Supermicro X11SSH-F-B — руководство пользователя по установке материнской платы [22/121]

Содержание

• Warning handling of lead solder materials used in this product may expose you to lead a chemical known to the state of california to cause birth defects and other reproductive harm p.2
• About this motherboard p.3
• Preface p.3
• Conventions used in the manual p.3
• About this manual p.3
• Contacting supermicro p.4
• Chapter 2 installation p.5
• Table of contents p.5
• Chapter 1 introduction p.5
• Chapter 4 bios p.6
• Chapter 3 troubleshooting p.6
• Appendix d uefi bios recovery appendix e dual boot block p.6
• Appendix c standardized warning statements p.6
• Appendix a bios codes appendix b software installation p.6
• Introduction p.7
• Important links p.7
• Checklist p.7
• Chapter 1 p.7
• Differences between x11ssh f ln4f p.10
• Bar code p.10
• X11ssh f x11ssh ln4f p.10
• X11ssh f ln4f user manual p.10
• X11ssh f ln4f p.10
• Note components not documented are for internal testing only p.10
• Lan3 lan4 no yes p.10
• Lan3 lan4 link ack no yes p.10
• Jpl3 jpl4 no yes p.10
• Figure 1 3 x11ssh f ln4f motherboard layout p.10
• When ledpwr onboard power led indicator is on system power is on unplug the p.11
• See chapter 2 for detailed information on jumpers i o ports and jf1 front panel con p.11
• Quick reference p.11
• Power cable before installing or removing any components p.11
• Nections p.11
• Jumpers components not indicated are for testing only p.11
• Indicates the location of pin 1 p.11
• Chapter 1 introduction p.11
• X11ssh f ln4f user manual p.12
• Quick reference table p.12
• Note table is continued on the next page p.12
• Led description status p.12
• Jumper description default setting p.12
• Connector description p.12
• Connector description p.13
• Chapter 1 introduction p.13
• X11ssh f ln4f user manual p.14
• Note the table above is continued on the next page p.14
• Motherboard features p.14
• Note the table above is continued on the next page p.15
• Motherboard features p.15
• Chapter 1 introduction p.15
• Note 1 the cpu maximum thermal design power tdp is subject to chassis and heatsink cooling restrictions for proper thermal management please check the chas sis and heatsink specifications for proper cpu tdp sizing p.16
• Motherboard features p.16
• X11ssh f ln4f user manual p.16
• Note 2 for ipmi configuration instructions please refer to the embedded ipmi con figuration user s guide available at http www supermicro com support manuals p.16
• X11ssh ln4f p.17
• X11ssh f p.17
• Tpm header p.17
• Temp sensor p.17
• System block diagram p.17
• Rj45 i210 p.17
• Note this is a general block diagram and may not exactly represent the features on your motherboard see the previous pages for the actual specifications of your moth erboard p.17
• Figure 1 4 p.17
• Dmi3 x4 p.17
• Com1 connector com2 header vga conn p.17
• Chapter 1 introduction p.17
• Bmc boot flash p.17
• Bmc ast2400 p.17
• A 2 b 1 p.17
• Special features p.18
• Recovery from ac power loss p.18
• Processor and chipset overview p.18
• System resource alert p.19
• System health monitoring p.19
• Onboard voltage monitors p.19
• Fan status monitor with firmware control p.19
• Environmental temperature control p.19
• Acpi features p.19
• Power supply p.20
• Serial port p.20
• Unpacking p.21
• Static sensitive devices p.21
• Precautions p.21
• Installation p.21
• Chapter 2 p.21
• X11ssh f ln4f user manual p.22
• X11ssh f ln4f p.22
• Tools needed p.22
• Standoffs 7 only if needed philips screws p.22
• Screwdriver p.22
• Philips p.22
• Note 1 to avoid damaging the motherboard and its components please do not use a force greater than 8 lb inch on each mounting screw during motherboard installation 2 some components are very close to the mounting holes please take precautionary measures to avoid damaging these components when installing the motherboard to the chassis p.22
• Motherboard installation p.22
• Location of mounting holes p.22
• All motherboards have standard mounting holes to fit different types of chassis make sure that the locations of all the mounting holes for both the motherboard and the chassis match although a chassis may have both plastic and metal mounting fasteners metal ones are highly recommended because they ground the motherboard to the chassis make sure that the metal standoffs click in or are screwed in tightly p.22
