- Table of Contents
- Related Documents
-
Title | Size | Download |
---|---|---|
02-Appendix | 1.65 MB |
Contents
Appendix A Server specifications
Server models and chassis view
Appendix B Component specifications
DRAM DIMM rank classification label
Drive configurations and numbering
Expander modules and transfer modules
Diagnostic panel specifications
Storage options other than HDD and SSD drives
Security bezels, slide rail kits, and cable management brackets
Appendix C Managed hot removal of NVMe drives
Performing a managed hot removal in Windows
Performing a managed hot removal in Linux
Performing a managed hot removal from the CLI
Appendix D Environment requirements
General environment requirements
Operating temperature requirements
4LFF server with any drive configuration
8SFF server with an 8SFF drive configuration
8SFF server with a 10SFF drive configuration
10SFF server with any drive configuration
Appendix A Server specifications
The information in this document might differ from your product if it contains custom configuration options or features.
Server models and chassis view
H3C UniServer R4700 G3 server is a 1U rack server with two Intel Purley or Jintide-C series processors. It is suitable for cloud computing, IDC, and enterprise networks built based on new-generation infrastructure.
Figure 1 Chassis view
The server comes in the models described in Table 1. These models offer different drive configurations. For information about the compatible drive and storage controller configurations, see "Drive configurations and numbering."
Table 1 R4700 G3 server models
Model |
Maximum drive configuration |
4LFF |
4 front LFF SAS/SATA drives and 2 rear SFF SAS/SATA drives |
· 8 front SFF NVMe drives and 2 front SFF SAS/SATA drives · 8 front SFF SAS/SATA drives and 2 front SFF SAS/SATA drives · 8 front SFF SAS/SATA drives and 2 front SFF NVMe drives · 4 front SFF SAS/SATA drives and 4 front SFF NVMe drives |
|
10SFF |
10 front SFF SAS/SATA drives and 2 rear SFF SAS/SATA drives |
Technical specifications
Item |
4LFF |
8SFF |
10SFF |
Dimensions (H × W × D) |
· Without a security bezel: 42.9 × 434.6 × 780 mm (1.69 × 17.11 ×30.71 in) · With a security bezel: 42.9 × 434.6 × 803 mm (1.69 × 17.11 × 31.61 in) |
||
Max. weight |
19.35 kg (42.66 lb) |
19.70 kg (43.43 lb) |
21.20 kg (46.74 lb) |
Processors |
2 × Intel Purley or Jintide-C series processors (Up to 3.6 GHz base frequency, maximum 205 W power consumption, and 38.5 MB cache per processor) |
||
Memory |
24 × DDR4 DIMMs |
||
Chipset |
Intel C622 Lewisburg chipset |
||
Network connection |
· 1 × onboard 1 Gbps HDM dedicated network port · 1 × mLOM Ethernet adapter connector |
||
¡ 1 × onboard mini-SAS connector (x8 SATA connectors) ¡ 1 × onboard x1 SATA connector · 6 × USB connectors: ¡ 4 × USB 3.0 connectors (two at the server rear and two on the system board) ¡ 2 × USB 2.0 connectors (available only if a front media module is installed) · 2 × VGA connectors (one at the server rear and one available only if a front media module is installed) · 1 × BIOS serial port at the server rear |
|||
Expansion slots |
4 × PCIe3.0 connectors, including two standard connectors, one mezzanine storage controller connector, and one Ethernet adapter connector |
||
· External USB optical drives · Built-in SATA optical drive |
· External USB optical drives · Built-in SATA optical drive |
External USB optical drives |
|
Power supplies |
1+1 hot-swappable power supply redundancy Options: · 550 W Platinum · 550 W high-efficiency Platinum · 800 W Platinum · 800 W –48 VDC · 800 W 336V high-voltage DC · 850 W high-efficiency Platinum · 850 W Titanium · 1200 W Platinum For more information, see "Power supplies." |
||
Standards |
CECP SEPA |
Components
Figure 2 R4700 G3 server components
Table 2 R4700 G3 server components
Description |
|
(1) Access panel |
N/A |
(2) Chassis-open alarm module |
Generates a chassis open alarm every time the access panel is removed. The alarms can be displayed from the HDM Web interface. |
(3) NVMe VROC module |
Works with VMD to provide RAID capability for the server to virtualize NVMe drives. |
(4) Chassis air baffle |
Provides ventilation aisles for the chassis. The server also provides power supply air baffles for ventilation of the power supplies. |
(5) Storage controller |
Provides RAID capability for the server to virtualize storage resources of SAS/SATA drives. It supports RAID configuration, RAID capability expansion, online upgrade, and remote configuration. |
(6) Dual SD card expansion module |
Provides SD card slots. |
(7) Riser card |
Installed on the system board to provide an additional slot for PCIe modules. |
(8) System battery |
Supplies power to the system clock. |
(9) Drive cage |
Encloses SAS and SATA drives. |
(10) Power supply |
Supplies power to the server. It supports hot swapping and 1+1 redundancy. |
(11) Riser card blank |
Installed on an empty riser card connector to ensure good ventilation. |
(12) mLOM Ethernet adapter |
Installed on the mLOM Ethernet adapter connector of the system board for network expansion. |
(13) Chassis ears |
Attach the server to the rack. |
(14) Front media module |
Provides one VGA connector and two USB 2.0 connectors at the front of the server. |
(15) Diagnostic panel |
Displays information about faulty components for quick diagnosis. |
(16) M.2 transfer module |
Expands the server with a maximum of two SATA M.2 SSDs. |
(17) SATA M.2 SSD card |
Provides storage media for the server. |
(18) Drive |
Drive for data storage, which is hot swappable. |
(19) Drive expander module |
Provides connection between drives and a storage controller to expand the number of drives controlled by the storage controller. If no drive expander module is installed, a storage controller can manage a maximum of eight drives. |
(20) Drive backplane |
Provides power and data channels for drives. |
(21) Fan blank |
Installed in an empty fan bay to ensure good ventilation. |
(22) Fan |
Supports hot swapping and N+1 redundancy. |
(23) Supercapacitor holder |
Secures a supercapacitor in the chassis. |
(24) Supercapacitor |
Supplies power to the flash card of the power fail safeguard module, which enables the storage controller to write data to the flash card for protection when power outage occurs. |
(25) Memory |
Stores computing data and data exchanged with external storage. |
(26) System board |
The main printed circuit board that accommodates and interconnects various server components, including the processors, memory, BIOS chip, HDM chip, PCIe connectors, and fans. |
(27) Processor |
Integrates a control unit and a PCIe controller to provide data processing capabilities for the server. |
(28) Processor retaining bracket |
Attaches a processor to the heatsink. |
(29) Processor heatsink |
Cools the processor. |
Front panel
Front panel view
Figure 3, Figure 4, and Figure 5 show the front panel views of 4LFF, 8SFF, and 10SFF servers, respectively.
Figure 3 4LFF front panel
(1) Serial label pull tab module |
(2) Optical drives or SATA M.2 SSDs |
(3) Optional front media module (one VGA connector + two USB 2.0 connectors) |
|
(4) Optional drive or diagnostic panel |
|
(5) LFF drives |
Figure 4 8SFF front panel
(1) Serial label pull tab module |
(2) Optical drive, SATA M.2 SSDs, or 2SFF drives |
(3) Optional front media module (one VGA connector + two USB 2.0 connectors) |
|
(4) Optional drive or diagnostic panel |
(5) SFF drives |
Figure 5 10SFF front panel
(1) Serial label pull tab module |
|
(2) Optional front media module (one VGA connector + two USB 2.0 connectors) |
|
(3) Optional drive or diagnostic panel |
(4) SFF drives |
LEDs and buttons
Figure 6, Figure 7, and Figure 8 show front panel LEDs and buttons. Table 3 describes the status of the front panel LEDs.
Figure 6 Front panel LEDs and buttons (4LFF)
(1) UID button LED |
(2) Health LED |
(3) mLOM Ethernet adapter Ethernet port LED |
(4) Power on/standby button and system power LED |
Figure 7 Front panel LEDs and buttons (8SFF)
(1) UID button LED |
(2) Health LED |
(3) mLOM Ethernet adapter Ethernet port LED |
(4) Power on/standby button and system power LED |
Figure 8 Front panel LEDs and buttons (10SFF)
(1) UID button LED |
(2) Health LED |
(3) mLOM Ethernet adapter Ethernet port LED |
(4) Power on/standby button and system power LED |
Table 3 LEDs and buttons on the front panel
Button/LED |
Status |
UID button LED |
· Steady blue—UID LED is activated. The UID LED can be activated by using the following methods: ¡ Press the UID button LED. ¡ Activate the UID LED from HDM. · Flashing blue: ¡ 1 Hz—The firmware is being upgraded or the system is being managed from HDM. ¡ 4 Hz—HDM is restarting. To restart HDM, press the UID button LED for eight seconds. · Off—UID LED is not activated. |
Health LED |
· Steady green—The system is operating correctly. · Flashing green (4 Hz)—HDM is initializing. · Flashing amber (0.5 Hz)—A predictive alarm has occurred. · Flashing amber (1 Hz)—A general alarm has occurred. · Flashing red (1 Hz)—A severe alarm has occurred. If a system alarm is present, log in to HDM to obtain more information about the system running status. |
mLOM Ethernet adapter Ethernet port LED |
· Steady green—A link is present on the port. · Flashing green (1 Hz)—The port is receiving or sending data. · Off—No link is present on the port. |
System power LED |
· Steady green—The system has started. · Flashing green (1 Hz)—The system is starting. · Steady amber—The system is in Standby state. · Off—No power is present. Possible reasons: ¡ No power source is connected. ¡ No power supplies are present. ¡ The installed power supplies are faulty. ¡ The system power cords are not connected correctly. |
Ports
The server does not provide fixed ports on its front panel. However, you can install a front media module if VGA or USB connections are needed, as shown in Table 4. For detailed port locations, see "Front panel view."
Table 4 Optional ports on the front panel
Port |
Type |
Description |
VGA connector |
DB-15 |
Connects a display terminal, such as a monitor or KVM device. |
USB connector |
USB 2.0 |
Connects the following devices: · USB flash drive. · USB keyboard or mouse. |
Rear panel
Rear panel view
Figure 9 shows the rear panel view.
Figure 9 Rear panel components
(1) PCIe slot 1 (processor 1) |
(2) PCIe slot 2 (processor 2) |
(3) Power supply 2 |
(4) Power supply 1 |
(5) BIOS serial port |
(6) VGA connector |
(7) USB 3.0 connectors |
(8) HDM dedicated network port (1 Gbps, RJ-45, default IP address 192.168.1.2/24) |
(9) mLOM Ethernet adapter (optional) |
|
LEDs
Figure 10 shows the rear panel LEDs. Table 5 describes the status of the rear panel LEDs.
(1) Link LED of the Ethernet port |
(2) Activity LED of the Ethernet port |
(3) UID LED |
(4) Power supply 1 LED |
(5) Power supply 2 LED |
|
Table 5 LEDs on the rear panel
LED |
Status |
Link LED of the Ethernet port |
· Steady green—A link is present on the port. · Off—No link is present on the port. |
Activity LED of the Ethernet port |
· Flashing green (1 Hz)—The port is receiving or sending data. · Off—The port is not receiving or sending data. |
UID LED |
· Steady blue—UID LED is activated. The UID LED can be activated by using the following methods: ¡ Press the UID button LED. ¡ Enable UID LED from HDM. · Flashing blue: ¡ 1 Hz—The firmware is being updated or the system is being managed by HDM. ¡ 4 Hz—HDM is restarting. To restart HDM, press the UID button LED for eight seconds. · Off—UID LED is not activated. |
Power supply LED |
· Steady green—The power supply is operating correctly. · Flashing green (1 Hz)—Power is being input correctly but the system is not powered on. · Flashing green (0.33 Hz)—The power supply is in standby state and does not output power. · Flashing green (2 Hz)—The power supply is updating its firmware. · Steady amber—Either of the following conditions exists: ¡ The power supply is faulty. ¡ The power supply does not have power input, but the other power supply has correct power input. · Flashing amber (1 Hz)—An alarm has occurred on the power supply. · Off—No power supplies have power input, which can be caused by an incorrect power cord connection or power source shutdown. |
Ports
For detailed port locations, see "Rear panel view."
Table 6 Ports on the rear panel
Port |
Type |
Description |
BIOS serial port |
DB-9 |
The BIOS serial port is used for the following purposes: · Log in to the server when the remote network connection to the server has failed. · Establish a GSM modem or encryption lock connection. |
VGA connector |
DB-15 |
Connects a display terminal, such as a monitor or KVM device. |
USB connector |
USB 3.0 |
Connects the following devices: · USB flash drive. · USB keyboard or mouse. · USB optical drive for operating system installation. |
HDM dedicated network port |
RJ-45 |
Establishes a network connection to manage HDM from its Web interface. |
Power receptacle |
Standard single-phase |
Connects the power supply to the power source. |
System board
System board components
Figure 11 System board components
(1) TPM/TCM connector |
(2) Mezzanine storage controller connector |
(3) System battery |
(4) System maintenance switch 1 |
(5) System maintenance switch 2 |
(6) System maintenance switch 3 |
(7) PCIe riser connector 1 (processor 1) |
(8) mLOM Ethernet adapter connector |
(10) Mini-SAS port (x8 SATA ports) |
|
(11) Front I/O connector |
(12) Optical/SATA port |
(13) Air inlet temperature sensor connector |
|
(15) Fan bay 6 |
(16) Fan bay 5 |
(17) Fan bay 4 |
(18) Fan bay 3 |
(19) Fan bay 2 |
(20) Fan bay 1 |
(21) Dual internal USB 3.0 connectors |
(22) Drive backplane AUX connector 2 |
(23) Chassis-open alarm module, front VGA, and USB 2.0 connector |
(24) Drive backplane power connector 1 and SATA M.2 SSD power connector |
(25) Drive backplane AUX connector 1 |
(26) Drive backplane power connector 2 |
(27) NVMe VROC module connector |
(28) Dual SD card extended module connector |
(29) PCIe riser connector 2 (processor 2) |
|
System maintenance switches
Use the system maintenance switches if you forget HDM username, HDM password, or BIOS password, or need to restore the default BIOS settings, as described in Table 7. To identify the location of the switches on the system board, see Figure 11.
Table 7 System maintenance switches
Item |
Description |
Remarks |
System maintenance switch 1 |
· Pins 1-2 jumped (default)—HDM login requires the username and password of a valid HDM user account. · Pins 2-3 jumped—HDM login requires the default username and password. |
For security purposes, jump pins 1 and 2 after you complete tasks with the default username and password as a best practice. |
System maintenance switch 2 |
· Pins 1-2 jumped (default)—Normal server startup. · Pins 2-3 jumped—Clears all passwords from the BIOS at server startup. |
To clear all passwords from the BIOS, jump pins 2 and 3 and then start the server. All the passwords will be cleared from the BIOS. Before the next server startup, jump pins 1 and 2 to perform a normal server startup. |
System maintenance switch 3 |
· Pins 1-2 jumped (default)—Normal server startup. · Pins 2-3 jumped—Restores the default BIOS settings. |
To restore the default BIOS settings, jump pins 2 and 3 for over 30 seconds, and then jump pins 1 and 2 for normal startup. |
DIMM slots
The server provides 6 DIMM channels per processor, 12 channels in total. Each channel contains one white-coded slot and one black-coded slot, as shown in Table 8.
Table 8 DIMM slot numbering and color-coding scheme
Processor |
DlMM slots |
Processor 1 |
A1 through A6 (white coded) A7 through A12 (black coded) |
Processor 2 |
B1 through B6 (white coded) B7 through B12 (black coded) |
Figure 12 shows the physical layout of the DIMM slots on the system board. For more information about the DIMM slot population rules, see the guidelines in "Installing DIMMs."
Figure 12 DIMM physical layout
Appendix B Component specifications
About component model names
The model name of a hardware option in this document might differ slightly from its model name label.
