Page 3
Have a question not covered above, or want some online resources? ......- 145 - POST Beep codes ......................- 146 - POST Port Debug LED ....................- 147 - POST Codes ......................- 148 - EVGA Glossary of Terms ....................- 153 - Compliance Information ..................- 156 - - 3 -...
Killer E2500 NIC and an Intel i219, Dual M.2 type M, U.2, SATA Express and much more! Lastly, a motherboard is only as good as its BIOS, and the EVGA Z270 CLASSIFIED-K features an updated UEFI\BIOS GUI with a focus on overclocking and functionality in a lean, straight-forward package.
Monitor (Optional) Optical Drive EVGA assumes you have purchased all the necessary parts needed to allow for proper system functionality. For a full list of supported CPUs on this motherboard, please visit www.evga.com/support/motherboard Intentions of the Kit...
EVGA Z270 Classified – K (134-KS-E279) Motherboard Motherboard Specifications Size: EATX form-factor of 12 inches x 10.3 inches (305x261.6mm) Microprocessor support: Intel Socket 1151 Processor Operating Systems: Supports Windows 10 / 8* / 7* (*Dependant upon CPU support for Windows. Kaby Lake-S CPUs **ONLY** support Windows 10.
Page 7
EVGA Z270 Classified – K (134-KS-E279) SATA Ports: Intel Z270 PCH Controller 4x SATA 3/6G (600 MB/s) data transfer rate - Support for RAID 0, RAID 1, RAID 5, AND RAID 10 - Supports hot plug 2x SATA Express...
Page 8
EVGA Z270 Classified – K (134-KS-E279) SLI and Crossfire Support: 2-Way SLI and Quad SLI (Dual processor video cards are required to be PCI-E Gen3 NATIVE) + PhysX 2-Way Crossfire (Dual processor video cards are required to be PCI-E Gen3...
EVGA Z270 Classified – K (134-KS-E279) Unpacking and Parts Descriptions The following accessories are included with the EVGA Z270 CLASSIFIED-K Motherboard: - 9 -...
EVGA Z270 Classified – K (134-KS-E279) Intel Z270 CLASSIFIED-K Motherboard LED reference The EVGA Z270 CLASSIFIED-K Motherboard has several LEDs indicating power, connectivity, and activity. Below is the location of the LEDs and their function. - 10 -...
Page 11
RED: Active BIOS Chip (only 1 will be lit at a time) b. This BIOS chip can be removed and replaced while the motherboard is powered off. Please contact EVGA Support for any concerns with the BIOS chip, and never remove the chip while the PC is powered on.
Page 12
EVGA Z270 Classified – K (134-KS-E279) 8. 5VSB a. WHITE: Voltage detected (Does not mean PSU is outputting in-spec, only that this specific voltage is detected) 9. VCC a. RED: Voltage detected (Does not mean PSU is outputting in-spec, only that this specific voltage is detected) 10.
EVGA Z270 Classified – K (134-KS-E279) Intel Z270 CLASSIFIED-K Motherboard Component Legend The EVGA Z270 CLASSIFIED-K Motherboard with the Intel Z270 and PCH Chipset. Figure 1 shows the motherboard and Figure 2 shows the back panel connectors FIGURE 1. Z270 CLASSIFIED-K Motherboard...
Page 14
EVGA Z270 Classified – K (134-KS-E279) Component Legend CP U So cket 1 1 51 1 2. M .2 So cket 3 Key-M 1 1 0mm 23. USB 3.0 Headers Intel Z270 P CH (So uthbridge) 1 3. M .2 So cket 3 Key-M 80mm 24.
Page 15
EVGA Z270 Classified – K (134-KS-E279) Figure 2. Chassis Rear Panel Connectors I/O Hub Legend 1. USB 3.0 5. BIOS/CMOS Reset 9. HDMI 1.4 2. USB 3.1 Type-A 6. Intel i219 NIC 10. Analog Audio Jacks 3. USB 3.1 Type-C 7.
Page 16
EVGA Z270 Classified – K (134-KS-E279) Component Legend Descriptions 1. CPU Socket 1151 This is the interface for the Central Processing Unit (CPU), and supports Pentium, Core i3, Core i5, Core i7, and some Xeon models compatible with the Intel 1151 Socket and Skylake or Kaby Lake-S architecture.
Page 17
EVGA Z270 Classified – K (134-KS-E279) 3600MHz speeds; however, these speeds cannot be guaranteed as Intel® only certifies the speed of the memory controller up to 2133MHz for Skylake and 2400MHz for Kaby Lake-S. 6. 24-pin ATX power connector The main power for the motherboard is located on the right side of the board and perpendicular to the PCB;...
Page 18
EVGA Z270 Classified – K (134-KS-E279) 9. Intel SATA 3/6G/SATA Express (shared) Ports SATA Express is a newer and faster standard to improve the performance of SSDs, as SATA can sometimes be the bottleneck for newer and faster devices. The Intel Z270 PCH uses a 6-port SATA 3/6G controller. Each SATA Express device requires a cable that uses the SATA Express port, as well as two additional SATA ports (See Page 51 for specifics on the connectors).
Page 19
EVGA Z270 Classified – K (134-KS-E279) standards. All M.2 devices are designed to connect via a card-bus style connector and be bolted into place and powered by the connector, rather than by a dedicated data cable and power cable. This socket will support Key-M devices of 110mm, 80mm, 60mm, and 42mm length.
