The latest ROG VRM architecture rises to the challenge by utilizing teamed power stages to rapidly swing current, while maintaining exemplary thermal. Those benefits lead to phase doublers becoming universally accepted in the industry, and they are still used for similar purposes today. As an added bonus, these processors also consume less power at idle and can transition between loads states much more quickly.
These improvements necessitated a re-evaluation of power design priorities, because phase doublers add a propagation delay that hampers transient response. Each VRM component serves a specific purpose. PWM controllers control the circuit, and the power stages do the heavy lifting from an electrical and thermal standpoint. The high-end power stages feature a low RDSON to reduce switching and conduction losses, helping to improve overall thermal headroom.
The VRM features 18 power stages rated at amps each for the Vcore and two amp power stages for the secondary voltage rails. Input and output filtering is provided by solid-polymer capacitors rated to last thousands of hours at high operating temperatures. With proprietary memory trace layout tweaks that improve signal integrity and mitigate noise, OptiMem III allows memory kits to run at lower latencies and reduced voltages while operating at higher frequencies. That rugged foundation is backed by complimentary headers for fans, AIOs and liquid loops, paired with flexible control options that allow you to build the ultimate high-performance, silent, water-cooled rig.
An extended heatsink helps cool vital motherboard power delivery areas to improve the overclocking potential of 11 th Gen Intel Core processors. Crafted from pure aluminum, the heatsink cover efficiently cools M. A high-quality thermal pad improves overall heat transfer from the system by bridging the heat generated by the power stages to the heatsink. Integrated M. A chipset heatsink blends seamlessly with the aluminum cover and prominently features the ROG logo.
Each header can be set to monitor and react to three user-configurable thermal sensors for workload-based cooling, and all settings can be easily managed by Fan Xpert 4 or via the UEFI. A bundled fan controller card includes six additional DC and PWM fan headers, plus two thermal-probe headers. Dual water-temperature headers and a flow-rate header feed information straight into the AI Suite utility, allowing you to track coolant temperatures and the flow rate of the entire loop.
The card features two temperature-sensor headers, along with two thermistors that can be attached to various components. There are also six ARGB headers to illuminate compatible fans and addressable strips. Advanced connectivity features including WiFi 6E and two Ethernet ports provide all the bandwidth you need for smooth online and LAN gameplay. Onboard WiFi 6E technology takes advantage of the newly available radio spectrum in the 6 GHz band, providing up to three times the bandwidth of the 5 GHz band and up to seven MHz bands to deliver ultrafast wireless networking speeds along with improved capacity and better performance in dense wireless environments.
Designed to meet the demanding requirements of power users and content creators, 10 Gbps onboard Ethernet provides a new level of home networking. With up to 10 times the bandwidth of standard gigabit Ethernet, you'll enjoy streaming uncompressed 4K UHD videos and system backups and file transfers that are faster than ever before. Onboard 2. The antenna has two built-in transmitters and receivers to enable faster transmission speeds, and it supports the 2.
Each port delivers up to 40 Gbps of bidirectional bandwidth for the latest high-speed devices and drives. Thunderbolt 4 also supports up to two external 4K displays and extends PCIe bandwidth to up to 32 Gbps.
You can then add metal heatsinks, helping to control thermals for maximum performance while elevating aesthetics. ROG SupremeFX audio technology delivers an exceptional dB signal-to-noise ratio on the line-in connection to provide best-ever recording quality. In addition, the dB dynamic range DNR provides an extremely low noise-floor, further accentuating dynamics and punch. A unique design allows the codec's impedance-sensing function to be ported with either the front or rear headphone outputs.
Integrated high-quality Japanese-made components help produce warm, natural-sounding audio with exceptional clarity. Get the best balance between performance, cooling, stability, and efficiency via one simple and intuitive interface. The TurboV Processing Unit TPU is an intelligent onboard micro-controller that provides an array of system-tuning features, including the ability to fine-tune voltages, monitor system stats and adjust overclocking parameters.
Whether you're cooling with air or water, Auto-Tuning mode intelligently configures all parameters with a single click. There's also an Extreme Quiet mode, which reduces all fan speeds to below the default minimum — keeping your system whisper-quiet when performing light tasks. It is batpoop crazy when you think about what AMD has accomplished in five years.
Sure, the initial ZEN Ryzen processors had a bit of a rocky launch with the inter-core latency discussion, p gaming performance, and memory support. But the tide turned with each month that passed, and over time more and more people would actually consider an AMD processor-based PC for their next purchase.
That shift in the paradigm is big when you think about Intel's monopolized position in the desktop processor market. With the launch of Ryzen , the 4th generation Ryzen product, AMD is about to rattle the cages once again with a massively strong and competitive processor lineup. RGB has been a trend that has developed big time and got implemented into anything you can give some power.
Now, I've been saying to graphics card and motherboard manufacturers for years, make a motherboard of graphics card that is completely black with added RGB bling. Adoption of PCIe 5. While the shift in memory architecture has presented issues, one of the most significant modifications from DDR4 to DDR5 has been the insertion of a PMIC, or power management integrated circuit, on the memory module itself.
The PMIC introduces a voltage lock on some lower-end memory modules that are coming out this generation, limiting the amount of potential performance that can be extracted from the kits. Engineers of this mobo have discovered a means to unlock those PMICs, allowing extra power to be delivered to the DIMMs, allowing for faster frequency response and tighter timings.
Even with kits that weren't built for overclocking, enthusiasts can locate options in the UEFI that allow them to manually alter the PMIC voltage and perform some basic overclocking. But let's startup the review.
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