User Guide EVGA nForce 680i LT SLI Motherboard With Intel Processor Installation and Configuration i
Table of Contents Before You Begin… ..................................................................................... vii Parts NOT in the Kit....................................................................................... vii Intentions of the Kit.......................................................................................viii Introduction to the EVGA nForce 680i LT SLI Motherboard .......................1 Features .......................................................................
Introduction Equipment ......................................................................................................7 EVGA nForce 680i LT SLI Motherboard ..............................................................8 Hardware Installation .................................................................................11 Safety Instructions ........................................................................................ 11 Preparing the Motherboard.........................................
PCI Express x1 Slot ................................................................................ 25 PCI Express x16 Slots ............................................................................. 25 Jumper Settings ............................................................................................ 26 Clear CMOS Jumper: CLR_CMOS ................................................................. 26 Configuring the BIOS ...........................................................................
Introduction Spread Spectrum ................................................................................... 43 FSB & Memory Config ................................................................................ 44 CPU Configuration...................................................................................... 48 System Voltages ........................................................................................ 49 NVMEM Memory Test ..........................................................
PnP/PCI Configuration Menu........................................................................... 59 Init Display First ........................................................................................ 60 Reset Configuration Data............................................................................ 60 Resources Controlled By ............................................................................. 60 IRQ Resources..........................................................................
Introduction Before You Begin… Parts NOT in the Kit This kit contains all the hardware necessary to install and connect your new EVGA nForce® 680i LT SLI motherboard. However, it does not contain the following items that must be purchased separately to make the motherboard functional.
Intentions of the Kit This kit provides you with the motherboard and all connecting cables necessary to install the motherboard into a PC cabinet. If you are building a PC, you will use most of the cables provided in the kit. If however, you are replacing a motherboard, you will not need many of the cables. When replacing a motherboard in a PC cabinet, you will need to reinstall an operating system even though the current drives have an operating system.
Introduction to the EVGA nForce 680i LT SLI Motherboard Thank you for buying the EVGA NFORCE 680i LT SLI Motherboard. This motherboard offers the tools and performance PC users’ demand. When combined with two SLI-Ready NVIDIA GeForce graphics cards, you get innovative NVIDIA SLI Technology for enhanced system performance. Features Ultimate Overclocking Unleash the underlying hardware.
NVIDIA nTune Utility NVIDIA nTune™ is a Windows-based utility that has added access to more settings. Adjust CPU and memory speeds without rebooting. You can also access most BIOS settings from inside Windows without having to go into the BIOS. Save and automatically load profiles for each application you run. NV BIOS NV BIOS delivers easy-to-use tuning to let you have full control over your hardware including processor voltage tables and memory drive strengths.
Introduction Dual DDR2 Memory Architecture A state-of-the-art Dual DDR2 memory controller allows high bandwidth and low latency data access to the CPU and GPU. Ensures data and information are relayed through the system as quickly as possible for incredible performance. NVIDIA MediaShield™ Storage NVIDIA MediaShield is a suite of features that safeguards your most important digital media assets; always reliable, scalable, and accessible. MediaShield includes RAID and SATA drive support.
Networking with NVIDIA nForce NVIDIA networking delivers the highest network throughput at the lowest CPU utilization. The manageable and stable NVIDIA networking solution results in better networking management and a lower total cost of ownership. Only NVIDIA integrates this level of networking features to allow you to take your online experience to the next level.
Introduction Motherboard Specifications Size ATX form factor of 12 inch x 9.6 inch Microprocessor support Intel Core 2 Extreme, Intel Core 2 Quad, Intel Core 2 Duo, Pentium EE, Pentium Operating systems: Supports Windows XP 32bit/64bit and Windows Vista 32bit/64bit Contains NVIDIA nForce 680i LT SLI MCP and SPP System Memory support Supports dual channel JEDEC DDR2-800 and SLI-Ready memory up to 800 MHz. Supports up to 8 GBs DDR2 memories. USB 2.