Page 20
EVGA Z270 Classified – K (134-KS-E279) 16. PCI-E Slot x8 PCI-E x16/x8 slots are primarily for video cards. These full-length slots will provide up to 8 lanes of bandwidth to a full-size card, and backwards compatible with x8, x4, and x1 length cards.
Page 21
EVGA Z270 Classified – K (134-KS-E279) 21. CMOS Reset Button This button has two main uses: the first is standard practice to clear BIOS and power on before updating the BIOS, and the second is standard practice when troubleshooting instances when the motherboard fails to POST, such as after upgrading RAM or CPU, installing new hardware, a failed overclock, etc.
Page 22
EVGA Z270 Classified – K (134-KS-E279) can be used to attach to front panel USB, auxiliary ports that mount in the card slots, and also some devices that directly connect to the header. USB standard is 500ma @ 5V per port (header total is 1000ma) for unpowered devices.
Page 23
BIOS failures, bad BIOS flashes, BIOS corruption, etc. This feature also allows EVGA to work with end-users if something happens to render the BIOS chip unusable or a BIOS update is needed for CPU compatibility; rather than...
Page 24
Z270 Classified K to allow your multimeter or voltmeter to attach. The pinout is listed on the motherboard – behind the Probe-IT connector – and can also be found on the EVGA FAQ site at: http://www.evga.com/support/faq/?f=59395.
Page 25
EVGA Z270 Classified – K (134-KS-E279) Card Slots The Z270 CLASSIFIED-K features 3 x16 PCI-E slots, 3 x1 PCI-E slot, 1 Socket 3 Key-M M.2 110mm (backwards compatible with Key-M 80mm, 60mm, and 42mm), 1 Socket 3 Key-M M.2 80mm (backwards compatible with Key-M 60mm, and 42mm), and 1 Socket 1 Key-E M.2.
EVGA Z270 Classified – K (134-KS-E279) Preparing the Motherboard Installing the CPU Be very careful when handling the CPU. Hold the processor only by the edges and do not touch the bottom of the processor. Note: Use extreme caution when working with the...
EVGA Z270 Classified – K (134-KS-E279) 5. Align the notches on the CPU to the notches in the socket. 6. Lower the processor straight down into the socket. Note: Make sure the CPU is fully seated and level in the socket.
EVGA Z270 Classified – K (134-KS-E279) Installing System Memory (DIMMs) Your Z270 CLASSIFIED-K has (4) 288-pin slots for DDR4 memory. These slots support 4GB, 8GB and 16GB DDR4 DIMMs. There must be at least one memory slot populated for the board to boot and operate.
Before installing the motherboard, install the I/O shield from the inside of the chassis. Press the I/O shield into place and make sure it fits securely. The Z270 Classified-K also includes an I/O cover. This I/O cover adds a unique appearance to the I/O area of the motherboard and is completely optional.
EVGA Z270 Classified – K (134-KS-E279) Securing the Motherboard into a System Case Most system cases require installation of standoffs into the chassis to allow the motherboard to be mounted to the chassis and prevent short circuits. If there are...
Page 32
EVGA Z270 Classified – K (134-KS-E279) 1. Above, all safe locations to secure the board to a standoff are circled in red. 2. Keep in mind that when the screws are installed, but not fully tightened, the motherboard should have 1-2mm of movement; this can help with mounting cards or tight-fits with other components.
EVGA Z270 Classified – K (134-KS-E279) Installing M.2 devices Securing a M.2 device to the motherboard requires a few extra steps compared to other current drive or slot-based connectors. M.2 devices used on this motherboard, Socket 3 (for SSDs) and Socket 1 (for WiFi/Bluetooth), will be installed and attached the same way.
Page 34
EVGA Z270 Classified – K (134-KS-E279) 3. Gently push the M.2 device down on the raised end. There will be some tension - this is normal - then use the screw you removed in Step 2 to secure the device.
Page 35
EVGA Z270 Classified – K (134-KS-E279) Incorrect installation Example: *NOTE* This is one of the most common examples of an incorrect installation of a M.2 device. Do not intentionally attempt this, or complete your installation with this example. Doing so could cause damage to the device or the M.2 port.
EVGA Z270 Classified – K (134-KS-E279) Connecting Cables Important caveat: the images below do *NOT* necessarily represent the physical orientation of the your specific header on motherboard. Rather, these are physical representations designed to give you a basic footprint of the component AND the cable pinouts for the ports.
Page 42
EVGA Z270 Classified – K (134-KS-E279) 24pin ATX Power (ATX_PWR_24P) is the main power supply connector located along the lower- ATX_PWR_24p right edge of the board. Make sure that the power supply cable and pins are properly aligned with the connector on the motherboard. Firmly plug the power supply cable into the connector and make sure it is secure.
Page 43
EVGA Z270 Classified – K (134-KS-E279) EPS 8-pin 12V Power (PWR , the 8-pin ATX 12V power connection(s), is used to provide EPS PWR 8P power to the CPU. Align the pins to the connector and press firmly until seated. The secondary EPS, if present, is optional for improved overclocking.