• Installing the motherboard p.23
• Processor and heatsink installation p.24
• Installing the lga1151 processor p.24
• Installing an active cpu heatsink with fan p.27
• Removing the active heatsink p.29
• Installing a passive cpu heatsink p.30
• Removing the passive heatsink p.31
• X11ssh f ln4f user manual p.32
• The x11ssh f ln4f motherboard supports up to 64gb of unbuffered udimm ddr4 ecc 2133 1866 1600 1333mhz memory in four memory slots populating these dimm slots with memory modules of the same type and size will result in interleaved memory which will improve memory performance p.32
• Processors and their corresponding memory modules p.32
• Note check the supermicro website for recommended memory modules p.32
• Memory support and installation p.32
• Memory support p.32
• Memory module population for optimal performance p.32
• Memory module population p.32
• Important exercise extreme care when installing or removing dimm modules to pre vent any possible damage p.32
• For optimal memory performance follow the table below when populating memory p.32
• Dimm module population configuration p.32
• Dimma1 p.33
• Dimm module population sequence p.33
• Chapter 2 installation p.33
• Always use ddr4 dimm modules of the same type size and speed p.33
• X11ssh f ln4f p.33
• When installing memory modules the dimm slots should be populated in the following order dimmb2 dimma2 dimmb1 dimma1 p.33
• Towards the edge of the motherboard p.33
• Towards the cpu p.33
• The motherboard will support odd numbered modules 1 or 3 modules installed however p.33
• Slowest dimm p.33
• Mixed dimm speeds can be installed however all dimms will run at the speed of the p.33
• For best memory performance install dimm modules in pairs to activate memory interleav ing p.33
• Dimmb2 blue slot p.33
• Dimmb2 p.33
• Dimmb1 p.33
• Dimma2 dimmb1 p.33
• Dimma2 blue slot p.33
• Dimm installation p.34
• X11ssh f ln4f p.34
• Align the notches on both ends of the p.34
• Use two thumbs together to press the p.34
• Align the key of the dimm module with the p.34
• To secure the dimm module into the slot p.34
• The memory slots starting with dimmb2 channel b slot 2 blue slot for best performance please use the memory modules of the same type and speed in the same bank p.34
• Release tabs p.34
• Receptive point on the memory slot p.34
• Push the release tabs outwards on both p.34
• Press the release tabs to the lock positions p.34
• Press both release tabs on the ends of the dimm module to unlock it once the dimm module is loosened remove it from the memory slot p.34
• Press both notches straight down into the memory slot p.34
• Notches on both ends of the module straight down into the slot until the module snaps into place p.34
• Notches p.34
• Module against the receptive points on the ends of the slot p.34
• Insert the desired number of dimms into p.34
• Ends of the dimm slot to unlock it p.34
• Dimm removal p.34
• X11ssh f ln4f user manual p.34
• Usb1 7 lan1 11 vga p.35
• Usb0 8 lan2 12 uid switch p.35
• See figure 2 2 below for the locations and descriptions of the various i o ports on the rear of the motherboard p.35
• Rear i o ports p.35
• Ipmi lan 6 usb6 3 10 lan4 ln4f only p.35
• Figure 2 2 i o port locations and definitions p.35
• Description description description p.35
• Com1 port 5 usb7 3 9 lan3 ln4f only p.35
• Chapter 2 installation p.35
• Pin definition pin definition p.36
• Ground 10 n a p.36
• Dtr 9 ri p.36
• Dcd 6 dsr p.36
• Com port p.36
• A video vga port is located next to lan2 on the i o back panel refer to the board layout below for the location p.36
• X11ssh f ln4f user manual p.36
• Vga port p.36
• Txd 8 cts p.36
• Two com connections com1 com2 are located on the motherboard com1 is located on the i o back panel com2 is located next to com1 see the table below for pin definitions p.36
• Serial ports p.36
• Rxd 7 rts p.36
• Pin definitions p.36
• Two gigabit ethernet ports lan1 and lan2 are located on the i o back panel on the motherboard in addition a dedicated ipmi lan is located above usb 0 1 ports on the back panel all of these ports accept rj45 cables please refer to the led indicator section for lan led information p.37
