Unveiling ASUS B760M-AYW WIFI: The Budget-Friendly Motherboard with Premium Aesthetics

ASUS has recently launched the B760M-AYW WIFI motherboard, dubbed “Ayo Wei”, an entry-level model that exceeds expectations with its substantial heatsinks and visually appealing design. This motherboard is not only optimized for basic performance but also caters to the aesthetic needs of users with its striking features.

The B760M-AYW WIFI supports a wide range of Intel processors from the 12th, 13th, and 14th generations, as well as Pentium Gold and Celeron CPUs, using the LGA 1700 socket. It’s designed to deliver robust power with its 6+1+1 phase power delivery system and is based on the Intel B760 chipset.

Here are the key specifications of the B760M-AYW WIFI motherboard:

  • Form Factor: M-ATX (24.4cm x 21.1cm)
  • Memory: Supports 2 x DIMM, max 96GB, DDR5 8000+(OC) XMP
  • Storage Options: Includes 4 x SATA 6Gb/s ports and 2 x Gen4 M.2 SSD slots
  • Networking: Features Intel® 2.5GbE LAN chip and wireless communication with Wi-Fi 6 and Bluetooth 5.3
  • Expansion Slots: 1 x PCIe 4.0 x16 (direct CPU link), 2 x PCIe 4.0 x1
  • Audio: ALC879 codec with 3 x Audio jacks
  • USB Ports: Numerous USB options including headers and Type-A ports with varying speeds
  • Visual Outputs: 1 x HDMI 2.1 supporting 4K at 60Hz
  • Additional Features: RGB support with 3 x ARGB Gen2 headers and multiple fan connectors for better cooling management

With its comprehensive blend of features designed to meet both functional and aesthetic requirements, the B760M-AYW WIFI offers excellent value for those looking to build a new PC or upgrade their existing setup, balancing performance with visual flair.

Enhancing Entry-Level Tech: ASUS B760M-AYW WIFI Motherboards Unveil Advanced Cooling and Design

In the past, entry-level motherboards often skimped on heatsinks and design flair, leaving performance-oriented users with an eye for aesthetics little choice but to opt for higher-end models. ASUS has recognized this gap and introduced two variants catered to this niche at the twilight of the Intel LGA1700 socket’s lifecycle: the DDR5-compatible B760M-AYW WIFI and its DDR4 counterpart, the B760M-AYW WIFI D4. While both models share similar specifications, the DDR5 version demonstrates a greater commitment to thermal management with its enhanced heatsink designs, aiming to offer attractive specifications and aesthetics at an entry-level price.

The B760M-AYW WIFI takes inspiration from space for its design. It features large, silver-brushed heatsinks that cover the power delivery areas, the primary SSD slot, and the chipset, branded with the words “SPACE” and “AYW”. This is complemented by a transparent decorative plate that creates a sense of depth and layering. This design not only enhances the board’s visual appeal but also significantly improves its functional performance in heat dissipation, making it an excellent choice for gamers and builders who prioritize both looks and functionality without breaking the bank.

The packaging of the ASUS B760M-AYW WIFI motherboard is quite striking and aligns well with its design philosophy. The box prominently displays a detailed image of the motherboard, emphasizing its modern, sleek aesthetic and the large, silver-brushed heatsinks that are a notable feature. The design elements such as the “SPACE” and “AYW” markings are visible, reinforcing the space-inspired theme discussed earlier.

Key features are highlighted on the box to attract the attention of potential buyers:

  • Intel Core 14th Gen Ready: Signaling compatibility with the latest Intel processors, ensuring buyers they are investing in future-proof technology.
  • PCIe 4.0 Ready: Indicates support for the latest PCIe standards for faster data transfer speeds, essential for high-performance gaming and professional tasks.
  • DDR5: This specification is prominently displayed, pointing to the board’s support for the latest DDR5 memory, which offers greater bandwidth and speed improvements over its predecessors.
  • HDMI™ and Wi-Fi 6: Essential modern connectivity options are clearly advertised, catering to both display and networking needs.

The box also features branding like “ASUS” and “In Search of Incredible”, which are part of ASUS’s brand identity, emphasizing quality and innovation. The logos for Intel, Aura Sync, and ARGB Gen2 support also decorate the box, which appeal to users interested in extensive customization and synchronization options for RGB lighting—a popular feature among gaming and enthusiast communities.

The packaging is designed not only to inform but also to entice, showcasing both the performance capabilities and the aesthetic appeal of the motherboard, making it attractive to a broad spectrum of users from gamers to tech enthusiasts.

The back of the ASUS B760M-AYW WIFI motherboard packaging provides a comprehensive and detailed overview of its specifications and features, ensuring that potential buyers are well-informed about the product’s capabilities and compatibility. This attention to detail helps in making an educated purchasing decision, especially for tech enthusiasts who prioritize specific features for their setups.

Here’s a breakdown of the key specifications highlighted on the box:

  • CPU Support: Compatibility with Intel Core 12th, 13th, and upcoming 14th generation processors, Pentium Gold, and Celeron processors, utilizing the LGA 1700 socket.
  • Chipset: Intel B760 chipset, which supports modern connectivity and storage options.
  • Memory: Supports up to 96GB of DDR5 RAM with overclocking capabilities to 8000+ MHz, utilizing XMP profiles for easy configuration.
  • Ethernet: Equipped with an ASUS Intel 2.5GbE network solution, providing faster and more stable internet connectivity compared to standard gigabit.
  • Storage: Provision for ample storage options including 4 x SATA 6Gb/s ports and 2 x M.2 slots that support PCIe 4.0 mode for faster data access and improved performance.
  • Expansion Slots: Features a PCIe 4.0 x16 slot directly linked to the CPU for maximum performance and additional PCIe 4.0 x1 slots for other expansions.
  • Graphics: Offers HDMI 2.1 output supporting 4K at 60Hz, suitable for high-definition gaming and multimedia presentations.
  • Audio Features: High-definition audio powered by ALC879 codec, with audio shielding and dedicated layers for left and right tracks, enhancing audio clarity.
  • Wireless & Bluetooth®: Includes Wi-Fi 6 for high-speed wireless connectivity and Bluetooth 5.3 for a wide range of wireless peripherals.
  • USB Ports: A range of USB connectivity options, including headers for additional front or rear USB ports.

The packaging highlights ASUS’s 5X Protection III, which underscores durability and reliability through features like overvoltage protection, safe slot core, and stainless-steel back I/O which are crucial for longevity and stable operation.

By integrating detailed technical information with clear visuals of the motherboard, ASUS ensures that both novice and experienced users understand the full potential and value of the B760M-AYW WIFI motherboard, enhancing customer satisfaction and trust in the product.

ASUS has enhanced its customer service offerings by introducing a notable warranty package for the B760M-AYW WIFI motherboard. This package includes a 3+1 year warranty and an additional service feature where any faults within the first year will qualify for an immediate replacement. This commitment is clearly highlighted on the packaging with a gold badge stating “No.1” and “4-year warranty,” emphasizing ASUS’s confidence in their product’s reliability and quality.

This extended warranty and quick replacement service not only provide peace of mind to consumers but also demonstrate ASUS’s dedication to customer satisfaction and trust. By ensuring that their products are backed by a robust support system, ASUS aims to alleviate concerns regarding potential technical issues, making it more appealing for users to invest in their hardware.

The inclusion of a QR code next to this warranty badge likely offers customers an easy way to access detailed information about the warranty terms or to register their product, enhancing the user experience right from the start. Such proactive customer support features are crucial for building a loyal user base, particularly in the competitive tech market where confidence in product quality and manufacturer support can significantly influence purchasing decisions.

The ASUS B760M-AYW WIFI motherboard comes with a comprehensive set of accessories, ensuring users have everything needed to set up and optimize their system right out of the box. The inclusion of these components emphasizes ASUS’s commitment to providing a complete, user-friendly experience. Here’s what’s included in the package:

  1. Quick Start Guide: A detailed manual that provides essential installation instructions and system setup information, helping users get started quickly and efficiently.
  2. I/O Shield: A detachable backplate that fits on the rear of the case, providing a neat finish and protection against electrostatic discharge. This shield is pre-fitted for ease of installation.
  3. Wi-Fi Antennas: Dual-band antennas for the Wi-Fi module, enhancing wireless connectivity and signal stability. These are crucial for maximizing the performance of the onboard Wi-Fi 6 capabilities.
  4. SATA Cables: Necessary for connecting storage devices such as SSDs and HDDs. The inclusion of these cables ensures users can fully utilize the motherboard’s SATA ports without needing additional purchases.

The package likely includes a driver and utility software DVD, which provides the latest drivers and ASUS-exclusive utilities to enhance system performance and stability. This thoughtful inclusion of essential accessories and tools demonstrates ASUS’s attention to detail and understanding of consumer needs, contributing to a satisfying unboxing experience and easing the setup process. Such comprehensive packaging also helps in reducing the initial setup time and potential issues, making it easier for even novice builders to get their system up and running with minimal fuss.

The ASUS B760M-AYW WIFI motherboard is designed with both functionality and aesthetics in mind, evident from its striking visual appearance and detailed layout. This motherboard showcases a blend of robust construction and stylish elements which not only enhances its performance but also adds a visually appealing factor to any PC build. Here’s a closer look at its key features:

  1. Heatsink Design: The large, white heatsink with the “AYW” branding is prominently featured, which is not just for aesthetics but also serves a crucial role in dissipating heat effectively from the chipset and VRM (Voltage Regulator Module) areas. This helps in maintaining optimal performance even under high load conditions.
  2. IO Shield and Connectivity: The integrated IO shield is pre-mounted, which is a convenience feature that simplifies the installation process. The motherboard features a variety of connectivity options including HDMI for video output, multiple USB ports for peripherals, and audio jacks supported by premium capacitors that ensure better sound quality.
  3. Expansion Slots: The motherboard includes several PCIe slots, with a PCIe 4.0 x16 slot prominently positioned for graphics cards, offering maximum bandwidth for the latest high-performance GPUs. Additional PCIe 4.0 x1 slots are available for other cards like sound cards, network cards, or additional storage controllers.
  4. Memory and Storage: It supports dual DDR5 memory slots which offer high-speed memory capabilities essential for modern applications and gaming. For storage, it features SATA ports and M.2 slots that support NVMe SSDs for ultra-fast data access speeds.
  5. Wireless Module: The visible gold-plated connectors on the motherboard are part of the wireless module which supports Wi-Fi 6, ensuring high-speed wireless connectivity. This is essential for a seamless online experience, be it gaming, streaming, or professional use.
  6. Detailed PCB Design: The printed circuit board (PCB) includes detailed markings for various connectors and components, which aids in the installation process, making it user-friendly especially for those who are assembling a PC for the first time.

The B760M-AYW WIFI is meticulously crafted to meet the demands of modern PC users, offering a mix of high-performance specifications and reliability. It’s an ideal choice for those who are looking to build a new PC or upgrade their current system with a motherboard that offers both top-notch functionality and a stunning design.

The close-up image of the M.2 heatsink on the ASUS B760M-AYW WIFI motherboard showcases its thoughtful design and functionality aimed at enhancing the performance of installed M.2 SSDs. The heatsink is essential for maintaining optimal operating temperatures, which is particularly important given that high-speed M.2 NVMe SSDs can generate significant heat under load. Here’s an overview of its features and benefits:

  1. Robust Material and Construction: The heatsink is made from a solid block of metal, likely aluminum, which is effective for heat dissipation. The brushed finish not only adds a sleek aesthetic but also increases the surface area slightly, improving its cooling capabilities.
  2. Strategic Placement: Positioned directly over the M.2 slot, the heatsink ensures that the SSD is covered and protected from heat buildup. This placement is crucial for preventing thermal throttling, which can reduce the speed and lifespan of the SSD during intensive tasks like gaming, video editing, or large file transfers.
  3. Design Integration: The design features the label “Z.A.M. II”, possibly denoting a specific technology or design philosophy used by ASUS. The clean lines and modern look of the heatsink integrate seamlessly with the overall design of the motherboard, maintaining a uniform and attractive appearance.
  4. Performance Enhancement: By keeping the SSD cool, the heatsink helps maintain peak performance and reliability of the storage device. This is especially beneficial in systems that are heavily used or subjected to extended gaming or rendering sessions where consistent performance is critical.
  5. Easy Installation: The presence of screws indicates that the heatsink is designed to be easily removable, allowing for straightforward installation or upgrades of the M.2 SSD. This user-friendly feature is appreciated by those who might want to upgrade their storage solutions as newer, faster technologies become available.