Page 44
EVGA Z270 Classified – K (134-KS-E279) Front Panel Header The front panel header on this motherboard is used to connect the following four cables: PWRLED Attach the front panel power LED cable to these two pins of the connector.
Page 45
EVGA Z270 Classified – K (134-KS-E279) Fan Header This motherboard line only has 4-pin fan headers, which are backwards compatible with 3-pin fan connectors. Fans may be controlled by PWM or DC controls. The headers have an absolute safe power limit of 1 Amp @ 12 Volts (12 Watts).
Page 46
EVGA Z270 Classified – K (134-KS-E279) USB Headers This motherboard contains USB 3.1 and 3.0 ports that are exposed on the rear panel of the chassis. The motherboard contains 2x 19-pin internal header connectors onboard that can be used to connect an optional external bracket containing up to four (4) USB 3.0 ports.
Page 47
EVGA Z270 Classified – K (134-KS-E279) The motherboard contains 2x 9-pin internal header connectors onboard that can be used to connect an optional external bracket containing up to four (4) USB 2.0 ports. Secure the bracket to either the front or rear panel of your chassis (not ...
Page 48
Front panel audio connectors support different audio standards and can provide two kinds of audio output choices: HD Audio, or AC’97 to accommodate older cases that still use AC’97 rather than HD. The Z270 Classified-K only has a HD Audio front panel connector.
Page 49
EVGA Z270 Classified – K (134-KS-E279) Probe IT Header The Probe IT offers a means of monitoring several different voltages under any level of load with a digital multi-meter so you can see exactly what voltages your board is pushing. This is mainly used for extreme overclocking.
Page 50
EVGA Z270 Classified – K (134-KS-E279) 6-pin PCI-E The 6-pin PCI-E connector present on the motherboard provides additional power to the PCI-E slots, rather than pulling it all from the 24-pin main power. It is advised to plug in this connector when using SLI, especially with higher-end graphic cards.
Page 51
EVGA Z270 Classified – K (134-KS-E279) Drive Headers (SATA Express/SATA/ U.2) SATA3/6G is the current standard for HDD/SSD/Optical interface. These cables are the data interconnect for the motherboard. Your HDD/SSD/Optical interface will still require a separate power connection from your power supply.
EVGA Z270 Classified – K (134-KS-E279) Onboard Buttons These onboard buttons include RESET, POWER and Clear CMOS. These functions allow you to easily reset the system, turn on/off the system, or clear the CMOS. Clear CMOS Button The motherboard uses CMOS RAM to store set parameters.
EVGA Z270 Classified – K (134-KS-E279) First Boot When you power the system on for the first time (or after a BIOS update/reset) it may take a little longer than expected, and follow with a pause and message on the screen reading “BIOS Checksum error, Press F2 to continue or F12 to enter the BIOS.”...
Page 54
EVGA Z270 Classified – K (134-KS-E279) Next, click “Boot” from the menu list at the top. “Boot Option #1” should show the device that you intend to install your operating system. If the device does not show up in this menu, and is a standard SSD/HDD plugged into a SATA port, proceed down to “UEFI Hard Disk Drive BBS Priorities”...
EVGA Z270 Classified – K (134-KS-E279) M.2 SSD, PCI-e SSD, and NVMe SSD Installation steps M.2 is a card bus that can use multiple connecter types to connect many types of devices, such as WiFi or SSDs, in a very small and power efficient package that is also very fast.
Page 56
EVGA Z270 Classified – K (134-KS-E279) PLEASE FULLY READ THE INSTRUCTIONS THAT COME WITH YOUR M.2 or PCI-E NVMe SSD BEFORE INSTALLATION. 2. After reviewing your SSD’s instructions and its respective Physical installation instructions above, power on the PC and enter the BIOS/UEFI by pressing the F2 key repeatedly.
EVGA Z270 Classified – K (134-KS-E279) Internal RAID Controller This section introduces RAID, RAID levels, and the basics of the controller integrated into the PCH. It covers the basics of what RAID does, how RAID works, and why you may or may not want to use RAID.
Page 58
EVGA Z270 Classified – K (134-KS-E279) its quality, and many other factors; but the number should give you a ballpark estimate on what to expect as a final capacity once formatted. Please see below for examples of what to expect when you build an array of each type.
Page 59
EVGA Z270 Classified – K (134-KS-E279) one drive fails, the array fails. It MAY be possible to recover the data but that usually requires a data recovery service, which is not guaranteed and is usually very expensive. RAID0 is typically only limited by the controller; however, you will get severely diminishing performance returns after 4 drives.
Page 61
EVGA Z270 Classified – K (134-KS-E279) The Bad- RAID1 is not a storage capacity-friendly array, because the capacity will be limited to 1 drive. o Due to the capacity available on modern drive solutions, this issue may not be as significant as it once was.
Page 62
EVGA Z270 Classified – K (134-KS-E279) Similar to RAID1, or any other current type of array with fault tolerance, a RAID5 array is still usable even while it is experiencing a missing or failed drive resulting in the array functioning in a degraded state. Performance will suffer in a degraded state until the missing drive is replaced and the software rebuild process is completed.
Page 64
L-Drive = DATA-AB L-Drive = DATA-AB While the Z270 Classified-K controller will support a four drive RAID10 array, RAID10 can scale indefinitely provided the controller supports more drives. Every pair of drives adds an additional mirrored node, which increases the theoretical number of failures the array can suffer before a loss of data occurs.