• Note the ln4f board contains two additional gigabit ethernet ports lan3 and lan4 on top of lan1 and lan2 respectively p.37
• Lan ports p.37
• Ipmi_lan p.37
• Chapter 2 installation p.37
• X11ssh f ln4f user manual p.38
• Universal serial bus usb ports p.38
• There are two usb 2 ports usb 0 1 and two usb 3 ports usb 6 7 located on the i o back panel the motherboard also has two front access usb 2 headers usb2 3 and usb4 5 and one front access usb 3 header usb8 9 the usb10 header is usb type a 3 the onboard headers can be used to provide front side usb access with a cable not included p.38
• Chapter 2 installation p.39
• Usb8 9 p.39
• Usb6 7 p.39
• Usb4 5 p.39
• Usb2 3 p.39
• Usb0 1 p.39
• Power button p.40
• Nic2 activity led 3 v stby p.40
• Nic1 activity led p.40
• Jf1 contains header pins for various buttons and indicators that are normally located on a control panel at the front of the chassis these connectors are designed specifically for use with supermicro chassis see the figure below for the descriptions of the front control panel buttons and led indicators p.40
• Id_uid_sw 3 v stby p.40
• Hdd led p.40
• Ground p.40
• Front control panel p.40
• Fp pwrled p.40
• Figure 2 3 jf1 header pins p.40
• X11ssh f ln4f user manual p.40
• Blue oh fan fail p.40
• X11ssh f ln4f p.40
• V stby p.40
• Reset button p.40
• Red blue led cathode p.40
• Power fail led p.40
• The reset button connection is located on pins 3 and 4 of jf1 attach it to a hardware reset switch on the computer case refer to the table below for pin definitions p.41
• The power button connection is located on pins 1 and 2 of jf1 momentarily contacting both pins will power on off the system this button can also be configured to function as a suspend button with a setting in the bios see chapter 4 to turn off the power when the system is in suspend mode press the button for 4 seconds or longer refer to the table below for pin definitions p.41
• Signal p.41
• Reset button p.41
• Pwr button p.41
• Power button p.41
• Pin definitions jf1 p.41
• Ground p.41
• Chapter 2 installation p.41
• Blue led p.42
• X11ssh f ln4f user manual p.42
• The power fail led connection is located on pins 5 and 6 of jf1 refer to the table below for pin definitions p.42
• Status p.42
• Pwr supply fail p.42
• Pwr fail led p.42
• Power fail led p.42
• Pin definitions jf1 p.42
• Overheat oh fan fail p.42
• On overheat p.42
• Oh fan fail led p.42
• Oh fan fail indicator p.42
• Oh fan fail p.42
• Off normal p.42
• Flashing fan fail p.42
• Connect an led cable to pins 7 and 8 of the front control panel to use the overheat fan fail led connections the led on pin 8 provides warnings of overheat or fan failure refer to the tables below for pin definitions p.42
• 3 v stby p.43
• The nic network interface controller led connection for lan port 1 is located on pins 11 and 12 of jf1 and the led connection for lan port 2 is on pins 9 and 10 attach the nic led cables here to display network activity refer to the table below for pin definitions p.43
• The hdd led uid switch connection is located on pins 13 and 14 of jf1 attach a cable to pin 14 to show hard drive activity status attach a cable to pin 13 to use uid switch refer to the table below for pin definitions p.43
• Pin definitions jf1 p.43
• Nic2 led p.43
• Nic1 nic2 lan1 lan2 p.43
• Nic1 led p.43
• Nic 2 activity led p.43
• Nic 1 activity led p.43
• Lan1 lan2 led p.43
• Hdd uid p.43
• Hdd led uid switch p.43
• Hdd led p.43
• Hdd active p.43
• Chapter 2 installation p.43
• 3 v stdby uid_sw p.43
• Control p.44
• X11ssh f ln4f user manual p.44
• The power led connection is located on pins 15 and 16 of jf1 refer to the table below for pin definitions p.44
• The non maskable interrupt button header is located on pins 19 and 20 of jf1 refer to the table below for pin definitions p.44
• Pwr led p.44
• Power led p.44
• Pin definitions jf1 p.44
• Nmi button p.44
• Ground p.44
• The primary power supply connector jpwr1 meets the atx ssi eps 12v specification you must also connect the 8 pin jpwr2 processor power connector to your power supply p.45
• Power connections p.45
• Pin atx main pwr p.45
