Moving past the CPU socket to the right, the next thing we see are three 4-pin fan headers (in this case, CPU_FAN1/2 and AIO_PUMP). Each header supports PWM- and DC-controlled devices. Output varies among them: The CPU_FAN2, Chassis, and AIO_PUMP headers deliver up to 3A/36W, and the CPU_FAN1 header delivers 1A/12W. There’s plenty of power to go around for fans, AIOs, or even a custom loop.
Next are the four DRAM slots (not reinforced) with locking mechanisms on both sides. ASRock lists support for up to DDR5-8000, which is plenty fast for the platform. We again had some trouble with our default Kingston test kit on this board, but the others worked fine. I’m not sure why this specific kit doesn’t want to play nice with so many ASRock boards lately, even though it’s on the company’s QVL, but that has been a theme with these new boards.
Making our way down the right edge, we find the 4-LED POST Status Checker, which lights up during the POST process. If your system hangs in one of the four areas (CPU, Boot, DRAM, VGA), the corresponding LED remains lit, giving you a high-level idea where the problem lies. Next are two (of three) 3-pin ARGB headers for additional RGB lighting, a 24-pin ATX power connector for the motherboard, a front-panel 19-pin USB 3.2 Gen 1 (5 Gbps) header, and, finally, a front-panel USB 3.2 Gen 2×2 (20 Gbps) Type-C connector.
Power delivery consists of 19 phases, with 16 dedicated to Vcore. Power comes from the dual 8-pin EPS connectors to the Realtek RT3678BE dual-channel PWM controller. From there, it hits the Vishay Sic661 MOSFET, which ASRock lists at 80A. The 1,280A available to the processor is plenty to handle a Ryzen 9 9950X3D , even with PBO enabled.
At the bottom of the board, starting from the left and hidden under heatsinks and shrouds, is the audio solution. Here we spy the flagship Realtek ALC4082 codec, some dedicated audio capacitors, and an ESS ES9219 Quad DAC/Amp. It’s arguably the best integrated solution for this generation and chipset and perhaps a bit surprising to see on a budget board.
In the middle of the board are two full-length PCIe slots, each of which connects directly to the CPU. The top slot, using the updated PCIe Slot Q-Release function, supports speeds of up to PCIe 5.0 x16, while the bottom slot has a maximum speed of PCIe 5.0 x8. There is considerable lane sharing between the PCIe slots and M.2 sockets, though.
When M.2_2 is enabled and M.2_3 is disabled, PCIEX16_1 will run in x8 mode, and PCIEX16_2 will be disabled. When M.2_3 is enabled but M.2_2 is not in use, PCIEX16_1 will operate in x8 mode, and PCIEX16_2 will operate in x4 mode. If both M.2_2/3 are enabled, PCIEX16_1 will run at x8 mode and PCIEX16_2 will be disabled. In other words, if you plan on using the second and third PCIe 5.0 M. 2s, you will sacrifice PCIe slot bandwidth. We would have liked to see the M.2 Q-Release feature on this heatsink as well. As it stands, you have to use tools to access M.2_2/3 (and remove the GPU).
Speaking of M.2 sockets, we find three in the middle of the board: one above the top PCIe slot, under the large heatsink, and the others under the large plate heatsink. The topmost slot, M.2_1, connects directly to the CPU and is the only PCIe 5.0 x4 (128 Gbps) socket that will not affect any other components. It supports devices up to 110mm in size (as does M.2_3). M.2_2 holds 80mm modules. Asus lists RAID 0/1/5/10 support with 9000 series processors.
At the right edge, again hidden under shrouds and connected horizontally, is an 8-pin supplemental board power, a 19-pin USB 3.2 Gen 1 (5 Gbps) header, four SATA ports, another 19-pin USB 3.2 Gen 1 connector, and finally, two more 4-pin fan headers (rad fan).
Along the bottom edge is a range of connectivity and functionality, some of which you don’t usually see. From left to right are the front panel audio BCLK +/- buttons, LN2 Mode jumper, 2-pin thermistor header, and two 3-pin ARGB headers. Next to that are several switches helpful for extreme overclocking, including Pause, Slow Mode, a BIOS Switch, and a PCIe Mode switch. The latter two also have LEDs to display the current mode/BIOS. Next to that is a USB 2.0 header, the SlimSAS connector, the CMOS battery, and another USB 2.0 header. Then there’s the V-Latch switch, Retry and Safe Boot buttons, 4-pin water pump header, and finally, the front panel header.
As you may have already guessed, the rear IO has a lot going on. To start, throw your USB hub away; there are 16 USB ports here (you can have up to 25 with all headers attached). Three Type-C and 13 Type-A dominate the real estate. In yellow are ASRock’s Lightning USB ports that are on their own controller and reportedly offer less latency and jitter (for whatever that is actually worth to the average gamer). On the left are standard Wi-Fi antenna connections and an HDMI port, while next to that is a simple BIOS Flashback button that you may be able to use to drop an AM6-based chip in when they arrive. On the right is the Realtek 5 GbE jack, and finally, the audio stack with SPDIF and two 3.5mm jacks for line out and microphone.
Current page: ASRock X870 LiveMixer Wifi Features and Specifications
Key considerations
- Investor positioning can change fast
- Volatility remains possible near catalysts
- Macro rates and liquidity can dominate flows
Reference reading
- https://www.tomshardware.com/pc-components/motherboards/SPONSORED_LINK_URL
- https://www.tomshardware.com/pc-components/motherboards/asrock-x870-livemixer-wifi-motherboard-review#main
- https://www.tomshardware.com
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Informational only. No financial advice. Do your own research.