Page 65
EVGA Z270 Classified – K (134-KS-E279) RAID 10 (6 Drive) L-DRIVE = ≃ 3TB In the case of a drive P-DRIVE1 P-DRIVE2 P-DRIVE3 P-DRIVE4 P-DRIVE5 P-DRIVE6 failure, the array P-DATA-A P-DATA-A P-DATA-B P-DATA-B P-DATA-C P-DATA-C controller will notify you. When you replace a...
Page 66
EVGA Z270 Classified – K (134-KS-E279) RAID0+1 : RAID0+1 is a form of nested RAID that was widely used on previous generation boards. Although the Z270 series motherboards do not use this type of array, it is listed here to show the improvements made by RAID10, and to clear up a common misperception that RAID0+1 and RAID10 are the same.
Page 67
L-Drive = DATA-AB L-Drive = DATA-AB Motherboard controllers that support RAID0+1 (such as on older generation EVGA motherboards) will generally support 4 or 6 drive arrays of this type; other controllers can allow this array type to scale indefinitely. Each pair of drives adds to the drive count for the stripes and increases the theoretical volume of failures the array can suffer before a loss of data occurs.
Page 68
EVGA Z270 Classified – K (134-KS-E279) L-DRIVE = ≃ 3TB RAID 0+1 (6 Drive) As you can see, the P-DRIVE1 P-DRIVE2 P-DRIVE3 P-DRIVE4 P-DRIVE5 P-DRIVE6 difference between RAID0+1 and RAID10 DATA-A DATA-B DATA-C DATA-A DATA-B DATA-C is significant when looking at how data is...
Page 69
EVGA Z270 Classified – K (134-KS-E279) Which types of RAID can I use with my setup? 1 Drive – No RAID arrays are supported 2 Drives – RAID0 for speed (do regular backups) or RAID1 for data protection. 3 Drives – RAID0 for speed (do regular backups) or RAID5 for speed and protection.
Page 70
EVGA Z270 Classified – K (134-KS-E279) In the “SATA Mode Selection” at the top, the default will be AHCI. Click on the arrow to the right side of AHCI or navigate to it with your keyboard and press “Enter” to open the pulldown menu.
Page 71
EVGA Z270 Classified – K (134-KS-E279) Once in the RAID controller, you will see a list of all detected drives and a “Create RAID Volume” button. To begin, click on “Create RAID Volume” or navigate to the button and hit “Enter.”...
Page 72
EVGA Z270 Classified – K (134-KS-E279) Next, select your intended array type. This can be done by either clicking on the down arrow and clicking on the RAID level you want, or pressing the enter key and using the down arrow to select the RAID level and pressing Enter again. Please see the top half of Page 69 for a quick reference on different RAID levels and RAID types based on your total number of drives.
Page 73
EVGA Z270 Classified – K (134-KS-E279) Strip size (also called “block size” in other controllers) can be selected manually at 16k, 32k, 64k, or 128k. The controller will determine the default strip size after looking at your drives and array type. Although there are some limited instances where this must be set manually, it is highly recommended to leave this at default.
Page 74
EVGA Z270 Classified – K (134-KS-E279) If your array will be your boot drive, the operating system will normally detect the array and see it as a single drive (this is expected), it *MAY* detect it as a RAID array; either way, the OS installation will show the size of the array, not a single drive, and allow you to install the OS to the array without any further steps.
Page 75
EVGA Z270 Classified – K (134-KS-E279) Non-RAID Physical Disks list will display any remaining drives on the controller, whether it is a random storage drive, a boot drive, or a replacement drive installed to replace a failed unit. For this example, you will see a degraded array and a “Non-RAID Physical Disk,”...
Page 76
EVGA Z270 Classified – K (134-KS-E279) Next, you will see a list of all attached HDD/SSDs that can be used to rebuild the array. Select the disk, then click on it or press enter. Once the process has started you will see the status change to “Rebuilding.”...
Page 77
EVGA Z270 Classified – K (134-KS-E279) IRST (Intel Rapid Storage Technology) The IRST is the software front-end for the Intel SATA controller. It is recommended to install the IRST drivers after installing the Intel Chipset Drivers – the main motherboard drivers. This guide walks you through not only the building, but also the repairing of an array from within Windows, since it may be more convenient to build new arrays within the OS rather than from within the UEFI.
Page 78
EVGA Z270 Classified – K (134-KS-E279) SATA will be selected by default. PCI-E primarily refers to PCI-E / M.2 based NVMe drives; the same basic steps do apply to both, however. Select SATA, and “Real-time protection (RAID1).” Then, click Next at the bottom of the window.
Page 80
EVGA Z270 Classified – K (134-KS-E279) In the Advanced tab, you can select the option to “Initialize Volume,” which will occur after the array is created. If the array is not initialized now, it can be initialized later in “Disk Management.” See Page 87 for Disk Management instructions.
Page 81
EVGA Z270 Classified – K (134-KS-E279) Review the summary provided on the confirmation screen. If you are unsure about any selections made, click the “Back” key and make your corrections. When ready, click “Create Volume” at the bottom. This typically takes between a few seconds to a couple minutes depending on the size and complexity of the volume.