In summary, the M.2 heatsink on the ASUS B760M-AYW WIFI motherboard is not only a functional component that enhances the performance and longevity of M.2 SSDs by mitigating heat but also contributes to the motherboard’s aesthetic appeal, reinforcing ASUS’s commitment to quality, performance, and design.

The power delivery (VRM) heatsink on the ASUS B760M-AYW WIFI motherboard, which is a crucial component for ensuring the motherboard’s stability and performance. The VRM, or Voltage Regulator Module, is responsible for converting the power from the PSU (power supply unit) to voltages usable by the CPU. Effective cooling of the VRM is essential, particularly under heavy loads or during overclocking, as it helps prevent overheating and ensures stable operation of the CPU. Here are the key aspects of this VRM heatsink:

  1. Robust and Stylish Design: The heatsink features a bold design with the “AYW” branding and the word “SPACE” creatively integrated, highlighting the space-inspired theme mentioned earlier. The design isn’t just for looks; the large surface area and the metal used (likely aluminum) enhance its ability to dissipate heat efficiently.
  2. Optimal Placement and Functionality: Located near the CPU socket, the VRM heatsink plays a vital role in maintaining the reliability of the motherboard by cooling the voltage regulators effectively. This is critical for the longevity and operational stability of both the motherboard and the processor, especially under conditions of high computational demand.
  3. Enhanced Aesthetic Appeal: The aesthetic integration of the VRM heatsink with the overall motherboard design is evident. The silver brushed finish and geometric lines add a modern and sophisticated touch to the motherboard, making it visually appealing for windowed cases where the internal components are on display.
  4. Quality Materials: The use of high-quality materials not only aids in heat dissipation but also adds to the durability of the motherboard. The sturdy construction helps protect against physical damage and wear over time, further enhancing the motherboard’s lifespan.
  5. Integrated Connectivity Features: Just below the heatsink, you can also see elements like the Wi-Fi antenna connections, emphasizing the motherboard’s modern connectivity options. This integration shows the attention to detail ASUS has put into designing a motherboard that balances performance, functionality, and design aesthetics.

The VRM heatsink on the ASUS B760M-AYW WIFI motherboard is not only functionally essential for maintaining system stability and performance by efficiently managing heat but also contributes significantly to the visual impact and durability of the board, affirming ASUS’s commitment to quality in both utility and design.

The chipset heatsink of the ASUS B760M-AYW WIFI motherboard, a crucial component designed to manage heat effectively and ensure stable operation of the motherboard’s chipset. Here are some detailed insights into its design and functionality:

  1. Heatsink Design: The heatsink is crafted with a brushed metal finish, likely aluminum, which is known for its excellent thermal conductivity and durability. The design features minimalist branding with the iconic ASUS logo and the word “SPACE,” tying into the overall space-inspired theme of the motherboard.
  2. Functionality: Chipsets, which manage data flow between the processor, memory, and peripherals, can generate considerable heat under load. This heatsink is strategically placed over the chipset to absorb and dissipate this heat effectively, preventing thermal throttling and maintaining optimal performance.
  3. Aesthetic Integration: The sleek, modern design of the chipset heatsink not only serves a functional purpose but also enhances the visual appeal of the motherboard. The clean lines and industrial aesthetic complement the motherboard’s overall design, making it appealing for builds where aesthetics are as important as performance.
  4. Location and Accessibility: Positioned near essential connectors and expansion slots, the chipset heatsink is integrated into the motherboard layout without obstructing access to other components like SATA ports, as visible in the image. This thoughtful placement ensures that installation and upgrades can be performed with ease.
  5. Enhanced Durability: The sturdy build of the heatsink contributes to the overall durability of the motherboard. By protecting the chipset from excessive heat, it helps to extend the lifespan of the motherboard, ensuring long-term reliability and performance.

The chipset heatsink on the ASUS B760M-AYW WIFI motherboard is an example of how ASUS integrates practical design with aesthetic considerations. It reflects their commitment to quality and innovation, aiming to provide users with not only a high-performing motherboard but also one that enhances the look of their PC setup.

The ASUS B760M-AYW WIFI motherboard, as shown in the image, highlights its RAM and expansion slot layout, which is particularly designed for performance and future-proofing in compact systems. The board supports dual-channel DDR5 memory and multiple expansion options, ideal for mainstream gamers and PC builders. Here are some key details about its capabilities:

  1. DDR5 Memory Support: The motherboard features two DIMM slots that support DDR5 memory, the latest standard in RAM technology, offering faster speeds and better power efficiency than its predecessor, DDR4. It supports up to 96GB of RAM with speeds exceeding 8000 MT/s, making it capable of handling high-end gaming, video editing, and other intensive applications.
  2. Compact M-ATX Form Factor: This form factor is perfect for builders looking to assemble a smaller PC without compromising on performance. It provides enough room for essential components while being more manageable and space-efficient than full-sized ATX motherboards.
  3. PCIe Expansion Slots: The board includes one PCIe 4.0 x16 slot, which offers double the bandwidth of PCIe 3.0, making it ideal for modern high-performance graphics cards. There are two PCIe 4.0 x1 slots for other expansion cards like sound cards, network cards, or additional storage controllers.
  4. Storage Options: With four SATA 3 ports and two Gen 4 M.2 SSD slots, the motherboard provides ample storage solutions for various needs. The SATA 3 ports offer reliable storage with good speeds for standard HDDs or SSDs, while the M.2 slots support the latest Gen 4 SSDs, which are significantly faster and ideal for users requiring quick data access and transfer speeds.
  5. Processor Compatibility and Chipset Features: The B760 chipset underpins support for a range of Intel processors from the 12th to 14th generations, along with Pentium Gold and Celeron options. This chipset is suitable for various uses from basic computing to intensive gaming, providing versatility in processor selection based on the user’s needs.

This motherboard strikes an excellent balance between size, performance, and expansion capability, making it a superb choice for users who need a powerful, versatile system within a compact footprint. It’s particularly appealing for mainstream gamers who want a system that can handle current and future gaming demands without occupying too much space.

This image provides a detailed view of the ASUS B760M-AYW WIFI motherboard’s layout, focusing on the PCIe slots and other connectivity features, which are key for expansion and customization of your PC build. Here’s an in-depth look at these elements:

PCIe Slots Configuration:

  • 1 x PCIe 4.0 x16 Slot: This is the main expansion slot, typically used for graphics cards. It offers the highest data transfer rates possible on this board, suitable for high-end GPUs to maximize their performance. It is strategically placed to accommodate larger graphics cards, providing the bandwidth needed for demanding applications and games.
  • 2 x PCIe 4.0 x1 Slots: These smaller slots are ideal for other expansion cards such as sound cards, network cards, or additional storage controllers. The PCIe 4.0 interface ensures that they have ample bandwidth for most tasks that don’t require the massive throughput of the x16 slot.

Heatsink Coverage:

  • The image also shows two important heatsinks. One covers the M.2 slot directly beneath the x16 slot, ensuring NVMe SSDs remain cool under load. The other larger heatsink, branded with “SPACE”, covers the chipset, maintaining optimal temperatures for the motherboard’s vital traffic management functions.

Connectivity and Peripheral Support:

  • SATA Ports: There are several SATA ports visible, useful for connecting a variety of storage devices like HDDs and SSDs.
  • M.2 Slot: Apart from the PCIe x16 and x1 slots, there’s an M.2 slot (covered by the heatsink) for ultra-fast NVMe SSDs, which is essential for users who need quick access to large files and rapid boot times.
  • Additional Headers and Connectors: The board includes numerous headers for front panel connections, USB ports, and fan connectors, which are clearly labeled for easy setup. This supports a variety of case designs and user configurations.

Detailed and Organized Layout:

  • The motherboard is designed with a clear and organized layout, making it easy for DIY builders to install and connect all components. Each section and port is clearly labeled, minimizing setup time and potential errors during the building process.

Robust Build Quality:

  • The overall build quality appears robust with high-quality soldering and component placement. This ensures durability and long-term reliability, which is crucial for a component as central as the motherboard.

The ASUS B760M-AYW WIFI motherboard is well-suited for users looking to build a high-performance PC in a compact form factor, providing all necessary features for modern computing needs, from gaming to intensive application workloads.

The 8-pin CPU power connector on the ASUS B760M-AYW WIFI motherboard. This connector is critical for providing stable and sufficient power to the CPU, especially under high load conditions or when overclocking. Here’s why this component is so crucial:

  1. Power Delivery: The 8-pin CPU power connector can deliver more power compared to the older 4-pin connectors. This capability is essential for supporting high-performance processors, particularly those that can consume significant power under load, such as Intel’s 12th, 13th, and forthcoming 14th generation CPUs supported by this motherboard.
  2. Stability and Efficiency: Having a dedicated 8-pin connector for the CPU ensures that the processor receives a stable power supply, reducing the risk of power fluctuations that can lead to system instability or crashes. This is especially important during intensive computing tasks or gaming sessions where consistent performance is crucial.
  3. Overclocking Support: For enthusiasts looking to push their CPUs beyond the stock speeds, the 8-pin connector is beneficial. It provides additional headroom for increased power draw, which is often required when overclocking. This helps maintain stable operation even at higher clock speeds and voltages.
  4. Design and Placement: The placement of the connector near the edge of the motherboard is strategically chosen to help with cable management, allowing for a cleaner and more organized build. It also makes it easier to route the power cable directly from the PSU, minimizing the distance the power needs to travel, which can help reduce electromagnetic interference and power loss.
  5. Build Quality: The robustness of the connector, with secure and durable pins, ensures a solid connection that resists wear and tear over time. The motherboard’s design around the power connector, including its proximity to heatsinks and other components, demonstrates ASUS’s attention to detail in ensuring optimal layout for heat distribution and power efficiency.

The inclusion of an 8-pin CPU power connector on the ASUS B760M-AYW WIFI motherboard is a testament to its capability to support high-performance CPUs while providing stability and reliability for advanced computing needs and future-proofing the system to handle newer, more power-intensive processors as they become available.

The detailed overview of the ASUS B760M-AYW WIFI motherboard shows various connectors and expansion options that cater to a range of uses, highlighting its versatility. Here’s an analysis of the features based on the image and additional information provided:

PWM and ARGB Connectors:

  • PWM Fan Connectors: There are two PWM fan headers visible in the image, which allow for precise control over fan speed. PWM (Pulse Width Modulation) support means the motherboard can adjust the fan speeds based on system temperature, leading to better cooling efficiency and quieter operation.
  • ARGB Headers: Three 5V ARGB (Addressable RGB) headers are provided for connecting RGB lighting components. These headers support individually addressable LEDs, enabling users to customize their system’s lighting with a variety of colors and effects, enhancing the aesthetic appeal of their build.

USB Connectivity:

  • Front Panel USB: The motherboard includes one 9-pin USB 2.0 header and one 19-pin USB 3.0 header for front panel connections. These allow for multiple USB ports to be accessible from the front of the case, providing convenient access for connecting devices.
  • Rear USB Ports: There are two USB 2.0 ports and four USB-A 5Gbps ports on the rear I/O panel. It’s noted that the motherboard lacks USB-C ports, which might be a limitation for users looking for newer connectivity options that support faster data transfer and other advanced features like alternate mode display output.


  • The motherboard is equipped with a 2.5GbE LAN port, offering faster than standard gigabit connections, which is beneficial for intensive online gaming or high-speed data transfers. Wi-Fi 6 capability is included, providing the latest in wireless networking technology with improved speed and reliability, essential for a seamless internet experience.

Audio and Video Outputs:

  • HDMI Output: A single HDMI 2.1 port supports 4K at 60Hz, suitable for high-resolution displays and capable of delivering a solid video output for gaming or streaming.
  • Audio Ports: There are three 3.5mm audio jacks on the rear, supporting high-definition audio and possibly different audio channels for immersive sound experiences in gaming and multimedia applications.