• Main atx power supply connector p.45
• Mac code ipmi code p.45
• Connectors p.45
• Chapter 2 installation p.45
• 12v 8 pin power p.46
• X11ssh f ln4f user manual p.46
• Secondary power connector p.46
• Required connection p.46
• Pin pwr p.46
• Pin definitions p.46
• Jpwr2 must also be connected to the power supply this connector is used to power the processor s p.46
• Important to provide adequate power supply to the motherboard be sure to connect the 24 pin atx pwr and the 8 pin pwr connectors to the power supply failure to do so may void the manufacturer warranty on your power supply and motherboard p.46
• 4 ground p.46
• Pwm_control p.47
• Pin definitions p.47
• Headers p.47
• Ground black p.47
• Fan headers p.47
• Fan header p.47
• Chapter 2 installation p.47
• 2 a 12v red p.47
• The x11ssh f ln4f has five fan headers fan1 fan4 fana all these 4 pin fans headers are backward compatible with the traditional 3 pin fans however fan speed control is available for 4 pin fans only by thermal management via the ipmi 2 interface refer to the table below for pin definitions p.47
• Tachometer p.47
• X11ssh f ln4f user manual p.48
• X11ssh f ln4f p.48
• Speaker header p.48
• Speaker connector p.48
• R_spkpin_n p.48
• R_spkpin p.48
• Pwr led connector p.48
• Power led speaker p.48
• Pins 1 3 of jd1 are used for power led indication and pins 4 7 are for the speaker please note that the speaker connector pins 4 7 are used with an external speaker if you wish to use the onboard speaker you should close pins 6 7 with a cap refer to the tables below for pin definitions p.48
• Pin setting definition p.48
• Pin definitions p.48
• Jd1_pin1 p.48
• Fp_pwr_led p.48
• Sgpio headers p.49
• Chapter 2 installation p.49
• Sgpio header pin definitions p.49
• Pin definitions p.49
• Nc no connection p.49
• Nc 2 nc p.49
• Load 6 gnd p.49
• I sgpio2 ports 5 7 p.49
• I sgpio2 p.49
• I sgpio1 ports 2 4 p.49
• I sgpio1 p.49
• I sgpio 1 2 p.49
• Ground p.49
• Gnd 4 data p.49
• Dom power p.49
• Two power connectors for sata dom disk_on_module devices are located at jsd1 jsd2 connect appropriate cables here to provide power support for your serial link dom devices p.49
• Disk on module power connector p.49
• Two i sgpio serial link general purpose input output headers are located on the motherboard they support the onboard i sata 3 ports refer to the tables below for pin definitions p.49
• Clock 8 nc p.49
• Tpm port 80 header p.50
• Tpm header p.50
• Smb_clk 14 smb_dat p.50
• Pin definitions p.50
• Pin definition pin definition p.50
• Lreset 6 5v p.50
• Lpcpd 20 ldrq p.50
• Lclk 2 gnd p.50
• Lad3 8 lad2 p.50
• Lad0 12 gnd p.50
• Gnd 18 clkrun p.50
• A trusted platform module tpm port 80 header is located at jtpm1 to provide tpm support and port 80 connection use this header to enhance system performance and data security refer to the table below for pin definitions p.50
• 3v stdby 16 serirq p.50
• 3 v 10 lad1 p.50
• X11ssh f ln4f user manual p.50
• Trusted platform module header p.50
• Wake up p.51
• Wake on lan pin definitions p.51
• The wake on lan wol header is located at jstby1 on the motherboard refer to the table below for pin definitions p.51
• The internal speaker sp1 can be used to provide audible notifications using various beep codes refer to the table below for pin definitions refer to the layout below for the location of the internal buzzer p.51
• Standby power p.51
• Pos beep in p.51
• Pin definition p.51
• Neg alarm speaker p.51
• Internal speaker buzzer p.51
• Internal speaker p.51
• Internal buzzer pin definitions p.51
• Ground p.51
• Chapter 2 installation p.51
• 5v standby p.51
• X11ssh f ln4f user manual p.52
• The power system management bus p.52
• Power smb header p.52
• Power smb p.52
• Pmbus_alert p.52
• Pin definitions p.52
• Pin definition p.52
• Pin bmc external p.52
• Ground p.52
• External p.52
• C1 monitors the power supply fan and system temperatures refer to the table below for pin definitions p.52
• C header p.52
• C connector jp p.52
• C connection on your system refer to the table below for pin definitions p.52
• Bmc external header p.52
• A system management bus header for ipmi 2 is located at jipmb1 connect the appropriate cable here to use the ipmb p.52