A model name label might add a prefix or suffix to the hardware-coded model name for purposes such as identifying the matching server brand or applicable region. For example, the DDR4-2666-8G-1Rx8-R memory model represents memory module labels including UN-DDR4-2666-8G-1Rx8-R, UN-DDR4-2666-8G-1Rx8-R-F, and UN-DDR4-2666-8G-1Rx8-R-S, which have different suffixes.
Processors
Intel processors
Table 9 Skylake processors
Model |
Base frequency |
Power |
Number of cores |
Cache (L3) |
UPI links |
UPI speed |
Supported max. data rate of DIMMs |
8180 |
2.5 GHz |
205 W |
28 |
38.5 MB |
3 |
10.4 GT/s |
2666 MHz |
8176 |
2.1 GHz |
165 W |
28 |
38.5 MB |
3 |
10.4 GT/s |
2666 MHz |
8170 |
2.1 GHz |
165 W |
26 |
35.75 MB |
3 |
10.4 GT/s |
2666 MHz |
8168 |
2.7 GHz |
205 W |
24 |
33 MB |
3 |
10.4 GT/s |
2666 MHz |
8164 |
2.0 GHz |
150 W |
26 |
35.75 MB |
3 |
10.4 GT/s |
2666 MHz |
8160 |
2.1 GHz |
150 W |
24 |
33 MB |
3 |
10.4 GT/s |
2666 MHz |
8158 |
3.0 GHz |
150 W |
12 |
24.75 MB |
3 |
10.4 GT/s |
2666 MHz |
8156 |
3.6 GHz |
105 W |
4 |
16.5 MB |
3 |
10.4 GT/s |
2666 MHz |
8153 |
2.0 GHz |
125 W |
16 |
22 MB |
3 |
10.4 GT/s |
2666 MHz |
6154 |
3.0 GHz |
200 W |
18 |
24.75 MB |
3 |
10.4 GT/s |
2666 MHz |
6152 |
2.1 GHz |
140 W |
22 |
30.25 MB |
3 |
10.4 GT/s |
2666 MHz |
6150 |
2.7 GHz |
165 W |
18 |
24.75 MB |
3 |
10.4 GT/s |
2666 MHz |
6148 |
2.4 GHz |
150 W |
20 |
27.5 MB |
3 |
10.4 GT/s |
2666 MHz |
6146 |
3.2 GHz |
165 W |
12 |
24.75 MB |
3 |
10.4 GT/s |
2666 MHz |
6144 |
3.5 GHz |
150 W |
8 |
24.75 |
3 |
10.4 GT/s |
2666 MHz |
6142 |
2.6 GHz |
150 W |
16 |
22 MB |
3 |
10.4 GT/s |
2666 MHz |
6140 |
2.3 GHz |
140 W |
18 |
24.75 MB |
3 |
10.4 GT/s |
2666 MHz |
6138 |
2.0 GHz |
125 W |
20 |
28 MB |
3 |
10.4 GT/s |
2666 MHz |
6136 |
3.0 GHz |
150 W |
12 |
24.75 MB |
3 |
10.4 GT/s |
2666 MHz |
6134 |
3.2 GHz |
130 W |
8 |
24.75 MB |
3 |
10.4 GT/s |
2666 MHz |
6133 |
2.5 GHz |
150 W |
20 |
27.5 MB |
2 |
10.4 GT/s |
2666 MHz |
6132 |
2.6 GHz |
140 W |
14 |
19.25 MB |
3 |
10.4 GT/s |
2666 MHz |
6130 |
2.1 GHz |
125 W |
16 |
22 MB |
3 |
10.4 GT/s |
2666 MHz |
6128 |
3.4 GHz |
115 W |
6 |
19.25 MB |
3 |
10.4 GT/s |
2666 MHz |
6126 |
2.6 GHz |
125 W |
12 |
19.25 MB |
3 |
10.4 GT/s |
2666 MHz |
5122 |
3.6 GHz |
105 W |
4 |
16.5 MB |
2 |
10.4 GT/s |
2666 MHz |
5120 |
2.2 GHz |
105 W |
14 |
19.25 MB |
2 |
10.4 GT/s |
2400 MHz |
5118 |
2.3 GHz |
105 W |
12 |
16.5 MB |
2 |
10.4 GT/s |
2400 MHz |
5117 |
2.0 GHz |
105 W |
14 |
19.25 MB |
2 |
10.4 GT/s |
2400 MHz |
5115 |
2.4 GHz |
85 W |
10 |
13.75 MB |
2 |
10.4 GT/s |
2400 MHz |
4116 |
2.1 GHz |
85 W |
12 |
16.5 MB |
2 |
9.6 GT/s |
2400 MHz |
4114 |
2.2 GHz |
85 W |
10 |
13.75 MB |
2 |
9.6 GT/s |
2400 MHz |
4112 |
2.6 GHz |
85 W |
4 |
8.25 MB |
2 |
9.6 GT/s |
2400 MHz |
4110 |
2.1 GHz |
85 W |
8 |
11 MB |
2 |
9.6 GT/s |
2400 MHz |
4108 |
1.8 GHz |
85 W |
8 |
11 MB |
2 |
9.6 GT/s |
2400 MHz |
3106 |
1.7 GHz |
85 W |
8 |
11 MB |
2 |
9.6 GT/s |
2133 MHz |
3104 |
1.7 GHz |
85 W |
6 |
8.25 MB |
2 |
9.6 GT/s |
2133 MHz |
8160T |
2.1 GHz |
150 W |
24 |
33 MB |
3 |
10.4 GT/s |
2666 MHz |
6138T |
2.0 GHz |
125 W |
20 |
27.5 MB |
3 |
10.4 GT/s |
2666 MHz |
6130T |
2.1 GHz |
125 W |
16 |
22 MB |
3 |
10.4 GT/s |
2666 MHz |
6126T |
2.6 GHz |
125 W |
12 |
19.25 MB |
3 |
10.4 GT/s |
2666 MHz |
5120T |
2.2 GHz |
105 W |
14 |
19.25 MB |
2 |
10.4 GT/s |
2400 MHz |
5119T |
1.9 GHz |
85 W |
14 |
19.25 MB |
2 |
10.4 GT/s |
2400 MHz |
4116T |
2.1 GHz |
85 W |
12 |
16.5 MB |
2 |
9.6 GT/s |
2400 MHz |
4114T |
2.1 GHz |
85 W |
10 |
13.75 MB |
2 |
9.6 GT/s |
2400 MHz |
4109T |
2.0 GHz |
70 W |
8 |
11 MB |
2 |
9.6 GT/s |
2400 MHz |
8180M |
2.5 GHz |
205 W |
28 |
38.5 MB |
3 |
10.4 GT/s |
2666 MHz |
8176M |
2.1 GHz |
165 W |
28 |
38.5 MB |
3 |
10.4 GT/s |
2666 MHz |
8170M |
2.1 GHz |
165 W |
26 |
35.75 MB |
3 |
10.4 GT/s |
2666 MHz |
8160M |
2.1 GHz |
150 W |
24 |
33 MB |
3 |
10.4 GT/s |
2666 MHz |
6142M |
2.6 GHz |
150 W |
16 |
22 MB |
3 |
10.4 GT/s |
2666 MHz |
6140M |
2.3 GHz |
140 W |
18 |
24.75 MB |
3 |
10.4 GT/s |
2666 MHz |
6134M |
3.2 GHz |
130 W |
8 |
24.75 MB |
3 |
10.4 GT/s |
2666 MHz |
Table 10 Cascade Lake processors
Model |
Base frequency |
Power |
Number of cores |
Cache (L3) |
UPI links |
UPI speed |
Supported max. data rate of DIMMs |
8276 |
2.2 GHz |
165 W |
28 |
38.5 MB |
3 |
10.4 GT/s |
2933 MHz |
8260 |
2.4 GHz |
165 W |
24 |
35.75 MB |
3 |
10.4 GT/s |
2933 MHz |
6248 |
2.5 GHz |
150 W |
20 |
27.5 MB |
3 |
10.4 GT/s |
2933 MHz |
6244 |
3.6 GHz |
150 W |
8 |
24.75 MB |
3 |
10.4 GT/s |
2933 MHz |
6242 |
2.8 GHz |
150 W |
16 |
22 MB |
3 |
10.4 GT/s |
2933 MHz |
6240 |
2.6 GHz |
150 W |
18 |
24.75 MB |
3 |
10.4 GT/s |
2933 MHz |
6230 |
2.1 GHz |
125 W |
20 |
27.5 MB |
3 |
10.4 GT/s |
2933 MHz |
5220 |
2.2 GHz |
125 W |
18 |
24.75 MB |
2 |
10.4 GT/s |
2666 MHz |
5218 |
2.3 GHz |
125 W |
16 |
22 MB |
2 |
10.4 GT/s |
2666 MHz |
6240Y |
2.6 GHz |
150 W |
18 |
24.75 MB |
3 |
10.4 GT/s |
2933 MHz |
Jintide-C series processors
Model |
Base frequency |
Power |
Number of cores |
Cache (L3) |
UPI links |
UPI speed |
Supported max. data rate of DIMMs |
C2460 |
2.1 GHz |
150 W |
24 |
33 MB |
3 |
10.4 GT/s |
2666 MHz |
C1640 |
2.1 GHz |
125 W |
16 |
22 MB |
3 |
10.4 GT/s |
2666 MHz |
C1450 |
2.2 GHz |
105 W |
14 |
19.25 MB |
2 |
10.4 GT/s |
2400 MHz |
C1230 |
2.3 GHz |
105 W |
12 |
16.5 MB |
2 |
10.4 GT/s |
2400 MHz |
C1020 |
2.2 GHz |
85 W |
10 |
13.75 MB |
2 |
9.6 GT/s |
2400 MHz |
C0810 |
2.1 GHz |
85 W |
8 |
11 MB |
2 |
9.6 GT/s |
2400 MHz |
DIMMs
The server provides 6 DIMM channels per processor, 12 channels in total. Each DIMM channel has two DIMM slots and supports a maximum of eight ranks. For the physical layout of DIMM slots, see "DIMM slots."
DRAM specifications
Product code |
Model |
Type |
Capacity |
Data rate |
Rank |
0231AADX |
DDR4-16G-1Rx4-R-1 |
RDIMM |
16 G |
2400 MHz |
Single-rank |
0231AADY |
DDR4-32G-2Rx4-R-1 |
RDIMM |
32 G |
2400 MHz |
Dual-rank |
0231A6SR |
DDR4-2666-8G-1Rx8-R |
RDIMM |
8 GB |
2666 MHz |
Single-rank |
0231A6SP |
DDR4-2666-16G-1Rx4-R |
RDIMM |
16 GB |
2666 MHz |
Single-rank |
0231A6SQ |
DDR4-2666-16G-2Rx8-R |
RDIMM |
16 GB |
2666 MHz |
Dual-rank |
0231AADP |
DDR4-2666-16G-1Rx4-R-1 |
RDIMM |
16 GB |
2666 MHz |
Single-rank |
0231AAEF |
DDR4-2666-16G-1Rx4-R-2 |
RDIMM |
16 GB |
2666 MHz |
Single-rank |
0231AAEG |
DDR4-2666-16G-1Rx4-R-3 |
RDIMM |
16 GB |
2666 MHz |
Single-rank |
0231AAEH |
DDR4-2666-16G-2Rx8-R-1 |
RDIMM |
16 GB |
2666 MHz |
Dual-rank |
0231AAE8 |
DDR4-2666-16G-2Rx8-R-2 |
RDIMM |
16 GB |
2666 MHz |
Dual-rank |
0231AAE0 |
DDR4-2666-16G-2Rx8-R-3 |
RDIMM |
16 GB |
2666 MHz |
Dual-rank |
0231A6SS |
DDR4-2666-32G-2Rx4-R |
RDIMM |
32 GB |
2666 MHz |
Dual-rank |
0231AAE9 |
DDR4-2666-32G-2Rx4-R-1 |
RDIMM |
32 GB |
2666 MHz |
Dual-rank |
0231AAEJ |
DDR4-2666-32G-2Rx4-R-2 |
RDIMM |
32 GB |
2666 MHz |
Dual-rank |
0231AAEK |
DDR4-2666-32G-2Rx4-R-3 |
RDIMM |
32 GB |
2666 MHz |
Dual-rank |
0231A8QJ |
DDR4-2666-64G-4Rx4-L |
LRDIMM |
64 GB |
2666 MHz |
Quad-rank |
0231AADQ |
DDR4-2666-64G-4Rx4-L-1 |
LRDIMM |
64 GB |
2666 MHz |
Quad-rank |
0231AADT |
DDR4-2666-64G-4Rx4-L-2 |
LRDIMM |
64 GB |
2666 MHz |
Quad-rank |
0231AADR |
DDR4-2666-64G-4Rx4-L-3 |
LRDIMM |
64 GB |
2666 MHz |
Quad-rank |
0231AC4S |
DDR4-2933P-16G-1Rx4-R |
RDIMM |
16 GB |
2933 MHz |
Single-rank |
0231AC4V |
DDR4-2933P-16G-2Rx8-R |
RDIMM |
16 GB |
2933 MHz |
Dual-rank |
0231AC4T |
DDR4-2933P-32G-2Rx4-R |
RDIMM |
32 GB |
2933 MHz |
Dual-rank |
0231AC4N |
DDR4-2933P-64G-2Rx4-R |
RDIMM |
64 GB |
2933 MHz |
Dual-rank |
DCPMM specifications
Product code |
Model |
Type |
Capacity |
Data rate |
0231AC5R |
AP-128G-NMA1XBD128GQSE |
Apache Pass |
128 GB |
2666 MHz |
0231AC7P |
AP-256G-NMA1XBD256GQSE |
Apache Pass |
256 GB |
2666 MHz |
0231AC65 |
AP-512G-NMA1XBD512GQSE |
Apache Pass |
512 GB |
2666 MHz |
DRAM DIMM rank classification label
A DIMM rank is a set of memory chips that the system accesses while writing or reading from the memory. On a multi-rank DIMM, only one rank is accessible at a time.
To determine the rank classification of a DRAM DIMM, use the label attached to the DIMM, as shown in Figure 13.