Page 82
EVGA Z270 Classified – K (134-KS-E279) Once you click the OK button on the RAID creation window you will be brought back to the main window, “Status” tab. If the option to initialize was selected, the initialization status will be shown below, circled in red.
Page 83
EVGA Z270 Classified – K (134-KS-E279) Repairing an array within IRST This section of the guide will illustrate how to repair a degraded array from within the IRST. For purposes of this guide, we are repairing a degraded RAID 1 array using a third drive plugged into the controller, but not currently in use.
Page 84
EVGA Z270 Classified – K (134-KS-E279) The “Manage” tab shows the array specifically, and not just the controller as a whole. Next to “Status: Degraded,” left-click the hyperlink labeled “Rebuild to another disk.” This will bring a pop-up window over the IRST showing a list of attached drives that...
Page 85
EVGA Z270 Classified – K (134-KS-E279) Select the drive you wish to use for the repair and click the “Rebuild” button. - 85 -...
Page 86
EVGA Z270 Classified – K (134-KS-E279) The rebuild process will begin. As with any RAID array with Fault Tolerance, the rebuilding time depends on several factors, such as array size, array type, CPU, etc. You will then see the Rebuild % status in the Manage tab. Once repairs are complete, the array will update to “Status: Normal.”...
Page 87
EVGA Z270 Classified – K (134-KS-E279) Partitioning and Formatting a drive Once you have created your array, either from UEFI or from IRST, you will not initially see your array in “This PC.” This is expected, because even though you have created the array, you have not yet prepared the array to be used.
Page 88
EVGA Z270 Classified – K (134-KS-E279) After “Disk Management” loads, you’ll see a pop-up to Initialize Disk if you’ve added a new drive or created a new array. Generally, it’s recommended to select “GPT,” unless you need backwards compatibility with an old OS or PC. When you’ve made your choice, click “OK.”...
Page 89
EVGA Z270 Classified – K (134-KS-E279) Before you can assign a drive letter to a drive or array, the initialized disk must be partitioned. If you are following this guide and just initialized your drive or array, the New Simple Volume Wizard will automatically pop-up.
Page 90
EVGA Z270 Classified – K (134-KS-E279) Leave the size at default to create a partition using the entire volume of disk space, then click “Next.” Select the drive letter you want to represent this drive, then click “Next.” Note: The drive letter does NOT have to be a consecutive letter with previous drive(s).
Page 91
EVGA Z270 Classified – K (134-KS-E279) After the quick format is completed, you will see the last Window of the wizard, a summary of the process, then click “Finish.” The drive is now usable. To confirm, go back to File Explorer in Windows. Click on “This PC” and check the drives section.
EVGA Z270 Classified – K (134-KS-E279) Fan Header DC and PWM setup This motherboard supports both 4-pin PWM fans and 3-pin voltage-controlled fans. All of the fans can be set to a static voltage manually. The upper three (3) fan headers (see...
Page 93
EVGA Z270 Classified – K (134-KS-E279) Once into the H/W Monitor section, you can see the temperature monitors across the top. Below the monitors are the three (3) PWM fans: CPU_FAN, CPU2_FAN, and CHA_FAN. The PWM fans are set to “Smart,” which means the PWM controller is using a Smart curve for fan controls.
Page 94
EVGA Z270 Classified – K (134-KS-E279) To set a Smart curve, select the “Smart Fan Settings” and enter the menu. First, choose the temperature monitor the PWM controller will use to monitor for its temp information. It’s recommended to tie the fan control to the CPU, which is predominantly the most important temperature in the system.
Page 95
When monitoring temperatures vs. fan speed, you may notice a variance in ramp up/down temps; this is due to a function EVGA hardcodes into the BIOS called Hysteresis. Hysteresis builds in a buffer to control fan speed behavior. This feature prevents a constant ramp up/down from happening when your system sits exactly at the temp you set for SMART fan controls.
1. Physically install your graphics cards, then install a SLI bridge; examples include a Flexible bridge (included with this motherboard), an EVGA Pro Bridge, or an EVGA HB Bridge. Current NVidia graphics drivers support 400 Series Fermi cards up through GTX 1080 and TitanX Pascal cards.
Page 97
EVGA Z270 Classified – K (134-KS-E279) 2. After the cards are installed, have power connected, and the SLI bridge attached, boot into Windows. The graphics driver will normally identify the cards and automatically configure the driver. If not, then you may need to reinstall the driver.
Page 98
EVGA Z270 Classified – K (134-KS-E279) 3. Once you have verified there are no detection/driver installation issues with the cards you can enable SLI. Right-click on the desktop and select “NVIDIA Control Panel” (“NCP”). Next, select “Configure SLI, Surround, PhysX” under the “3D Settings”...
Page 99
PhysX card serves no purpose. If “Yes,” then the next step is to see if your GPU has a high usage rate while playing normally. Use a program like EVGA Precision XOC to monitor the GPU usage of all current video cards. If the GPU is consistently over 75% usage, the GPU usage occasionally maxes out and the frame rate drops in moments of intense action, then dedicating a card may be beneficial.
EVGA Z270 Classified – K (134-KS-E279) Creative Labs Sound Blaster Pro Studio The Z270 CLASSIFIED-K uses a 5.1 Creative Labs CA0132 audio controller. This section will cover installation of the controller (in Windows 10) and the basic configuration options that are available in the software.
