HP dl160gen8 Инструкция по эксплуатации онлайн
HP ProLiant DL160 Gen8 Server
User Guide
Abstract
This document is for the person who installs, administers, and troubleshoots servers and storage systems. HP assumes you are qualified in the
servicing of computer equipment and trained in recognizing hazards in products with hazardous energy levels.
Part Number: 670519-006
March 2013
Edition: 6
Содержание
- Abstract 1
- Hp proliant dl160 gen8 server user guide 1
- Notice 2
- Contents 3
- Component identification 6
- Front panel components 6
- Item item description 6
- Front panel leds and buttons 7
- Item description status 7
- Description 8
- Item description status 8
- Rear panel components 8
- Rear panel leds and buttons 8
- Item description 9
- System board components 9
- Dimm slots 10
- Dimm slots are numbered sequentially 1 through 12 for each processor the supported amp modes use the letter assignments for population guidelines 10
- Item description 10
- Note note for proper orientation the arrows indicate the front of the server 10
- Position default function 10
- System maintenance switch 10
- Caution caution clearing cmos and or nvram deletes configuration information be sure to properly configure the server or data loss could occur 11
- Drive numbering 11
- For additional information see the hp website http h20000 www2 hp com bc docs support supportmanual c00797875 c00797875 pdf 11
- Lff configuration 11
- Nmi header 11
- Position default function 11
- Sff configuration 11
- Systems running microsoft windows experience a blue screen trap when the os crashes when this happens microsoft recommends that system administrators perform an nmi event by temporarily shorting the nmi header with a jumper the nmi event enables a hung system to become responsive again 11
- The nmi header enables administrators to perform a memory dump before performing a hard reset crash dump analysis is an essential part of eliminating potential reliability issues such as hangs or crashes in operating systems device drivers and applications many crashes can freeze a system requiring you to perform a hard reset resetting the system erases any information that supports root cause analysis 11
- When the system maintenance switch position 6 is set to the on position the system is prepared to erase all system configuration settings from both cmos and nvram 11
- When using the embedded smart array controller in an sff configuration only drives 1 2 3 and 4 are available 11
- Drive led definitions 12
- Fbwc module led definitions 12
- Item led status definition 12
- The fbwc module has three single color leds one amber and two green the leds on the cache module installed on a storage controller are duplicated on the reverse side of the module to facilitate status viewing 12
- Amber 1 amber 2 green 3 green interpretation 13
- Cache module installed on a storage controller 13
- Cache module installed on the system board 13
- Amber 2 green 3 green interpretation 14
- Fan modules 14
- One processor configuration 14
- Two processor configuration 14
- When only one processor is installed for proper cooling make sure the fan blanks are installed in fan positions 1 2 and 5 14
- When processor 2 is installed install fans in positions 2 and 5 15
- Operations 16
- Power down the server 16
- Power up the server 16
- Remove the server from the rack 16
- Extend the server from the rack 17
- Install the access panel 19
- Remove the access panel 19
- Remove the security bezel optional 19
- Disconnect each power cord from the power source 20
- Disconnect each power cord from the server 20
- Do one of the following 20
- Extend the server from the rack on page 17 20
- Install the processor air baffle 20
- Place the air baffle over the system board 20
- Power down the server on page 16 20
- Press the locking latch the access panel slides to a closed position 20
- Push down the air baffle 20
- Remove all power 20
- Remove the access panel on page 19 20
- Remove the processor air baffle 20
- Remove the server from the rack on page 16 20
- Use a t 15 torx screwdriver to tighten the security screw on the locking latch 20
- Remove the pci riser cage 21
- Install the pci riser cage 22
- Connect each power cord to the power source 23
- Power up the server on page 16 23
- Optimum environment 24
- Optional installation services 24
- Rack planning resources 24
- Space and airflow requirements 25
- Temperature requirements 25
- Electrical grounding requirements 26
- Power requirements 26
- Server warnings and cautions 26
- Rack warnings 27
- Identifying the contents of the server shipping carton 28
- Installing hardware options 28
- Installing the server into the rack 28