6 Onboard 1394 ¾ Support hot plug ¾ Two 1394a ports (one rear panel port, one onboard header) with rate of transmission at 400 Mbps Onboard Audio ¾ Azalia High-Definition audio ¾ Supports 8-channel audio ¾ Supports S/PDIF output ¾ Supports Jack-Sensing function Dual PCI Express x16 Support ¾ Supports 4 GB/sec (8 GB/sec concurrent) bandwidth ¾ Low power consumption and power management features Green Function ¾ Supports ACPI (Advanced Configuration and Power Interface) ¾ Supports S0 (normal),
Unpacking and Parts Descriptions Unpacking The EVGA nForce 680i LT SLI motherboard comes with all the necessary cables for adding a motherboard to a new chassis. If you are replacing a motherboard, you may not need many of these cables. Be sure to inspect each piece of equipment shipped in the packing box. If anything is missing or damaged, contact your reseller. All parts shipped in this kit are RoHS-compliant (lead-free) parts.
1394 Cable Provides two additional 1394 ports to either the front or back panels of the chassis. USB 2.0 4-Port Cable Provides four additional USB ports to either the front or back panels of the chassis. SATA Signal Cable (Qty Six) Used to support the Serial ATA protocol and each one connects a single drive to the motherboard Comm2 Bracket Cable IDE-ATA 133 HDD Cable SLI Connector Used to connect two graphic cards installed in the x16 PCI Express slots in an SLI configuration.
Unpacking and Parts Description 22 18 19 18 20 21 19 23 21 24 17 1 14 2 3 16 4 15 14 13 1. 2. 3. 4. 5. 6. 7. 8. 12 10 9 11 CPU Socket NVIDIA SPP with Active fan CPU fan connector DDR DIMM Slots 0 - 3 24-pin ATX Power Connector FDD Connector Front panel connector AUX PEX Power connector Figure 1. 7 9 8 9. Serial-ATA connectors 10. NVIDIA MCP 11. Floppy drive connector 12. USB headers 13. Motherboard battery 14. Fan Headers 15. Serial connector 16. Clear CMOS 6 5 17.
8 1 2 1. 2. 3. 4. 5. 6. 4 3 PS/2 Mouse Port PS/2 Keyboard Port 1394a (Firewire) Port USB 2.0 ports (two) SPDIF output Port 2-Channel Blue Line-In Green Line-Out Pink Mic In Orange Black Grey 7. USB 2.0 Ports (two) 8. Lan Port with LEDs to 5 4-Channel Line-In Front Speaker Out Mic In Rear Speaker Out 6 6-Channel/8-Channel Line-In Front Speaker Out Mic In Center/Subwoofer Rear Speaker Out indicate status.
Hardware Installation This section will guide you through the installation of the motherboard. The topics covered in this section are: Preparing the motherboard ¾ Installing the CPU ¾ Installing the CPU fan ¾ Installing the memory Installing the motherboard Connecting cables and setting switches Safety Instructions To reduce the risk of fire, electric shock, and injury, always follow basic safety precautions.
Preparing the Motherboard The motherboard shipped in the box does not contain a CPU or memory. You need to purchase a CPU, a CPU fan assembly, and memory to complete this installation. Installing the CPU Be very careful when handling the CPU. Make sure not to bend or break any pins on the back. Hold the processor only by the edges and do not touch the bottom of the processor. Use the following procedure to install the CPU onto the motherboard. 1.
Hardware Installation Installing the CPU Fan There are many different fan types that can be used with this motherboard. Follow the instruction that came with you fan assembly. Be sure that the fan orientation is correct for your chassis type and your fan assembly. Installing Memory DIMMs Your new motherboard has four 1.8V 240-pin slots for DDR2 memory. These slots support 256 MB, 512 MB, 1 GB and 2 GB DDR2 technologies for x8 and x16 devices. They also support dual channel DDR2 memory technology up to 10.
Installing the Motherboard The sequence of installing the motherboard into the chassis depends on the chassis you are using and if you are replacing an existing motherboard or working with an empty chassis. Determine if it would be easier to make all the connections prior to this step or to secure the motherboard and then make all the connections. Use the following procedure to install the I/O shield and secure the motherboard into the chassis.
Hardware Installation Connecting Cables and Setting Switches This section takes you through all the connections and switch settings necessary on the motherboard. This will include: Power Connections ¾ 24-pin ATX power (PWR1) ¾ 8-pin ATX 12V power (PWR2) ¾ Auxiliary power for graphics (PWR3) Internal Headers ¾ Front panel ¾ IEEE 1394a ¾ USB Headers ¾ Audio ¾ COM FDD IDE Serial ATA II Chassis Fans Rear panel USB 2.