Page 101
EVGA Z270 Classified – K (134-KS-E279) You’ll have one last prompt to go back and make any last minute changes before proceeding with the installation. When ready, click “Install” to begin the installation with the selected options. Once the install process is complete, click “Finish.” A final window will pop-up informing you that the installation is complete and prompt you to reboot to complete the installation.
Page 102
EVGA Z270 Classified – K (134-KS-E279) The below images are all composites, showing the tooltips for multiple buttons and menus on screen at the same time to reduce picture clutter; your experience will differ, as each button and panel must be moused over individually to see the same tooltips in the Sound Blaster Recon 3Di Control Panel.
Page 103
EVGA Z270 Classified – K (134-KS-E279) amplifies it. A subwoofer is not necessary, but the quality of your audio equipment will determine how far you can raise the slider before the audio becomes distorted “Crossover Frequency” should be adjusted based on your audio equipment. This setting controls the frequency cutoff for speakers and subwoofer.
Page 104
EVGA Z270 Classified – K (134-KS-E279) The next section is “CrystalVoice,” which covers microphone controls. Using the image to the right, the pulldown menu displays the current default recording, and allows you to switch between other connected recording devices, if present. The upper-right button, outlined in red, allows you to select whether the recording device is a Rear Microphone or Line-In device.
Page 105
EVGA Z270 Classified – K (134-KS-E279) Mic Recording Volume adjusts the level of volume that will be picked up by the mic – including background noise – and played back to listeners or captured by a recording. This setting is the easiest way to make quick adjustments to your voice level.
Page 106
Needless to say, this feature is designed to have fun with the person to whom you are speaking. Neither Creative nor EVGA guarantees that you will actually sound like any of these options. - 106 -...
Page 107
EVGA Z270 Classified – K (134-KS-E279) Scout mode is a setting specifically for video games and, more specifically, first-person shooters. Enabling Scout Mode will reduce the sound from music, voices, explosions, etc. and amplify the sounds of footsteps, brush, and ambient noises without raising the overall volume.
Page 108
EVGA Z270 Classified – K (134-KS-E279) The “Speaker/Headphones” section will provide configuration options for Speakers in a 2.0/2.1, 5.1 Surround, or Headphones. Please review the Component Legend on Page 15 to make sure you connect your audio device(s) to the correct port(s).
Page 109
EVGA Z270 Classified – K (134-KS-E279) To determine if your speakers are full-range or not, you must look at the minimum frequency response of your speakers. The concern is not the high-end of the frequency response, but rather the low-end. As noted above, if your speakers are not rated for a minimum of 20Hz, then they are not full-range speakers.
Page 110
EVGA Z270 Classified – K (134-KS-E279) full-range speakers in your setup, or 2) you are using a receiver or speaker system that prefers to handle the low frequency crossover at the receiver or speaker system, rather than using the Pro Studio to configure the crossover settings for low frequencies.
Page 111
EVGA Z270 Classified – K (134-KS-E279) In 5.1 mode, you can toggle the center channel, subwoofer, and rear satellite speakers on and off from this menu. If any of the satellites are disabled, the sound readjusts to ensure you receive full sound, albeit balanced through the selected speakers.
Page 112
EVGA Z270 Classified – K (134-KS-E279) In the lower section there is an option for “Full-Range” speakers. You must set the front speakers to Full-Range before the Full-Range option becomes available for Surround speakers. If you are unsure if your speakers are full-range or not, please see the previous section on Page 108.
Page 113
EVGA Z270 Classified – K (134-KS-E279) On a system that does not use full-range speakers, this is a crucial setting for ensuring that your speaker system correctly plays low frequencies. The default frequency is set to 80Hz, but your system may need adjustment.
Page 114
EVGA Z270 Classified – K (134-KS-E279) As with any speaker or microphone setting, your audio equipment will have a significant effect on audio quality and effectiveness of multiple settings. For example, some microphones already equip some degree of noise or echo cancellation and do not benefit further from Creative’s CrystalVoice options.
Page 115
EVGA Z270 Classified – K (134-KS-E279) The Mixer section is where you can control volume levels, balance, input jacks, stereo volume for all input and output devices, and master volume for all sections. The top setting is “Speakers,” which is the Windows main volume;...
Page 116
EVGA Z270 Classified – K (134-KS-E279) The “Equalizer” section provides a software-based EQ with several preset built-in tools to manually to make custom balances for any type of music, game, or movie. By default, the equalizer is disabled, leaving all frequency bands at a median.
Page 117
EVGA Z270 Classified – K (134-KS-E279) Click on the “EQ” button in the upper- left corner to enable the “EQ” functionality. Once enabled, the pulldown menu for EQ presets and manual controls becomes available. The default EQ setting is “Flat,” which means no specific optimization.
Page 118
EVGA Z270 Classified – K (134-KS-E279) The final tab of the Sound Blaster Audio Suite is the “Advanced Features” tab. This tab has the singular option to enable or disable “Play stereo mix to digital output”. Check this box to enable output through SPDIF and speaker simultaneously.
You can also deny bandwidth to applications altogether, as well. 1. Go to www.evga.com/support/drivers, click on the Motherboard tab, select Z270 – Killer NIC – Your OS (Windows 10 x64 was used in this manual), then the submit button at the bottom to download.