- Installing the operating system 29
- Powering on and selecting boot options 30
- Registering the server 30
- Drive options 31
- Hardware options installation 31
- Introduction 31
- Security bezel option 31
- Drive installation guidelines 32
- Installing a hot plug drive 32
- Installing a non hot plug drive 33
- Installing the 700 mm mini sas cable 34
- Mini sas cable option 34
- Connect each power cord to the power source 35
- Connect each power cord to the server 35
- Connect the mini sas cable from the storage controller to the drive backplane 35
- Disconnect each power cord from the power source 35
- Disconnect each power cord from the server 35
- Do one of the following 35
- Extend the server from the rack on page 17 35
- Install an optional p822 smart array controller 35
- Install the access panel on page 19 35
- Install the pci riser cage on page 22 35
- Install the processor air baffle on page 20 35
- Installing the 800 mm mini sas cable 35
- Power down the server on page 16 35
- Power up the server on page 16 35
- Remove all power 35
- Remove the access panel on page 19 35
- Remove the processor air baffle on page 20 35
- Remove the server from the rack on page 16 35
- Slide the server into the rack 35
- Connect each power cord to the power source 36
- Connect each power cord to the server 36
- Connect the mini sas cable from the smart array controller to the hard drive backplane 36
- Disconnect each power cord from the power source 36
- Disconnect each power cord from the server 36
- Do one of the following 36
- Extend the server from the rack on page 17 36
- Install the access panel on page 19 36
- Install the processor air baffle on page 20 36
- Power down the server on page 16 36
- Power up the server on page 16 36
- Remove all power 36
- Remove the access panel on page 19 36
- Remove the processor air baffle on page 20 36
- Remove the server from the rack on page 16 36
- Slide the server into the rack 36
- Vga power cable option 36
- Connect each power cord to the power source 37
- Connect each power cord to the server 37
- Install the access panel on page 19 37
- Install the processor air baffle on page 20 37
- Power up the server on page 16 37
- Remove the adhesive stickers from the vga cable clips and then attach the clips onto the fan cage 37
- Route the cable through the cable clips and then connect the cable to the vga card and power supply cable 37
- Slide the server into the rack 37
- Controller options 38
- Installing a storage controller 38
- Installing the fbwc module and capacitor pack 39
- Connect each power cord to the power source 41
- Connect each power cord to the server 41
- Insert the cable end of the capacitor pack into the holder 41
- Install the access panel on page 19 41
- Install the capacitor pack 41
- Install the processor air baffle on page 20 41
- Power up the server on page 16 41
- Press the opposite end of the capacitor pack into the holder 41
- Route the capacitor pack cable towards the front of the chassis 41
- Slide the server into the rack 41
- When using a smart array controller expansion board install the cache module on the storage controller and then install the controller into the pci riser cage install the pci riser cage on page 22 41
- Optical drive option 42
- If you have an sff configuration do the following 43
- Sff configuration 43
- Using the t 10 screw from the optical drive kit and a t 10 t 15 torx screwdriver install the drive 43
- Connect the cable from the rear of the drive to the sata dvd rom drive connector on the system board use cable hp part number 663771 001 to connect to the drive connect the blue and black end of the cable to the optical drive connect the longer blue end to the sata connector on the system board and the short black cable to the power connector 44
- If you have a lff configuration do the following 44
- Route the cable through the drive bay and then connect the cable to the rear of the optical drive 44
- Memory options 45
- All types are referred to as dimms when the information applies to all types when specified as lrdimm rdimm or udimm the information applies to that type only all memory installed in the server must be the same type 46
- Depending on the processor model the number of dimms installed and whether lrdimms udimms or rdimms are installed the memory clock speed can be reduced to 1333 or 1066 mt s 46
- Important this server does not support mixing lrdimms rdimms or udimms attempting to mix any combination of these dimms can cause the server to halt during bios initialization 46
- Lrdimms support higher densities than single and dual rank rdimms and higher speeds than quad rank rdimms this support enables you to install more high capacity dimms resulting in higher system capacities and higher bandwidth 46