Power Connections This motherboard requires an ATX power supply. To support a PCI Express motherboard with the addition of dual graphics cards using NVIDIA SLI technology, you are going to need a minimum of a 500W power supply. Make sure you have enough power to cover all the expansion cards you will be installing. To determine what you power requirements are for your specific configuration, refer to www.slizone.com.
Hardware Installation 8-pin ATX 12V Power (PWR2) PWR2, the 8-pin ATX 12V power connection, is used to provide power to the CPU. Align the pins to the connector and press firmly until seated. Backpanel connector edge. 5 1 12V GND 8 4 Connect a four-pin power plug to pins 1, 2, 5, and 6. 5 1 It is strongly recommended that you use an 8-pin ATX 12V power supply; however, if you have a four-pin power supply, plug the connector to pins 1, 2, 5, and 6 as shown.
Connecting IDE Hard Disk Drives The IDE connector supports Ultra ATA 133/100/66 IDE hard disk drives. 1. Connect the blue connector (the cable end with a single connector) to the motherboard. 2. Connect the black connector (the cable with the two closely spaced black and gray connectors) to the Ultra ATA master device. 3. Connect the gray connector to a slave device. If you install two hard disk drives, you must configure the second drive as a slave device by setting its jumper accordingly.
Hardware Installation Connecting Internal Headers Front Panel Header The front panel header on this motherboard is one connector used to connect the following four cables: PWRLED Attach the front panel power LED cable to these two pins of the connector. The Power LED indicates the system’s status. When the system is in S0 status, the LED is on. When the system is in S1, S3, S4, S5 status, the LED is off.
Table 2.
Hardware Installation USB Headers This motherboard contains four (4) USB 2.0 ports that are exposed on the rear panel of the chassis. The motherboard also contains two 10-pin internal header connectors onboard that can be used to connect an optional external bracket containing four (4) more USB 2.0 ports. 1. Secure the bracket to either the front or rear panel of your chassis (not all chassis are equipped with the front panel option). 2. Connect the two ends of the cables to the USB 2.
Audio The audio connector supports HD audio standard and provides two kinds of audio output choices: the Front Audio, the Rear Audio. The front Audio supports re-tasking function. Table 5.
Hardware Installation Fan Connections There are two fan connections, the system fan and the CPU fan. The fan speed can be detected and viewed in the PC Health Status section of the CMOS Setup. Both fans are automatically turned off after the system enters S3, S4 and S5 mode. Fan Connector The nForce 680i LT SLI SPP and MCP have active fans to help to cool the chips. The fans plug into a 3-pin connector. 3 2 1 GND +12V nForce 680i LT SLI MCP fan connector. nForce 680i LT SLI SPP fan connector.
COM1 The motherboard kit provides an additional serial COM header for your machine. Connect one side of a switching cable to the header and then attach the serial COM device to the other side of the cable. FDD Connector The motherboard supports a standard 360K, 720K, 1.2M, 1.44m, and a 2.88M floppy disk drive (FDD). Expansion Slots The EVGA nForce 680i LT SLI motherboard contains six expansion slots, four PCI Express slots and two PCI slots.
Hardware Installation PCI Slots The two PCI slots support many expansion cards such as a LAN card, USB card, SCSI card and other cards that comply with PCI specifications. When installing a card into the PCI slot, be sure that it is fully seated. Secure the card’s metal bracket to the chassis back panel with the screw used to hold the blank cover. PCI Express x1 Slot There are two PCI Express x1 slots that are designed to accommodate less bandwidth-intensive cards, such as a modem or LAN card.
Jumper Settings The motherboard contains a 3-pin BIOS configuration jumper that enables all board configurations to be done in the BIOS Setup program. The silk screen on the motherboard shows a ∆ next to pin 1. Clear CMOS Jumper: CLR_CMOS The motherboard uses the CMOS RAM to store all the set parameters. The CMOS can be cleared by removing the CMOS jumper. Use the following procedure to clear CMOS: 1. Turn off the AC power supply and connect pins 1 and 2 together using the jumper cap. 2.
Configuring the BIOS This section discusses how to change the system settings through the BIOS Setup menus. Detailed descriptions of the BIOS parameters are also provided.
Enter BIOS Setup The BIOS is the communication bridge between hardware and software. Correctly setting the BIOS parameters is critical to maintain optimal system performance. Use the following procedure to verify/change BIOS settings. 1. Power on the computer, 2. Press the Del key when the following message briefly displays at the bottom of the screen during the Power On Self Test (POST). Press F1 to continue, DEL to enter Setup. Pressing Del takes you to the Phoenix-Award BIOS CMOS Setup Utility.