Page 120
EVGA Z270 Classified – K (134-KS-E279) The Killer NIC installer follows a fairly common software install process. Select your language, click next, ensure that your anti-virus is disabled and click next. Click next on the Install Shield windows, read and agree to the End User License Agreement, and click next.
Page 121
EVGA Z270 Classified – K (134-KS-E279) After rebooting, the installation will be complete and you may start configuring the Killer Suite to fit your needs. If you’re ready to begin, skip down to Page 122 (next page). If something goes wrong during the...
Page 122
EVGA Z270 Classified – K (134-KS-E279) Now that the Killer Performance Suite has been installed, you can begin configuring the Suite. You should have both a Desktop and Start Menu icon to launch the Killer Suite application. Double-click on the “K” icon to launch.
Page 123
EVGA Z270 Classified – K (134-KS-E279) The Applications page will initially be blank the first time it is launched, similar to the above image. Mousing over the icon in the lower-center will identify which model of Killer NIC is present. If there is no image, then you likely have your CAT5/5e/6 cable plugged into the Intel NIC.
Page 124
EVGA Z270 Classified – K (134-KS-E279) Once you have used your Killer NIC for some time, the Application screen will look something like the image to the right. There are 3 sections outlined in red: the checkbox, scroll bar and the bandwidth slider.
Page 125
EVGA Z270 Classified – K (134-KS-E279) bandwidth allocations. If you mouse over the “Priority” tab, you will see the path of the executable that is running. When you click on the pulldown box, you will see the six tiers of priority for the given application. By manually adjusting priorities, you allow the Killer Suite to auto-adjust which programs receive priority bandwidth.
Page 126
EVGA Z270 Classified – K (134-KS-E279) Without the “Enable Bandwidth Control” option enabled, you cannot utilize the tuning options available in the Killer Suite, including the Applications section above. Once the option is checked, you will get the warning shown in the image above.
Page 127
EVGA Z270 Classified – K (134-KS-E279) Although your ISP can offer some details, it is more accurate to provide the Killer Suite with data from an actual test. The more accurate the speed entered, the more effective the Killer Suite will be at controlling bandwidth to various applications and processes.
Page 128
EVGA Z270 Classified – K (134-KS-E279) The two (2) usage tabs show a 2- minute window of network activity; all data is displayed in Megabits per second. This will not show what was using the bandwidth, just the total usage...
Page 129
EVGA Z270 Classified – K (134-KS-E279) The final section is labeled Killer Ethernet. After clicking Killer Ethernet, this opens to a screen called Network Information if connected to the Killer NIC. If you see an image of a circle with a...
Page 130
EVGA Z270 Classified – K (134-KS-E279) The Killer Suite also contains a comprehensive help menu. You can enter this help menu by clicking the “?” icon at the top of the any menu. If you click the “?” on the main menu, you will start at the top of the index, and can click any of the hotlinked topics to quickly scroll to the title.
Page 131
EVGA Z270 Classified – K (134-KS-E279) Using the Eleet Software Suite EVGA E-LEET is a monitoring and tuning software designed for EVGA motherboards, which is available on the driver DVD and the EVGA website at www.evga.com/E-LEET After installation, E-LEET will launch directly...
Page 132
EVGA Z270 Classified – K (134-KS-E279) The next tab is “Monitoring,” which is an overview of temperatures and voltages in real- time. Please note that all readings on this page are pulled from motherboard sensors, and can change at any time. Temperatures...
Page 133
EVGA Z270 Classified – K (134-KS-E279) The Options tab is for managing your E- LEET profiles. You can save overclock profiles made in the previous section, as well as selecting an option to load a profile at boot. Use care, however, when setting a profile to load on startup;...
Page 134
EVGA Z270 Classified – K (134-KS-E279) The final section is “Voltages,” which provides a level of voltage control similar to what is available in the BIOS. Using the right image, you’ll notice that there are options for multiple voltages, and two options for your CPU Vcore: Adaptive and Override voltages.
Page 135
LEET will open the pulldown to the currently detected voltage. Please be careful when adjusting voltages, as there are risks to running electronics out of spec. Although EVGA warranties overclocking, other components are manufactured by different brands (i.e. RAM and CPU), which may have different policies towards overclocking.
32bit and 64bit versions of Windows 10, 8, and 7. The kit comes with a CD that contains utilities, drivers, and additional software. The CD that has been shipped with the EVGA Z270 Motherboard contains the following software and drivers: Chipset Drivers ...
Of course, there are some limitations to our warranties. If an EVGA motherboard or graphics card sustains physical (i.e. damage to the PCB or component due to slippage with a hand tool) or liquid damage, the warranty is void.
FOR ANY AND ALL INSTANCES WHERE YOU THINK YOU MAY NEED A REPLACEMENT BIOS CHIP, PLEASE CALL CUSTOMER SERVICE IMMEDIATELY. DO NOT ATTEMPT TO REPLACE THE BIOS CHIP WITH ONE **NOT** SUPPLIED BY EVGA, AS EVGA CANNOT OTHERWISE GUARANTEE COMPATIBILITY. CONTACT INFORMATION, HOURS, AND LOCATIONS FOR ALL EVGA CUSTOMER SUPPORT OFFICES CAN BE FOUND HERE: http://www.evga.com/about/contactus/...