Figure 13 DRAM DIMM rank classification label
Table 11 DIMM rank classification label description
Callout |
Description |
Remarks |
1 |
Capacity |
N/A |
2 |
Number of ranks |
N/A |
3 |
Data width |
· ×4—4 bits. · ×8—8 bits. |
4 |
DIMM generation |
Only DDR4 is supported. |
5 |
Data rate |
· 2133P—2133 MHz. · 2400T—2400 MHz. · 2666V—2666 MHz. · 2933Y—2933 MHz. |
6 |
DIMM type |
· L—LRDIMM. · R—RDIMM. |
HDDs and SSDs
Drive specifications
SAS HDDs
Model |
Form factor |
Capacity |
Rate |
Rotating speed |
HDD-300G-SAS-12G-10K-SFF-EP |
SFF |
300 GB |
12 Gbps |
10000 RPM |
HDD-300G-SAS-12G-15K-SFF |
SFF |
300 GB |
12 Gbps |
15000 RPM |
HDD-600G-SAS-12G-10K-SFF |
SFF |
600 GB |
12 Gbps |
10000 RPM |
HDD-600G-SAS-12G-10K-SFF-1 |
SFF |
600 GB |
12 Gbps |
10000 RPM |
HDD-600G-SAS-12G-15K-SFF-1 |
SFF |
600 GB |
12 Gbps |
15000 RPM |
HDD-900G-SAS-12G-10K-SFF |
SFF |
900 GB |
12 Gbps |
10000 RPM |
HDD-900G-SAS-12G-15K-SFF |
SFF |
900 GB |
12 Gbps |
15000 RPM |
HDD-1.2T-SAS-12G-10K-SFF |
SFF |
1.2 TB |
12 Gbps |
10000 RPM |
HDD-1.8T-SAS-12G-10K-SFF |
SFF |
1.8 TB |
12 Gbps |
10000 RPM |
HDD-2.4T-SAS-12G-10K-SFF |
SFF |
2.4 TB |
12 Gbps |
10000 RPM |
HDD-300G-SAS-12G-10K-LFF-EP |
LFF |
300 GB |
12 Gbps |
10000 RPM |
HDD-300G-SAS-12G-15K-LFF-EP |
LFF |
300 GB |
12 Gbps |
15000 RPM |
HDD-600G-SAS-12G-10K-LFF-1 |
LFF |
600 GB |
12 Gbps |
10000 RPM |
HDD-600G-SAS-12G-10K-LFF |
LFF |
600 GB |
12 Gbps |
10000 RPM |
HDD-600G-SAS-12G-15K-LFF-1 |
LFF |
600 GB |
12 Gbps |
15000 RPM |
HDD-900G-SAS-12G-15K-LFF |
LFF |
900 GB |
12 Gbps |
15000 RPM |
HDD-2T-SAS-12G-7.2K-LFF |
LFF |
2.0 TB |
12 Gbps |
7200 RPM |
HDD-2.4T-SAS-12G-10K-LFF |
LFF |
2.4 TB |
12 Gbps |
10000 RPM |
HDD-4T-SAS-12G-7.2K-LFF |
LFF |
4.0 TB |
12 Gbps |
7200 RPM |
HDD-6T-SAS-12G-7.2K-LFF |
LFF |
6.0 TB |
12 Gbps |
7200 RPM |
HDD-8T-SAS-12G-7.2K-LFF |
LFF |
8.0 TB |
12 Gbps |
7200 RPM |
HDD-10T-SAS-12G-7.2K-LFF |
LFF |
10.0 TB |
12 Gbps |
7200 RPM |
HDD-12T-SAS-12G-7.2K-LFF |
LFF |
12.0 TB |
12 Gbps |
7200 RPM |
SATA HDDs
Model |
Form factor |
Capacity |
Rate |
Rotating speed |
HDD-1T-SATA-6G-7.2K-SFF-1 |
SFF |
1.0 TB |
6 Gbps |
7200 RPM |
HDD-2T-SATA-6G-7.2K-SFF |
SFF |
2.0 TB |
6 Gbps |
7200 RPM |
HDD-1T-SATA-6G-7.2K-LFF |
LFF |
1.0 TB |
6 Gbps |
7200 RPM |
HDD-1T-SATA-6G-7.2K-LFF-1 |
LFF |
1.0 TB |
6 Gbps |
7200 RPM |
HDD-2T-SATA-6G-7.2K-LFF |
LFF |
2.0 TB |
6 Gbps |
7200 RPM |
HDD-2T-SATA-6G-7.2K-LFF-1 |
LFF |
2.0 TB |
6 Gbps |
7200 RPM |
HDD-2T-SATA-6G-7.2K-LFF-4 |
LFF |
2.0 TB |
6 Gbps |
7200 RPM |
HDD-4T-SATA-6G-7.2K-LFF |
LFF |
4.0 TB |
6 Gbps |
7200 RPM |
HDD-4T-SATA-6G-7.2K-LFF-BS |
LFF |
4.0 TB |
6 Gbps |
7200 RPM |
HDD-4T-SATA-6G-7.2K-LFF-BH |
LFF |
4.0 TB |
6 Gbps |
7200 RPM |
HDD-4T-SATA-6G-7.2K-LFF-1 |
LFF |
4.0 TB |
6 Gbps |
7200 RPM |
HDD-4T-SATA-6G-7.2K-LFF-2 |
LFF |
4.0 TB |
6 Gbps |
7200 RPM |
HDD-4T-SATA-6G-7.2K-LFF-3 |
LFF |
4.0 TB |
6 Gbps |
7200 RPM |
HDD-6T-SATA-6G-7.2K-LFF |
LFF |
6.0 TB |
6 Gbps |
7200 RPM |
HDD-6T-SATA-6G-7.2K-LFF-BS |
LFF |
6.0 TB |
6 Gbps |
7200 RPM |
HDD-6T-SATA-6G-7.2K-LFF-BH |
LFF |
6.0 TB |
6 Gbps |
7200 RPM |
HDD-8T-SATA-6G-7.2K-LFF |
LFF |
8.0 TB |
6 Gbps |
7200 RPM |
HDD-8T-SATA-6G-7.2K-LFF-C |
LFF |
8.0 TB |
6 Gbps |
7200 RPM |
HDD-8T-SATA-6G-7.2K-LFF-2 |
LFF |
8.0 TB |
6 Gbps |
7200 RPM |
HDD-8T-SATA-6G-7.2K-LFF-3 |
LFF |
8.0 TB |
6 Gbps |
7200 RPM |
HDD-8T-SATA-6G-7.2K-LFF-4 |
LFF |
8.0 TB |
6 Gbps |
7200 RPM |
HDD-10T-SATA-6G-7.2K-LFF |
LFF |
10.0 TB |
6 Gbps |
7200 RPM |
HDD-10T-SATA-6G-7.2K-LFF-1 |
LFF |
10.0 TB |
6 Gbps |
7200 RPM |
HDD-12T-SATA-6G-7.2K-LFF |
LFF |
12.0 TB |
6 Gbps |
7200 RPM |
HDD-12T-SATA-6G-7.2K-LFF-1 |
LFF |
12.0 TB |
6 Gbps |
7200 RPM |
HDD-12T-SATA-6G-7.2K-LFF-2 |
LFF |
12.0 TB |
6 Gbps |
7200 RPM |
HDD-14T-SATA-6G-7.2K-LFF |
LFF |
14.0 TB |
6 Gbps |
7200 RPM |
SATA SSDs
Model |
Vendor |
Form factor |
Capacity |
Rate |
SSD-150G-SATA-6G-SFF-EV |
Intel |
SFF |
150 GB |
6 Gbps |
SSD-240G-SATA-6G-SFF-EM-i |
Intel |
SFF |
240 GB |
6 Gbps |
SSD-240G-SATA-6G-SFF-1-EV-i |
Intel |
SFF |
240 GB |
6 Gbps |
SSD-240G-SATA-6G-SFF-i |
Intel |
SFF |
240 GB |
6 Gbps |
SSD-240G-SATA-6G-SFF-1 |
Samsung |
SFF |
240 GB |
6 Gbps |
SSD-240G-SATA-6G-SFF-3 |
Micron |
SFF |
240 GB |
6 Gbps |
SSD-240G-SATA-6G-SFF-S3 |
Micron |
SFF |
240 GB |
6 Gbps |
SSD-240G-SATA-6G-EM-SFF-i-2 |
Intel |
SFF |
240 GB |
6 Gbps |
SSD-240G-SATA-6G-EV-SFF-i-1 |
Intel |
SFF |
240 GB |
6 Gbps |
SSD-480G-SATA-6G-SFF-2 |
Micron |
SFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-SFF-EM-i |
Intel |
SFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-EV-SFF-i-2 |
Intel |
SFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-EM-SFF-i-3 |
Intel |
SFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-SFF-EV |
Intel |
SFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-SFF-i |
Intel |
SFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-SFF-1 |
Micron |
SFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-SFF-2 |
Micron |
SFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-SFF-3 |
Samsung |
SFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-SFF-4 |
Samsung |
SFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-SFF-5 |
Micron |
SFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-EV-SFF-sa |
Samsung |
SFF |
480 GB |
6 Gbps |
SSD-480G-SATA-Ny1351-SFF-6 |
Seagate |
SFF |
480 GB |
6 Gbps |
SSD-480G-SATA-Ny1351-SCL |
Seagate |
SFF |
480 GB |
6 Gbps |
SSD-800G-SATA-6G-SFF-i-2 |
Intel |
SFF |
800 GB |
6 Gbps |
SSD-800G-SATA-6G-SFF-1 |
TOSHIBA |
SFF |
800 GB |
6 Gbps |
SSD-960G-SATA-6G-SFF-EM-i |
Intel |
SFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-SFF-2 |
Micron |
SFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-SFF-3 |
Samsung |
SFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-EM-SFF-m |
Micron |
SFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-EV-SFF-i |
Intel |
SFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-EM-SFF-i-2 |
Intel |
SFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-SFF-2 |
Micron |
SFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-SFF-4 |
Micron |
SFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-SFF-6 |
Samsung |
SFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-SFF-i |
Intel |
SFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-SFF-1 |
Samsung/Micron |
SFF |
960 GB |
6 Gbps |
SSD-960G-SATA-Ny1351-SFF-7 |
Seagate |
SFF |
960 GB |
6 Gbps |
SSD-960G-SATA-Ny1351-SCL |
Seagate |
SFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-PM883-SFF |
Samsung |
SFF |
960 GB |
6 Gbps |
SSD-960G-SATA-PM883-SFF |
Samsung |
SFF |
960 GB |
6 Gbps |
SSD-1.2T-SATA-6G-SFF-i-1 |
Intel |
SFF |
1.2 TB |
6 Gbps |
SSD-1.6T-SATA-6G-SFF-i-1 |
Intel |
SFF |
1.6 TB |
6 Gbps |
SSD-1.92T-SATA-6G-SFF |
Micron |
SFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-6G-EM-SFF-i-1 |
Intel |
SFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-6G-SFF-1 |
Samsung |
SFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-6G-SFF-2 |
Samsung |
SFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-6G-SFF-3 |
Micron |
SFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-6G-EM-SFF-m |
Micron |
SFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-6G-EV-SFF-i |
Intel |
SFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-6G-SFF-i |
Intel |
SFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-6G-SFF-EM-i |
Intel |
SFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-6G-PM883-SFF |
Samsung |
SFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-PM883-SFF |
Samsung |
SFF |
1.92 TB |
6 Gbps |
SSD-3.84T-SATA-6G-EM-SFF-i |
Intel |
SFF |
3.84 TB |
6 Gbps |
SSD-3.84T-SATA-6G-EV-SFF-i |
Intel |
SFF |
3.84 TB |
6 Gbps |
SSD-3.84T-SATA-6G-SFF |
Micron |
SFF |
3.84 TB |
6 Gbps |
SSD-3.84T-SATA-6G-SFF-1 |
Samsung |
SFF |
3.84 TB |
6 Gbps |
SSD-3.84T-SATA-6G-SFF-2 |
Micron |
SFF |
3.84 TB |
6 Gbps |
SSD-3.84T-SATA-6G-SFF-3 |
Samsung |
SFF |
3.84 TB |
6 Gbps |
SSD-3.84T-SATA-6G-SFF-i |
Intel |
SFF |
3.84 TB |
6 Gbps |
SSD-3.84T-SATA-6G-PM883-SFF |
Samsung |
SFF |
3.84 TB |
6 Gbps |
SSD-3.84T-SATA-PM883-SFF |
Samsung |
SFF |
3.84 TB |
6 Gbps |
SSD-150G-SATA-6G-LFF-i |
Intel |
LFF |
150 GB |
6 Gbps |
SSD-240G-SATA-6G-LFF-1-EV-i |
Intel |
LFF |
240 GB |
6 Gbps |
SSD-240G-SATA-6G-LFF-i-EM |
Intel |
LFF |
240 GB |
6 Gbps |
SSD-240G-SATA-6G-LFF-EV |
Intel |
LFF |
240 GB |
6 Gbps |
SSD-240G-SATA-6G-LFF-1 |
Samsung |
LFF |
240 GB |
6 Gbps |
SSD-240G-SATA-6G-LFF-3 |
Micron |
LFF |
240 GB |
6 Gbps |
SSD-240G-SATA-6G-EV-SCL-i |
Intel |
LFF |
240 GB |
6 Gbps |
SSD-240G-SATA-6G-EM-SCL-i-1 |
Intel |
LFF |
240 GB |
6 Gbps |
SSD-480G-SATA-6G-LFF |
Micron |
LFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-LFF-2 |
Samsung |
LFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-LFF-4 |
Micron |
LFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-LFF-5 |
Samsung |
LFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-EV-SCL-i-1 |
Intel |
LFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-EM-SCL-i-2 |
Intel |
LFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-LFF-i-EM |
Intel |
LFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-LFF-EV |
Intel |
LFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-EV-SCL-sa |
Samsung |
LFF |
480 GB |
6 Gbps |
SSD-480G-SATA-6G-LFF-i |
Intel |
LFF |
480 GB |
6 Gbps |
SSD-800G-SATA-6G-LFF-i |
Intel |
LFF |
800 GB |
6 Gbps |
SSD-800G-SATA-6G-LFF-B-i |
Intel |
LFF |
800 GB |
6 Gbps |
SSD-800G-SATA-6G-LFF-1 |
TOSHIBA |
LFF |
800 GB |
6 Gbps |
SSD-960G-SATA-6G-LFF-i-EM |
Intel |
LFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-LFF-EV |
Intel |
LFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-EM-SCL-m |
Micron |
LFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-EV-SCL-i |
Intel |
LFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-EM-SCL-i |
Intel |
LFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-LFF |
Samsung |
LFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-LFF-1 |
Micron |
LFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-LFF-2 |
Samsung |
LFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-LFF-4 |
Micron |
LFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-LFF-5 |
Samsung |
LFF |
960 GB |
6 Gbps |
SSD-960G-SATA-6G-PM883-SCL |
Samsung |
LFF |
960 GB |
6 Gbps |
SSD-960G-SATA-PM883-SCL |
Samsung |
LFF |
960 GB |
6 Gbps |
SSD-1.92T-SATA-6G-LFF |
Micron |
LFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-6G-EM-SCL-i |
Intel |
LFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-6G-EM-SCL-m |
Micron |
LFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-6G-EV-SCL-i |
Intel |
LFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-6G-LFF-i-EM |