Configuring the BIOS Phoenix – AwardBIOS CMOS Setup Utility ` Standard CMOS Features ` System Monitor ` Advanced BIOS Features Load Defaults ` Advanced Chipset Features Set Password ` Integrated Peripherals Save & Exit Setup ` Power Management Setup Exit Without Saving ` PnP/PCI Configurations Esc : Quit F10 : Save & Exit Setup : Select Item Time, Date, Hard Disk Type.., NVIDIA LinkBoost™ - Not Detected SLI-Ready memory - Disabled Figure 5.
The following items on the CMOS Setup Utility main menu are commands rather than submenus: Load Defaults Load default system settings. Set Password Use this command to set, change, and disable the password used to access the BIOS menu. Save & Exit Setup Use this command to save settings to CMOS and exit setup. Exit Without Saving Use this command to abandon all setting changes and exit setup.
Configuring the BIOS Standard CMOS Features Menu The Standard CMOS Features menu is used to configure the standard CMOS information, such as the date, time, HDD model, and so on. Use the Page Up and Page Down keys to scroll through the options or press Enter to display the sub-menu. Use the arrow keys to position the selector in the option you choose. To go back to the previous menu, press Esc. The information shown in Item Help corresponds to the option highlighted.
Date and Time Using the arrow keys, position the cursor over the month, day, and year. Use the Page Up and Page Down keys to scroll through dates and times. Note that the weekday (Sun through Sat) cannot be changed. This field changes to correspond to the date you enter. Note that the hour value is shown in a 24-hour clock format. Time is represented as hour : minute : second.
Configuring the BIOS Press Enter to auto-detect IDE and SATA channels in the system. Once the channel is detected, the values for Capacity, Cylinder, Heads, Precomp, Landing Zone, and Sector are automatically filled in. None There is no HDD installed or set. Auto The system can auto-detect the hard disk when booting up. Manual When you set the channel to [Manual] and change Access Mode to [CHS], you can then enter the number of cylinders, heads, Precomp, landing zone, and sector.
Drive A The Drive A option allows you to select the kind of FDD to install. Options are: Drive A Halt On [1.44, 3.5 in.] [All , But Keyboard] None 360K, 5.25 in. 1.2M, 5.25 in. 720K, 3.5 in. 1.44M, 3.5 in. 2.88M, 3.5 in. Press ENTER to display sub-menu Drive A None 360K, 5.25 in. 1.2M, 5.25 in. 720K, 3.5 in. 1.44M, 3.5 in. 2.88M, 3.5 in. ..... ..... ..... ..... ..... .....
Configuring the BIOS The system boot does not stop for a diskette error but will stop for all other errors. All, But Disk/Key The system boot does not stop for a keyboard or disk error, but will stop for all other errors. Memory These settings are display-only values that are determined by the BIOS POST (Power-On Self Test). Base Memory 640K Extended Memory 1047552K Base Memory Total Memory 1048576K BIOS POST determines the amount of base (or conventional) memory installed in the system.
Advanced BIOS Features Access the Advanced BIOS Features menu from the CMOS Utility Setup screen. Use the Page Up and Page Down keys to scroll through the options or press Enter to display the sub-menu. Use the arrow keys to position the selector in the option you choose. To go back to the previous menu, press Esc. Note: The options that have associated sub-menus are designated by a `, which precedes the option. Press Enter to display the sub-menus.
Configuring the BIOS Removable Device Priority Use this option to select the priority for removable device startup. Press Enter to see the list of removable devices in your system. Use the arrow keys to go to the various devices. Then use the + or – keys to move the device priority up or down in the list. To go back to the previous menu, press Esc. 1. Floppy Disks Hard Disk Boot Priority Use this option to select the priority for HDD startup.
Quick Power On Self Test Enabling this option allows the system to skip certain test while booting, which reduces the time needed to boot the system. Use the Page Up and Page Down keys to toggle between Enable and Disable. First/Second/Third Boot Device Use this option to set the priority sequence of the devices booted at power on. Use the Page Up and Page Down keys to scroll through the options or press Enter to display the sub-menu. Use the arrow keys to position the selector in the option you choose.