The ASUS B760M-AYW WIFI motherboard offers a comprehensive suite of features that cater well to both general and enthusiast-level PC users. It provides a good balance of performance, connectivity, and customization options, although the absence of USB-C might be felt by users who require the latest standards for external connections. Despite this, the combination of robust networking options, expandable USB connectivity, and customizable lighting make it a competitive choice for its segment.

This image clearly shows the crucial connectors on the ASUS B760M-AYW WIFI motherboard, specifically the 24-pin ATX power connector and the USB 3.0 19-pin header. These connectors are vital for providing power and expanding the motherboard’s functionality. Let’s delve into their roles:

24-Pin ATX Power Connector:

  • Primary Power Supply: This is the main power connector that supplies power to the motherboard. It connects directly to the power supply unit (PSU) and is essential for providing the necessary power for the motherboard and its components to function.
  • Stability and Power Distribution: The 24-pin connector ensures stable power distribution across the motherboard. It’s crucial for overall system stability and helps in distributing power evenly to all parts of the motherboard, including the CPU, memory, and expansion slots.

USB 3.0 19-Pin Header:

  • Front Panel USB Connectivity: This header allows for additional USB 3.0 ports to be accessible from the front panel of a computer case. USB 3.0 offers significantly faster data transfer rates compared to USB 2.0, which is beneficial for external hard drives, flash drives, and other peripherals that require high-speed data access.
  • Ease of Access: Having USB 3.0 ports on the front panel makes it easier for users to connect devices without reaching around to the back of the computer case, providing convenience and improving the usability of the system.

Build Considerations:

  • These connectors are typically located on the edge of the motherboard for easier access and to assist in clean cable management within the computer case. This placement helps in creating a neat and organized build, reducing airflow blockage from messy cables and enhancing the aesthetic appeal of the system.
  • The robust design of these connectors ensures a secure connection, minimizing the risk of disconnections or power issues, which is especially important for the stability of high-performance systems.

The inclusion of a 24-pin ATX power connector and a USB 3.0 19-pin header on the ASUS B760M-AYW WIFI motherboard illustrates its design to cater to both power requirements and functional expandability. These features ensure that the motherboard can support modern computing demands while providing users with the convenience of high-speed USB connectivity. This makes the motherboard a versatile choice for various use cases, from office applications to high-end gaming.

The image shows a detailed view of the lower section of the ASUS B760M-AYW WIFI motherboard, highlighting several crucial connector pins and headers that are essential for various functions within a PC build. Here’s a breakdown of these components:

COM Port (Serial Port):

  • This is a legacy feature often used in industrial applications or with older devices that require serial communication. It can be used for devices like older printers, machining tools, or other specialized equipment.


  • This header allows the connection of an optical out port to the motherboard, which can be used to send digital audio signals to an external receiver or sound system without interference typically found in analog outputs.

TPM (Trusted Platform Module) Header:

  • This connector is used to attach a TPM device that handles hardware-based security functions. It can secure hardware through integrated cryptographic keys and is useful for enhancing security measures on your system, particularly for tasks like encryption and secure boot.

Chassis Fan Connector (CHA_FAN2):

  • Additional chassis fan connectors are provided for connecting extra fans to improve cooling within the system’s case. These are crucial for maintaining optimal airflow and cooling, especially under load.

Front Panel Headers (F_PANEL):

  • These include connectors for the power button, reset button, power LED, and hard drive activity LED. They are essential for interfacing the motherboard with the case’s front panel controls and indicators.

USB 2.0 Header (USB_811):

  • This header allows for additional USB 2.0 ports, typically used for front panel USB connections or internal USB devices. USB 2.0 is still widely used for peripherals that do not require the high bandwidth of USB 3.0 or later.

Audio Connectors (SPKR, AAFP):

  • SPKR: Connector for a speaker that can emit system beeps and alarms.
  • AAFP (Analog Audio Front Panel): This connector is used for linking the motherboard to the case’s front panel audio ports, allowing easy access to connect headphones and microphones.


  • The visible coin-cell battery powers the motherboard’s real-time clock (RTC) and CMOS settings, keeping them active when the system power is off.

Each of these components plays a vital role in system functionality and customization. From connecting legacy devices and expanding system cooling options to enhancing system security and providing essential audio and power controls, the layout and inclusion of these connectors ensure that the motherboard can cater to a wide range of user needs, making it versatile for different computing environments and preferences.

The rear I/O panel of the ASUS B760M-AYW WIFI motherboard provides a variety of connectivity options that cater to diverse user needs, from standard peripherals to high-speed networking and audio output. Here’s a detailed examination of the I/O ports available:

USB Ports:

  • USB 3.2 Gen 1 Ports (Blue): There are four blue USB 3.2 Gen 1 ports that offer transfer speeds of up to 5 Gbps, suitable for connecting high-speed peripherals such as external hard drives, gaming peripherals, and more.
  • USB 2.0 Ports (Black): Two USB 2.0 ports are available for connecting devices that don’t require the higher bandwidth of USB 3.2, such as keyboards, mice, or other legacy peripherals.

HDMI Port:

  • This port supports HDMI 2.1 output, which is capable of delivering 4K resolution at 60Hz, ideal for high-definition displays and capable of supporting modern gaming and video output requirements.

Ethernet Port:

  • A single RJ-45 port that supports 2.5 Gigabit Ethernet provides faster-than-gigabit network speeds, enhancing online gaming, streaming, and high-speed data transfers.

Audio Jacks:

  • The panel includes three color-coded 3.5mm audio jacks for line-in, line-out, and microphone, supporting high-definition audio playback and recording. This is essential for providing high-quality audio for games, movies, and music production.

Wi-Fi Antenna Connectors:

  • Two gold-plated SMA antenna connectors for Wi-Fi, which support the onboard Wi-Fi 6 capabilities. Wi-Fi 6 offers improved wireless performance and is ideal for environments with multiple Wi-Fi devices, providing faster speeds and better handling of multiple simultaneous connections.

USB 3.2 Gen 2 Type-A Port (not visible):

  • If present, this would typically offer faster transfer speeds up to 10 Gbps, though it is not visible here, and the description indicates the absence of USB-C, which is a limitation for users needing the latest connectivity options for devices that support USB-C.

This assortment of ports ensures that the motherboard can handle a variety of devices and requirements, from basic tasks to more bandwidth-intensive activities. The inclusion of modern standards like USB 3.2 and HDMI 2.1, along with robust network options like 2.5Gb Ethernet and Wi-Fi 6, makes this motherboard a strong contender for users looking to build a versatile and future-proof system. However, the lack of USB-C may be a drawback for those who rely on the latest external storage solutions or display technologies that utilize this connection type.

Unveiling the ASUS B760M-AYW WIFI: A Detailed Look Inside the Entry-Level Motherboard

The ASUS B760M-AYW WIFI motherboard, after removing the heatsinks, reveals its power delivery system, which is an essential component dictating the motherboard’s ability to handle various processors and support different levels of performance, especially under load. Let’s dive into the specifics of its power design and component selection:

Power Phase Design (6+1+1 Phases):

  • 6 Phases for CPU Core Power: This motherboard utilizes a 6-phase design for the CPU VCore, which is the main voltage regulator for the processor. Each phase consists of one upper (high side) Vishay RA14B MOSFET and two lower (low side) Vishay RA12B MOSFETs. This configuration helps in efficient power conversion and smoother voltage regulation, providing stable power to the CPU under varying loads, which is critical for performance and longevity.
  • 1 Phase for Integrated Graphics (iGPU): There is one phase dedicated to powering the integrated graphics on compatible processors. This phase uses a “2 high 2 low” bridge design, with two Vishay RA14B MOSFETs on the high side and two Vishay RA12B MOSFETs on the low side. This ensures adequate power delivery to the iGPU for optimal graphics performance.
  • 1 Phase for Auxiliary (AUX) Power: Another phase is dedicated to auxiliary power, which typically supports other motherboard functions. This also employs a “2 high 2 low” design similar to the iGPU phase, ensuring stable power to peripheral components and subsystems.

Heatsink Design:

  • The removal of the heatsinks offers a glimpse into how the motherboard manages heat dissipation. Efficient cooling of the power delivery system is crucial, as it can significantly affect the motherboard’s ability to operate reliably, particularly when the system is overclocked or under sustained high loads. The heatsinks are designed to cover critical areas, providing passive cooling that helps maintain optimal temperatures.

Component Quality:

  • The use of Vishay MOSFETs is notable because Vishay is known for manufacturing high-quality, reliable components. The selection of RA14B and RA12B MOSFETs indicates a focus on ensuring a stable power supply and efficient power management, which are critical for overall system stability and performance.

Overall Construction and Layout:

  • The layout of the power delivery components around the CPU socket is designed to minimize power loss and maximize efficiency. The proximity and arrangement of these components are optimized to provide short and direct pathways for electrical currents, reducing latency and improving response times to load changes.

This configuration and choice of components on the ASUS B760M-AYW WIFI motherboard illustrate a well-thought-out approach to balancing cost and performance in an entry-level motherboard. By investing in a robust power delivery system and effective thermal management, ASUS ensures that this motherboard can support mainstream gaming and general performance needs, making it a solid choice for budget-conscious builders looking for reliability without the premium cost.

The backside of the ASUS B760M-AYW WIFI motherboard highlights a clean and uncluttered design with no additional components mounted on this side. This is a typical configuration for many motherboards, particularly in the consumer segment, where minimizing complexity helps in reducing costs and enhancing reliability. Let’s explore the implications and benefits of this design approach:

  1. Thermal Management: Having no components on the back of the motherboard can aid in better heat dissipation. Without heat-generating components on this side, the motherboard can manage thermal load more effectively, relying on the front side for most of the heat dissipation through direct contact with air flow and heatsinks.
  2. Structural Integrity: Without the additional solder points that would come with rear-mounted components, the motherboard can potentially offer better structural integrity. This is especially important in environments where the motherboard may be subject to physical stress during handling, installation, or even during operation in cases with poor support.
  3. Simpler Manufacturing and Repair: Manufacturing a motherboard with components only on one side can simplify the assembly process, reducing manufacturing costs and time. It also simplifies repairs and diagnostics, as technicians need to access only one side of the board to test or replace most components.
  4. Lower Risk of Damage: During installation, having a clean back reduces the risk of damaging components. This is particularly advantageous for less experienced users who may handle the motherboard improperly. It also prevents damage from standoff misalignment or from mounting in cases where the back of the motherboard might contact the case directly.
  5. EMI (Electromagnetic Interference) Management: With fewer components on the backside, there’s a reduced risk of EMI emissions from the rear of the board. This can be particularly beneficial in builds where other sensitive components or cables might run close to the back of the motherboard.

The backside of the ASUS B760M-AYW WIFI reflects a design optimized for cost-effectiveness, ease of manufacturing, and user-friendly installation, making it well-suited for the target market of entry-level consumers who need a reliable, straightforward solution for their computing needs. This motherboard design underscores a balance between performance, cost, and user experience, catering effectively to its intended user base.

The ASUS B760M-AYW WIFI motherboard with its heatsinks on a scale that reads 0.2 kg illustrates the relatively solid construction of this entry-level motherboard. The weight of 0.2 kg for the motherboard including its heatsinks is indicative of the use of quality materials and a robust design, which are crucial for both the performance and longevity of the motherboard. Here’s why the weight and construction are significant:

  1. Quality of Materials: The weight suggests that ASUS has not skimped on the quality of materials used in the motherboard’s construction. Heavier heatsinks often indicate the use of denser metals like aluminum, which are excellent for heat dissipation. This is particularly important for maintaining system stability and performance as it helps keep critical components like the CPU and chipset cool under load.
  2. Durability: A solid build quality, inferred from the weight, implies that the motherboard can withstand the physical demands of installation, handling, and long-term operation within a PC case. This durability is important for users who may need to frequently access the internal components for upgrades or maintenance.
  3. Heatsink Efficiency: The substantial heatsinks, as part of the weight, are likely designed to cover larger areas or have thicker fins, enhancing their ability to dissipate heat effectively. Efficient cooling is vital for the reliability and optimal performance of the motherboard, especially when supporting modern processors that can generate significant heat.
  4. Overall Construction: The total weight being solid for its class also reflects on the overall construction of the motherboard, including soldering of components, layering of the PCB, and additional features like reinforced PCIe slots or additional PCB layers, all of which contribute to the motherboard’s structural integrity and electromagnetic compatibility.