- Populated dimm speed mt s dimm type dimm rank 1 dimm per channel 2 dimms per channel 3 dimms per channel 46
- Quad rank pc3l 10600 ddr3 1333 lrdimms operating as dual rank dimms at up to 1333 mt s 46
- Rdimms offer larger capacities than udimms and include address parity protection 46
- Single and dual rank pc3 10600 ddr 1333 rdimms operating at up to 1333 mt s 46
- Single and dual rank pc3 10600 ddr 1333 udimms operating at up to 1333 mt s 46
- Single and dual rank pc3 12800 ddr 1600 rdimms operating at up to 1600 mt s 46
- Speed voltage and capacity dimm type dimm rank dimm capacity native speed mt s voltage 46
- The memory subsystem in this server can support lrdimms rdimms or udimms 46
- The server supports the following dimm speeds 46
- Udimms represent the most basic type of memory module and offer lower latency in one dimm per channel configurations and relatively low power consumption but are limited in capacity 46
- Certain performance features are unique with hp smartmemory hp smartmemory 1 5v ddr3 1333 registered memory is engineered to achieve the same performance level as 1 v memory for example while the industry supports ddr3 1333 rdimm at 1 v this gen8 server supports ddr3 1333 rdimm up to 3 dimms per channel at 1066 mt s running at 1 5v this equates to up to 20 less power at the dimm level with no performance penalty in addition the industry supports udimm at 2 dimms per channel at 1066 mt s hp smartmemory supports 2 dimms per channel at 1333 mt s or 25 greater bandwidth 47
- Dimm identification 47
- Hp smartmemory 47
- Hp smartmemory introduced for gen8 servers authenticates and unlocks certain features available only on hp qualified memory and verifies whether installed memory has passed hp qualification and test processes qualified memory is performance tuned for hp proliant and bladesystem servers and provides future enhanced support through hp active health and manageability software 47
- Item item description definition 47
- To determine dimm characteristics use the label attached to the dimm and the following illustration and table 47
- Memory protection modes 48
- Memory subsystem architecture 48
- Single dual and quad rank dimms 48
- Advanced ecc 49
- General dimm slot population guidelines 49
- Lockstep memory configuration 49
- Memory population guidelines 49
- Online spare memory 49
- Advanced ecc population guidelines 50
- Lockstep memory population guidelines 50
- Online spare population guidelines 50
- Installing a dimm 51
- Population order 51
- Processor and fan module option 52
- Open each of the processor locking levers in the order indicated and then open the processor retaining bracket 53
- Remove the clear processor socket cover retain the processor socket cover for future use 53
- Press and hold the processor retaining bracket in place and then close each processor locking lever press only in the area indicated on the processor retaining bracket 55
- Remove the adhesive tape from the slot and then install the heatsink 55
- Remove the thermal interface protective cover from the heatsink 55
- Tighten one pair of diagonally opposite screws halfway and then tighten the other pair of screws 55
- Using the guide pin on the processor backplate position the heatsink 55
- Finish the installation by completely tightening the screws in the same sequence 56
- Locate fan slots 2 and 5 56
- Note note dual processor configurations require seven fans 56
- Remove the fan blanks from slots 2 and 5 56
- Installing the front video adapter cable 57
- Hp trusted platform module option 58
- Installing the trusted platform module board 59
- Enabling the trusted platform module 60
- Expansion board options 61
- Installing an expansion board 61
- Retaining the recovery key password 61
- Flexiblelom option 63
- Common slot power supply option 64
- Be sure that the power supply led is green 66
- Connect the power cord to the power source 66
- Connect the power cord to the power supply 66
- Use the strain relief clip to secure the power cord and then route the power cord through the cable management solution 66
- Cabling 67
- Cabling overview 67
- Drive cabling 67
- Lff drive cabling 67
- Cable number cable number description 68
- Lff drive cage connected to an embedded smart array controller 68
- Lff drive cage connected to smart array controller card in a full height slot 68
- Cable number cable number description 69
- Sff drive cabling 69
- Sff drive cage connected to an embedded smart array controller 69
- Sff drive cage connected to smart array controller card in a full height slot 69
- Sff drive cage connected to smart array controller card in low profile slot 69
