU options for E9000 server:
41020429 EX86XE115 X86 series-FCLGA2011-1800MHz-0.9V-64bit-80000mW-IvyBridge EP Xeon E5-2603 v2-4Core-IT product line-specific
41020428 EX86XE114 X86 series-FCLGA2011-2500MHz-0.9V-64bit-80000mW-IvyBridge EP Xeon E5-2609 v2-4Core-IT server-specific
41020427 EX86XE113 X86 series-FCLGA2011-3500MHz-0.9V-64bit-130000mW-IvyBridge EP Xeon E5-2637 v2-4Core-IT server-specific
41020426 EX86XE112 X86 series-FCLGA2011-2100MHz-0.9V-64bit-80000mW-IvyBridge EP Xeon E5-2620 v2-6Core-IT product line dedicated
41020425 EX86XE111 X86 series-FCLGA2011-2600MHz-0.9V-64bit-80000mW-IvyBridge EP Xeon E5-2630 v2-6Core-IT server-specific
41020424 EX86XE110 X86 series-FCLGA2011-3500MHz-0.9V-64bit-130000mW-IvyBridge EP Xeon E5-2643 v2-6Core-IT server-specific
41020422 EX86XE101 X86 series-FCLGA2011-2000MHz-0.9V-64bit-95000mW-IvyBridge EP Xeon E5-2640 v2-8Core-IT server-specific
41020421 EX86XE109 X86 series-FCLGA2011-2600MHz-0.9V-64bit-95000mW-IvyBridge EP Xeon E5-2650 v2-8Core-IT server-specific
41020420 EX86XE108 X86 series-FCLGA2011-3300MHz-0.9V-64bit-130000mW-IvyBridge EP Xeon E5-2667 v2-8Core-IT server-specific
41020423 EX86XE102 X86 series-FCLGA2011-1700MHz-0.9V-64bit-70000mW-IvyBridge EP Xeon E5-2650L v2-10Core-IT server only
41020417 EX86XE105 X86 series-FCLGA2011-2200MHz-0.9V-64bit-95000mW-IvyBridge EP Xeon E5-2660 v2-10Core-IT product line-specific
41020383 ELVE52658 X86 series-FCLGA2011-2400MHz-0.9V-64bit-95000mW-IvyBridge EP Xeon E5-2658 V2-10Core
41020416 EX86XE104 X86 series-FCLGA2011-2500MHz-0.9V-64bit-115000mW-IvyBridge EP Xeon E5-2670 v2-10Core-IT server-specific
41020411 EX86XE100 X86 series-FCLGA2011-2800MHz-0.9V-64bit-115000mW-IvyBridge EP Xeon E5-2680 v2-10Core-IT server-specific
41020415 EX86XE103 X86 series-FCLGA2011-3000MHz-0.9V-64bit-130000mW-IvyBridge EP Xeon E5-2690 v2-10Core-IT server-specific
41020419 EX86XE107 X86 series-FCLGA2011-2400MHz-0.9V-64bit-115000mW-IvyBridge EP Xeon E5-2695 v2-12Core-IT server-specific
41020418 EX86XE106 X86 series-FCLGA2011-2700MHz-0.9V-64bit-130000mW-IvyBridge EP Xeon E5-2697 v2-12Core-IT server only
E9000 _全宽 半宽
 

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