Given these factors, the ASUS B760M-AYW WIFI motherboard’s weight and build quality indicate that it is designed to offer reliable performance in its category. This can be a deciding factor for users looking for a motherboard that balances cost and quality, especially in scenarios where stability and component longevity are priorities.

The close-up image of the ASUS B760M-AYW WIFI motherboard reveals a key component in its power management system, the Richtek RT3628AE PWM (Pulse-Width Modulation) controller. This specific chip plays a critical role in the voltage regulation for the motherboard, particularly for the CPU core power. Let’s delve into the functionality and importance of this component:

Function of PWM Controller:

  • The RT3628AE PWM controller is responsible for controlling the power delivery to the CPU, ensuring precise voltage regulation. This is crucial for maintaining stable operations under various load conditions, which directly impacts the performance and stability of the system.
  • PWM controllers like the RT3628AE enable the motherboard to efficiently handle power distribution by adjusting the amount of power sent to the CPU based on current demands. This dynamic adjustment helps in optimizing power usage and reducing heat generation.

Efficiency and Performance:

  • High-quality PWM controllers contribute significantly to overall system efficiency. By providing accurate power control, they help prevent power waste and enhance the energy efficiency of the system, which is particularly beneficial for users who run their systems for extended periods or under high loads.
  • The Richtek RT3628AE supports multi-phase power regulation, usually necessary for distributing the thermal load and electrical stress across multiple phases, thereby enhancing the performance and lifespan of the system.

Impact on Overclocking:

  • For enthusiasts who engage in overclocking, a robust PWM controller is essential. It ensures that the CPU receives stable voltage even when operating beyond its standard specifications, which is vital for achieving higher clock speeds without compromising system stability.
  • A capable PWM controller like the RT3628AE also helps manage the additional heat that results from increased power delivery during overclocking, thereby aiding in maintaining performance without thermal throttling.


  • The choice of the RT3628AE in the ASUS motherboard underscores a commitment to reliability. Richtek is known for producing reliable power management solutions that enhance the durability of the end product. This reliability is crucial for users who expect their systems to operate smoothly over long periods.

The inclusion of the Richtek RT3628AE PWM controller on the ASUS B760M-AYW WIFI motherboard highlights ASUS’s focus on providing a motherboard that offers both performance and reliability. Such a component ensures that the motherboard can support a range of CPU loads and user demands, from regular computing tasks to intense gaming sessions, making it a versatile choice for various users.

The image reveals the power delivery components for the integrated graphics (iGPU) on the ASUS B760M-AYW WIFI motherboard. Notably, these components are exposed without heatsink coverage, which is an important aspect to consider in terms of thermal management and overall system stability.

Key Observations:

Component Layout:

  • The photograph shows Vishay RA14B and RA12B MOSFETs arranged to supply power to the motherboard’s integrated graphics. This arrangement indicates that the iGPU receives dedicated power phases, which is crucial for stable graphics performance, especially under load.

Absence of Heatsinks:

  • Unlike the main CPU power delivery area, the iGPU power components lack heatsink coverage. This design choice may be based on several factors:
    • Lower Heat Generation: The iGPU may not generate as much heat as the main CPU, possibly due to lower power consumption or operational intensity, making passive cooling (without a heatsink) sufficient.
    • Cost and Space Efficiency: Omitting a heatsink can reduce costs and save space on the motherboard, which might be necessary due to the compact nature of the M-ATX form factor.
    • Adequate Airflow: If the motherboard is placed in a well-ventilated case, ambient airflow might be deemed adequate to keep these components within safe operating temperatures.

Potential Impact:

  • Thermal Performance: Operating without a heatsink, these components rely entirely on passive cooling from case airflow. In scenarios with poor ventilation or high ambient temperatures, this could potentially lead to higher temperatures, which might affect the performance and longevity of the iGPU.
  • Overclocking and Stress: If the system is pushed beyond typical operational parameters, such as through overclocking, the lack of direct cooling on these power components could limit performance or lead to thermal throttling.

Considerations for Users:

For users planning to utilize integrated graphics heavily, especially in compact builds or environments with limited airflow, monitoring temperatures could be important. If thermal performance is a concern, enhancing case ventilation or exploring aftermarket cooling solutions for these components might be necessary to ensure stability and performance.

The design choice here reflects a balance between cost, performance, and physical space, typical of entry-level motherboards where every component and feature must be justified against its impact on the final product cost and target user base. For typical use-cases, this arrangement should suffice, but for high-load scenarios, additional cooling measures might be beneficial.

A detailed look at the core and auxiliary (AUX) power delivery system of the ASUS B760M-AYW WIFI motherboard. It prominently features several components crucial for voltage regulation and power stability, which are essential for the motherboard’s overall performance and durability.

Overview of Visible Components


  • The image shows Vishay RA14B (upper/high-side) and RA12B (lower/low-side) MOSFETs, arranged in configurations that support the CPU core and auxiliary power delivery. The 6-phase arrangement for the CPU core power, which is typical for handling the demands of modern processors, ensures efficient power management and reduced heat output through balanced phase distribution.
  • The auxiliary power likely supports other critical motherboard subsystems or integrated components, ensuring they receive stable power independent of the CPU load.


  • The black squares are inductors (chokes), which store energy and filter high-frequency power noise from the voltage supplied to the CPU and other critical components. The quality and capacity of these chokes play a significant role in achieving clean and stable power delivery, which is crucial for maintaining system stability, especially under varying load conditions.

Solid Capacitors:

  • Adjacent to the chokes are solid capacitors, which help smooth out voltage fluctuations by providing reserve power and filtering out noise. These capacitors are essential for long-term reliability and efficient performance, as they handle higher temperatures better than traditional electrolytic capacitors and offer improved lifespan and durability.

Significance of These Components

  • Efficiency and Stability: The combination of high-quality MOSFETs, chokes, and solid capacitors is indicative of a motherboard designed to offer reliable performance. This setup is engineered to efficiently handle power distribution and minimize thermal load, which is vital for the longevity of both the motherboard and connected components.
  • Overclocking Potential: For users interested in overclocking, robust power delivery is critical. A well-designed power stage, as seen here, can provide more headroom for overclocking by ensuring the CPU receives stable and sufficient power even under increased loads.
  • Thermal Management: Despite the robust power delivery system, the lack of visible heatsinks over some of the power components (as noted in previous images) suggests that the design relies on adequate case ventilation and possibly the efficiency of the components themselves to manage heat. Users should ensure good airflow within their cases to maintain optimal temperatures.

The power delivery architecture on the ASUS B760M-AYW WIFI motherboard is clearly built to support a range of performance needs, from standard operation to more intensive computing demands. The presence of high-quality components such as Vishay MOSFETs, solid chokes, and capacitors highlights ASUS’s commitment to quality, reliability, and user satisfaction in their motherboard designs. For builders, this means confidence in a stable, durable platform that balances performance with longevity.

The ASMedia ASM1442K chip on the ASUS B760M-AYW WIFI motherboard, which is a High Definition Multimedia Interface (HDMI) level shifter or translator. This component is crucial for converting digital signals from the motherboard’s GPU (whether integrated in the CPU or a discrete card) to a compatible HDMI output that can be used by monitors and TVs. Let’s delve into the functionality and importance of this chip:

Functionality of ASM1442K:

  1. Signal Conversion: The ASM1442K chip primarily functions as a level shifter that translates the low voltage digital signals from the GPU to the higher voltage digital signals required by HDMI specifications. This ensures the motherboard can support HDMI outputs, allowing users to connect their computer to an external display.
  2. Support for HDMI 2.1: Typically, chips like the ASM1442K support various versions of HDMI, including HDMI 2.1, which enables features such as higher bandwidth up to 48 Gbps, resolutions up to 10K, and enhanced audio return channels. This is particularly important for users looking to utilize newer displays with higher resolutions and refresh rates.
  3. Enhanced Display Features: By facilitating HDMI output, this chip allows the motherboard to offer advanced display functionalities like increased color depth, higher refresh rates, and potentially even HDR (High Dynamic Range), depending on the rest of the system’s capabilities.

Significance for Users:

  1. Versatility in Display Options: For users who intend to use their system for multimedia purposes, including gaming, video editing, or watching high-definition content, having an HDMI output directly on the motherboard is extremely beneficial. It simplifies connections and eliminates the need for additional video output cards for basic display tasks.
  2. Quality and Reliability: ASMedia is known for producing reliable interface technologies, and the ASM1442K is part of this lineup, ensuring stable video output performance and good picture quality. It reflects the motherboard’s capacity to support modern video output standards, essential for a seamless user experience.
  3. Future-proofing: Incorporating such a modern HDMI controller chip helps in future-proofing the motherboard to some extent, ensuring that it remains compatible with newer display technologies and standards that may become mainstream over the next few years.

In conclusion, the inclusion of the ASMedia ASM1442K HDMI controller on the ASUS B760M-AYW WIFI motherboard is a testament to the board’s comprehensive feature set, designed to meet the needs of diverse users from gamers and content creators to average consumers looking for reliable multimedia performance. This chip significantly enhances the motherboard’s appeal by expanding its display capabilities, which is a key consideration for many users when selecting a motherboard.

The Realtek RTL8125BG network controller on the ASUS B760M-AYW WIFI motherboard. This is a 2.5 Gigabit Ethernet (GbE) network interface controller (NIC) that significantly boosts network performance compared to the traditional 1 GbE controllers found on many motherboards. Here’s how this component impacts the motherboard’s functionality and the user’s experience:

Key Features of Realtek RTL8125BG:

Speed and Performance:

  • The Realtek RTL8125BG offers networking speeds up to 2.5 Gbps, which is 2.5 times faster than the standard 1 Gbps Ethernet. This enhanced speed is beneficial for intensive network tasks like high-definition video streaming, large file transfers, and online gaming, providing users with smoother and more efficient network performance.

Network Efficiency:

  • With the capability to handle more data bandwidth, the RTL8125BG helps reduce network congestion, especially in environments where multiple devices are connected, and high data throughput is required. This is particularly useful in home offices or small businesses where network demands can be high.


  • As more internet service providers offer higher speed packages, having a 2.5 GbE controller ensures that the motherboard can fully utilize these faster internet speeds without needing an additional NIC. This future-proofs the system to a degree, accommodating faster speeds as they become more widely available and affordable.

Compatibility with Existing Infrastructure:

  • The RTL8125BG is backward compatible with older Ethernet standards (1 GbE, 100 Mbps, etc.), which means it can still perform optimally with existing network setups without requiring immediate infrastructure upgrades. This flexibility is essential for users who may not yet have access to higher-speed network setups.

Advanced Features:

  • This NIC supports features such as automatic bandwidth allocation for priority tasks, which optimizes bandwidth usage based on application demands. It also supports energy-efficient Ethernet standards, which help reduce power consumption when network traffic is low, contributing to overall energy savings.

User Benefits:

  • Enhanced Network Performance: Users will experience less lag and decreased loading times for online content, which is especially noticeable in online gaming and streaming services.
  • Improved Productivity: For professional environments, faster network speeds can translate to more efficient workflows, especially when dealing with large file transfers or frequent data backups.
  • Cost-Effectiveness: Integrating a high-speed NIC directly on the motherboard is more cost-effective than purchasing separate network expansion cards, especially for users looking to build new systems or upgrade existing setups.

In conclusion, the inclusion of the Realtek RTL8125BG 2.5GbE network controller on the ASUS B760M-AYW WIFI motherboard demonstrates a commitment to providing advanced connectivity options that cater to both current and future network needs. This adds significant value to the motherboard, making it an attractive choice for users looking for enhanced network capabilities in their computing setup.

The audio section of the ASUS B760M-AYW WIFI motherboard, highlighting the Realtek ALC897 audio codec chip along with four associated capacitors, which are essential for delivering high-quality audio performance. This setup is typical for modern motherboards aiming to provide a reliable and enjoyable multimedia experience. Let’s delve into the details of this audio system and its impact on user experience:

Realtek ALC897 Audio Codec

Audio Quality:

  • The Realtek ALC897 is a high-definition audio codec providing up to 7.1 channels of audio, making it suitable for immersive listening experiences whether in gaming, watching movies, or listening to music. It supports various audio formats and offers a high signal-to-noise ratio, which reduces background noise and enhances audio clarity.


