As we touched on in our review of the ASUS ROG Maximus XIII Hero motherboard, the overall design of ASUS's firmware is consistent across most of its ranges. Looking at the aesthetic of the GUI, ASUS is using a TUF Gaming themed firmware, with a black background and grey/white accents throughout. ASUS has two primary modes for users to select between, the 'EZ mode' for novices and the 'Advanced mode' for the more experienced users.

Turning the system on and entering the BIOS for the first time with automatically revert users to the EZ Mode. The EZ Mode consists of a list of primary and key information pertaining to the hardware that's installed. In the top left-hand corner is the motherboard model, as well as the firmware version installed. Below is information about the installed processor and memory, which includes memory and capacity. Users can enable X.M.P 2.0 profiles on compatible memory kits by selecting 'Enabled' in the small drop-down menu. In the center panel is a simple CPU fan graph, with a clickable box that takes users to ASUS's QFan control utility built into the firmware. On the right-hand side, users can drop and drag installed storage and arrange the board's Boot Priority list.

By pressing the F7 key within the firmware allows users to access the Advanced mode. Within this section, users can find all of the board's overclocking and chipset-related settings, as well as all the board and Intel's customizable power settings. For the overclocking options, ASUS puts all of the relevant settings in the Ai Tweaker section and offers users access to settings and options for users looking to overclock the CPU, memory, and integrated graphics. ASUS has an extensive list of memory and power options, as well as allowing users to customize Intel's Thermal Velocity Boost and Adaptive Boost settings. All of the board's chipset, storage, PCIe, and networking options can be found under the Advanced section.

As mentioned further up, ASUS includes its QFan utility which allows users to customize fan profiles for each of the board's six 4-pin headers as well as synchronize them all together. Users looking for control over the board's integrated RGB LED lighting will need to use software, as this doesn't come as part of the firmware on this board.

Overall the ASUS TUF Gaming firmware is as we were expecting, functional, easy to use, responsive, and very easy to navigate around. 


All of the ASUS TUF Gaming Z590-Plus WIFI's software revolves around two key utilities, the Armory Crate and ASUS AI Suite III. Users can install Armory Crate and networking drives upon installing Windows for the first time, although for users who find this intrusive, there's an option to turn this off in the firmware.

The ASUS Armory Crate has redefined how we install software, as the key utility has a pooled block of memory on the board for users to get a system up and running without needing an optical drive; just an active internet connection is needed. Within the ASUS Armory Crate, users can access the dashboard which provides a variety of functions. Users can use the Dashboard to change the lighting effect via ASUS AURA Sync, although the Aura Sync allows users to change the color and go a bit more in-depth in regards to customizations. Other functions that are useful include the updater, which can be used to keep the board's drivers and utilities up to date. 

Users looking to perform overclocks within Windows will appreciate the AI Suite III utility, with basic functions to adjust CPU frequency, CPU cache frequency, and CPU VCore. The AI Suite III software also allows users to change the loadline calibration settings within Windows, as well as make adjustments to power saving settings, for users that care about power efficiency. 

Although the TUF Gaming Z590-Plus WIFI and the Armory Crate allow users to install the relevant Realtek audio drivers, it doesn't make any audio customization software available. To rectify this, users can install the Realtek Control Panel directly from the Microsoft Store. ASUS also includes a custom TUF Gaming skinned version of the popular CPU-Z utility.

Visual Inspection Board Features, Test Bed and Setup
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  • Holliday75 - Tuesday, August 10, 2021 - link

    I have not used a soundcard in almost 15 years. Have not seen the point. If I want audiophile sound I'll go listen to my $3200 tower speakers.
  • MDD1963 - Wednesday, August 11, 2021 - link

    Intel's 845G chipset for the Pentium III/850 (I bought it around Christmas of the year 2000) has usable onboard sound for gaming. Have not bought a sound card since 1999 or so...
  • Qasar - Wednesday, August 11, 2021 - link

    i still use soundcards, mosty because onboard sound, doesnt have dd live or dts connect, and if it does, it isnt as good as the sb z or the sb ae-5 plus i now have. the last on board sound i used, was with the n force 2, and briefly with the a64 i had.
  • blppt - Thursday, August 12, 2021 - link

    I think the vast majority use the sound over the HDMI/DP out on the video card (then from the monitor/line out), at least in most setups i've seen.

    Then, if you want higher quality sound for your cans, people buy outboard DACs/headphone amps like the FiiOs, which are far superior to any motherboard solution anyways.
  • Leeea - Wednesday, August 11, 2021 - link

    I do

    Everyone I know does.
  • Oxford Guy - Wednesday, August 11, 2021 - link

    ‘In our overclock testing, the board’s inability to hit 5.2 GHz all-core stable with our Core i9-11900K processor was somewhat disappointing. Even with a hefty 1.45 V on the CPU VCore, it just didn’t want to play ball’

    Overclocking Rocket Lake?

    I hope you had one of those Intel freezer units the company used to demo some time ago.

    Overclocking is dead. It has zero relevance, zero practicality. Modern turbo has eliminated the point.

    Moreover, Rocket Lake’s critical flaw is its 14nm power hog process. Overclocking magnifies that.

    Finally, it’s a mistake to entice people to pump reckless amounts of voltage into expensive hardware. It’s hilarious, too, given this site’s defense of its use of JEDEC RAM speeds to hobble Zen 1 and 2 in reviews.

    Most people, you claimed, don’t open BIOS to switch on XMP. But, apparently trying to overclock Rocket Lake (with or without reckless levels of voltage) is so much more relevant.

    The amount of effort, expertise, and time involved in overclocking to obtain stability, rather than useless Cinebench scores, is vastly vastly more than what is needed to switch on a single BIOS setting (XMP).
  • Nfarce - Monday, August 16, 2021 - link

    That is one of the most ignorant things I've read here in my 20 years of being on AT. You do realize that turbo boost is rated around CORES USED right? So for example that hot 5.3 "turbo" boost on this i9 is for TWO cores not ALL EIGHT. And there are countless examples of why overclocking for ALL CORES is still relevant today. Stop spreading FUD because you don't know how to successfully overclock.
  • Oxford Guy - Thursday, August 19, 2021 - link

    The laws of physics disagree with your rant.

    As for the ad hom at the end, I’m quite sure that’s the reason — not that overclocking is dead.
  • Nfarce - Friday, August 27, 2021 - link

    So you don't refute that your "point" is without merit (or benchmarks, or any other back up proof). Keep talking and showing your ignorance. The facts and benchmarks on overclocking on ALL cores for productivity alone prove you wrong.
  • Oxford Guy - Wednesday, August 11, 2021 - link

    So... Did ‘14 nm’ appear anywhere on the first page or did 1.45 volts appear instead?

    The relevance... the priorities...

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