- Basic configuration 70
- Cable number cable number description 70
- In this configuration the embedded smart array controller can only support up to four sata drives 70
- Power cabling 70
- Server power cabling 70
- Cable number cable number description 71
- Cable number description 71
- Maximum configuration 71
- Cable number description 72
- Fbwc capacitor pack cabling 72
- Front panel cabling 72
- Internal usb cabling 73
- For more information about product features specifications options configurations and compatibility see the product quickspecs on the hp product bulletin website http www hp com go productbulletin 74
- Hp ilo 74
- Hp ilo management engine 74
- Hp product quickspecs 74
- Server mode 74
- Software and configuration utilities 74
- The hp ilo management engine is a set of embedded management features supporting the complete lifecycle of the server from initial deployment through ongoing management 74
- The ilo subsystem is a standard component of selected hp proliant servers that simplifies initial server setup server health monitoring power and thermal optimization and remote server administration the ilo subsystem includes an intelligent microprocessor secure memory and a dedicated network interface this design makes ilo independent of the host server and its operating system 74
- The software and configuration utilities presented in this section operate in online mode offline mode or in both modes software or configuration utility server mode 74
- Active health system 75
- Integrated management log 76
- Intelligent provisioning 76
- Erase utility 77
- Hp insight diagnostics 77
- Hp insight diagnostics survey functionality 77
- Hp insight remote support software 78
- Hp service pack for proliant 78
- Scripting toolkit 78
- Hp rom based setup utility 79
- Hp smart update manager 79
- Auto configuration process 80
- Using rbsu 80
- Boot options 81
- Configuring amp modes 81
- Re entering the server serial number and product id 81
- Array configuration utility 82
- Utilities and features 82
- Automatic server recovery 83
- Option rom configuration for arrays 83
- Rompaq utility 83
- Usb support 83
- Drivers 84
- Keeping the system current 84
- Redundant rom support 84
- Safety and security benefits 84
- Change control and proactive notification 85
- Hp operating systems and virtualization software support for proliant servers 85
- Software and firmware 85
- Version control 85
- Troubleshooting 86
- Troubleshooting resources 86
- System battery replacement 87
- Regulatory information 89
- Safety and regulatory compliance 89
- Turkey rohs material content declaration 89
- Ukraine rohs material content declaration 89
- Warranty information 89
- Electrostatic discharge 90
- Grounding methods to prevent electrostatic discharge 90
- Preventing electrostatic discharge 90
- Depending on installed options the server is configured with one of the following power supplies 91
- Environmental specifications 91
- Hp 460 w cs power supply 94 specifications 91
- Hp 500 w multi output power supply specifications 91
- Hp 750 w cs power supply 94 specifications 91
- Hp 750 w dc cs power supply 94 specifications 91
- Power supply specifications 91
- Server specifications 91
- Specification value 91
- Specifications 91
- Hp 460 w cs power supply 94 specifications 92
- Hp 500 w multi output power supply specifications 92
- Hp 750 w cs power supply 94 specifications 92
- Specification value 92
- Caution this equipment is designed to permit the connection of the earthed conductor of the dc supply circuit to the earthing conductor at the equipment if this connection is made all of the following must be met 93
- Hp 750 w dc cs he power supply 94 efficiency 93
- Specification value 93
- This equipment must be connected directly to the dc supply system earthing electrode conductor or to a bonding jumper from an earthing terminal bar or bus to which the dc supply system earthing electrode conductor is connected 93
- This equipment must be located in the same immediate area such as adjacent cabinets as any other equipment that has a connection between the earthed conductor of the same dc supply circuit and the earthing conductor and also the point of earthing of the dc system the dc 93
- Power supply calculations 94
- Before you contact hp 95
- Customer self repair 95
- Hp contact information 95
- Support and other resources 95
- Réparation par le client csr 96
- Customer self repair 97
- Riparazione da parte del cliente 97
- Reparaciones del propio cliente 98
- Customer self repair 99
- Reparo feito pelo cliente 99
- Acronyms and abbreviations 103
- Documentation feedback 106
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