  • This codec includes features such as noise suppression and echo cancellation, which are beneficial during voice chats or while recording audio. It also supports jack detection, multi-streaming, and front panel audio retasking, which allows users to configure their audio setup according to their needs.

Driver Support:

  • Realtek drivers are widely recognized for their compatibility and frequent updates, ensuring the audio component remains functional with new operating systems and software updates, providing a seamless user experience across different applications.


Role in Audio Processing:

  • The capacitors shown next to the audio codec play a critical role in filtering and stabilizing the power supply to the audio circuitry. This is crucial for maintaining the integrity of audio signals, thus preventing distortions and maintaining audio quality under various operating conditions.

Enhancing Sound Quality:

  • Quality capacitors help preserve the purity of sound output, ensuring that highs are crisp and lows are deep. They contribute to a more dynamic and detailed sound, which is particularly noticeable with high-quality speakers or headphones.

User Benefits

  • Enhanced Audio Experience: Users will benefit from high-definition audio that enhances multimedia experiences, whether gaming, watching films, or enjoying music.
  • Customization and Flexibility: With support for advanced features and configurations, users can tailor their audio settings to match their personal preferences or specific use cases, such as different setups for gaming versus multimedia playback.
  • Reliability: The combination of a well-respected audio codec and robust capacitors ensures that the motherboard provides consistent and reliable audio performance.

In conclusion, the audio section of the ASUS B760M-AYW WIFI motherboard featuring the Realtek ALC897 codec and high-quality capacitors highlights ASUS’s commitment to delivering comprehensive multimedia capabilities. This setup not only supports basic audio needs but also enhances the overall user experience, making the motherboard a versatile choice for users who prioritize audio quality alongside other computing tasks.

The Nuvoton NCT6798D chip on the ASUS B760M-AYW WIFI motherboard, a crucial component known as a Super I/O (SIO) controller or hardware monitoring chip. This chip has a broad range of responsibilities essential for managing various aspects of system health and interfacing with different peripheral components. Let’s explore its functions and importance in the context of the motherboard:

Functions of Nuvoton NCT6798D

Hardware Monitoring:

  • The NCT6798D is primarily responsible for monitoring critical parameters within the system, such as voltages, temperatures, and fan speeds. This information is vital for maintaining system stability and preventing hardware damage due to overheating or voltage fluctuations.

Fan Control:

  • It also controls the speed of the system fans based on temperature readings, adjusting them as needed to ensure optimal cooling while minimizing noise—a crucial feature for maintaining a balance between performance and acoustics in desktop systems.

Interface for System Management:

  • This chip serves as an interface for system management, facilitating communication between the operating system and the motherboard’s hardware components. It helps in implementing system management tasks like fan speed adjustments, system voltage settings, and other configuration changes through the BIOS or specialized software.

Significance for Users

  • Enhanced System Stability and Reliability: By continuously monitoring system conditions and making necessary adjustments, the NCT6798D helps ensure the computer operates within safe thermal and electrical limits, thereby enhancing overall system stability and reliability.
  • Improved User Experience: Users benefit from the ability to customize cooling profiles or monitor system health, which can be particularly valuable for those who push their systems with intensive applications or gaming. It also allows users to set up alerts for critical conditions, aiding in proactive system maintenance.
  • Energy Efficiency: Effective fan control not only reduces noise but can also contribute to energy efficiency. By optimizing the cooling system based on actual needs rather than running fans at full speed unnecessarily, it helps in reducing the overall energy consumption of the PC.

In conclusion, the Nuvoton NCT6798D super I/O controller on the ASUS B760M-AYW WIFI motherboard is an indispensable component, integrating several system management and monitoring functionalities that contribute significantly to the motherboard’s operational efficiency, user control, and reliability. This chip underscores the motherboard’s capability to support both everyday and performance-centric applications, ensuring that it remains a robust foundation for building versatile and reliable PC systems.

A close-up view of the ASUS AURA lighting control chip on the B760M-AYW WIFI motherboard. This chip is part of ASUS’s AURA Sync ecosystem, which is designed to control RGB lighting and synchronize it across various components and peripherals for a cohesive and visually appealing setup. Let’s explore the functionality and benefits of this feature:

Key Features of ASUS AURA Chip

RGB Lighting Control:

  • The AURA chip allows users to manage RGB lighting directly on the motherboard and connected devices such as RGB fans, LED strips, and other compatible peripherals. It supports multiple colors and effects, giving users the ability to customize their system’s aesthetic to their preference.


  • One of the standout features of ASUS’s AURA technology is its ability to synchronize lighting effects across all compatible devices. This means that users can have uniform lighting effects that can be coordinated across the entire system, enhancing the overall visual impact of their setup.

Software Interface:

  • ASUS provides a software application that interfaces with the AURA chip, allowing users to easily change settings, adjust patterns, and fine-tune the colors and brightness of their RGB components. This user-friendly interface is essential for personalizing the lighting without needing to manually adjust settings on the hardware.

Benefits for Users

  • Enhanced Customization: For many PC builders and enthusiasts, customization is a key part of the PC-building experience. With the AURA chip, users can tailor their system’s look to match their style or mood, adding a personal touch to their setup.
  • Gaming and Entertainment: RGB lighting has become a staple in gaming rigs, not only for aesthetics but also for creating an immersive gaming environment. Dynamic lighting can enhance the gaming experience, changing according to in-game events or media content.
  • System Integration: Beyond just looks, RGB lighting can also serve practical purposes, such as indicating system status or temperatures through color changes, providing users with visual feedback directly from their system.

The inclusion of the ASUS AURA lighting control chip in the B760M-AYW WIFI motherboard demonstrates ASUS’s commitment to catering to the preferences and demands of modern PC users, particularly gamers and enthusiasts who value both performance and personalization in their systems. This feature, while not essential for system performance, significantly enhances the visual appeal and customization potential of the setup, making it a desirable choice for those looking to build an aesthetically pleasing and high-performing PC.

The Winbond 25Q128JVSQ, a 128MB BIOS ROM chip located on the ASUS B760M-AYW WIFI motherboard. This component is crucial for the motherboard’s operation as it stores the Basic Input/Output System (BIOS) or firmware interface that initializes and tests the hardware components at startup and provides runtime services for operating systems and programs.

Functions and Importance of the Winbond 25Q128JVSQ:

BIOS Storage:

  • This chip stores the motherboard’s BIOS, which includes the essential code required to boot the hardware and the system. The BIOS settings control how the motherboard communicates with other peripherals, initializes hardware components, and loads the operating system.

Firmware Updates:

  • With 128MB of storage capacity, the Winbond 25Q128JVSQ offers ample space for firmware revisions and updates, which can include improvements to stability, compatibility, and security. These updates are crucial for keeping the system running smoothly and securely, accommodating new hardware, and fixing existing bugs.

UEFI Support:

  • Modern motherboards like the ASUS B760M-AYW WIFI use UEFI (Unified Extensible Firmware Interface), a more advanced firmware interface than the traditional BIOS. It offers improved software interface capabilities, faster boot times, and supports boot volumes larger than 2.2 terabytes, which the Winbond chip facilitates.

Recovery and Redundancy:

  • BIOS chips like the Winbond 25Q128JVSQ also play a critical role in system recovery processes. In the event of a firmware corruption, having a reliable and capacious BIOS ROM can help in restoring the original firmware, thereby preventing system failures.

User Benefits:

  • System Stability and Performance: The primary function of the BIOS ROM ensures that the system hardware is properly initialized and that the operating system runs without hardware-related issues. This stability is crucial for both general and high-performance computing tasks.
  • Enhanced Security Features: With the capability to store UEFI firmware, users benefit from advanced security features such as Secure Boot, which protects the system against boot-time viruses and malware by ensuring that only trusted software is loaded during startup.
  • Future-proofing: The capacity to hold larger BIOS updates means the motherboard can support newer hardware and software advancements for a longer period, thus extending the system’s viability and reducing the need for frequent hardware upgrades.

In essence, the Winbond 25Q128JVSQ 128MB BIOS ROM on the ASUS B760M-AYW WIFI motherboard is a foundational component that supports the system’s firmware, offering benefits in system reliability, security, and future compatibility. Its role, while often understated, is pivotal in ensuring that the motherboard functions effectively and continues to meet the evolving demands of software and peripheral hardware.

The Intel B760 chipset on the ASUS B760M-AYW WIFI motherboard, which plays a pivotal role in the motherboard’s functionality by managing data flow between the processor, memory, and other peripherals. This chipset is part of Intel’s lineup for supporting the latest generation processors, offering a blend of performance, features, and cost-effectiveness suited for mid-range desktop systems.

Key Features and Functions of the Intel B760 Chipset:

Processor Support:

  • The B760 chipset is designed to work with Intel’s 12th and 13th generation processors. It provides the necessary interface for these CPUs, supporting their advanced capabilities such as PCIe 4.0, faster memory speeds, and enhanced integrated graphics.


  • This chipset enhances system capabilities by offering additional PCIe lanes for expansion cards and storage options. It supports PCIe 4.0, which doubles the bandwidth compared to PCIe 3.0, allowing for faster data transfer rates that are beneficial for high-speed storage solutions like NVMe SSDs and modern graphics cards.

USB and SATA Support:

  • The B760 chipset enables multiple USB 3.2 and SATA 6 Gbps ports, which are essential for connecting a variety of peripherals and storage devices. This includes support for high-speed external storage, gaming peripherals, and other devices that require fast data transfer rates.

Intel Rapid Storage Technology:

  • It includes support for Intel’s Rapid Storage Technology, which provides enhanced performance and reliability for systems equipped with one or more SATA or PCIe storage devices. This technology can also support RAID configurations, which offer improved data redundancy and performance.

Efficiency and Power Management:

  • The chipset is optimized for power efficiency, which helps reduce overall system power consumption and can contribute to quieter system operation due to reduced cooling requirements.

Implications for Users:

  • Versatile System Builds: Users looking to build versatile and powerful systems for gaming, content creation, or general productivity will find the B760 chipset to be a cost-effective foundation that does not compromise on essential features.
  • Future-Proof: With support for the latest Intel processors and technologies like PCIe 4.0, systems based on this chipset are somewhat future-proof, making them a solid investment for users planning to upgrade components over time.
  • Performance and Storage Options: The chipset’s support for fast storage options and Intel Rapid Storage Technology makes it ideal for users who need quick data access and robust storage solutions, beneficial for applications requiring high disk performance.

The Intel B760 chipset as shown in the ASUS B760M-AYW WIFI motherboard provides a robust platform for building mid-range to high-performance PCs that are capable of handling a variety of computing tasks. Its support for the latest hardware technologies ensures that users can assemble systems that are both powerful and able to evolve with their needs over time.

The ASUS V-M.2 PCIe Wi-Fi card containing the MediaTek MT7902 module, an essential component that brings advanced wireless connectivity features to the ASUS B760M-AYW WIFI motherboard. This module supports Wi-Fi 6 and Bluetooth 5.3, providing high-speed Internet and efficient wireless communication capabilities. Let’s delve into the specifications and benefits of this wireless module:

Key Features of MediaTek MT7902 Module

Wi-Fi 6 Support:

  • Wi-Fi 6, also known as 802.11ax, is the latest generation of Wi-Fi that offers significant improvements over its predecessor, 802.11ac (Wi-Fi 5). It provides higher data rates, increased capacity, better performance in environments with many connected devices, and improved power efficiency.
  • The MT7902 allows devices to communicate more data in the same amount of spectrum, thanks to technologies like OFDMA (Orthogonal Frequency Division Multiple Access) and MU-MIMO (Multi-User, Multiple Input, Multiple Output).

Bluetooth 5.3:

  • Bluetooth 5.3 offers enhancements in wireless communication, including better reliability, improved interoperability, and greater energy efficiency. This is especially beneficial for Bluetooth peripherals such as keyboards, mice, headsets, and other smart home devices, ensuring more stable and faster connections.