Page 139
EVGA Z270 Classified – K (134-KS-E279) The steps for replacement below assume you have already contacted EVGA Customer Support and have received a pre-flashed replacement chip directly from EVGA. 1. Locate the housing for the chip on the motherboard. It should be located on the right side below the RAM, about halfway down the board.
Page 140
EVGA Z270 Classified – K (134-KS-E279) 3. Remove the BIOS chip by lifting it straight up. Set it aside and insert the replacement chip. Once installed, close the left door first and the right door second, making sure both latch into place;...
EVGA Z270 Classified – K (134-KS-E279) SSD / HDD is not detected It is important to note that, as with *ALL* storage devices, if there is a connectivity issue, make sure it is enabled in BIOS. Likewise, if there is a device that shares bandwidth with your SSD or HDD (Page 26), make sure that the desired device is enabled in BIOS, or all other troubleshooting that comes after this section is moot.
Page 142
EVGA Z270 Classified – K (134-KS-E279) If you’ve already done this, test a different device using the same cable and SATA port to see if the issue persists. If the issue is not resolved, test a different SATA cable, or a different SATA port.
EVGA Z270 Classified – K (134-KS-E279) System does not POST, and POST code indicator reads “C” When the system powers on, the POST code indicator should cycle through several different codes before booting. However, if the boot process does not complete, you should look at the LED indicator, as it will give you diagnostic information.
(Page 36) or at www.evga.com/support/motherboard and click on “EVGA Z270 Classified-K.” If the memory is not on the list, it may still work because EVGA is unable to test every memory kit released. However, this motherboard will not support modules over 16GB or ECC/Registered RAM.
YOUR system! Still building your rig? Make a build log here: http://forums.evga.com/EVGA-MODS-RIGS-f33.aspx Want to join the online EVGA Gaming Community? Sign up and play with like-minded gamers here: http://www.evga.com/TEAMEVGA/ - 145 -...
EVGA Z270 Classified – K (134-KS-E279) POST Beep codes POST beeps are used in conjunction with the POST Code indicator to help determine the root cause of the issue when your system is malfunctioning. However, with the advent of modern UEFI/BIOS, the USB detection can throw off the number of beeps making the POST code, while helpful, not as useful as it once was.
EVGA Z270 Classified – K (134-KS-E279) POST Port Debug LED Provides two-digit diagnostic POST codes that shows system boot status and can also show why the system may be failing to boot. The LED is extremely useful during troubleshooting situations.
EVGA Z270 Classified – K (134-KS-E279) POST Codes This section provides the AMI POST Codes for the EVGA Z270 FTW-K Motherboard during system boot up. The POST Codes are displayed on the Debug LED readout located directly on the motherboard. See Page 13-14 of the Component Debug LED with CPU Legend for physical location.
Page 149
EVGA Z270 Classified – K (134-KS-E279) Microcode not loaded PEI Core is started 11-14 Pre-memory CPU initialization is started 15-18 Pre-memory North Bridge initialization is started 19-1C Pre-memory South Bridge initialization is started 1D-2A OEM pre-memory initialization codes Memory initialization. Serial Presence Detect (SPD) data reading Memory initialization.
Page 150
EVGA Z270 Classified – K (134-KS-E279) reset PPI is not available 5C-5F Reserved for future AMI error codes S3 Resume is stared (S3 Resume PPI is called by the DXE IPL) S3 Boot Script execution Video repost OS S3 wake vector call...
Page 151
EVGA Z270 Classified – K (134-KS-E279) CSM initialization 7A–7F Reserved for future AMI DXE codes 80–8F OEM DXE initialization codes Boot Device Selection (BDS) phase is started Driver connecting is started PCI Bus initialization is started PCI Bus Hot Plug Controller Initialization...
Page 152
EVGA Z270 Classified – K (134-KS-E279) Legacy Boot event Exit Boot Services event CPU Memory controller configuration Runtime Set Virtual Address MAP End iMC init Memory training Memory training Memory training / timing training Memory training Memory training B8-BF Memory training / DRAM final configuration C0–CF OEM BDS initialization codes...
DMI – Direct Memory Interface DP – Display Port DRAM - Dynamic random access memory DVI – Digital Video Interface ELEET/ELEET X – EVGA motherboard monitoring and tuning software FIVR – Fully Integrated Voltage Regulator GHz – Gigahertz GPIO (Thunderbolt) – General Purpose Input/Output GPU –...
Page 154
EVGA Z270 Classified – K (134-KS-E279) HSF - Heat Sink Fan I/O - Input/Output IEEE - Institute of Electrical and Electronics Engineers IGP - Integrated Graphics Processors IMC – Integrated memory controller IOH – Input/Output Hub IRQ - Interrupt Request...
Page 155
EVGA Z270 Classified – K (134-KS-E279) PLL – Phase Locked Loop POST – Power on Self-Test PWM – Pulse Width Modulation QDR - Quad Data Rate QOS – Quality of Service QPI – Quick Path Interconnect RAID - Redundant Array of Inexpensive Disks RAM –...
Original Purchaser. Upon termination, for any reason, all copies of Software and materials must be immediately returned to EVGA and the Original Purchaser shall be liable to EVGA.com CORP for any and all damages suffered as a result of the violation or default.