Intel |
LFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-6G-LFF-1 |
Samsung |
LFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-6G-LFF-2 |
Samsung |
LFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-6G-LFF-3 |
Micron |
LFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-6G-LFF-EV-2 |
Intel |
LFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-6G-PM883-SCL |
Samsung |
LFF |
1.92 TB |
6 Gbps |
SSD-1.92T-SATA-PM883-SCL |
Samsung |
LFF |
1.92 TB |
6 Gbps |
SSD-3.84T-SATA-6G-LFF |
Micron |
LFF |
3.84 TB |
6 Gbps |
SSD-3.84T-SATA-6G-LFF-1 |
Samsung |
LFF |
3.84 TB |
6 Gbps |
SSD-3.84T-SATA-6G-LFF-EV |
Intel |
LFF |
3.84 TB |
6 Gbps |
SSD-3.84T-SATA-6G-LFF-3 |
Micron |
LFF |
3.84 TB |
6 Gbps |
SSD-3.84T-SATA-6G-EM-SCL-i |
Intel |
LFF |
3.84 TB |
6 Gbps |
SSD-3.84T-SATA-6G-EV-SCL-i |
Intel |
LFF |
3.84 TB |
6 Gbps |
SSD-3.84T-SATA-6G-LFF-2 |
Samsung |
LFF |
3.84 TB |
6 Gbps |
SSD-3.84T-SATA-6G-PM883-SCL |
Samsung |
LFF |
3.84 TB |
6 Gbps |
SSD-3.84T-SATA-PM883-SCL |
Samsung |
LFF |
3.84 TB |
6 Gbps |
NVMe SSDs
Model |
Vendor |
Form factor |
Capacity |
Interface |
Rate |
SSD-375G-NVMe-SFF-i |
Intel |
SFF |
375 GB |
PCIe |
8 Gbps |
SSD-375G-NVMe-SFF-i-1 |
Intel |
SFF |
375 GB |
PCIe |
8 Gbps |
SSD-450G-NVMe-SFF-i |
Intel |
SFF |
450 GB |
PCIe |
8 Gbps |
SSD-750G-NVMe-SFF-i |
Intel |
SFF |
750 GB |
PCIe |
8 Gbps |
SSD-750G-NVMe-SFF-i-1 |
Intel |
SFF |
750 GB |
PCIe |
8 Gbps |
SSD-960G-NVMe-SFF |
Samsung |
SFF |
960 GB |
PCIe |
8 Gbps |
SSD-960G-NVMe-EV-SFF-sa |
Samsung |
SFF |
960 GB |
PCIe |
8 Gbps |
SSD-960G-NVMe-SFF-1 |
HGST |
SFF |
960 GB |
PCIe |
8 Gbps |
SSD-1T-NVMe-SFF-i-2 |
Intel |
SFF |
1.0 TB |
PCIe |
8 Gbps |
SSD-1T-NVMe-SFF-i |
Intel |
SFF |
PCIe |
8 Gbps |
|
SSD-1T-NVMe-SFF-i-1 |
Intel |
SFF |
1.0 TB |
PCIe |
8 Gbps |
SSD-1.2T-NVMe-SFF-i |
Intel |
SFF |
1.2 TB |
PCIe |
8 Gbps |
SSD-1.6T-NVMe-EM-SFF-i |
Intel |
SFF |
1.6 TB |
PCIe |
8 Gbps |
SSD-1.6T-NVMe-SFF-1 |
HGST |
SFF |
1.6 TB |
PCIe |
8 Gbps |
SSD-1.6T-NVMe-SFF-i-1 |
Intel |
SFF |
1.6 TB |
PCIe |
8 Gbps |
SSD-1.92T-NVMe-SFF-1 |
HGST |
SFF |
1.92 TB |
PCIe |
8 Gbps |
SSD-1.92T-NVMe-EV-SFF-sa |
Samsung |
SFF |
1.92 TB |
PCIe |
8 Gbps |
SSD-2T-NVMe-SFF-2 |
Memblaze |
SFF |
2.0 TB |
PCIe |
8 Gbps |
SSD-2T-NVMe-SFF-i |
Intel |
SFF |
2.0 TB |
PCIe |
8 Gbps |
SSD-2T-NVMe-SFF-i-6 |
Intel |
SFF |
2.0 TB |
PCIe |
8 Gbps |
SSD-2T-NVMe-SFF-i-2 |
Intel |
SFF |
2.0 TB |
PCIe |
8 Gbps |
SSD-2T-NVMe-SFF-i-3 |
Intel |
SFF |
2.0 TB |
PCIe |
8 Gbps |
SSD-2T-NVMe-SFF-i-1 |
Intel |
SFF |
2.0 TB |
PCIe |
8 Gbps |
SSD-3.2T-NVMe-EM-SFF-mbl |
Memblaze |
SFF |
3.2 TB |
PCIe |
8 Gbps |
SSD-3.2T-NVMe-EM-SFF-i |
Intel |
SFF |
3.2 TB |
PCIe |
8 Gbps |
SSD-3.2T-NVMe-SFF-1 |
Intel |
SFF |
3.2 TB |
PCIe |
8 Gbps |
SSD-4T-NVMe-SFF-i-2 |
Intel |
SFF |
4.0 TB |
PCIe |
8 Gbps |
SSD-3.2T-NVMe-SFF-2 |
HGST |
SFF |
3.2 TB |
PCIe |
8 Gbps |
SSD-3.84T-NVMe-SFF-1 |
HGST |
SFF |
3.84 TB |
PCIe |
8 Gbps |
SSD-3.84T-NVMe-EV-SFF-sa |
Samsung |
SFF |
3.84 TB |
PCIe |
8 Gbps |
SSD-4T-NVMe-SFF-i-1 |
Intel |
SFF |
4.0 TB |
PCIe |
8 Gbps |
SSD-4T-NVMe-SFF-1 |
Memblaze |
SFF |
4.0 TB |
PCIe |
8 Gbps |
SSD-4T-NVMe-SFF-i-5 |
Intel |
SFF |
4.0 TB |
PCIe |
8 Gbps |
SSD-6.4T-NVMe-SFF-1 |
HGST |
SFF |
6.4 TB |
PCIe |
8 Gbps |
SSD-6.4T-NVMe-EM-SFF-mbl |
Memblaze |
SFF |
6.4 TB |
PCIe |
8 Gbps |
SSD-6.4T-NVMe-EM-SFF-i |
Intel |
SFF |
6.4 TB |
PCIe |
8 Gbps |
SSD-7.68T-NVMe-CE-SFF-i |
Intel |
SFF |
7.68 TB |
PCIe |
8 Gbps |
SSD-7.68T-NVMe-EM-SFF-i |
Intel |
SFF |
7.68 TB |
PCIe |
8 Gbps |
SSD-8T-NVMe-SFF-i |
Intel |
SFF |
8.0 TB |
PCIe |
8 Gbps |
SSD-375G-NVMe-LFF-i |
Intel |
LFF |
375 GB |
PCIe |
8 Gbps |
SSD-375G-NVMe-SCL-i |
Intel |
LFF |
375 GB |
PCIe |
8 Gbps |
SSD-450G-NVMe-LFF |
Intel |
LFF |
450 GB |
PCIe |
8 Gbps |
SSD-750G-NVMe-SCL-i |
Intel |
LFF |
750 GB |
PCIe |
8 Gbps |
SSD-750G-NVMe-LFF-i |
Intel |
LFF |
750 GB |
PCIe |
8 Gbps |
SSD-960G-NVMe-EV-SCL-sa |
Samsung |
LFF |
960 GB |
PCIe |
8 Gbps |
SSD-960G-NVMe-LFF |
Samsung |
LFF |
960 GB |
PCIe |
8 Gbps |
SSD-960G-NVMe-LFF-1 |
HGST |
LFF |
960 GB |
PCIe |
8 Gbps |
SSD-1T-NVMe-LFF-i-2 |
Intel |
LFF |
1.0 TB |
PCIe |
8 Gbps |
SSD-1T-NVMe-LFF-i |
Intel |
LFF |
1.0 TB |
PCIe |
8 Gbps |
SSD-1T-NVMe-LFF-i-1 |
Intel |
LFF |
1.0 TB |
PCIe |
8 Gbps |
SSD-1.2T-NVMe-LFF |
Intel |
LFF |
1.2 TB |
PCIe |
8 Gbps |
SSD-1.6T-NVMe-EM-SCL-i |
Intel |
LFF |
1.6 TB |
PCIe |
8 Gbps |
SSD-1.6T-NVMe-LFF-1 |
HGST |
LFF |
1.6 TB |
PCIe |
8 Gbps |
SSD-1.6T-NVMe-LFF-i |
Intel |
LFF |
1.6 TB |
PCIe |
8 Gbps |
SSD-1.92T-NVMe-LFF-1 |
HGST |
LFF |
1.92 TB |
PCIe |
8 Gbps |
SSD-1.92T-NVMe-EV-SCL-sa |
Samsung |
LFF |
1.92 TB |
PCIe |
8 Gbps |
SSD-2T-NVMe-LFF |
Intel |
LFF |
2.0 TB |
PCIe |
8 Gbps |
SSD-2T-NVMe-LFF-1 |
Memblaze |
LFF |
2.0 TB |
PCIe |
8 Gbps |
SSD-2T-NVMe-LFF-i-3 |
Intel |
LFF |
2.0 TB |
PCIe |
8 Gbps |
SSD-2T-NVMe-LFF-i-2 |
Intel |
LFF |
2.0 TB |
PCIe |
8 Gbps |
SSD-2T-NVMe-LFF-i-1 |
Intel |
LFF |
2.0 TB |
PCIe |
8 Gbps |
SSD-2T-NVMe-LFF-i |
Intel |
LFF |
2.0 TB |
PCIe |
8 Gbps |
SSD-3.2T-NVMe-EM-SCL-mbl |
Memblaze |
LFF |
3.2 TB |
PCIe |
8 Gbps |
SSD-3.2T-NVMe-EM-SCL-i |
Intel |
LFF |
3.2 TB |
PCIe |
8 Gbps |
SSD-3.2T-NVMe-LFF-2 |
HGST |
LFF |
3.2 TB |
PCIe |
8 Gbps |
SSD-3.2T-NVMe-LFF |
HGST |
LFF |
3.2 TB |
PCIe |
8 Gbps |
SSD-3.84T-NVMe-LFF-1 |
HGST |
LFF |
3.84TB |
PCIe |
8 Gbps |
SSD-3.84T-NVMe-EV-SCL-sa |
Samsung |
LFF |
3.84TB |
PCIe |
8 Gbps |
SSD-4T-NVMe-LFF-i |
Intel |
LFF |
4.0 TB |
PCIe |
8 Gbps |
SSD-4T-NVMe-LFF-i-1 |
Intel |
LFF |
4.0 TB |
PCIe |
8 Gbps |
SSD-4T-NVMe-LFF |
Memblaze |
LFF |
4.0 TB |
PCIe |
8 Gbps |
SSD-4T-NVMe-LFF-i-2 |
Intel |
LFF |
4.0 TB |
PCIe |
8 Gbps |
SSD-6.4T-NVMe-LFF-1 |
HGST |
LFF |
6.4 TB |
PCIe |
8 Gbps |
SSD-6.4T-NVMe-EM-SCL-mbl |
Memblaze |
LFF |
6.4 TB |
PCIe |
8 Gbps |
SSD-6.4T-NVMe-EM-SCL-i |
Intel |
LFF |
6.4 TB |
PCIe |
8 Gbps |
SSD-7.68T-NVMe-CE-SCL-i |
Intel |
LFF |
7.68 TB |
PCIe |
8 Gbps |
SSD-7.68T-NVMe-EM-SCL-i |
Intel |
LFF |
7.68 TB |
PCIe |
8 Gbps |
SSD-8T-NVMe-LFF-i |
Intel |
LFF |
8.0 TB |
PCIe |
8 Gbps |
SATA M.2 SSDs
Model |
Form factor |
Capacity |
Interface |
Rate |
SSD-240G-SATA-S4510-M.2 |
M.2 2280 80 × 22 mm (3.15 × 0.87 in) |
240 GB |
SATA |
6 Gbps |
SSD-240G-SATA-M2 |
M.2 2280 80 × 22 mm (3.15 × 0.87 in) |
240 GB |
SATA |
6 Gbps |
SSD-256G-SATA-M2 |
M.2 2280 80 × 22 mm (3.15 × 0.87 in) |
256 GB |
SATA |
6 Gbps |
SSD-480G-SATA-5100ECO-M.2 |
M.2 2280 80 × 22 mm (3.15 × 0.87 in) |
480 GB |
SATA |
6 Gbps |
SSD-480G-SATA-S4510-M.2 |
M.2 2280 80 × 22 mm (3.15 × 0.87 in) |
480 GB |
SATA |
6 Gbps |
NVMe SSD PCIe accelerator module
Model |
Vendor |
Form factor |
Capacity |
Interface |
Rate |
Link width |
SSD-NVME-375G-P4800X |
Intel |
HHHL |
375 GB |
PCIe |
8 Gbps |
×4 |
SSD-NVME-750G-P4800X |
Intel |
HHHL |
750 GB |
PCIe |
8 Gbps |
×4 |
SSD-NVME-1.6T-EM-2 |
SHANNON |
LP |
1.6 TB |
PCIe |
8 Gbps |
×8 |
SSD-1.6T-NVME-PM1725b |
Samsung |
HHHL |
1.6 TB |
PCIe |
8 Gbps |
×8 |
SSD-1.6T-NVME-PM1725b-M |
Samsung |
HHHL |
1.6 TB |
PCIe |
8 Gbps |
×8 |
SSD-1.6T-NVME-PB516 |
Memblaze |
HHHL |
1.6 TB |
PCIe |
8 Gbps |
×8 |
SSD-NVME-3.2T-EM-2 |
SHANNON |
LP |
3.2 TB |
PCIe |
8 Gbps |
×8 |
SSD-NVME-2T-EV |
Memblaze |
LP |
2.0 TB |
PCIe |
8 Gbps |
×8 |
SSD-NVME-2T-P4600 |
Intel |
HHHL |
2.0 TB |
PCIe |
8 Gbps |
×8 |
SSD-NVME-3.2T-PBlaze5 |
Memblaze |
HHHL |
3.2 TB |
PCIe |
8 Gbps |
×8 |
SSD-NVME-4T-PBlaze5 |
Memblaze |
HHHL |
4.0 TB |
PCIe |
8 Gbps |
×8 |
SSD-NVME-4T-P4500 |
Intel |
HHHL |
4.0 TB |
PCIe |
8 Gbps |
×4 |
SSD-NVME-4T-P4600 |
Intel |
HHHL |
4.0 TB |
PCIe |
8 Gbps |
×8 |
SSD-NVME-6.4T-PBlaze5 |
Memblaze |
HHHL |
6.4 TB |
PCIe |
8 Gbps |
×8 |
Drive configurations and numbering
4LFF server
Table 12 presents the drive configurations available for the 4LFF server and their compatible storage controller types.
Table 12 Drive and storage controller configurations (4LFF server)
Drive configuration |
Storage controller |
4LFF (4 front LFF SAS/SATA drives) |
· Embedded RSTe · Mezzanine · Standard |
4LFF+2SFF (4 front LFF SAS/SATA drives and 2 rear SFF SAS/SATA drives) |
· Embedded RSTe · Mezzanine |
These drive configurations use different drive numbering schemes, as shown in Table 13.
Table 13 Drive numbering schemes (4LFF server)
Drive configuration |
Drive numbering |
4LFF (4 front LFF drives) |
See Figure 14. |
4LFF+2SFF (4 front LFF drives and 2 rear SFF drives) |
See Figure 15. |
Figure 14 Drive numbering for 4LFF drive configurations (4LFF server)
Figure 15 Drive numbering for 4LFF+2SFF drive configurations (4LFF server)
8SFF server
Table 14 presents the drive configurations available for the 8SFF server and their compatible storage controller types and NVMe SSD expander modules.
Table 14 Drive, storage controller, and NVMe SSD expander configurations (8SFF server)
Drive configuration |
Storage controller |
NVMe SSD expander |
Drive backplane and installation requirements |
8SFF (8 front SFF SAS/SATA drives) |
· Embedded RSTe · Mezzanine · Standard |
N/A |
Use the drive backplane that supports only 8SFF SAS/SATA drives. |
10SFF (8 front SFF SAS/SATA drives and 2 front SFF SAS/SATA drives) |
· Embedded RSTe + mezzanine · Embedded RSTe + standard |
N/A |
Use the drive backplane that supports only 8SFF SAS/SATA drives. |
8SFF (4 front SFF SAS/SATA drives and 4 front SFF NVMe drives) |
· Embedded RSTe · Mezzanine · Standard |
1 × 4-port NVMe SSD expander module |
Use the drive backplane that supports both 4SFF SAS/SATA drives and 4SFF NVMe drives. Install the SAS/SATA drives in drive slots 4 through 7 and install the NVMe drives in drives slots 0 through 3. |
8SFF (8 front SFF NVMe drives) |
N/A |
· 1 × 8-port NVMe SSD expander module · 2 × 4-port NVMe SSD expander modules |
Use the drive backplane that supports only 8SFF NVMe drives. |
10SFF (8 front SFF NVMe drives and 2 front SFF SAS/SATA drives) |
Embedded RSTe |
· 1 × 8-port NVMe SSD expander module · 2 × 4-port NVMe SSD expander modules |
Use the drive backplane that supports only 8SFF NVMe drives. |
10SFF (8 front SFF SAS/SATA drives and 2 front SFF NVMe drives) |
· Embedded RSTe · Mezzanine · Standard |
1 × 4-port NVMe SSD expander module |
Use the drive backplane that supports only 8SFF SAS/SATA drives. |
These drive configurations use different drive numbering schemes, as shown in Table 15.
Table 15 Drive numbering schemes (8SFF server)
Drive configuration |
Drive numbering |
8SFF |
See Figure 16. |
10SFF |
See Figure 17. |
Figure 16 Drive numbering for the 8SFF drive configurations (8SFF server)
Figure 17 Drive numbering for the 10SFF drive configurations (8SFF server)
10SFF server
Table 16 presents the drive configurations available for the 10SFF server and their compatible types of storage controllers.