• The joh1 header is used to connect an led indicator to provide warnings of chassis overheating and fan failure this led will blink when a fan failure occurs refer to the tables below for pin definitions p.53
• Status p.53
• State definition p.53
• Solid overheat p.53
• Pin definitions p.53
• Pin definition p.53
• Overheat led pin definitions p.53
• Overheat led header p.53
• Overheat fan fail led header p.53
• Oh active p.53
• Intrusion input p.53
• Ground p.53
• Chassis intrusion p.53
• Chapter 2 installation p.53
• Blinking fan fail p.53
• A chassis intrusion header is located at jl1 on the motherboard attach the appropriate cable from the chassis to inform you of a chassis intrusion when the chassis is opened refer to the table below for pin definitions p.53
• Port connection type p.54
• Pin signal p.54
• Note 2 for more information on the sata hostraid configuration please refer to the intel sata hostraid user s guide posted on our website at http www supermicro com p.54
• Note 1 i sata0 and i sata1 are supermicro superdoms these are yellow sata dom connectors with power pins built in and do not require separate external power cables these connectors are backward compatible with non supermicro satadoms that require an external power supply p.54
• I sata7 p.54
• X11ssh f ln4f user manual p.54
• I sata6 p.54
• X11ssh f ln4f sata 3 connector p.54
• I sata5 p.54
• Supported by intel c236 pch exp p.54
• I sata4 p.54
• Sata_txp p.54
• I sata3 p.54
• Sata_txn p.54
• I sata2 7 six p.54
• Sata_rxp p.54
• I sata2 p.54
• Sata_rxn p.54
• I sata1 p.54
• Sata ports p.54
• I sata0 1 two p.54
• Sata 3 port pin definitions p.54
• I sata0 p.54
• Sata 3 6 gb s raid 0 1 5 10 superdom connectors p.54
• Ground p.54
• Sata 3 6 gb s raid 0 1 5 10 p.54
• Eight sata 3 connectors are located on the x11ssh f ln4f motherboard supported by the intel c236 pch chip these sata ports support raid 0 1 5 and 10 sata ports provide serial link signal connections which are faster than the connections of parallel ata refer to the tables below for pin definitions p.54
• The x11ssh f ln4f motherboard contains one m socket at j23 m was formerly next generation form factor ngff and serves to replace mini pci e and msata m allows for a greater variety of card sizes increased functionality and spatial efficiency the m socket on the x11ssh f ln4f motherboard supports pci e 3 x2 m cards in the 22x80mm form factor p.55
• M socket p.55
• M slot p.55
• Chapter 2 installation p.55
• Bar code p.55
• X11ssh f ln4f p.55
• X11ssh f ln4f user manual p.56
• Unit identifier switch uid led indicator p.56
• Uid switch p.56
• Uid led p.56
• Pin definitions p.56
• Pin definition p.56
• Note uid can also be triggered via ipmi on the motherboard for more information on ipmi please refer to the ipmi user s guide posted on our website at http www supermicro com p.56
• Ground p.56
• Color status p.56
• Button in p.56
• Blue on unit identified p.56
• A rear unit identifier uid switch and a rear uid led led1 are located next to the vga port on the motherboard the front uid switch and the front uid led are both located on the front panel control jf1 with the front uid switch on pin 13 and the front led on pin 7 of jf1 when you press the front or the rear uid switch both front and rear uid leds will be turned on press the uid switch again to turn off the led indicators the uid indicators provide easy identification of a system unit that may be in need of service p.56
• Jumper settings p.57
• How jumpers work p.57
• Cmos clear p.58
• X11ssh f ln4f user manual p.58
• Vga enable disable p.58
• Pins 2 3 disabled p.58
• Pins 1 2 enabled p.58
• Note be sure to completely shut down the system and then short jbt1 to clear the cmos p.58
• Jumper settings p.58
• Jumper setting definition p.58
• Jumper jpg1 allows the user to enable the onboard vga connector the default setting is pins 1 2 to enable the connection refer to the table below for jumper settings the default setting is enabled p.58
• Jbt1 is used to clear the cmos instead of pins this jumper consists of contact pads to prevent accidental clearing of the cmos to clear the cmos use a metal object such as a small screwdriver to touch both pads at the same time to short the connection p.58