Configuring the BIOS Security Option The Security Options allows you to require a password every time the system boots or only when you enter setup. Select Setup to require a password to gain access to the CMOS Setup screen. Select System to require a password to access the CMOS Setup screen and when the system boots. APIC Mode Use this function to enable or disable the Advanced Programmable Interrupt Controller (APIC). If you disable this option, you also disable the MPS Version Control for OS option.
Advanced Chipset Features Select Advanced Chipset Features from the CMOS Setup Utility menu and press Enter to display the functions of the Advanced Chipset Functions menu.
Configuring the BIOS System Clocks Select System Clocks from the Advanced Chipset Features menu and press Enter to display the System Clocks menu. From this menu, you are able to specify frequency settings, HT multipliers, and Spread Spectrum settings. Note that in Figure 9, all of the options are listed. On the actual BIOS screen, you will need to scroll down to see all the options.
Frequency Settings 42 CPU Freq, MHz This value is set by the CPU Multiplier (value cannot be changed by the user). FSB Reference Clock. MHz This value is set by the system (value cannot be changed by the user). To change the SLI-Ready memory, FSB memory, and memory timing, go to the FSB & Memory screen. CPU Multiplier This value changes the CPU Frequency value depending on the value you choose. Use the Page Up and Page Down keys to scroll through the options.
Configuring the BIOS HT Multiplier nForce SPP — —> nForce MCP Use the Page Up and Page Down keys to scroll through the HT multiplier options and set the link speed from the SPP chip to the MCP chip. Values are [1 x] through [5 x]. nForce MCP <— — nForce SPP Use the Page Up and Page Down keys to scroll through the HT multiplier options and set the link speed from the MCP chip to the SPP chip. Values are [1 x] through [5 x].
FSB & Memory Config Select FSB & Memory Config from the Advanced Chipset Features menu and press Enter to display the FSB & Memory Config menu. This menu provides the means to set SLI-Ready memory, FSB memory, and memory timing. Phoenix – AwardBIOS CMOS Setup Utility FSB & Memory Config Parameters SLI-Ready Memory Settings Current Value [Disabled] Disabled CPU Freq, MHz 2933.3 CPU Multiplier 11X FSB – Memory Clock Mode [Auto] x FSB (QDR), MHz Auto Actual FSB (QDR), MHz 1066.
Configuring the BIOS When you select one of the CPUOC x% options, the FSB - Memory Clock Mode is set to Unlinked and cannot be changed until SLIReady Memory is set to Disable. FSB and Memory Clock Mode Use the Page Up and Page Down keys to scroll through the FSB and Memory Clock Mode options. The options are: ¾ Auto This is the optimal setting since it sets the FSB and memory speeds automatically.
or type in a new value. Note that the Actual MEM (DDR) reflects the actual frequency that takes effect when the system reboots. Memory Timing Setting Press Enter to display the Memory Timing Setting menu. Use this menu to set optimal timings or to manually enter timings.
Configuring the BIOS ¾ Expert Use the Page Up and Page Down keys to select Expert. When Expert is selected, all timing categories are enabled for manual input. Note that you should set the value to Optimal to use the manufacturers’ recommended values.
CPU Configuration Select CPU Configuration from the Advanced Chipset Features menu and press Enter to display the CPU Configuration menu. Phoenix – AwardBIOS CMOS Setup Utility CPU Configuration Limit CPUID MaxVal x Intel SpeedStep CPU Thermal Control C1E Enhanced Halt State Execute Disable Bit Virtualization Technology [Disabled] Disabled [Disabled] [Enabled] [Enabled] [Enabled] CPU CPU x CPU x CPU Enabled [Enabled] Disabled Disabled Core Core Core Core :Move Figure 11.
Configuring the BIOS ¾ TM1 & TM2 Enables support for both TM1 and TM2. C1E Enhanced Halt State Enabled, this function reduces the CPU power consumption when the CPU is idle. Idle occurs when the operating system issues a halt instruction. Execute Disable Bit When this function is disabled, it forces the XD feature flag to always return to zero (0).
CPU Core Use the Page Up and Page Down keys to scroll through the voltages or select [Auto] to automatically set the voltage level for the CPU Core. Memory This function defines the voltage level for the DRAM. Use the Page Up and Page Down keys to select a voltage or select [Auto] to automatically set the voltage. nForce SPP This function defines the core voltage level for the NVIDIA nForce SPP chip. Use the Page Up and Page Down keys to select a voltage (1.20V, 1.30V, 1.40V, 1.