Table 16 Drive and storage controller configurations (10SFF server)
Drive configuration |
Storage controller |
10SFF (10 front SFF SAS/SATA drives) |
· Mezzanine · Standard |
12SFF (10 front SFF SAS/SATA drives and 2 rear SFF SAS/SATA drives) |
Mezzanine |
These drive configurations use different drive numbering schemes, as shown in Table 17.
Table 17 Drive numbering schemes (10SFF server)
Drive configuration |
Drive numbering |
10SFF |
See Figure 18. |
12SFF |
See Figure 19. |
Figure 18 Drive numbering for the 10SFF drive configuration (10SFF server)
Figure 19 Drive numbering for the 12SFF (10 front + 2 rear) drive configuration (10SFF server)
Drive LEDs
The server supports SAS, SATA, and NVMe drives, of which SAS and SATA drives are hot swappable by default. You can use the LEDs on a drive to identify its status after it is connected to a storage controller.
Figure 20 shows the location of the LEDs on a drive.
(1) Fault/UID LED |
(2) Present/Active LED |
To identify the status of a SAS or SATA drive, use Table 18. To identify the status of an NVMe drive, use Table 19.
Table 18 SAS/SATA drive LED description
Fault/UID LED status |
Present/Active LED status |
Description |
Steady green/Flashing green (4.0 Hz) |
A drive failure is predicted. As a best practice, replace the drive before it fails. |
|
Steady amber |
Steady green/Flashing green (4.0 Hz) |
The drive is faulty. Replace the drive immediately. |
Steady blue |
Steady green/Flashing green (4.0 Hz) |
The drive is operating correctly and is selected by the RAID controller. |
Off |
Flashing green (4.0 Hz) |
The drive is performing a RAID migration or rebuilding, or the system is reading or writing data to the drive. |
Off |
Steady green |
The drive is present but no data is being read or written to the drive. |
Off |
Off |
The drive is not securely installed. |
Table 19 NVMe drive LED description
Fault/UID LED status |
Present/Active LED status |
Description |
Flashing amber (0.5 Hz) |
Off |
The managed hot removal process is completed. You can remove the drive safely. |
Flashing amber (4.0 Hz) |
Off |
The drive is in hot insertion process. |
Steady amber |
Steady green/Flashing green (4.0 Hz) |
The drive is faulty. Replace the drive immediately. |
Steady blue |
Steady green/Flashing green (4.0 Hz) |
The drive is operating correctly and selected by the RAID controller. |
Off |
Flashing green (4.0 Hz) |
The drive is performing a RAID migration or rebuilding, or the system is reading or writing data to the drive. |
Off |
Steady green |
The drive is present but no data is being read or written to the drive. |
Off |
Off |
The drive is not securely installed. |
PCIe modules
Typically, the PCIe modules are available in the following standard form factors:
· LP—Low profile.
· FHHL—Full height and half length.
· FHFL—Full height and full length.
· HHHL—Half height and half length.
· HHFL—Half height and full length.
Some PCIe modules, such as mezzanine storage controllers, are in non-standard form factors.
Storage controllers
The server supports the following types of storage controllers depending on their form factors:
· Embedded RAID controller—Embedded in the server and does not require installation.
· Mezzanine storage controller—Installed on the mezzanine storage controller connector of the system board and does not require a riser card for installation.
· Standard storage controller—Comes in a standard PCIe form factor and requires a riser card for installation.
For some storage controllers, you can order a power fail safeguard module to prevent data loss from power outages. This module provides a flash card and a supercapacitor. When a system power failure occurs, the supercapacitor provides power for a minimum of 20 seconds. During this interval, the storage controller can transfer data from DDR memory to the flash card, where the data remains indefinitely or until the controller retrieves the data. If the storage controller contains a built-in flash card, you can order only a supercapacitor.
Embedded RSTe RAID controller
Item |
Specifications |
Type |
Embedded in PCH of the system board |
Connectors |
· One onboard ×8 mini-SAS connector · One onboard ×1 SATA connector |
Number of internal ports |
9 internal SATA ports |
Port rate |
6 Gbps SATA 3.0 |
PCIe slot |
PCIe2.0 ×4 |
RAID levels |
0, 1, 5, 10 |
Built-in cache memory |
N/A |
Supported drives |
· SATA HDD · SATA SSD |
Power fail safeguard module |
Not supported |
Firmware upgrade |
Upgraded with BIOS |
HBA-1000-M2-1
Item |
Specifications |
Type |
Mezzanine storage controller |
137 × 103 mm (5.39 × 4.06 in) |
|
Connectors |
One internal ×8 mini-SAS-HD connector |
Number of internal ports |
8 internal SAS ports (compatible with SATA) |
Drive interface |
12 Gbps SAS 3.0 (compatible with 6 Gbps SATA 3.0) |
PCIe interface |
PCIe3.0 ×8 |
RAID levels |
0, 1, 10 |
Built-in cache memory |
N/A |
Supported drives |
· SAS HDD · SAS SSD · SATA HDD · SATA SSD |
Power fail safeguard module |
Not supported |
Firmware upgrade |
Online upgrade |
HBA-H460-B1
Item |
Specifications |
Type |
Standard storage controller |
Form factor |
LP |
Connectors |
One internal ×8 mini-SAS connector |
Number of internal ports |
8 internal SAS ports (compatible with SATA) |
Drive interface |
12 Gbps SAS 3.0 (compatible with 6 Gbps SATA 3.0) |
PCIe interface |
PCIe3.0 ×8 |
RAID levels |
0, 1, 10 |
Built-in cache memory |
N/A |
Supported drives |
· SAS HDD · SAS SSD · SATA HDD · SATA SSD |
Power fail safeguard module |
Not supported |
Firmware upgrade |
Online upgrade |
HBA-H460-M1
Item |
Specifications |
Type |
Mezzanine storage controller |
Form factor |
137 × 103 mm (5.39 × 4.06 in) |
Connectors |
One internal ×8 mini-SAS-HD connector |
Number of internal ports |
8 internal SAS ports (compatible with SATA) |
Drive interface |
12 Gbps SAS 3.0 (compatible with 6 Gbps SATA 3.0) |
PCIe interface |
PCIe3.0 ×8 |
RAID levels |
0, 1, 10 |
Built-in cache memory |
N/A |
Supported drives |
· SAS HDD · SAS SSD · SATA HDD · SATA SSD |
Power fail safeguard module |
Not supported |
Firmware upgrade |
Online upgrade |
HBA-LSI-9300-8i-A1-X
Item |
Specifications |
Type |
Standard storage controller |
Form factor |
LP |
Connectors |
One internal ×8 mini-SAS-HD connector |
Number of internal ports |
8 internal SAS ports (compatible with SATA) |
Drive interface |
12 Gbps SAS 3.0 (compatible with 6 Gbps SATA 3.0) |
PCIe interface |
PCIe3.0 ×8 |
RAID levels |
Not supported |
Built-in cache memory |
N/A |
Supported drives |
· SAS HDD · SAS SSD · SATA HDD · SATA SSD The controller supports a maximum of 12 drives. |
Power fail safeguard module |
Not supported |
Firmware upgrade |
Online upgrade |
HBA-LSI-9311-8i
Item |
Specifications |
Type |
Standard storage controller |
Form factor |
LP |
Connectors |
One internal ×8 mini-SAS-HD connector |
Number of internal ports |
8 internal SAS ports (compatible with SATA) |
Drive interface |
12 Gbps SAS 3.0 (compatible with 6 Gbps SATA 3.0) |
PCIe interface |
PCIe3.0 ×8 |
RAID levels |
0, 1, 1E, 10 |
Built-in cache memory |
N/A |
Supported drives |
· SAS HDD · SAS SSD · SATA HDD · SATA SSD |
Power fail safeguard module |
Not supported |
Firmware upgrade |
Online upgrade |
HBA-LSI-9440-8i
Item |
Specifications |
Type |
Standard storage controller |
Form factor |
LP |
Connectors |
One internal ×8 mini-SAS-HD connector |
Number of internal ports |
8 internal SAS ports (compatible with SATA) |
Drive interface |
12 Gbps SAS 3.0 (compatible with 6 Gbps SATA 3.0) |
PCIe interface |
PCIe3.1 ×8 |
RAID levels |
0, 1, 5, 10, 50 |
Built-in cache memory |
N/A |
Supported drives |
· SAS HDD · SAS SSD · SATA HDD · SATA SSD |
Power fail safeguard module |
Not supported |
Firmware upgrade |
Online upgrade |
RAID-L460-M4
Item |
Specifications |
Type |
Mezzanine storage controller |
Form factor |
137 × 103 mm (5.39 × 4.06 in) |
Connectors |
One internal ×8 mini-SAS-HD connector |
Number of internal ports |
8 internal SAS ports (compatible with SATA) |
Drive interface |
12 Gbps SAS 3.0 (compatible with 6 Gbps SATA 3.0) |
PCIe interface |
PCIe3.1 ×8 |
RAID levels |
0, 1, 5, 6, 10, 50, 60 |
Built-in cache memory |
4 GB internal cache module (DDR4-2133 MHz) |
Supported drives |
· SAS HDD · SAS SSD · SATA HDD · SATA SSD |
Power fail safeguard module |
BAT-LSI-G3 The supercapacitor is optional. |
Built-in flash card |
Available |
Supercapacitor connector |
Available |
Firmware upgrade |
Online upgrade |
RAID-LSI-9361-8i(1G)-A1-X
Item |
Specifications |
Type |
Standard storage controller |
Form factor |
LP |
Connectors |
One internal ×8 mini-SAS-HD connector |
Number of internal ports |
8 internal SAS ports (compatible with SATA) |
12 Gbps SAS 3.0 (compatible with 6 Gbps SATA 3.0) |
|
PCIe interface |
PCIe3.0 ×8 |
RAID levels |
0, 1, 5, 6, 10, 50, 60 |
Built-in cache memory |
1 GB internal cache module (DDR3-1866 MHz) |
Supported drives |
· SAS HDD · SAS SSD · SATA HDD · SATA SSD |
Power fail safeguard module |
Flash-LSI-G2 The power fail safeguard module is optional. |
Built-in flash card |
N/A |
Supercapacitor connector |
N/A The supercapacitor connector is on the flash card of the power fail safeguard module. |
Firmware upgrade |
Online upgrade |
RAID-LSI-9361-8i(2G)-1-X
Item |
Specifications |
Type |
Standard storage controller |
Form factor |
LP |
Connectors |
One internal ×8 mini-SAS-HD connector |
Number of internal ports |
8 internal SAS ports (compatible with SATA) |
Drive interface |
12 Gbps SAS 3.0 (compatible with 6 Gbps SATA 3.0) |
PCIe interface |
PCIe3.0 ×8 |
RAID levels |
0, 1, 5, 6, 10, 50, 60 |
Cache memory |
2 GB internal cache module (DDR3-1866 MHz) |
Supported drives |
· SAS HDD · SAS SSD · SATA HDD · SATA SSD |
Power fail safeguard module |
Flash-LSI-G2 The power fail safeguard module is optional. |
Built-in flash card |
N/A |
Supercapacitor connector |
N/A The supercapacitor connector is on the flash card of the power fail safeguard module. |
Firmware upgrade |
Online upgrade |
RAID-LSI-9460-8i(2G)
Item |
Specifications |
Type |
Standard storage controller |
Form factor |
LP |
Connectors |
One internal ×8 mini-SAS-HD connector |
Number of internal ports |
8 internal SAS ports (compatible with SATA) |
Drive interface |
12 Gbps SAS 3.0 (compatible with 6 Gbps SATA 3.0) |
PCIe interface |
PCIe3.1 ×8 |
RAID levels |
0, 1, 5, 6, 10, 50, 60 |
Cache memory |
2 GB internal cache module (DDR4-2133 MHz) |
Supported drives |
· SAS HDD · SAS SSD · SATA HDD · SATA SSD |
Power fail safeguard module |
BAT-LSI-G3 The supercapacitor is optional. |
Built-in flash card |
Available |
Supercapacitor connector |
Available |
Firmware upgrade |
Online upgrade |
RAID-LSI-9460-8i(4G)
Item |
Specifications |
Type |
Standard storage controller |
Form factor |
LP |
Connectors |
One internal ×8 mini-SAS-HD connector |
Number of internal ports |
8 internal SAS ports (compatible with SATA) |
Drive interface |
12 Gbps SAS 3.0 (compatible with 6 Gbps SATA 3.0) |
PCIe interface |
PCIe3.1 ×8 |
RAID levels |
0, 1, 5, 6, 10, 50, 60 |
Cache memory |
4 GB internal cache module (DDR4-2133 MHz) |
Supported drives |
· SAS HDD · SAS SSD · SATA HDD · SATA SSD |
Power fail safeguard module |
BAT-LSI-G3 The supercapacitor is optional. |
Built-in flash card |
Available |
Supercapacitor connector |
Available |
Firmware upgrade |
Online upgrade |
RAID-P430-M1
Item |
Specifications |
Type |
Mezzanine storage controller |
Form factor |
137 × 103 mm (5.39 × 4.06 in) |
Connectors |
One internal ×8 mini-SAS-HD connector |
Number of internal ports |
8 internal SAS ports (compatible with SATA) |
Drive interface |
12 Gbps SAS 3.0 (compatible with 6 Gbps SATA 3.0) |
PCIe interface |
