Transcript
HP ProLiant DL170e G6 Server Installation Instructions
Part Number 612343-002
Identifying Server Components Front Panel Components Figure 1 Front Panel Components / 4-Node, 8 LFF HDD Cage Model
Item
Description
1
Power button/LED for node 1
2
Power button/LED for node 2
3
Health LED for node 2
4
Health LED for node 1
5
Health LED for node 3
6
Power button/LED for node 4
7
Health LED for node 4
8
Chassis UID button/LED
9
Thumbscrews for the rack mounting
10
Power button/LED for node 3
11
Hard disk drive (HDD) fault/UID LED
12
Hard disk drive (HDD) online LED
13
Hard disk drive (HDD) bay
Figure 2 Front Panel Components / 2-Node, 8 LFF HDD Cage Model
Item
Description
9
Server UID LED button
10
Serial port
11
VGA port
Figure 4 Rear Panel Components / 2U Node
Item
Description
1
Power button/LED for node 1
2
Health LED for node 1
3
Health LED for node 3
4
Chassis UID button/LED
5
Power button/LED for node 3
NOTE: The front panel figures use the 8 LFF drive model as examples.
Rear panel components
Item
Description
1
PCIe Gen2 Low-profile expansion card slot
2
PCIe Gen2 Full-height, half-length expansion card slot
3
PCIe Gen2 Full-height, full-length expansion card slot
Figure 5 Rear Panel Components / 4-Node Numbering
Figure 3 Rear Panel Components / 1U Node
Item
Description
1
PCIe Gen2 Low-profile expansion card slot
2
Server health LED
3
Shared 1GbE NIC2/Management Port (L0100i)
4
USB 2.0 port 1
5
Dedicated Management Port (L0100i) (Optional)
6
USB 2.0 port 0
7
1GbE NIC1 port
8
Server power button
Item
Description
1
Power supply 2
2
Power supply 1
Figure 6 2-Node Numbering
Figure 8 Drive Numbering / 12 LFF HDD Model
Supported drive configurations
The supported drive configuration for 12 LFF HDD model:
The HP ProLiant DL170e G6 Server can accommodate up to 8 LFF, 12 LFF, 16 SFF or 24 SFF hard drives, depending on the selected drive cage option. Different types of drive configuration are supported for various types of node configuration (4-node and 2node). Figure 7 Drive Numbering / 8 LFF HDD Model
4 nodes (1,2,3&4) each with 3 HDDs:
2 nodes (1&3) each with 6 HDDs:
Figure 9 Drive Numbering / 16 SFF HDD Model
The supported drive configuration for 8 LFF HDD model: 4 nodes (1,2,3&4) each with 2 HDDs:
2 nodes (1&3) each with 4 HDDs:
The supported drive configuration for 16 SFF HDD model: 4 nodes (1,2,3&4) each with 4 HDDs:
2 nodes (1&3) each with 8 HDDs:
Figure 10 Drive Numbering / 24 SFF HDD Model
Item
Description
3
Processor 2
4
Processor 1 DIMM slot 1F
5
Processor 1 DIMM slot 8A
6
RPS connector
7
Processor 1
8
Processor 2 DIMM slot 1F
9
Processor 2 DIMM slot 8A
10
Internal USB 2.0 port
11
SATA 0 connector
12
SATA 1 connector
13
SATA 2 connector
14
SATA 3 connector
15
Dedicated Management Port (L0100i) (Optional)
16
SATA 4 connector
17
SATA 5 connector
18
Battery
The supported drive configuration for 24 SFF HDD model: CAUTION: For more detailed information relating to installation of options, refer to any installation instructions that came with the option, as well as the HP ProLiant DL170e G6 Server Maintenance and Service Guide.
4 nodes (1,2,3&4) each with 6 HDDs:
2 nodes (1&3) each with 12 HDDs:
System board components
Server configuration resources In addition to this Installation Sheet, other resources are available for more information regarding the configuration and maintenance of your server: •
For safety information and detailed procedures relating to installation of options, refer to any installation instructions that came with the option, as well as the HP ProLiant DL170e G6 Server Maintenance and Service Guide.
•
For safety information and detailed procedures related to the rest of the steps listed in the “Configuring the Server” section, refer to the relevant chapter of the HP ProLiant DL100 Series Server User Guide.
•
For information relating to system BIOS configuration and operating system installation, refer to the relevant section of the HP ProLiant DL170e G6 Server Software Configuration Guide.