• Lan1 port enable disable p.59
• Lan1 lan4 enable disable p.59
• Lan port enable disable p.59
• Jumper settings p.59
• Jumper setting definition p.59
• Chapter 2 installation p.59
• Watch dog jwd1 is a system monitor that can reboot the system when a software application hangs close pins 1 2 to reset the system if an application hangs close pins 2 3 to generate a non maskable interrupt nmi signal for the application that hangs refer to the table below for jumper settings the watch dog must also be enabled in the bios p.59
• Change the setting of jumper jpl1 jpl2 to enable or disable the lan1 lan2 lan ports respectively the default setting is enabled p.59
• Watch dog p.59
• Pins 2 3 nmi p.59
• Pins 2 3 disabled p.59
• Pins 1 2 reset p.59
• Pins 1 2 enabled p.59
• Open disabled p.59
• Note x11ssh ln4f has additional jumpers jpl3 jpl4 which enable or disable lan ports 3 4 on the motherboard p.59
• Lan4 port enable disable ln4f only p.59
• Lan3 port enable disable ln4f only p.59
• Lan2 port enable disable p.59
• C2 to connect the system management bus i2c to pci express slots to improve pci performance these two jumpers should be set at the same time refer to the table below for jumper settings the default setting is disabled p.60
• C1 and j p.60
• C for pci e slots jumper settings p.60
• Bios recovery jumper settings p.60
• Bios recovery p.60
• X11ssh f ln4f user manual p.60
• Use jumpers j p.60
• Use jumper jbr1 to recover the bios settings on the motherboard refer to the table below for jumper settings the default setting is normal p.60
• Smbus to pci slots p.60
• Pins 2 3 disabled p.60
• Pins 2 3 bios recovery p.60
• Pins 1 2 normal p.60
• Pins 1 2 enabled p.60
• Jumper setting definition p.60
• Jumper settings p.61
• Jumper setting definition p.61
• Jumper jpb1 allows you to enable the embedded aspeed ast2400 baseboard management controller bmc to provide ipmi 2 kvm support on the motherboard refer to the table below for jumper settings the default setting is bmc enable p.61
• Close pin 2 and pin 3 of jumper jpme2 to bypass spi flash security and force the system to operate in the manufacturer mode which will allow the user to flash the system firmware from a host server for system setting modifications refer to the table below for jumper settings the default setting is normal p.61
• Chapter 2 installation p.61
• Bmc enabled p.61
• Bmc enable p.61
• Pins 2 3 manufacturer mode p.61
• Pins 2 3 disabled p.61
• Pins 1 2 normal p.61
• Pins 1 2 bmc enabled p.61
• Manufacturing mode select p.61
• Manufacturer mode select p.61
• Manufacturer mode p.61
• Lan4 leds ln4f only p.62
• Lan3 leds ln4f only p.62
• Lan2 leds p.62
• Lan1 leds p.62
• Lan1 4 link led left p.62
• Lan1 4 activity led right p.62
• Lan leds p.62
• Green 100 mbps p.62
• Amber 1 gbps p.62
• Yellow flashing active p.62
• X11ssh f ln4f user manual p.62
• Two lan ports lan 1 and lan 2 are located on the i o back panel of the motherboard each ethernet lan port has two leds the yellow led indicates activity while the other link led may be green amber or off to indicate the speed of the connection refer to the tables below for more information p.62
• Off no connection 10 mbps p.62
• Note x11ssh ln4f has additional lan ports lan3 and lan4 as well p.62
• Led state p.62
• Led indicators p.62
• Lan3 lan4 front panel activity leds ln4f only p.63
• Lan3 activity led jumper p.63
• Lan 1 lan 2 p.63
• Ipmi lan x8st3 f p.63
• Ipmi lan p.63
• In addition to lan 1 and lan 2 an ipmi lan is also located on the i o back panel the amber led on the right indicates activity while the green led on the left indicates the speed of the connection refer to the table below for more information p.63
• Dedicated ipmi lan leds p.63
• Chapter 2 installation p.63
• Activity led link led p.63
• The front panel nic network interface connection activity led indicators for lan3 lan4 on the x11ssh ln4f are located at j7 j8 refer to the layout below for the locations p.63
• Lan4 activity led jumper p.63
• X11ssh f ln4f user manual p.64
• The onboard power led is located at ledpwr on the motherboard when this led is on the system is on be sure to turn off the system and unplug the power cord before removing or installing components refer to the table below for more information p.64