PCIe3.0 ×8 |
RAID levels |
0, 1, 1E, 5, 6, 10, 50, 60, simple volume |
Built-in cache memory |
1 GB internal cache module (DDR3-1600 MHz, 72-bit bus at 12.8 Gbps) |
Supported drives |
· SAS HDD · SAS SSD · SATA HDD · SATA SSD |
Power fail safeguard module |
Flash-PMC-G2 The power fail safe guard module is optional. |
Built-in flash card |
N/A |
Supercapacitor connector |
N/A The supercapacitor connector is on the flash card of the power fail safeguard module. |
Firmware upgrade |
Online upgrade |
RAID-P430-M2
Item |
Specifications |
Type |
Mezzanine storage controller |
Form factor |
137 × 103 mm (5.39 × 4.06 in) |
Connectors |
One internal ×8 mini-SAS-HD connector |
Number of internal ports |
8 internal SAS ports (compatible with SATA) |
Drive interface |
12 Gbps SAS 3.0 (compatible with 6 Gbps SATA 3.0) |
PCIe interface |
PCIe3.0 ×8 |
RAID levels |
0, 1, 1E, 5, 6, 10, 50, 60, simple volume |
Built-in cache memory |
2 GB internal cache module (DDR3-1600 MHz, 72-bit bus at 12.8 Gbps) |
Supported drives |
· SAS HDD · SAS SSD · SATA HDD · SATA SSD |
Power fail safeguard module |
Flash-PMC-G2 The power fail safeguard module is optional. |
Built-in flash card |
N/A |
Supercapacitor connector |
N/A The supercapacitor connector is on the flash card of the power fail safeguard module. |
Firmware upgrade |
Online upgrade |
RAID-P460-B2
Item |
Specifications |
Type |
Standard storage controller |
Form factor |
LP |
Connectors |
One internal ×8 mini-SAS-HD connector |
Number of internal ports |
8 internal SAS ports (compatible with SATA) |
Drive interface |
12 Gbps SAS 3.0 (compatible with 6 Gbps SATA 3.0) |
PCIe interface |
PCIe3.0 ×8 |
RAID levels |
0, 1, 5, 6, 10, 50, 60 |
Cache memory |
2 GB internal cache module (DDR4-2133 MHz) |
Supported drives |
· SAS HDD · SAS SSD · SATA HDD · SATA SSD |
Power fail safeguard module |
BAT-PMC-G3 The supercapacitor is optional. |
Built-in flash card |
Available |
Supercapacitor connector |
Available |
Firmware upgrade |
Online upgrade |
RAID-P460-B4
Item |
Specifications |
Type |
Standard storage controller |
Form factor |
LP |
Connectors |
One internal ×8 mini-SAS connector |
Number of internal ports |
8 internal SAS ports (compatible with SATA) |
Drive interface |
12 Gbps SAS 3.0 (compatible with 6 Gbps SATA 3.0) |
PCIe interface |
PCIe3.0 ×8 |
RAID levels |
0, 1, 5, 6, 10, 50, 60 |
Cache memory |
4 GB internal cache module (DDR4-2133 MHz) |
Supported drives |
· SAS HDD · SAS SSD · SATA HDD · SATA SSD |
Power fail safeguard module |
BAT-PMC-G3 The supercapacitor is optional. |
Built-in flash card |
Available |
Supercapacitor connector |
Available |
Firmware upgrade |
Online upgrade |
RAID-P460-M2
Item |
Specifications |
Type |
Mezzanine storage controller |
Form factor |
137 × 103 mm (5.39 × 4.06 in) |
Connectors |
One internal ×8 mini-SAS-HD connector |
Number of internal ports |
8 internal SAS ports (compatible with SATA) |
Drive interface |
12 Gbps SAS 3.0 (compatible with 6 Gbps SATA 3.0) |
PCIe interface |
PCIe3.0 ×8 |
RAID levels |
0, 1, 5, 6, 10, 50, 60 |
Built-in cache memory |
2 GB internal cache module (DDR4-2133 MHz) |
Supported drives |
· SAS HDD · SAS SSD · SATA HDD · SATA SSD |
Power fail safeguard module |
BAT-PMC-G3 The supercapacitor is optional. |
Built-in flash card |
Available |
Supercapacitor connector |
Available |
Firmware upgrade |
Online upgrade |
RAID-P460-M4
Item |
Specifications |
Type |
Mezzanine storage controller |
Form factor |
137 × 103 mm (5.39 × 4.06 in) |
Connectors |
One internal ×8 mini-SAS connector |
Number of internal ports |
8 internal SAS ports (compatible with SATA) |
Drive interface |
12 Gbps SAS 3.0 (compatible with 6 Gbps SATA 3.0) |
PCIe interface |
PCIe3.0 ×8 |
RAID levels |
0, 1, 5, 6, 10, 50, 60 |
Built-in cache memory |
4 GB internal cache module (DDR3-2133 MHz, 72-bit bus at 12.8 Gbps) |
Supported drives |
· SAS HDD · SAS SSD · SATA HDD · SATA SSD |
Power fail safeguard module |
BAT-PMC-G3 The supercapacitor is optional. |
Built-in flash card |
Available |
Supercapacitor connector |
Available |
Firmware upgrade |
Online upgrade |
NVMe SSD expander modules
Model |
Specifications |
EX-4NVMe-A |
4-port NVMe SSD expander module, which supports a maximum of 4 NVMe SSD drives |
EX-8NVMe-A |
8-port NVMe SSD expander module, which supports a maximum of 8 NVMe SSD drives |
GPU modules
GPU-M4-1
Item |
Specifications |
PCIe interface |
PCIe3.0 ×16 |
Form factor |
LP, single-slot wide |
Maximum power consumption |
75 W |
Output ports |
N/A |
Memory size |
4 GB GDDR5 |
Memory bus width |
128 bits |
Memory bandwidth |
88 Gbps |
Power interface |
N/A |
GPU-M4000-1-X
Item |
Specifications |
PCIe interface |
PCIe3.0 ×16 |
Form factor |
FH3/4FL, single-slot wide |
Maximum power consumption |
120 W |
Output ports |
· 1 × DVI-I port · 2 × DP ports |
Memory size |
8 GB GDDR5 |
Memory bus width |
256 bits |
192 Gbps |
|
Power interface |
Available |
GPU-M2000
Item |
Specifications |
PCIe interface |
PCIe3.0 ×16 |
Form factor |
FHHL, single-slot wide |
Maximum power consumption |
75 W |
Output ports |
4 × DP ports |
Memory size |
4 GB GDDR5 |
Memory bus width |
128 bits |
Memory bandwidth |
105.7 Gbps |
Power interface |
N/A |
GPU-P4-X
Item |
Specifications |
PCIe interface |
PCIe3.0 ×16 |
Form factor |
LP, single-slot wide |
Maximum power consumption |
75 W |
Output ports |
N/A |
Memory size |
8 GB GDDR5 |
Memory bus width |
256 bits |
Memory bandwidth |
192 Gbps |
Power interface |
N/A |
GPU-T4
Item |
Specifications |
PCIe interface |
PCIe3.0 ×16 |
Form factor |
LP, single-slot wide |
Maximum power consumption |
70 W |
Output ports |
N/A |
Memory size |
16 GB GDDR6 |
Memory bus width |
256 bits |
Memory bandwidth |
320 Gbps |
Power interface |
N/A |
GPU-MLU100-D3
Item |
Specifications |
PCIe interface |
PCIe3.0 ×16 |
Form factor |
HHHL, single-slot wide |
Maximum power consumption |
75 W |
Memory size |
8 GB |
Memory bus width |
256 bits |
Memory bandwidth |
102.4 Gbps |
Power interface |
N/A |
PCIe Ethernet adapters
In addition to the PCIe Ethernet adapters, the server also supports mLOM Ethernet adapters (see "mLOM Ethernet adapters").
Figure 21 PCIe Ethernet adapter specifications
Model |
Ports |
Connector |
Data rate |
Bus type |
Form factor |
NCSI |
CNA-10GE-2P-510F-B2-1-X |
2 |
SFP+ |
10 Gbps |
PCIe 3.0 ×8 |
LP |
Not supported |
CNA-10GE-2P-560F-B2-1-X |
2 |
SFP+ |
10 Gbps |
PCIe 2.0 ×8 |
LP |
Not supported |
CNA-560T-B2-10Gb-2P-1-X |
2 |
RJ-45 |
10 Gbps |
PCIe 3.0 ×8 |
LP |
Not supported |
CNA-QL41262HLCU-11-2*25G |
2 |
SFP28 |
25 Gbps |
PCIe 3.0 ×8 |
LP |
Not supported |
IB-MCX555A-ECAT-100Gb-1P |
1 |
QSFP28 |
100 Gbps |
PCIe 3.0 ×16 |
LP |
Not supported |
IB-MCX555A-ECAT-100Gb-1P-1 |
1 |
QSFP28 |
100 Gbps |
PCIe 3.0 ×16 |
LP |
Not supported |
IB-MCX453A-FCAT-56/40Gb-1P |
1 |
QSFP28 |
56 Gbps |
PCIe 3.0 ×8 |
LP |
Not supported |
IB-MCX453A-FCAT-56/40Gb-1P-1 |
1 |
QSFP28 |
56 Gbps |
PCIe 3.0 ×8 |
LP |
Not supported |
IB-MCX354A-FCBT-56/40Gb-2P-X |
2 |
QSFP+ |
40/56 Gbps |
PCIe3.0 ×8 |
LP |
Not supported |
NIC-10GE-2P-520F-B2-1-X |
2 |
SFP+ |
10 Gbps |
PCIe 3.0 ×8 |
LP |
Not supported |
NIC-10GE-2P-530F-B2-1-X |
2 |
SFP+ |
10 Gbps |
PCIe 2.0 ×8 |
LP |
Not supported |
NIC-620F-B2-25Gb-2P-1-X |
2 |
SFP28 |
25 Gbps |
PCIe 3.0 ×8 |
LP |
Supported |
NIC-GE-4P-360T-B2-1-X |
4 |
RJ-45 |
10/100/1000 Mbps |
PCIe 2.0 ×4 |
LP |
Not supported |
NIC-BCM957416-T-B-10Gb-2P |
2 |
RJ-45 |
10 Gbps |
PCIe3.0 ×8 |
LP |
Not supported |
NIC-BCM957302-F-B-10Gb-2P |
2 |
SFP+ |
10 Gbps |
PCIe3.0 ×8 |
LP |
Not supported |
NIC-BCM957412-F-B-10Gb-2P |
2 |
SFP+ |
10 Gbps |
PCIe3.0 ×8 |
LP |
Not supported |
NIC-BCM957414-F-B-25Gb-2P |
2 |
SFP28 |
25 Gbps |
PCIe3.0 ×8 |
LP |
Not supported |
NIC-957454A4540C-B-100G-1P |
1 |
QSFP28 |
100 Gbps |
PCIe 3.0 ×16 |
LP |
Not supported |
NIC-CAVIUM-F-B-25Gb-2P |
2 |
SFP28 |
25 Gbps |
PCIe3.0 ×8 |
LP |
Not supported |
NIC-MCX415A-F-B-100Gb-1P |
1 |
QSFP28 |
100 Gbps |
PCIe3.0 ×16 |
LP |
Not supported |
NIC-MCX416A-F-B-40/56-2P |
2 |
QSFP28 |
56 Gbps |
PCIe 3.0 ×16 |
LP |
Not supported |
NIC-MCX416A-F-B-100Gb-2P |
2 |
SFP28 |
25 Gbps |
PCIe3.0 ×8 |
LP |
Not supported |
NIC-MCX4121A-F-B-10Gb-2P |
2 |
SFP28 |
10 Gbps |
PCIe3.0 ×8 |
LP |
Not supported |
NIC-X520DA2-F-B-10Gb-2P |
2 |
SFP+ |
10 Gbps |
PCIe 2.0 ×8 |
LP |
Not supported |
NIC-X540-T2-T-10Gb-2P |
2 |
RJ45 |
10 Gbps |
PCIe2.0 ×8 |
LP |
Not supported |
NIC-XL710-QDA1-F-40Gb-1P |
1 |
QSFP+ |
40 Gbps |
PCIe3.0 ×8 |
LP |
Not supported |
NIC-XL710-QDA2-F-40Gb-2P |
2 |
QSFP+ |
40 Gbps |
PCIe3.0 ×8 |
LP |
Not supported |
NIC-X710DA2-F-B-10Gb-2P-2 |
2 |
SFP+ |
10 Gbps |
PCIe3.0 ×8 |
LP |
Not supported |
NIC-X710DA4-F-B-10Gb-4P |
4 |
SFP+ |
10 Gbps |
PCIe3.0 ×8 |
LP |
Not supported |
NIC-MCX4121A-F-B-25Gb-2P |
2 |
SFP28 |
25 Gbps |
PCIe 3.0 ×8 |
LP |
Not supported |
NIC-MCX512A-ACAT-F-2*25Gb |
2 |
SFP28 |
25 Gbps |
PCIe3.0 ×8 |
LP |
Not supported |
NIC-XXV710-F-B-25Gb-2P |
2 |
SFP28 |
25 Gbps |
PCIe 3.0 ×8 |
LP |
Not supported |
NIC-OPA-100Gb-1P |
1 |
QSFP28 |
100 Gbps |
PCIe3.0 ×16 |
LP |
Not supported |
NIC-10/25Gb-2P-640FLR-SFP28 |
2 |
SFP28 |
25 Gbps |
PCIe 3.0 ×8 |
FLOM |
Supported |
NIC-iETH-PS225-H16 |
2 |
SFP28 |
25 Gbps |
PCIe 3.0 ×8 |
LP |
Supported |
FC HBAs
Table 20 FC HBA specifications
Model |
Ports |
Connector |
Data rate |
Form factor |
FC-HBA-QLE2560-8Gb-1P-1-X |
1 |
SFP+ |
8 Gbps |
LP |
FC-HBA-QLE2562-8Gb-2P-1-X |
2 |
SFP+ |
8 Gbps |
LP |
FC-HBA-QLE2690-16Gb-1P-1-X |
1 |
SFP+ |
16 Gbps |
LP |
FC-HBA-QLE2692-16Gb-2P-1-X |
2 |
SFP+ |
16 Gbps |
LP |
HBA-8Gb-LPe12000-1P-1-X |
1 |
SFP+ |
8 Gbps |
LP |
HBA-8Gb-LPe12002-2P-1-X |
2 |
SFP+ |
8 Gbps |
LP |
HBA-16Gb-LPe31000-1P-1-X |
1 |
SFP+ |
16 Gbps |
LP |
HBA-16Gb-LPe31002-2P-1-X |
2 |
SFP+ |
16 Gbps |
LP |
FC-HBA-LPe32000-32Gb-1P-X |
1 |
SFP+ |
32 Gbps |
LP |
FC-HBA-LPe32002-32Gb-2P-X |
2 |
SFP+ |
32 Gbps |
LP |
FC-HBA-QLE2740-32Gb-1P |
1 |
SFP+ |
32 Gbps |
LP |
FC-HBA-QLE2742-32Gb-2P |
2 |
SFP+ |
32 Gbps |
LP |
mLOM Ethernet adapters
In addition to mLOM Ethernet adapters, the server also supports PCIe Ethernet adapters (see "PCIe Ethernet adapters").
NIC-GE-4P-360T-L3
Item |
Specifications |
Dimensions |
128 × 68 mm (5.04 × 2.68 in) |
Ports |
4 |
Connector |
RJ-45 |
Data rate |
1000 Mbps |
Bus type |
1000BASE-X ×4 |
NCSI |
Supported |
Riser cards
PCIe slots
The server supports the RC-FHHL-1U-G3 riser card, as shown in Figure 22.
The slot number of a PCIe slot varies by the PCIe riser connector that holds the riser card, as shown in Figure 23.
· If the riser card is installed on PCIe riser connector 1, the slot number of the PCIe slot is 1.
· If the riser card is installed on PCIe riser connector 2, the slot number of the PCIe slot is 2.
Figure 23 PCIe slots on the RC-FHHL-1U-G3 riser card
(1) PCIe slot 1 |
(2) PCIe slot 2 |
Riser card specifications
A PCIe slot can supply power to the installed PCIe module if the maximum power consumption of the module does not exceed 75 W. If the maximum power consumption exceeds 75 W, a power cord is required.
RC-FHHL-1U-G3
Item |
Specifications |
Installation location |
· PCIe riser connector 1 · PCIe riser connector 2 |
PCIe slots |
One PCIe3.0 ×16 |
Form factors of PCIe modules |
FHFL |
Maximum power supplied per PCIe slot |
75 W |
Fans
Fan layout
The server supports a maximum of seven hot swappable fans. Figure 24 shows the layout of the fans in the chassis.
Fan specifications
Item |
Specifications |
Model |
FAN-1U-G3 |
Form factor |
1U standard fan |
Power supplies
The power supplies have an overtemperature protection mechanism. A power supply automatically stops working when an overtemperature occurs and automatically recovers when the overtemperature condition is removed.