•
Refer to the HP ProLiant DL170e G6 Server Easy Set-up CD for additional information and updates not provided in this installation sheet. You can also access additional information and documentation from the HP website at http://www.hp.com/, either by connecting directly or through the Easy Set-up CD.
Figure 11 System Board Components
Server configuration overview The steps listed below give an overview of the necessary setup procedures for preparing the HP ProLiant DL170e G6 Server for operation: Item
Description
1
TPM connector (Optional)
2
Riser connector
1.
Connect the AC power cord and peripheral devices.
2.
Power on the server.
3.
Press “F10” to enter BIOS setup.
4.
Note the server BIOS version.
5.
Verify the server BIOS version against the latest BIOS version listed for this server.
6.
If you do not have the latest BIOS, update the BIOS now. Refer to the HP ProLiant DL170e G6 Server Maintenance and Service Guide.
7.
Install a supported operating system of your choice. For detailed procedures, refer to the documentation provided by the operating system vendor.
Pre- and post-installation procedures
Opening the server NOTE: The product figures below are for reference only and do not reflect the actual configuration. Your server may look different. The top cover is removable. Please follow the steps below to remove the top cover: 1.
Turn the lock counterclockwise to the location of unlocking symbol. (Step 1 in Figure 12)
2.
Pull up the latch in the open up position. (Step 2 in Figure 12)
When installing additional options in your HP ProLiant DL170e G6 Server, observe the following procedures:
3.
Slide the top cover toward the rear of the unit and then lift the top cover to remove it away from the chassis. (Step 3 in Figure 12)
Pre-installation procedures
Figure 12 Removing the Top Cover
Pre-installation procedures for items (processors, DIMMs, ect.) on the system board: 1.
Press the node power button on the front panel to turn off the node.
2.
Unplug the node from the chassis and place it on a flat surface.
3.
Remove the PCIe cage and air baffle.
Pre-installation procedures for items (fans, HDD backplanes, etc.) in the chassis: 1.
Turn off the server and all the peripherals connected to it.
2.
Disconnect the AC power cord from the power supply cable socket located on the server rear panel to reduce the risk of electrical shock.
3.
If the server is installed in a rack, remove the server and place it on a flat surface.
4.
Remove the top cover by following the procedure described later in the “Opening the server” section.
Post-installation procedures Post-installation procedures for items (processors, DIMMs, ect.) on the system board: 1.
Install the PCIe cage and air baffle.
2.
Install the node to the chassis.
3.
Connect all external cables and the AC power cord to the node.
4.
Press the node power button on the front panel to turn on the node.
Post-installation procedures for items (fans, HDD backplanes, ect.) in the chassis: 1.
Be sure all components are installed according to the described step-by-step instructions.
2.
Check to make sure you have not left loose tools or parts inside the server.
3.
Reinstall the PCI cage, air baffle, peripherals, and system cables that you have removed.
4.
Reinstall the top cover.
5.
Reinstall the server into the rack.
6.
Connect all external cables and the AC power cord to the system.
7.
Press the power button on the front panel to turn on the server.
Installing a hard drive The server supports both SAS and SATA hard drives, and the following installation figure uses the LFF hot-plug hard drive as example. CAUTION: Drives can be damaged by static electricity. Before handling drives, touch an unpainted metal surface to discharge static electricity. To install a hard drive in the chassis: 1.
Remove the hard drive blank from the front of system if installed.
2.
Push the hard drive assembly into the drive bay until it stops. (Step 1 in Figure 13)
3.
Press the hard drive carrier latch inward until it clicks. (Step 2 in Figure 13)
Figure 13 Installing the Hot-plug Hard Drive
memory module into the slot until the holding clips snap back in place. (Step in Figure 15) Figure 15 Installing a Memory Module
Installing a memory module The following guidelines must be followed when memory modules are being added or replaced: •
Up to 192GB, using PC3-8500R DDR3 Registered (RDIMM) memory, operating at 800MHz when populated at 2 DIMMs per Channel in 12 slots
•
Up to 128GB, using PC3-10600R DDR3 Registered (RDIMM) memory, operating at 800MHz when fully populated in 16 slots
•
Up to 48GB, using PC3-10600E DDR3 Unbuffered (UDIMM) memory, operating at 1333MHz when populated at 2 DIMMs per Channel in 12 slots
•
Sixteen DIMMs, eight DIMM sockets per processor, three per first two channels and third channel with only two
•
Supported configuration: o o o o o
One DIMM per processor: 8A for processor 1; 8A for processor 2 Three DIMMs per processor: 8A, 5B, 2C for processor 1; 8A, 5B, 2C for processor 2 Six DIMMs per processor: 8A, 5B, 2C, 7D, 4E, 1F for processor 1; 8A, 5B, 2C, 7D, 4E, 1F for processor 2 DIMM population order processor socket 1: 8A, 5B, 2C, 7D, 4E, 1F, 6G, 3H DIMM population order processor socket 2: 8A, 5B, 2C, 7D, 4E, 1F, 6G, 3H
Figure 14 Population Order of DIMM Sockets
NOTE: A DIMM blank should be installed over any empty DIMM sockets in order to keep proper thermal cooling. CAUTION: DIMM slots are structured to ensure proper installation. If you insert a DIMM but it does not fit easily into the slot, you may have inserted it incorrectly. Reverse the orientation of the DIMM and insert it again. CAUTION: DIMMs can be damaged by improper handling. Always use an anti-static wrist strap and grounding mat, and discharge static electricity before touching DIMMs.