• System off power cable not connected p.64
• Onboard pwr led p.64
• Onboard power led indicator p.64
• Onboard power led p.64
• Led color definition p.64
• Green system on p.64
• Green blinking bmc normal p.64
• Bmc heartbeat led p.64
• A bmc heartbeat led is located at ledbmc on the motherboard when ledbmc is blinking the bmc is functioning normally refer to the table below for more information p.64
• Green blinking device working p.65
• Chapter 2 installation p.65
• An m led is located at le3 on the motherboard when le3 is blinking m functions normally refer to the table below for more information p.65
• M led state p.65
• Led color definition p.65
• Troubleshooting procedures p.66
• Troubleshooting p.66
• No power p.66
• Chapter 3 p.66
• Before power on p.66
• System boot failure p.67
• No video p.67
• Memory errors p.67
• When the system becomes unstable p.68
• Losing the system s setup configuration p.68
• Technical support procedures p.70
• Frequently asked questions p.71
• Battery removal p.72
• Battery installation p.72
• Proper battery disposal p.72
• Battery removal and installation p.72
• Returning merchandise for service p.73
• Starting the setup utility p.74
• Introduction p.74
• Chapter 4 p.74
• Main setup p.75
• How to change the configuration data p.75
• Boot feature p.77
• Advanced setup configurations p.77
• Power configuration p.78
• Cpu configuration p.78
• System agent sa configuration p.82
• Cpu thermal configuration p.82
• Chipset configuration p.82
• Dmi opi configuration p.83
• Primary peg pci express graphics p.83
• Primary pcie pci express graphics p.83
• Graphics configuration p.83
• Slot6 power limit value p.84
• Slot6 power limit scale p.84
• Slot6 max link speed p.84
• Peg port configuration p.84
• Program pcie aspm after oprom p.85
• Memory configuration p.85
• Pci express configuration p.86
• Pch io configuration p.86
• Gt power management control p.86
• Sata configuration p.87
• Pci express configuration p.87
• Pch slot4 pci e 3 x4 in x8 p.87
• Pcie pci pnp configuration p.89
• Super io configuration p.91
• Intel server platform services p.92
• Serial port console redirection p.93
• Com1 console redirection settings p.93
• Sol com2 console redirection settings p.95
• Ems console redirection settings p.96
• Acpi settings p.97
• Trusted computing configuration available when a tpm device is installed and the onboard tpm jumper is enabled p.98
• Iscsi configuration p.98
• Event logs p.99
• Delete attempts p.99
• Change smbios event log settings p.99
• Change attempt order p.99
• Add an attempt p.99
• View smbios event log p.100
• Bmc network configuration p.101
• System event log p.101
• Security p.103
• Secure boot menu p.103
• Boot settings p.105
• Boot configuration p.105
• Save exit p.107
• Non fatal errors are those which in most cases allow the system to continue to boot these error messages normally appear on the screen p.109
• Ipmi error codes p.109
• Fatal errors will not allow the system to continue with bootup if a fatal error occurs you should consult with your system manufacturer for possible repairs p.109
• During the post power on self test routines which are performed upon each system boot errors may occur p.109
• Bios error post beep codes p.109
• Bios codes p.109
• Bios beep post codes p.109
• Beep code error message description p.109
• Appendix a bios codes p.109
• Appendix a p.109
• These fatal errors are usually communicated through a series of audible beeps the numbers on the fatal error list correspond to the number of beeps for the corresponding error p.109
• Software installation p.110
• B installing software programs p.110
• Appendix b p.110
• B superdocto p.111
• Standardized warning statements p.113
• Battery handling p.113
• Appendix c p.113
• Product disposal p.115
• Uefi bios recovery p.116
• D recovering the uefi bios image p.116
• D recovering the bios block with a usb device p.116
• D overview p.116
• Appendix d p.116
• Bios boot block p.120
• Appendix e p.120
• E introduction p.120
• Dual boot block p.120
• Bios boot block corruption occurrence p.120
• E steps to reboot the system by using jumper jbr1 p.121