550 W Platinum power supply
Item |
Specifications |
Model |
· PSR550-12A · PSR550-12A-1 · PSR550-12A-2 |
Rated input voltage range |
· 100 VAC to 240 VAC @ 50/60 Hz (10 A receptacle) · 192 VDC to 288 VDC (240 HVDC power source) |
Maximum rated input current |
· 8.0 A @ 100 VAC to 240 VAC · 2.75 A @ 240 VDC |
Maximum rated output power |
550 W |
Efficiency at 50 % load |
94%, 80 Plus Platinum level |
Temperature requirements |
· Operating temperature: 0°C to 50°C (32°F to 122°F) · Storage temperature: –40°C to +70°C (–40°F to +158°F) |
Operating humidity |
5% to 90% |
Maximum altitude |
5000 m (16404.20 ft) |
Redundancy |
1+1 redundancy |
Hot swappable |
Yes |
Cold backup |
Yes |
550 W high-efficiency Platinum power supply
Item |
Specifications |
Model |
DPS-550W-12A |
Rated input voltage range |
· 100 VAC to 240 VAC @ 50/60 Hz (10 A receptacle) · 192 VDC to 288 VDC (240 HVDC power source) |
Maximum rated input current |
· 7.1 A @ 100 VAC to 240 VAC · 2.8 A @ 240 VDC |
Maximum rated output power |
550 W |
Efficiency at 50 % load |
94%, 80 Plus Platinum level |
Temperature requirements |
· Operating temperature: 0°C to 55°C (32°F to 131°F) · Storage temperature: –40°C to +70°C (–40°F to +158°F) |
Operating humidity |
5% to 85% |
Maximum altitude |
5000 m (16404.20 ft) |
Redundancy |
1+1 redundancy |
Hot swappable |
Yes |
Cold backup |
Yes |
800 W Platinum power supply
Item |
Specifications |
Model |
PSR800-12A |
Rated input voltage range |
· 100 VAC to 240 VAC @ 50/60 Hz (10 A receptacle) · 192 VDC to 288 VDC (240 HVDC power source) |
Maximum rated input current |
· 10.0 A @ 100 VAC to 240 VAC · 4.0 A @ 240 VDC |
Maximum rated output power |
800 W |
Efficiency at 50 % load |
94%, 80 Plus Platinum level |
Temperature requirements |
· Operating temperature: 0°C to 50°C (32°F to 122°F) · Storage temperature: –40°C to +70°C (–40°F to +158°F) |
Operating humidity |
5% to 90% |
Maximum altitude |
5000 m (16404.20 ft) |
Redundancy |
1+1 redundancy |
Hot swappable |
Yes |
Cold backup |
Yes |
800 W –48 VDC power supply
Item |
Specifications |
Model |
DPS-800W-12A-48V |
Rated input voltage range |
–48 VDC to –60 VDC |
Maximum rated input current |
20.0 A @ –48 VDC to –60 VDC |
Maximum rated output power |
800 W |
Efficiency at 50 % load |
92% |
Temperature requirements |
· Operating temperature: 0°C to 55°C (32°F to 131°F) · Storage temperature: –40°C to +70°C (–40°F to +158°F) |
Operating humidity |
5% to 90% |
Maximum altitude |
5000 m (16404.20 ft) |
Redundancy |
1+1 redundancy |
Hot swappable |
Yes |
Cold backup |
Yes |
800 W 336V high-voltage DC power supply
Item |
Specifications |
Model |
PSR800-12AHD |
Rated input voltage range |
· 100 VAC to 240 VAC @ 50/60 Hz (10 A receptacle) · 180 VDC to 400 VDC (240 to 336 HVDC power source) |
Maximum rated input current |
· 10.0 A @ 100 VAC to 240 VAC · 3.8 A @ 240 VDC |
Maximum rated output power |
800 W |
Efficiency at 50 % load |
94% |
Temperature requirements |
· Operating temperature: 0°C to 50°C (32°F to 122°F) · Storage temperature: –40°C to +70°C (–40°F to +158°F) |
Operating humidity |
5% to 90% |
Maximum altitude |
5000 m (16404.20 ft) |
Redundancy |
1+1 redundancy |
Hot swappable |
Yes |
Cold backup |
Yes |
850 W high-efficiency Platinum power supply
Item |
Specifications |
Model |
DPS-850W-12A |
Rated input voltage range |
· 100 VAC to 240 VAC @ 50/60 Hz (10 A receptacle) · 192 VDC to 288 VDC (240 HVDC power source) |
Maximum rated input current |
· 10.0 A @ 100 VAC to 240 VAC · 4.4 A @ 240 VDC |
Maximum rated output power |
850 W |
Efficiency at 50 % load |
94%, 80 Plus Platinum level |
Temperature requirements |
· Operating temperature: 0°C to 55°C (32°F to 131°F) · Storage temperature: –40°C to +70°C (–40°F to +158°F) |
Operating humidity |
5% to 85% |
Maximum altitude |
5000 m (16404.20 ft) |
Redundancy |
1+1 redundancy |
Hot swappable |
Yes |
Cold backup |
Yes |
850 W Titanium power supply
Item |
Specifications |
Model |
PSR850-12A |
Rated input voltage range |
· 100 VAC to 240 VAC @ 50/60 Hz (10 A receptacle) · 192 VDC to 288 VDC (240 HVDC power source) |
Maximum rated input current |
· 11.0 A @ 100 VAC to 240 VAC · 4.0 A @ 240 VDC |
Maximum rated output power |
850 W |
Efficiency at 50 % load |
96%, 80 Plus Titanium level |
Temperature requirements |
· Operating temperature: 0°C to 50°C (32°F to 122°F) · Storage temperature: –40°C to +70°C (–40°F to +158°F) |
Operating humidity |
5% to 85% |
Maximum altitude |
5000 m (16404.20 ft) |
Redundancy |
1+1 redundancy |
Hot swappable |
Yes |
Cold backup |
Yes |
1200 W Platinum power supply
Item |
Specifications |
Model |
PSR1200-12A |
Rated input voltage range |
· 100 VAC to 127 VAC @ 50/60 Hz (1000 W) · 200 VAC to 240 VAC @ 50/60 Hz (1200 W) · 192 VDC to 288 VDC (1200 W) |
Maximum rated input current |
· 12.0 A @ 100 VAC to 240 VAC · 6.0 A @ 240 VDC |
Maximum rated output power |
1200 W |
Efficiency at 50 % load |
94%, 80 Plus Platinum level |
Temperature requirements |
· Operating temperature: 0°C to 50°C (32°F to 122°F) · Storage temperature: –40°C to +70°C (–40°F to +158°F) |
Operating humidity |
5% to 90% |
Maximum altitude |
5000 m (16404.20 ft) |
Redundancy |
1+1 redundancy |
Hot swappable |
Yes |
Cold backup |
Yes |
Expander modules and transfer modules
Model |
Specifications |
ODD-Cage-1U |
Common expander module for optical drive or M.2 SATA SSD expansion on the 8SFF server |
RC-M2-C |
M.2 transfer module (used for expansion of two rear SATA M.2 SSDs) |
RC-M2-1U |
M.2 transfer module (used to expand the server with two front SATA M.2 SSDs) |
Dual SD card extended module (supports RAID level 1) |
|
UV-1U-LFF |
Front media module 1 (available for 4LFF servers) |
UV-1U-SFF |
Front media module 2 (available for 8SFF and 10SFF servers) |
HDD-Cage-2SFF-Rear-1U |
Rear 2SFF SAS/SATA drive cage |
HDD-Cage-2SFF-Front |
Front 2SFF SAS/SATA drive cage |
HDD-Cage-2SFF-1U-G3-NVMe |
Front 2SFF NVMe drive cage |
Diagnostic panels
Diagnostic panels provide diagnostics and troubleshooting capabilities. You can locate and troubleshoot component failures by using the diagnostic panels in conjunction with the event log generated in HDM.
|
NOTE: A diagnostic panel displays only one component failure at a time. When multiple component failures exist, the diagnostic panel displays all these failures one by one at intervals of 4 seconds. |
Diagnostic panel specifications
Model |
Specifications |
SD-SFF-A |
SFF diagnostic panel for 8SFF and 10SFF servers |
SD-LFF-G3-A |
LFF diagnostic panel for the 4LFF server |
Diagnostic panel view
Figure 25 shows the error code and LEDs on a diagnostic panel.
Figure 25 Diagnostic panel view
(1) Error code |
(2) LEDs |
For more information about the LEDs and error codes, see "LEDs."
LEDs
POST LED
LED status |
Error code |
Description |
Steady green |
POST code for the current phase (in the range of 00 to 99) |
The server is performing POST and the POST process is normal. |
Flashing red |
The POST process encountered an error and stopped in the displayed phase. |
|
Off |
00 |
The server is operating correctly when the error code is 00 and all LEDs are off. |
TEMP LED
LED status |
Error code |
Description |
Flashing red |
Temperature sensor ID |
A severe temperature warning is present on the component monitored by the sensor. This warning might occur because the temperature of the component has exceeded the upper threshold or dropped below the lower threshold. |
CAP LED
LED status |
Error code |
Description |
Flashing amber |
01 |
The system power consumption has exceeded the power cap value. |
Component LEDs
An alarm is present if a component LED has one of the following behaviors:
· Flashing amber (0.5 Hz)—A predictive alarm has occurred.
· Flashing amber (1 Hz)—A general alarm has occurred.
· Flashing red (1 Hz)—A severe alarm has occurred.
Use Table 21 to identify the faulty item if a component LED has one of those behaviors. To obtain records of component status changes, use the event log in HDM. For information about using the event log, see HDM online help.
Table 21 LED, error code and faulty item matrix
LED |
Error code |
Faulty item |
BRD |
11 |
System board |
21, 22, or 23 |
Front drive backplane |
|
32 |
Rear 2SFF drive backplane |
|
71 |
Mezzanine storage controller power |
|
81 |
Reserved |
|
91 |
mLOM Ethernet adapter |
|
NOTE: If the error code field displays 11 and any other code alternatively, replace the faulty item other than the system board. If the issue persists, replace the system board. |
||
Processor |
01 |
Processor 1 |
02 |
Processor 2 |
|
DIMM |
A1 through A9, AA, AC, or AE |
DIMMs in slots A1 through A12 |
B1 through B9, BA, BC, or BE |
DIMMs in slots B1 through B12 |
|
HDD |
00 through 03 |
Front drives (4LFF server) |
00 through 07 |
Front drives (8LFF server) |
|
00 through 09 |
Front drives (10SFF server) |
|
00 and 01 |
Rear drives |
|
PCIE |
01 and 02 |
PCIe modules in PCIe slots 1 and 2 of the riser card |
PSU |
01 |
Power supply 1 |
02 |
Power supply 2 |
|
RAID |
10 |
Mezzanine storage controller status |
FAN |
01 through 07 |
Fan 1 through Fan 7 |
VRD |
01 |
System board P5V voltage |
02 |
System board P1V05_PCH voltage |
|
03 |
System board PVCC_HPMOS voltage |
|
04 |
System board P3V3 voltage |
|
05 |
System board P1V8_PCH voltage |
|
06 |
System board PVCCIO_CPU1 voltage |
|
07 |
System board PVCCIN_CPU1 voltage |
|
08 |
System board PVCCIO_CPU2 voltage |
|
09 |
System board PVCCIN_CPU2 voltage |
|
10 |
System board VPP_CPU1_ABC voltage |
|
11 |
System board VPP_CPU1_DEF voltage |
|
12 |
System board VDDQ_CPU1_ABC voltage |
|
13 |
System board VDDQ_CPU1_DEF voltage |
|
14 |
System board VTT_CPU1_ABC voltage |
|
15 |
System board VTT_CPU1_DEF voltage |
|
16 |
System board VPP_CPU1_ABC voltage |
|
17 |
System board VPP_CPU1_DEF voltage |
|
18 |
System board VDDQ_CPU2_ABC voltage |
|
19 |
System board VDDQ_CPU2_DEF voltage |
|
20 |
System board VTT_CPU2_ABC voltage |
|
21 |
System board VTT_CPU2_DEF voltage |
|
NOTE: The term "CPU" in this table refers to processors. |
Fiber transceiver modules
Model |
Central wavelength |
Connector |
Max transmission distance |
SFP-XG-SX-MM850-A1-X |
850 nm |
LC |
300 m (984.25 ft) |
SFP-XG-SX-MM850-E1-X |
850 nm |
LC |
300 m (984.25 ft) |
SFP-25G-SR-MM850-1-X |
850 nm |
LC |
100 m (328.08 ft) |
Storage options other than HDD and SSD drives
Model |
Specifications |
SD-32G-Micro-A |
32 G microsSD mainstream flash media kit module |
SD-32G-Micro-1 |
32 G microsSD mainstream flash media kit module |
USB-32G-A |
32 G USB 3.0 storage disk module |
DVD-RW-Mobile-USB-A |
Removable USB DVDRW optical drive NOTE: The optical drive can be connected only to a USB 3.0 port. |
DVD-RW-SATA-9.5MM-A |
9.5mm SATA DVD-RW optical drive |
DVD-ROM-SATA-9.5MM-A |
9.5mm SATA DVD-ROM optical drive |
NVMe VROC modules
Model |
RAID levels |
Compatible NVMe SSDs |
NVMe-VROC-Key-S |
0, 1, 10 |
All NVMe SSDs |
NVMe-VROC-Key-P |
0, 1, 5, 10 |
All NVMe SSDs |
NVMe-VROC-Key-i |
0, 1, 5, 10 |
Intel NVMe SSDs |
TPM/TCM modules
Trusted platform module (TPM) is a microchip installed on the system board. It stores encryption information (such as encryption keys) for authenticating server hardware and software. The TPM operates with drive encryption programs such as Microsoft Windows BitLocker to provide operating system security and data protection. For information about Microsoft Windows BitLocker, visit the Microsoft website at http://www.microsoft.com
Trusted cryptography module (TCM) is a trusted computing platform-based hardware module with protected storage space, which enables the platform to perform password calculation.
Table 22 describes the TPM and TCM modules supported by the server.
Table 22 TPM/TCM specifications
Model |
Specifications |
TPM-2-X |
H3C series TPM module 2.0 |
TCM-1-X |
H3C series TCM module 1.0 |
Security bezels, slide rail kits, and cable management brackets
Description |
|
SEC-Panel-1U-X |
1U security bezel |
SL-1U -BB |
1U ball bearing rail |
SL-1U -FR |
1U standard rail |
CMA-1U-A |
1U cable management bracket |
Appendix C Managed hot removal of NVMe drives
Managed hot removal of NVMe drives enables you to remove NVMe drives safely while the server is operating.
Use Table 23 to determine the managed hot removal method depending on the VMD status and the operating system. For more information about VMD, see the BIOS user guide for the server.
Table 23 Managed hot removal methods
VMD status |
Operating system |
Managed hot removal method |
Auto |
Windows |
|
Linux |
||
Disabled |
N/A |
Contact the support. |
Performing a managed hot removal in Windows
Prerequisites
Install Intel® Rapid Storage Technology enterprise (Intel® RSTe).
To obtain Intel® RSTe, use one of the following methods:
· Go to https://platformsw.intel.com/KitSearch.aspx to download the software.
· Contact Intel Support.
Procedure
1. Stop reading data from or writing data to the NVMe drive to be removed.
2. Identify the location of the NVMe drive. For more information, see "Drive configurations and numbering."
3. Run Intel® RSTe.
4. Unmount the NVMe drive from the operating system, as shown in Figure 26:
¡ Select the NVMe drive to be removed.
¡ Click Activate LED to turn on the Fault/UID LED on the drive.
¡ Click Remove Disk.
Figure 26 Removing an NVMe drive
5. Observe the Fault/UID LED on the drive. If the Fault/UID LED turns steady blue and the drive is removed from the Devices list, remove the drive from the server.
For more information about the removal procedure, see "Replacing an NVMe drive."
Performing a managed hot removal in Linux
In Linux, you can perform a managed hot removal of NVMe drives from the CLI or by using Intel® Accelerated Storage Manager.
Prerequisites
· Verify that your operating system is a non-SLES Linux operating system. SLES operating systems do not support managed hot removal of NVMe drives.
· To perform a managed hot removal by using Intel® ASM, install Intel® ASM.
To obtain Intel® ASM, use one of the following methods:
¡ Go to https://platformsw.intel.com/KitSearch.aspx to download the software.
¡ Contact Intel Support.
Performing a managed hot removal from the CLI
1. Stop reading data from or writing data to the NVMe drive to be removed.
2. Identify the location of the NVMe drive. For more information, see "Drive configurations and numbering."
3. Access the CLI of the server.
4. Execute the lsblk | grep nvme command to identify the drive letter of the NVMe drive, as shown in Figure 27.
Figure 27 Identifying the drive letter of the NVMe drive to be removed
5. Execute the ledctl locate=/dev/drive_letter command to turn on the Fault/UID LED on the drive. The drive_letter argument represents the drive letter, nvme0n1 for example.
6. Execute the echo 1 > /sys/block/drive_letter/device/device/remove command to unmount the drive from the operating system. The drive_letter argument represents the drive letter, nvme0n1 for example.
7. Observe the Fault/UID LED on the drive. If the Fault/UID LED turns steady blue, remove the drive from the server.
For more information about the removal procedure, see "Replacing an NVMe drive."