Benefits for Users

  • Enhanced Network Performance: With Wi-Fi 6, users can experience faster download and upload speeds, lower latency, and more reliable connections, which are crucial for activities like online gaming, streaming high-definition video, and engaging in high-bandwidth work applications.
  • Improved Wireless Coverage: Wi-Fi 6 extends the range and coverage of wireless networks. It also reduces interference from other nearby Wi-Fi networks, thanks to better signal coding and increased data encoding efficiency.
  • Simultaneous Device Connectivity: The MT7902’s support for OFDMA allows multiple devices to connect to the network without congestion, making it ideal for smart homes with many Internet of Things (IoT) devices.
  • Future-Proof Networking: As more devices become Wi-Fi 6 compatible, having a motherboard equipped with this technology ensures that users can take full advantage of the latest wireless standards.
  • Versatile Wireless Uses: Integration with Bluetooth 5.3 allows for seamless connectivity with a wide range of devices, enhancing the versatility of the user’s setup.

The inclusion of the MediaTek MT7902 module in the ASUS B760M-AYW WIFI motherboard highlights ASUS’s commitment to providing cutting-edge technology and enhancing user experience. This Wi-Fi and Bluetooth module not only ensures superior wireless connectivity but also supports the latest standards, offering users a robust and future-ready networking solution that can handle both current and upcoming wireless communication demands. This feature is particularly appealing for users who require a high-performance, reliable network for both professional and personal use.

ASUS B760M-AYW WIFI Motherboard Review: Comprehensive Testing with Intel Core i5-13600K and NVIDIA RTX 4070

Your ASUS B760M-AYW WIFI motherboard setup for testing is well-equipped, combining high-end components that ensure comprehensive evaluation across various performance aspects. Here’s an overview of each component’s role in your test and what you might expect from this configuration:

Test Setup and Components

Processor (Intel Core i5-13600K):

  • The Intel Core i5-13600K is a powerful mid-range processor from Intel’s 13th generation lineup, known for its excellent multi-core performance, making it suitable for gaming, content creation, and multitasking.
  • Testing this CPU will give insights into the motherboard’s capability to handle high-performance computing tasks and its efficiency in power management and thermal control with the provided cooling solution.

Memory (T-Force DELTA RGB DDR5-7200 24GBx2):

  • DDR5-7200 RAM is significantly faster than its predecessors, offering higher bandwidth and improved data rates, which can greatly benefit system speed and responsiveness.
  • The 48GB capacity is more than adequate for most demanding applications and will test the motherboard’s memory handling capabilities, especially with XMP profiles enabled to push the memory speeds to their advertised limits.

Graphics Card (NVIDIA GeForce RTX 4070 FE):

  • The RTX 4070 is part of NVIDIA’s latest generation of graphics cards, offering excellent performance for gaming and professional graphics work. This will test the motherboard’s PCIe slot performance, especially in terms of bandwidth and stability under load.


  • Using high-speed NVMe SSDs like the MP600 PRO will test the motherboard’s M.2 slot interface and its ability to handle top speeds, particularly important for boot and load times in applications and games.
  • The additional 4TB SSD provides a substantial data store, testing the motherboard’s SATA handling capabilities for larger storage volumes.

Cooling (ROG Strix LC III 360 ARGB):

  • A 360mm liquid cooling system is optimal for maintaining CPU temperatures at manageable levels during intensive testing, which is crucial for evaluating the motherboard’s thermal performance over extended periods.

Power Supply (LEADEX VII 1000W):

  • A 1000W power supply ensures that there is ample and stable power delivered to all components, critical during peak performance tests where power demands spike.

Operating System (Windows 11 Pro 23H2):

  • Running the latest Windows OS will help evaluate the motherboard’s software compatibility and stability with new system updates and drivers.

Expected Testing Focus

  • Performance: CPU and GPU benchmarks to assess raw computational and graphical power.
  • Stability and Reliability: Monitoring system stability under load conditions, particularly with XMP memory overclocking.
  • Thermal Management: Observing thermal performance with the high-end cooling setup during extended stress tests.
  • System Efficiency: Evaluating how well the motherboard manages power and resources with high-end components.

This setup will provide comprehensive insights into the motherboard’s capabilities and performance across a range of uses from gaming to professional applications. It’s well-suited to push the ASUS B760M-AYW WIFI to its limits, ensuring you can fully assess its performance envelope and stability.

The CPU-Z screenshots provide a comprehensive view of the performance characteristics and specifications using the ASUS B760M-AYW WIFI motherboard, Intel Core i5-13600K processor, and DDR5-7200 memory. Let’s analyze the key details and what they imply about your system’s performance:

CPU Details:

Processor: Intel Core i5-13600K

  • This CPU from Intel’s 13th generation (Raptor Lake) features a hybrid architecture that combines performance (P) cores and efficiency (E) cores. The specifications shown include a base clock of 109.73 MHz and a multiplier, which adjusts the frequency.
  • The single-thread score of 825.2 and a multi-thread score of 9742.0 in the CPU-Z benchmark reflect solid performance, particularly in multi-threaded applications. These scores indicate excellent capability in handling both everyday tasks and more demanding applications like video editing and gaming.

Mainboard and BIOS:

Motherboard: ASUS B760M-AYW WIFI

  • The chipset is Intel B760, which supports features like PCIe 4.0, as evidenced by the graphics interface reporting PCIe x16 at 16 GT/s. This setup ensures that can take full advantage of modern GPUs and fast storage devices.
  • The BIOS version is 1646, which is likely up-to-date, ensuring compatibility and stability with the hardware installed.

Memory Configuration:

Memory: T-Force DELTA RGB DDR5-7200 48GB (2 x 24GB)

  • The memory runs at a DRAM frequency of 3591.2 MHz, effectively operating at DDR5-7200 speeds due to the double data rate. The CAS latency is 34 clocks, which is typical for high-speed DDR5 memory, offering a good balance between speed and response time.
  • Such fast memory significantly benefits applications and tasks that require high bandwidth, reducing bottlenecks and improving overall system responsiveness.

System Performance:

Benchmark Scores:

  • The single-thread score is competitive, particularly for a mid-range CPU, suggesting strong performance in tasks like gaming, which often rely heavily on single-thread performance.
  • The multi-thread score is impressive, showcasing the processor’s capability to efficiently handle parallel tasks and intensive multi-threading scenarios. This is beneficial for multitasking and applications that are optimized for multiple cores, such as video rendering or compiling software.

Analysis and Recommendations:

Given the detailed information from CPU-Z, is well-configured to leverage the strengths of its components. The ASUS B760M-AYW WIFI motherboard serves as a stable platform that supports the high-performance capabilities of the Intel i5-13600K and the fast DDR5-7200 RAM. Your setup is suited for a wide range of uses from advanced gaming setups to demanding productivity tasks.

To optimize performance further, consider:

  • Monitoring system temperatures to ensure that cooling is adequate under load, especially given the high performance of the CPU and RAM.
  • Exploring finer adjustments in BIOS, such as enabling/disabling specific CPU features like hyper-threading or virtualization based on your specific use case.
  • Regularly updating the BIOS and drivers to maintain compatibility and performance with the latest hardware and software.

Overall, your testing setup reflects a powerful, well-rounded system capable of handling both current and future computing demands.

The AIDA64 CPUID snapshot provides a detailed look at the CPU’s boost capabilities and power limits, which are crucial for understanding how your ASUS B760M-AYW WIFI motherboard manages power and performance for the Intel Core i5-13600K processor. Let’s break down the key elements from the snapshot and their implications for performance tuning and system operation:

Boost Strategy and Power Limits

Max Turbo Boost Multipliers:

  • The snapshot shows a turbo boost multiplier of up to 5.1 GHz for the Intel i5-13600K. This high multiplier allows the CPU to achieve significant speed boosts under load, enhancing performance in demanding applications like gaming, rendering, or simulation.
  • The capability to reach 5.1 GHz is indicative of substantial overhead provided by the motherboard for overclocking and performance enhancement.

Power Limit 1 (PL1) and Power Limit 2 (PL2):

  • PL1 is set at 145 Watts. This is the typical power limit over a sustained period and is designed to match the Thermal Design Power (TDP) of the CPU under normal operating conditions.
  • PL2 is set at 253 Watts, allowing the CPU to consume more power for a short burst, providing an additional performance boost when thermal conditions allow. This is particularly useful during peak processing activities that require quick completion.

Thermal and Power Management Insights

Thermal Design Power (TDP):

  • The TDP is noted as 125 Watts, which is the standard thermal expectation for the Intel Core i5-13600K under normal use. Knowing this helps in selecting appropriate cooling solutions to maintain optimal operating temperatures.
  • Unlocked Power Limits:
  • The indication that both power limits (PL1 and PL2) are unlocked suggests that the motherboard and BIOS settings allow for manual adjustments to these values, offering flexibility for enthusiasts looking to push their systems beyond standard specifications.

Tuning and Performance Optimization

  • Maximizing Performance: Given the unlocked nature of both the CPU and the power settings, you have the opportunity to fine-tune the system for enhanced performance. Adjusting the power limits could allow the CPU to maintain higher clock speeds for longer durations, assuming cooling is sufficient to handle the increased thermal output.
  • Balancing Performance with Stability: While pushing the power limits can enhance performance, it is crucial to balance this with the overall system stability and longevity. Monitoring temperatures and system response under load will help determine the optimal settings without risking hardware failure.
  • Cooling Requirements: The substantial increase in power draw under turbo conditions (up to 253W) emphasizes the need for robust cooling solutions. The 360mm liquid cooler in your setup should be adequate, but ensure that case airflow and ambient temperatures are also managed to prevent thermal throttling.

The AIDA64 information suggests that your ASUS B760M-AYW WIFI motherboard supports aggressive performance tuning for the Intel Core i5-13600K. This setup is ideal for users who need high performance and are willing to engage in detailed system tuning to optimize their setup. Regular monitoring and adjustments based on performance and thermal data will ensure that you maximize the capabilities of safely and effectively.

The GPU-Z screenshot offers detailed information about your NVIDIA GeForce RTX 4070 FE graphics card, a powerful component in your ASUS B760M-AYW WIFI motherboard setup. This graphics card is equipped to handle the most demanding games and applications, offering excellent performance thanks to its advanced architecture and technology. Let’s break down the key specifications and what they mean for your system’s graphical performance:

Key Specifications of the NVIDIA GeForce RTX 4070 FE

GPU Core and Memory:

  • GPU: AD104, built on a 5nm process, featuring a die size of 294 mm² with 35.8 billion transistors, indicating a highly efficient and powerful architecture designed for optimal performance and energy efficiency.
  • Memory: 12GB GDDR6X provided by Micron, with a 192-bit bus width and a bandwidth of 504.2 GB/s. This high-speed memory is crucial for handling large textures and maintaining high frame rates at high resolutions.

Performance Metrics:

  • Core Clock: The base and boost clock speeds are 1920 MHz and 2475 MHz, respectively. These high frequencies allow the card to handle complex shader calculations and other GPU-intensive tasks efficiently.
  • Shaders: 5888 unified shaders, which are essential for rendering graphics, providing the computational power needed for shading, texturing, and rendering 3D graphics.
  • ROPs/TMUs: 64 ROPs and 184 Texture Mapping Units, supporting high-quality texture processing and pixel output, which are vital for producing detailed and smooth images in games and applications.

Technological Support:

  • DirectX 12 (12_2) and Vulkan support, ensuring compatibility with the latest games and applications that utilize these APIs for improved rendering techniques and optimizations.
  • Ray Tracing and PhysX: Support for real-time ray tracing, which enhances realistic lighting, shadows, and reflections, and PhysX for advanced physics simulation in games.

Additional Features:

  • Resizable BAR: Enabled, allowing the CPU to access the entire GPU frame buffer at once, which can improve performance in certain scenarios.
  • PCIe Interface: Running on PCIe 4.0 x16, which ensures that the graphics card has sufficient bandwidth to handle data transfer between the CPU and GPU without bottlenecks.

Implications for System Performance

This RTX 4070 FE setup is excellent for high-resolution gaming, VR applications, and professional graphic workstations:

  • Gaming: You can expect superb performance in modern games at high settings, even at 1440p and possibly 4K, depending on the game and settings.
  • Professional Work: The card is also well-suited for professional software that relies on GPU acceleration, such as video editing, 3D rendering, and AI computations.

Optimizing Your Setup

  • Drivers: Keeping your drivers up to date, as shown with the version 552.12, ensures compatibility with the latest games and optimizations for newly released software.
  • Cooling and Power: Make sure has adequate cooling and a sufficiently powerful PSU to handle the peak performance of this GPU, especially under load.