Configuring the BIOS NVMEM Memory Test This function defines whether you run the NVIDIA memory testing module during POST. The options are Fast, Medium, Slow, and Disable. Load Timing/Voltage Set This function loads the system voltages and timing settings that were defined in the System Voltages menu. You can set up to four profile settings using the Save timing/voltage set function. There are four profile options that can be loaded. The default setting is Auto for all settings.
Save Timing/Voltage Set This function saves the system voltages and timing settings that were defined in the System Voltages menu. There are four profile options that can be loaded. The default setting is Auto for all settings. Press Enter to see the options. Save timing/voltage set Press Enter to Select Profile Select Profile Select Profile :Move Exit 1 2 3 ..... ..... ..... .....
Configuring the BIOS Integrated Peripherals Menu Select Integrated Peripherals from the CMOS Setup Utility menu and press Enter to display the Integrated Peripherals menu. Phoenix – AwardBIOS CMOS Setup Utility Integrated Peripherals ` ` ` ` IDE Function Setup RAID Config USB Config MAC Config IEEE1394 controller HD Audio IDE HDD Block Mode Onboard FDC Controller Onboard Serial Port 1 :Move Figure 13.
IDE Function Setup Press Enter to display the IDE Function Setup menu. OnChip IDE Channel0 Primary Master PIO Primary Slave PIO Primary Master UDMA Primary Slave UDMA IDE DMA transfer access Serial-ATA Controller IDE Prefetch Mode 54 [Enabled] [Auto] [Auto] [Auto] [Auto] [Enabled] [All Enabled] [Enabled] OnChip IDE Channel0 OnChip IDE Channel0 [Disabled] Use this function to enable x Primary Master PIO Auto or disable the onchip IDE x Primary Slave PIO Auto Channel0.
Configuring the BIOS RAID Config Press Enter to display the RAID Config menu. RAID SATA SATA SATA SATA SATA SATA Enable 0 Primary 0 Secondary 1 Primary 1 Secondary 2 Primary 2 Secondary RAID RAID RAID RAID RAID RAID [Enabled] [Disabled] [Disabled] [Disabled] [Disabled] [Disabled] [Disabled] RAID Enable RAID Enable [Disabled] x SATA 0 Primary RAID Disabled Use this function to enable or x SATA 0 Secondary RAID Disabled disable RAID.
MAC Config Press Enter to display the MAC Config menu. MAC0 LAN MAC1 LAN [Enabled] [Disabled] MACx LAN Use these functions to set the MAC0 and/or MAC1 LANs to Auto or disable their functions. IEEE1394 controller This function on the Integrated Peripherals menu allows you to enable or disable the IEEE1394 (Firewire) interface. HD Audio This function on the Integrated Peripherals menu allows you to enable or disable the audio function.
Configuring the BIOS Power Management Setup Menu Select Power Management Setup from the CMOS Setup Utility menu and press Enter to display the Power Management Setup menu.
Soft-Off by PBNT This function on the Power Management Setup menu allows you to set SoftOff by PBNT to [Instant-Off] or [Delay 4 Sec]. WOL(PME#) From Soft-Off This function on the Power Management Setup menu allows you to enable or disable WOL(PMW#) from soft-off. Power On by Alarm This function on the Power Management Setup menu allows you to enable or disable the Power-on by alarm function. Set to [Disable] to prevent poweron by alarm.
Configuring the BIOS Hot Key Power On When [Hot Key] is selected, the Hot key Power On function is enabled so that you must select a keyboard key as the hot key. To select a hot key use Ctrl+F1 though Ctrl+F12. x POWER ON Function KB Power ON Password Hot Key Power On [Hot key] Enter [Ctrl-F1] Mouse Left Mouse Right Any Key PnP/PCI Configuration Menu Select PnP/PCI Configuration from the CMOS Setup Utility menu and press Enter to display the PnP/PCI Configuration menu.
Init Display First This function on the PnP/PCI Configuration menu allows you to define if the initial display is in the PCI slot or in the PCI Express slot. Options are [PCI Slot] and [PCIEx]. Reset Configuration Data This function on the PnP/PCI Configuration menu allows you to enable or disable the resetting of Extended System Configuration Data (ESCD) when you exit Setup.