Installing a processor To install the processor: CAUTION: Failure to completely open the processor locking lever prevents the processor from seating during installation, leading to hardware damage. 1.
Open the processor locking lever and the processor socket retaining bracket. Do not remove the processor socket cover.
Figure 16 Opening the Lever and Bracket
To install the memory module: 1.
Align the notch on the bottom edge of the memory module with the keyed surface of the DIMM slot and then fully press the
IMPORTANT: Be sure the processor remains inside the processor installation tool. 2.
CAUTION: THE PINS ON THE SYSTEM BOARD ARE VERY FRAGILE AND EASILY DAMAGED. To avoid damage to the system board:
If the processor has separated from the installation tool, carefully re-insert the processor in the tool. Handle the processor by the edges only, and do not touch the bottom of the processor, especially the contact area.
Figure 17 Reinserting the Processor 4.
•
Never install or remove a processor without using the processor installation tool.
•
Do not touch the processor socket contacts.
•
Do not tilt or slide the processor when lowering the processor into the socket.
Press the tabs on the processor installation tool to separate it from the processor, and then remove the tool.
Figure 19 Removing the Tool
3.
Align the processor installation tool with the socket, and then install the processor. THE PINS ON THE SYSTEM BOARD ARE VERY FRAGILE AND EASILY DAMAGED.
Figure 18 Installing the Processor
5.
Close the processor socket retaining bracket and the processor locking lever. The processor socket cover is automatically ejected. Remove the cover.
Figure 20 Closing the Bracket and Lever,and Removing Cover
CAUTION: Be sure to close the processor socket retaining bracket before closing the processor locking lever. The lever should close without resistance. Forcing the lever closed can damage the processor and socket, requiring system board replacement. For processor removal, reverse the above installation procedures, using the processor tool to remove the processor. To install the heat sink:
1.
Put the heat sink frame on the processor socket. (Step 1 in Figure 21)
2.
Properly align the heat sink spring-loaded screws to the system board mounting holes. (Step 2 in Figure 21)
3.
Tighten the spring-loaded screws clockwise to secure the heat sink connection to the system board. (Step 3 in Figure 21)
Figure 21 Installing the Heat Sink Assembly
CAUTION: Be sure that the heat sink sits squarely on the processor, or overheating and damage to the processor may occur. CAUTION: To prevent the heat sink from tilting to one side during installation/removal, turn each screw a couple of turns, alternatively between both of them, and then apply the final torque. Do not over tighten the spring loaded screws to prevent them from breaking off. A maximum torque of 4.5 inch-lb is set for each screw. IMPORTANT: If the heat sink has been removed for any reason, it is critical that you apply more thermal interface material to the integrated heat spreader on the processor to ensure proper thermal bonding between the processor and the heat sink. Clean the contact surface of both the processor and heat sink with an alcohol pad, then reapply an HP-approved thermal interface material before reinstalling the processor. Use a pattern of five dots when applying the thermal interface material—one dot in the center, and one dot at each corner.
Additional documentation For additional documentation, refer to the HP ProLiant DL170e G6 Server Easy Set-up CD. You can also access additional information and documentation from the HP external website, either by connecting directly or through the Easy Set-up CD.
Legal notices © Copyright 2010, 2011 Hewlett-Packard Development Company, L.P. The information contained herein is subject to change without notice. The only warranties for HP products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty. HP shall not be liable for technical or editorial errors or omissions contained herein. Part Number 612343-002 February 2011 (Second Edition)