The NVIDIA GeForce RTX 4070 FE, combined with your ASUS motherboard and other high-end components, creates a potent setup capable of handling virtually any task you throw at it, from advanced gaming to intensive computational tasks. This configuration ensures that will remain competitive and performant for the foreseeable future.

The provided Cinebench R23 and Cinebench 2024 results offer insightful benchmarks of your system’s performance under different testing conditions, highlighting the capabilities of the Intel Core i5-13600K and the NVIDIA GeForce RTX 4070 in your ASUS B760M-AYW WIFI setup. Let’s analyze the scores and what they reveal about your hardware’s performance.

Cinebench R23 and Cinebench 2024 Performance Comparison:

Cinebench R23 Scores:

  • Single-Core Score: 1936
  • Multi-Core Score: 23382

Cinebench 2024 Scores:

  • Single-Core Score: 114
  • Multi-Core Score: 1287
  • GPU Score: 17315


CPU Performance:

  • The Intel Core i5-13600K shows strong performance in Cinebench R23, which is expected given its architecture designed for efficient multi-threading, benefiting from its hybrid core design (P-cores and E-cores).
  • However, in Cinebench 2024, both the single-core and multi-core scores are significantly lower. This discrepancy is likely due to Cinebench 2024’s enhanced workload complexity and higher memory usage, which tests the CPU under more strenuous conditions typical of modern creative applications. The newer version stresses more realistic scenarios, potentially involving heavier threading and increased memory demands.

GPU Performance:

  • The NVIDIA GeForce RTX 4070 scores 17315 in the GPU test of Cinebench 2024, which utilizes the Redshift rendering engine from Cinema 4D. This test is designed to evaluate the GPU’s capability to handle complex rendering tasks, indicating that the RTX 4070 performs excellently in tasks requiring high computational graphics power.

Memory and Instruction Set Utilization:

  • Cinebench 2024’s increase in memory usage and instruction set utilization means it can better simulate demanding real-world applications. This suggests that while the i5-13600K and RTX 4070 provide strong performance, there may be scenarios, particularly those that are memory-intensive, where the system could be pushed to its limits.

Implications for Users:

  • Professional Workloads: Users involved in high-end video editing, 3D modeling, and professional rendering will find that Cinebench 2024 offers a more accurate reflection of their daily software’s demands. It’s crucial to consider these results when optimizing workflow setups or when planning potential hardware upgrades.
  • Gaming and General Use: While the Cinebench R23 results are impressive, the 2024 results are critical for understanding how newer games and applications might perform, especially those that utilize advanced rendering techniques and high memory resources.
  • System Optimization: The differences in performance scores between the two Cinebench versions suggest there could be benefits to adjusting system settings, such as tweaking memory allocation, optimizing BIOS settings, or even considering faster or more abundant RAM.

The system configuration with the ASUS B760M-AYW WIFI, Intel i5-13600K, and NVIDIA RTX 4070 provides robust performance across both CPU and GPU tasks, with Cinebench scores reflecting strong potential for both creative tasks and gaming. However, keeping an eye on evolving software demands and system benchmarks like Cinebench 2024 will be crucial in maintaining optimal performance and anticipating future hardware requirements.

The 7-Zip performance benchmark results provide a clear picture of the compression and decompression capabilities of your system, specifically testing the processing power of the Intel Core i5-13600K within your ASUS B760M-AYW WIFI setup. Here’s a breakdown and analysis of the results:

7-Zip Benchmark Results:

  • Total Time: 53.859 seconds
  • Compression Rating: 131.022 GIPS (Giga Instructions Per Second)
  • Decompression Rating: 131.990 GIPS
  • Total Rating: 131.506 GIPS

Analysis of Results:

Processing Efficiency:

  • The total time of approximately 54 seconds for the benchmark task reflects efficient processing by the Intel i5-13600K, which is adept at handling workloads that require significant data manipulation and CPU-intensive tasks.

Compression and Decompression:

  • The scores for compression (131.022 GIPS) and decompression (131.990 GIPS) are very close, indicating a balanced performance in both tasks. This balance is important for applications that require frequent data archiving and retrieval, such as content creation, software development, and system backups.

Performance Implications:

  • A GIPS rating of around 131 for both tasks signifies strong performance, especially in context with the processor’s capabilities and the system memory’s support in handling large datasets efficiently.

Implications for Users:

  • High Performance for Everyday Tasks: Users can expect excellent performance for daily activities that involve data compression and decompression, such as file management and software installation, which often depend on these operations.
  • Suitability for Professional Use: For professional environments that involve heavy data processing, such as video editing, database management, and large-scale backups, the high GIPS ratings assure that the system can handle these demands efficiently.
  • Potential for System Optimization:
  • Given the performance demonstrated in the 7-Zip benchmark, further system optimizations can be considered, especially in terms of memory and storage configurations to support even faster data handling and application load times.
  • Adjustments in system settings and perhaps overclocking (if thermal and power conditions allow) can further enhance the GIPS performance for both compression and decompression.

The 7-Zip benchmark results confirm that your ASUS B760M-AYW WIFI setup with the Intel Core i5-13600K is highly capable in managing compression and decompression tasks efficiently. This capability is critical for both general and professional use, ensuring that the system remains responsive and efficient in handling various data-intensive operations. Continuing to monitor system performance with these benchmarks can help guide future upgrades and optimizations to maintain or enhance this level of performance.

The 3DMark CPU Profile results you’ve provided give a detailed insight into how the Intel Core i5-13600K performs across a range of threaded workloads, demonstrating its scalability and efficiency under varying computational stresses. Here’s a closer look at what these results mean for your ASUS B760M-AYW WIFI system’s performance in different scenarios:

3DMark CPU Profile Scores:

  • Max Threads: 10,351
  • 16 Threads: 9,555
  • 8 Threads: 7,062
  • 4 Threads: 4,249
  • 2 Threads: 2,165
  • 1 Thread: 1,078


Scalability and Efficiency:

  • The scores show that the i5-13600K scales efficiently as the thread count increases. The near-linear scaling from 1 to 16 threads indicates excellent parallel processing capabilities, making this CPU well-suited for multi-threaded applications.
  • The drop in score from 16 threads to “Max threads” (which likely engages all 20 threads of the CPU) is relatively small, suggesting that the additional threads (likely the efficient E-cores) provide diminishing returns but still contribute positively to the overall computational power.

Specific Use Cases:

  • Max Threads (10,351): This score is indicative of the processor’s full potential being utilized, relevant in scenarios like 3D rendering, video encoding, and scientific simulations where high thread utilization is critical.
  • 8 Threads (7,062) and 4 Threads (4,249): These scores are particularly relevant to gaming and general productivity tasks. Modern games and applications that utilize between 4 and 8 threads will benefit significantly from this level of performance, ensuring smooth gameplay and efficient application handling.

Performance Optimization:

  • The Intel Core i5-13600K’s performance in the 3DMark CPU test underscores its capability to handle both peak performance scenarios and more common daily tasks efficiently.
  • For users looking to optimize their systems, focusing on balancing core usage and managing power settings in the BIOS could yield even better performance, especially for applications that do not utilize all available threads.

Implications for Users:

  • Gamers: The scores for 4 and 8 threads are particularly important, as most modern games will use this many threads. The high scores here suggest that you can expect excellent gaming performance, particularly in CPU-intensive titles.
  • Creators and Professionals: The high scores in the Max Threads category show that professional software used for rendering, encoding, or simulations will perform exceptionally well, leveraging the hybrid architecture of the 13th Gen Intel CPUs.
  • General Users: Even at lower thread counts, the i5-13600K provides robust performance, ensuring that everyday applications and multitasking scenarios are handled with ease.

The results from the 3DMark CPU Profile test demonstrate that your Intel Core i5-13600K, in combination with your ASUS B760M-AYW WIFI setup, is adept at handling a variety of computational demands from high-end professional workloads to mainstream gaming and general productivity tasks. This makes it highly versatile, capable of adapting to different user needs while providing the power and efficiency required for both current and future applications.

The 3DMark Time Spy benchmark results you shared demonstrate the high-performance capabilities of your system, particularly for gaming at 2K resolution using DirectX 12. The Intel Core i5-13600K and the NVIDIA GeForce RTX 4070 FE both show strong performance metrics that highlight their suitability for demanding gaming and graphic-intensive applications. Let’s delve into these results:

3DMark Time Spy Scores:

  • Total Time Spy Score: 17,899
  • Graphics Score: 17,901
  • CPU Score: 17,893

Analysis of the Results:

Graphics Score (17,901):

  • This score indicates that the NVIDIA GeForce RTX 4070 FE is extremely capable of handling DirectX 12 graphics tasks, which are known for their heavy reliance on GPU power for rendering advanced graphical features like ray tracing and complex shader computations.
  • The RTX 4070 FE’s performance in Time Spy, which simulates the demands of modern gaming, suggests that it can deliver excellent frame rates and quality at 1440p (2K) resolution, confirming its strength as a top-tier gaming GPU.

CPU Score (17,893):

  • The Intel Core i5-13600K’s score is nearly on par with the graphics score, which is impressive as it shows that the CPU can keep up with the GPU without bottlenecking its performance. This is crucial in gaming scenarios where both high CPU and GPU workloads are common.
  • This high score reflects the CPU’s ability to efficiently handle game logic, physics, and simultaneous multiple tasks, which are critical for gaming and professional creative applications.

Overall System Performance:

  • The close scores between the CPU and GPU suggest a well-balanced system where neither component significantly limits the other’s potential. This balance is essential for maintaining high performance without experiencing significant frame drops or stutters in games and other intensive applications.
  • The estimated game performance for “Battlefield V” at 1440p Ultra settings being over 165 FPS is indicative of the system’s capability to provide smooth and visually impressive gaming experiences, pushing beyond the typical performance thresholds required for competitive gaming.

Implications for Users:

  • Gamers: Users looking to play modern games at high resolutions and settings can expect exceptional performance from this setup. The hardware is clearly capable of running latest titles smoothly, as evidenced by the 165+ FPS in Battlefield V at a demanding 2K Ultra setting.
  • Content Creators and Professionals: The strong CPU and GPU performance also translates well into content creation tasks like video editing, 3D rendering, and live streaming, where both processor power and graphics capability are essential.
  • System Upgrades: Future upgrades could focus on increasing memory capacity or storage speed to further enhance system responsiveness and reduce load times, ensuring the system remains robust as software demands evolve.

Your current setup with the ASUS B760M-AYW WIFI, Intel Core i5-13600K, and NVIDIA GeForce RTX 4070 FE is exceptionally well-tuned for high-performance tasks. The impressive 3DMark Time Spy scores assure that the system is more than capable of handling demanding gaming scenarios and professional workloads with ease, making it a powerful choice for both enthusiasts and professional users.

The 3DMark Fire Strike Ultra benchmark results provide a comprehensive analysis of your system’s performance under the demanding conditions of 4K resolution using DirectX 11. This benchmark is particularly relevant for assessing how well your hardware handles ultra-high-resolution gaming and other graphically intensive tasks. Here’s what the results indicate about your setup with the Intel Core i5-13600K and NVIDIA GeForce RTX 4070 FE:

3DMark Fire Strike Ultra Scores:

  • Total Fire Strike Ultra Score: 10,376
  • Graphics Score: 10,087
  • Physics Score: 38,438
  • Combined Score: 5,520
  • Estimated Game Performance: 140+ FPS in Battlefield V at 1440p Ultra settings

Analysis of Results:

Graphics Score (10,087):

  • This score reflects the GPU’s capability to manage the heavy demands of 4K gaming. While the RTX 4070 FE is performing admirably, the score suggests that it is approaching the limits of its capability at 4K resolution in the most demanding environments.

Physics Score (38,438):

  • The exceptionally high physics score indicates that the Intel Core i5-13600K excels in handling complex physical and simulation tasks, which are CPU-intensive. This showcases the CPU’s robust performance in processing physics calculations, an essential factor for realistic gaming physics and other simulation-based applications.

Combined Score (5,520):

  • The combined score, which tests both the CPU and GPU working together on a complex scene, is good, though it is significantly lower than the individual physics score, suggesting that the scenarios where both CPU and GPU loads are high might see reduced performance. This is typical in combined operations where synchronization between processor and graphics unit is critical.