Configuring the BIOS IRQ Resources To enable this field for input, set Resources Controlled By to [Manual]. With this field enabled, press Enter to see options. IRQ-5 IRQ-9 IRQ-10 IRQ-11 IRQ-14 IRQ-15 assigned assigned assigned assigned assigned assigned to to to to to to [PCI Device] [Reserved] [PCI Device] [PCI Device] [PCI Device] [PCI Device] Use Legacy ISA for devices compliant with the original PC AT Bus specification.
System Monitor Menu Select System Monitor from the CMOS Setup Utility menu and press Enter to display the System Monitor menu. Phoenix – AwardBIOS CMOS Setup Utility System Monitor ` Dynamic Fan Control CPU CPU Core CPU FSB Memory +3.3V +3.3V Dual +12V +5V +Vbat 1.28V 1.19V 1.81V 3.16V 3/16V 11.92V 4.99V 3.00V CPU Fan Speed Aux Fan Speed nForce Fan Speed Chassis Fan Speed Chassis Fan2 Speed :Move Figure 16.
Configuring the BIOS Dynamic Fan Control Press Enter to display the Dynamic Fan Control menu. x CPU Fan Speed Control [SmartFan] If temp > 70ºC, Set Fan Speed 100% If temp < 30ºC, Set Fan Speed 0% Manual Fan Speed, % 100 AUX Fan Speed Control, % [100] nForce Fan Speed Control, % [100] Chassis Fan Speed Control, % [100] Use this menu to control the speed of the various fans on the motherboard.
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Installing Graphics Cards in an SLI Configuration NVIDIA SLI (Scalable Link Interface) is a revolutionary technology that allows two NVIDIA SLI graphics cards to work together to deliver incredible 3D graphics performance. Your new motherboard can support up to two PCI Express graphics cards linked using SLI.
While NVIDIA recommends an SLI-Ready power supply, the following table provides some general power supply recommendations based on testing performed in the NVIDIA SLI validation lab. Table 6. Recommended Power Supplies NVIDIA SLI System Type Minimum Recommended PCI Express Power Supply Extreme SLI PC NVIDIA has tested the majority of power supplies in this high power category and therefore only recommends an SLI-ready power supply.
Installing Graphics Cards in an SLI Configuration ¾ Two optical drives ¾ PCI Sound Card ¾ LCD at 2560x1600 resolution Ultra High-End SLI PC Configuration: ¾ Dual GeForce 7900 GTX or Dual GeForce 7800 GTX 512MB ¾ AMD Athlon 64 FX-60 2.6 GHz or Intel Pentium EE 955 3.
For a list of certified power supplies, go to http://www.slizone.com/content/slizone/build.html. Install Your NVIDIA SLI-Ready Parts Now that you have obtained the necessary NVIDIA SLI-Ready parts, and confirmed your power supply requirements, it is time to configure the system. This procedure assumes you have already installed the motherboard. The EVGA nForce 680i LT SLI motherboard has two PCI Express slots used for the SLI configuration. SLI graphics cards in these slots Figure 17.
Installing Graphics Cards in an SLI Configuration Use the following procedure to build your NVIDIA SLI-Ready PC system: 1. Install two SLI-Ready graphic cards into the two black PCI Express x16 slots on the motherboard (see Figure 29). Be sure to seat the graphic cards into the connectors. Two SLI graphics cards installed in the two (block) PCI Express slots on the motherboard. 2.
3. Install the NVIDIA SLI connector across the two outer graphics cards as shown below. Each SLI-Ready graphics card has an SLI finger on the upper side of the card. Install the SLI connector onto the two outer cards. Install NVIDIA SLI Software Upon power up, the operating system recognizes the new NVIDIA SLI-Ready components and displays the Found New Hardware message. Your motherboard shipped with a set of drivers that you must install. To check for the latest drivers, go to http://www.slizone.
Installing Graphics Cards in an SLI Configuration After reboot of the system to the Windows desktop, you will see an SLI Capable System message. Click on this message to enable your NVIDIA SLI. Enable NVIDIA SLI At this point, you need to enable NVIDIA SLI. You can do this either by clicking on the SLI capable system balloon or by going to the NVIDIA Control Panel. To launch the NVIDIA Control Panel, select Start¾All Programs ¾NVIDIA Corporation¾NVIDIA Control Panel. Click on the 3D Settings icon.
Click Enable SLI technology (recommended) and click Apply. You now have an NVIDIA SLI-enabled PC! The system reboots to apply the setting and display the following message upon reboot: Congratulations on your new NVIDIA SLI-Ready PC system.