Performing a managed hot removal from the Intel® ASM Web interface
1. Stop reading data from or writing data to the NVMe drive to be removed.
2. Identify the location of the NVMe drive. For more information, see "Drive configurations and numbering."
3. Run Intel® ASM.
4. Click RSTe Management.
Figure 28 Accessing RSTe Management
5. Expand the Intel(R) VROC(in pass-thru mode) menu to view operating NVMe drives, as shown in Figure 29.
Figure 29 Viewing operating NVMe drives
6. Click the light bulb icon to turn on the Fault/UID LED on the drive, as shown in Figure 30.
Figure 30 Turning on the drive Fault/UID LED
7. Click the removal icon, as shown in Figure 31.
Figure 31 Removing an NVMe drive
8. In the confirmation dialog box that opens, click Yes.
Figure 32 Confirming the removal
9. Remove the drive from the server. For more information about the removal procedure, see "Replacing an NVMe drive."
Appendix D Environment requirements
Guidelines
The operating temperature requirements for the server vary depending on the server model and hardware configuration. When the general and component-based requirements conflict, use the component-based requirement.
Be aware that the actual maximum operating temperature of the server might be lower than that stated. This is because the server cooling performance might decrease because of adverse external factors, including poor cabinet cooling performance, high power density inside the cabinet, or insufficient spacing between devices.
General environment requirements
Item |
Specifications |
Operating temperature |
Minimum: 5°C (41°F) Maximum: Varies depending on the power consumed by the processors and presence of expansion modules. For more information, see "Operating temperature requirements." |
Storage temperature |
–40°C to +70°C (–40°F to +158°F) |
Operating humidity |
8% to 90%, noncondensing |
Storage humidity |
5% to 90%, noncondensing |
Operating altitude |
–60 m to +3000 m (–196.85 ft to +9842.52 ft) The allowed maximum temperature decreases by 0.33 °C (32.59°F) as the altitude increases by 100 m (328.08 ft) from 900 m (2952.76 ft) |
Storage altitude |
–60 m to +5000 m (–196.85 ft to +16404.20 ft) |
Operating temperature requirements
Guidelines
If a fan fails or is absent, performance of the following components might degrade:
· DCPMMs.
· GPU modules.
· Processors on the 4LFF server, 8SFF server with a 10SFF drive configuration, or 10SFF server if the server is installed with rear drives.
4LFF server with any drive configuration
Use Table 24 to determine the maximum operating temperature of the 4LFF server that uses any drive configuration. A maximum server operating temperature applies if the server contains any options in its matching hardware option list.
If a single fan fails, the maximum server operating temperature drops by 5 °C (41°F) and cannot exceed 35°C (95°F).
|
NOTE: All maximum server operating temperature values are provided on the basis that the fans are installed as needed and operating correctly. For more information about fan configurations, see the guidelines in "Installing fans." |
Table 24 Operating temperature requirements for the 4LFF server with any configuration
Maximum server operating temperature |
Processor configuration |
Hardware option configuration |
25°C (77°F) |
165 W or higher |
· Rear drives. · GPU modules: ¡ GPU-P4-X. ¡ GPU-M4-1. ¡ GPU-T4. ¡ GPU-MLU100-D3. |
30°C (86°F) |
125 W to 165 W (exclusive) |
· Rear drives. · GPU modules: ¡ GPU-P4-X. ¡ GPU-M4-1. ¡ GPU-T4. ¡ GPU-MLU100-D3. |
High than 165 W |
Rear SATA M.2 SSDs |
|
35°C (95°F) |
Any |
· NVMe SSD PCIe accelerator modules. · DCPMMs. |
Processor 8180, 8180M, 8168, 6154, 6146, 6144, 6244, or 6240Y |
Any |
|
Lower than 125 W |
· Rear drives. · GPU modules: ¡ GPU-P4-X. ¡ GPU-M4-1. ¡ GPU-T4. ¡ GPU-MLU100-D3. |
|
165 W or lower |
Rear SATA M.2 SSDs. |
|
Higher than 165 W |
Rear Ethernet adapter with a fiber transceiver module. |
|
40°C (104°F) |
165 W or lower, except for processor 6146 |
Rear Ethernet adapter with a fiber transceiver module. |
Any except for processors 8180, 8180M, 8168, 6154, 6146, 6144, 6244, and 6240Y |
· GPU modules: ¡ GPU-M4000-1-X. ¡ GPU-M2000. · Ethernet adapters: ¡ IB-MCX453A-FCAT-56/40Gb-1P. ¡ IB-MCX453A-FCAT-56/40Gb-1P-1. |
|
Higher than 125 W, except for processors 8180, 8180M, 8168, 6154, 6146, 6144, 6244, and 6240Y |
None of the above hardware options or operating conditions exists and seven operating fans are present |
|
125 W or lower |
None of the above hardware options or operating conditions exists and seven operating fans are present |
8SFF server with an 8SFF drive configuration
Use Table 25 to determine the maximum operating temperature of the 8SFF server with an 8SFF drive configuration. A maximum server operating temperature applies if the server contains any options in its matching hardware option list.
If a single fan fails, the maximum server operating temperature drops by 5°C (41°F) and cannot exceed 35°C (95°F).
|
NOTE: All maximum server operating temperature values are provided on the basis that the fans are installed as needed and operating correctly. For more information about fan configurations, see the guidelines in "Installing fans." |
Table 25 Operating temperature requirements for the 8SFF server with an 8SFF drive configuration
Maximum server operating temperature |
Processor configuration |
Hardware option configuration |
25°C (77°F) |
165 W or higher |
GPU modules: · GPU-P4-X. · GPU-M4-1. · GPU-T4. · GPU-MLU100-D3. |
30°C (86°F) |
125 W to 165 W (exclusive) |
GPU modules: · GPU-P4-X. · GPU-M4-1. · GPU-T4. · GPU-MLU100-D3. |
High than 165 W |
Rear SATA M.2 SSDs. |
|
35°C (95°F) |
Any |
· NVMe SSD PCIe accelerator module. · Samsung NVMe drives. · DCPMMs. |
Processor 8180, 8180M, 8168, 6154, 6146, 6144, 6244, or 6240Y |
Any |
|
Lower than 125 W |
GPU modules: · GPU-P4-X. · GPU-M4-1. · GPU-T4. · GPU-MLU100-D3. |
|
165 W or lower |
Rear SATA M.2 SSDs. |
|
Higher than 165 W |
Rear Ethernet adapter with a fiber transceiver module. |
|
40°C (104°F) |
Any except processors 8180, 8180M, 8168, 6154, 6146, 6144, 6244, and 6240Y |
· Rear Ethernet adapter with a fiber transceiver module. · NVMe drives, excluding Samsung NVMe drives. · GPU modules: ¡ GPU-M4000-1-X. ¡ GPU-M2000. · Ethernet adapters: ¡ IB-MCX453A-FCAT-56/40Gb-1P. ¡ IB-MCX453A-FCAT-56/40Gb-1P-1. |
Higher than 125 W, except for processors 8180, 8180M, 8168, 6154, 6146, 6144, 6244, and 6240Y |
None of the above hardware options or operating conditions exists and seven operating fans are present. |
|
45°C (113°F) |
125 W or lower |
None of the above hardware options or operating conditions exists and seven operating fans are present. |
8SFF server with a 10SFF drive configuration
Use Table 26 to determine the maximum operating temperature of the 8SFF server with a 10SFF drive configuration. A maximum server operating temperature applies if the server contains any options in its matching hardware option list.
If a single fan fails, the maximum server operating temperature drops by 5°C (41°F) and cannot exceed 35°C (95°F).
|
NOTE: All maximum server operating temperature values are provided on the basis that the fans are installed as needed and operating correctly. For more information about fan configurations, see the guidelines in "Installing fans." |
Table 26 Operating temperature requirements for the 8SFF server with a 10SFF drive configuration
Maximum server operating temperature |
Processor configuration |
Hardware option configuration |
25°C (77°F) |
165 W or higher |
· Rear drives. · GPU modules: ¡ GPU-P4-X. ¡ GPU-M4-1. ¡ GPU-T4. ¡ GPU-MLU100-D3. |
30°C (86°F) |
125 W to 165 W (exclusive) |
· Rear drives. · GPU modules: ¡ GPU-P4-X. ¡ GPU-M4-1. ¡ GPU-T4. ¡ GPU-MLU100-D3. |
Higher than 165 W |
Rear SATA M.2 SSDs. |
|
Any |
NVMe SSD PCIe accelerator modules SSD-NVME-375G-P4800X and SSD-NVME-750G-P4800X, and Memblaze NVMe SSD PCIe accelerator modules |
|
35°C (95°F) |
Lower than 125 W |
· Rear drives · GPU modules: ¡ GPU-P4-X. ¡ GPU-M4-1. ¡ GPU-T4. ¡ GPU-MLU100-D3. |
Higher than 165 W |
Rear Ethernet adapter with a fiber transceiver module. |
|
Processor 8180, 8180M, 8168, 6154, 6146, 6144, 6244, and 6240Y |
Any |
|
Any |
· NVMe SSD PCIe accelerator modules excluding SSD-NVME-375G-P4800X, SSD-NVME-750G-P4800X, or Memblaze NVMe SSD PCIe accelerator modules. · Samsung NVMe drives. · DCPMMs. |
|
165 W or lower |
Rear SATA M.2 SSDs. |
|
40°C (104°F) |
Any except for processors 8180, 8180M, 8168, 6154, 6146, 6144, 6244, or 6240Y |
None of the above hardware options or operating conditions exists and seven operating fans are present. |
10SFF server with any drive configuration
Use Table 26 to determine the maximum operating temperature of the 10SFF server with any drive configuration. A maximum server operating temperature applies if the server contains any options in its matching hardware option list.
If a single fan fails, the maximum server operating temperature drops by 5°C (41°F) and cannot exceed 35°C (95°F).
|
NOTE: All maximum server operating temperature values are provided on the basis that the fans are installed as needed and operating correctly. For more information about fan configurations, see the guidelines in "Installing fans." |
Table 27 Operating temperature requirements for the 10SFF server with any drive configuration
Maximum server operating temperature |
Processor configuration |
Hardware option configuration |
25°C (77°F) |
165 W or higher |
· Rear drives. · GPU modules: ¡ GPU-P4-X. ¡ GPU-M4-1. ¡ GPU-T4. ¡ GPU-MLU100-D3. |
30°C (86°F) |
125 W to 165 W (exclusive) |
· Rear drives. · GPU modules: ¡ GPU-P4-X. ¡ GPU-M4-1. ¡ GPU-T4. ¡ GPU-MLU100-D3. |
Higher than 165 W |
Rear SATA M.2 SSDs. |
|
Any |
NVMe SSD PCIe accelerator modules SSD-NVME-375G-P4800X and SSD-NVME-750G-P4800X, and Memblaze NVMe SSD PCIe accelerator modules. |
|
35°C (95°F) |
Lower than 125 W |
· Rear drives. · GPU modules: ¡ GPU-P4-X. ¡ GPU-M4-1. ¡ GPU-T4. ¡ GPU-MLU100-D3. |
Higher than 165 W |
Rear Ethernet adapter with a fiber transceiver module. |
|
Processor 8180, 8180M, 8168, 6154, 6146, 6144, 6244, and 6240Y |
Any |
|
Any |
· NVMe SSD PCIe accelerator modules excluding SSD-NVME-375G-P4800X, SSD-NVME-750G-P4800X, or Memblaze NVMe SSD PCIe accelerator modules. · Samsung NVMe drives. · DCPMMs. |
|
165 W or lower |
Rear SATA M.2 SSDs. |
|
40°C (104°F) |
Any except for processors 8180, 8180M, 8168, 6154, 6146, 6144, 6244, or 6240Y |
None of the above hardware options or operating conditions exists and seven operating fans are present. |
Appendix E Product recycling
New H3C Technologies Co., Ltd. provides product recycling services for its customers to ensure that hardware at the end of its life is recycled. Vendors with product recycling qualification are contracted to New H3C to process the recycled hardware in an environmentally responsible way.
For product recycling services, contact New H3C at
· Tel: 400-810-0504
· E-mail: [email protected]
· Website: http://www.h3c.com
Appendix F Glossary
Description |
|
B |
|
BIOS |
Basic input/output system is non-volatile firmware pre-installed in a ROM chip on a server's system board. BIOS stores basic input/output, power-on self-test, and auto startup programs to provide the most basic hardware initialization, setup and control functionality. |
C |
|
CPLD |
Complex programmable logic device is an integrated circuit used to build reconfigurable digital circuits. |
E |
|
Ethernet adapter |
An Ethernet adapter, also called a network interface card (NIC), connects the server to the network. |
F |
|
FIST |
Fast Intelligent Scalable Toolkit provided by H3C for easy and extensible server management. It can guide users to configure a server quickly with ease and provide an API interface to allow users to develop their own management tools on its basis. |
G |
|
GPU module |
Graphics processing unit module converts digital signals to analog signals for output to a display device and assists processors with image processing to improve overall system performance. |
H |
|
HDM |
H3C Device Management is the server management control unit with which administrators can configure server settings, view component information, monitor server health status, and remotely manage the server. |
A module that supports hot swapping (a hot-swappable module) can be installed or removed while the server is running without affecting the system operation. |
|
K |
|
KVM |
KVM is an abbreviation for keyboard, video, and mouse. KVM is a management method that allows remote users to use their local video display, keyboard, and mouse to monitor and control remote servers. |
N |
|
NVMe SSD expander module |
An expander module facilitates communication between the system board and the front NVMe hard drives. The module is required if a front NVMe drive is installed. |
NVMe VROC module |
A module that works with VMD to provide RAID capability for the server to virtualize storage resources of NVMe drives. |
R |
|
RAID |
Redundant array of independent disks (RAID) is a data storage virtualization technology that combines multiple physical hard drives into a single logical unit to improve storage and security performance. |
Redundancy |
A mechanism that ensures high availability and business continuity by providing backup modules. In redundancy mode, a backup or standby module takes over when the primary module fails. |
S |
|
Security bezel |
A locking bezel mounted to the front of a server to prevent unauthorized access to the modules, such as hard drives. |
T |
|
Temperature sensor |
A temperature sensor detects changes in temperature at the location where it is installed and reports the temperature data to the server system. |
U |
A unit of measure defined as 44.45 mm (1.75 in) in IEC 60297-1. It is used as a measurement of the overall height of racks, as well as equipment mounted in the racks. |
VMD |
VMD provides hot removal, management, and fault-tolerance functions for NVMe drives to increase availability, reliability, and serviceability. |
Appendix G Acronyms
Acronym |
Full name |
B |
|
BIOS |
|
C |
|
CMA |
Cable Management Arm |
CPLD |
|
D |
|
DCPMM |
Data Center Persistent Memory Module |
DDR |
Double Data Rate |
DIMM |
Dual In-Line Memory Module |
DRAM |
Dynamic Random Access Memory |
F |
|
FIST |
|
G |
|
GPU |
|
H |
|
HBA |
Host Bus Adapter |
HDD |
Hard Disk Drive |
HDM |
|
I |
|
IDC |
Internet Data Center |
K |
|
KVM |
Keyboard, Video, Mouse |
L |
|
LFF |
Large Form Factor |
LRDIMM |
Load Reduced Dual Inline Memory Module |
M |
|
mLOM |
Modular LAN-on-Motherboard |
N |
|
NCSI |
Network Controller Sideband Interface |
NVMe |
Non-Volatile Memory Express |
P |
|
PCIe |
Peripheral Component Interconnect Express |
PDU |
Power Distribution Unit |
POST |
Power-On Self-Test |
R |
|
RDIMM |
Registered Dual Inline Memory Module |
S |
|
SAS |
Serial Attached Small Computer System Interface |
SATA |
Serial ATA |
SD |
Secure Digital |
SDS |
Secure Diagnosis System |
SFF |
Small Form Factor |
SSD |
Solid State Drive |
T |
|
TCM |
Trusted Cryptography Module |
TDP |
Thermal Design Power |
TPM |
Trusted Platform Module |
U |
|
UID |
Unit Identification |
UPI |
Ultra Path Interconnect |
UPS |
Uninterruptible Power Supply |
USB |
Universal Serial Bus |
V |
|
VROC |
Virtual RAID on CPU |
VMD |
Volume Management Device |