Implications for Users:

  • High-Resolution Gaming: Users aiming for 4K gaming may need to adjust settings for optimal performance. While the RTX 4070 FE is capable, pushing it to ultra settings in the most demanding games at 4K might require compromises on some settings to maintain smooth frame rates.
  • 1440p Gaming: The estimated performance for Battlefield V at 1440p Ultra settings (140+ FPS) confirms that this system excels at this resolution, providing excellent visuals without compromising on frame rates.
  • Future-Proofing and Upgrades: Considering future games and applications that might further push the limits of current hardware, users might consider GPU upgrades in future cycles to maintain high performance at 4K resolution. Ensuring adequate cooling and power supply will be essential as these components significantly affect performance under load.

The system configuration with the ASUS B760M-AYW WIFI, Intel Core i5-13600K, and NVIDIA GeForce RTX 4070 FE is very capable, particularly for 1440p gaming and can handle 4K with some adjustments. The strong CPU performance highlighted by the physics score also ensures that the system is not only fit for gaming but also for other professional and creative applications requiring intensive CPU processing.

The CrossMark benchmark results you’ve shared provide a holistic view of the ASUS B760M-AYW WIFI system equipped with the Intel i5-13600K processor across a variety of tasks that simulate real-world usage. Here’s what these scores tell us about your system’s performance in productivity, creative content creation, and system responsiveness:

CrossMark Benchmark Scores:

  • Overall Score: 2334
  • Productivity: 2112
  • Creative Content: 2595
  • Responsiveness: 2290


Overall Score (2334):

  • This score reflects strong performance across all tested categories, indicating that is well-rounded and capable of handling various types of workloads effectively.

Productivity (2112):

  • This category likely includes tasks like document editing, spreadsheets, and web browsing. A score of 2112 suggests that the system performs well with office productivity software, making it suitable for business and academic environments.

Creative Content (2595):

  • The highest score among the categories, which reflects tasks related to photo and video editing and possibly other multimedia content creation. This indicates that the system, especially with its CPU and supported by powerful GPU and RAM, is particularly strong in handling demanding creative applications that require processing power and quick data access.

Responsiveness (2290):

  • This score evaluates how quickly the system can start up programs and files, showing very good performance. It reflects the effectiveness of the system’s storage solutions, such as SSDs, and its memory management, which are crucial for reducing waiting times and improving overall user experience.

Implications for Users:

  • Professionals and Creators: Users involved in video editing, graphic design, or any other creative work will find this system to be a strong ally, thanks to its excellent performance in the creative content category.
  • Office and Productivity: The solid productivity score means that tasks like document handling, spreadsheet manipulation, and other office-related workloads will run smoothly, enhancing work efficiency.
  • General Users: With high scores in responsiveness, general users will enjoy a quick and responsive system for everyday tasks such as opening applications, browsing the internet, and managing personal media.

The Intel i5-13600K equipped ASUS B760M-AYW WIFI system proves to be a versatile and robust platform according to the CrossMark benchmark results. Whether it’s for demanding creative tasks, general productivity, or typical daily use, the system offers strong performance. This makes it an excellent choice for users who need a computer that can keep up with diverse and demanding software environments while providing fast response times for the best user experience. This balanced performance across different tasks makes it not only suitable for current demands but also a competent choice for future software and updates.

The Geekbench 6 scores you’ve provided for the Intel i5-13600K on your ASUS B760M-AYW WIFI motherboard present a comprehensive look at the processor’s capabilities in modern computing contexts, particularly with tasks that involve augmented reality and machine learning. Here’s a detailed analysis of what these scores imply:

Geekbench 6 Scores:

  • Single-Core Score: 2706
  • Multi-Core Score: 17381


Single-Core Performance (2706):

  • A score of 2706 in single-core performance is impressive, indicating that the i5-13600K can handle intensive single-threaded tasks efficiently. This performance level is crucial for applications that are not well-optimized for multi-threading, including many types of software used in creative production and certain games that rely heavily on single-thread performance.

Multi-Core Performance (17381):

  • The multi-core score of 17381 highlights the CPU’s capability to handle parallel processing effectively. This is particularly important for newer applications and tasks in machine learning, 3D rendering, and complex scientific simulations where multiple processing threads can be utilized concurrently.

Implications for Users:

  • Advanced Computing Tasks: Users engaged in advanced computing tasks such as data analysis, machine learning, and simulation will benefit significantly from the high multi-core score. This makes the system highly suitable for academic, scientific, and professional software that can exploit multiple cores.
  • Gaming and General Use: For gaming and general usage, the strong single-core performance ensures that even the most demanding applications run smoothly. Users can expect excellent responsiveness and high frame rates in most modern games, especially those optimized for single-core performance.
  • Creative Work: Creative professionals working with applications like Adobe Photoshop, Premiere Pro, or Autodesk 3ds Max will find the blend of strong single and multi-core performances beneficial. It allows efficient handling of both the creative tasks that rely on single-core performance and those, like video rendering or batch processing photos, which can utilize multiple cores.

The Geekbench 6 results for the i5-13600K in your ASUS B760M-AYW WIFI system show it as a powerful all-rounder capable of handling a wide range of tasks from everyday computing to demanding professional applications. With these scores, the system stands out as a robust choice for both power users who require a machine that keeps up with cutting-edge applications and casual users looking for longevity and responsiveness in their computing tasks.

The CORSAIR MP600 PRO LPX 1TB SSD is being tested here using CrystalDiskInfo, a utility that provides essential data about the drive’s health, temperature, and operational interface. Here’s a breakdown of the information provided in the screenshot and what it indicates about the SSD’s performance:

Key Details from CrystalDiskInfo:

  • Interface: PCIe 4.0 x4
  • Temperature: 53°C
  • Health Status: 98%
  • S.M.A.R.T. Attributes: Monitoring tools that help predict drive failures by keeping track of various drive health indicators.

Analysis of SSD Performance and Setup:

PCIe 4.0 x4 Interface:

  • The SSD is operating on a PCIe 4.0 x4 interface, which provides high bandwidth for faster data transfer speeds, ensuring excellent performance in both read and write operations. This interface is particularly beneficial for applications that require rapid data access and transfer, such as video editing, gaming, and large data processing tasks.


  • The temperature of the SSD at 53°C is within a safe operational range, although it’s relatively warm. It indicates that while the SSD is likely under load during this test, the cooling solution—likely the motherboard’s integrated M.2 heatsink—is adequately managing the heat to prevent thermal throttling and maintain performance integrity.

Health Status:

  • At 98% health, the SSD shows minimal wear, suggesting it’s relatively new or has been excellently maintained. This high health percentage is crucial for long-term reliability and performance consistency, especially in systems where the drive is regularly subjected to intense read and write cycles.

System Integration:

  • The SSD’s installation in the M2_1 slot on the ASUS B760M-AYW WIFI motherboard, equipped with a heatsink, enhances its thermal management, contributing to the sustained performance and longevity of the drive.

This setup demonstrates a well-optimized storage solution for both general and high-demand applications, capitalizing on the speed capabilities of PCIe 4.0 and the robust build quality of the CORSAIR MP600 PRO LPX. Overall, this configuration promises excellent performance and durability, making it a reliable choice for your computing needs.

The results from the CrystalDiskMark benchmark reveal impressive performance metrics for the NVMe SSD. Here’s a detailed interpretation of each test result and what it signifies for the SSD’s capabilities:

Sequential Tests:

  • SEQ1M Q8T1:
  • Read: 6959.94 MB/s
  • Write: 5815.30 MB/s
  • These tests simulate best-case, optimized scenarios using a queue depth of 8, which is typical for high-load environments. The results show top-tier performance, making this SSD ideal for heavy-duty tasks such as large file transfers, video editing, and other data-intensive applications.
  • SEQ128K Q32T1:
  • Read: 7009.64 MB/s
  • Write: 5826.09 MB/s
  • By testing with a 128KB block size at a queue depth of 32, this represents performance under extreme stress, typical of server workloads or heavy multitasking scenarios. The numbers remain remarkably consistent with the SEQ1M test, indicating stable performance even under varied conditions.

Random Tests:

  • RND4K Q32T16:
  • Read: 3559.75 MB/s
  • Write: 4884.48 MB/s
  • This test reflects how the drive performs during random reads and writes with multiple commands at once, crucial for applications that rely on database access and transactional processing. The high performance here shows the SSD’s robust handling of random data access.
  • RND4K Q1T1:
  • Read: 85.11 MB/s
  • Write: 385.55 MB/s
  • Focusing on low queue depth and single-thread performance, this test is most reflective of everyday computing tasks. While the speeds are significantly lower compared to other metrics, they are still excellent for a consumer-grade SSD, especially in handling small, random files efficiently.

The SSD demonstrates outstanding capability across both sequential and random data handling, marking it as an excellent choice for both general and specialized high-performance computing tasks. Its ability to maintain high transfer speeds across different test types and conditions suggests that it will provide reliable and responsive performance in a wide range of usage scenarios, from desktop computing to more demanding applications in creative and technical fields.

The AIDA64 Cache and Memory Benchmark results provide a detailed insight into the performance of the T-Force DELTA RGB DDR5-7200 24GBx2 memory setup. Here’s a breakdown of the results:

Memory Performance

  • Read: 99191 MB/s
  • Write: 93163 MB/s
  • Copy: 91912 MB/s
  • Latency: 73.5 ns

These results indicate extremely high throughput for both read and write operations, which is characteristic of DDR5 memory technology. The read speeds nearing 100 GB/s and the high write and copy speeds showcase the efficiency and speed of the memory, which are crucial for tasks that require high bandwidth, such as video editing, 3D rendering, and scientific simulations.

Cache Performance

  • L1 Cache:
  • Read: 3554.8 GB/s
  • Write: 2396.9 GB/s
  • Copy: 5152.5 GB/s
  • Latency: 1.0 ns
  • L2 Cache:
  • Read: 1075.9 GB/s
  • Write: 426.37 GB/s
  • Copy: 630.79 GB/s
  • Latency: 4.3 ns
  • L3 Cache:
  • Read: 1117.8 GB/s
  • Write: 430.23 GB/s
  • Copy: 716.94 GB/s
  • Latency: 17.4 ns

The L1 cache shows the highest performance with over 3 TB/s read speed and very low latency of 1 ns, indicating rapid data access at the closest level to the CPU cores. This is beneficial for high-speed processing and temporary data storage for immediate computational needs. L2 and L3 caches also show impressive performance, with L3 cache handling a significant volume at over 1 TB/s read speed, enhancing the CPU’s ability to handle larger datasets efficiently without frequent access to slower RAM.

These results demonstrate that the memory configuration in conjunction with the Intel i5-13600K processor offers a very robust platform for demanding applications and multitasking environments, thanks to its high-speed data handling and low latency interactions between the CPU and memory. This setup is well-suited for performance-critical tasks in gaming, professional creative work, and intensive computational applications.


In summary, the ASUS B760M-AYW WIFI motherboard offers a balanced set of features and performance at its entry-level positioning with a reasonable price of TWD 3990. Key features include:

  1. Power Design: The 6+1+1 phase power design is adequate for supporting Intel Core i5 series processors, though it may not be suitable for high-power, top-tier CPUs. It’s sufficient for mid-range processors.
  2. Connectivity Options: Despite lacking USB-C ports, it compensates with two M.2 slots, WiFi 6, and 2.5GbE network interfaces, which are very practical for users who need fast storage and robust network performance.
  3. Memory Support: It successfully supports XMP-7200 memory, which is a bonus for users seeking faster memory speeds.
  4. Cooling and Aesthetics: Larger heat sinks and an attractive design make it stand out among similar products, appealing to users who care about looks and internal temperature control.
  5. BIOS Features: ASUS provides comprehensive BIOS options including disabling CEP, switching microcode, and other advanced settings, which are very useful for enthusiasts and advanced users. Basic features like XMP, power limits, and fan control are also well covered.

ASUS has started offering a direct replacement service for faults within the first year of purchase, providing top-tier after-sales support for gamers. This is a boon for budget-conscious users seeking solid performance without breaking the bank.

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Title: Unveiling ASUS B760M-AYW WIFI: The Budget-Friendly Motherboard with Premium Aesthetics