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WiFi 8… is a THING! The Asus ROG NeoCore WiFi 8 Router

Yep, there is barely any dust on your WiFi 7 devices, and yet now the road is being paved towards the 8th generation of Wi-Fi. WiFi 8 refers to the upcoming IEEE 802.11bn generation, where the stated emphasis is improving reliability in difficult real-world conditions such as congestion, interference from neighboring networks, mobility between access points, and performance at the edges of coverage, rather than raising peak theoretical link rates. At CES 2026, ASUS presented the ROG NeoCore as a WiFi 8 concept router and used it to frame WiFi 8 as a shift toward more predictable everyday behavior, including steadier mid-range throughput, more dependable low power device connectivity, and reduced tail latency. ASUS also characterized the current stage as prototype and draft development, meaning performance figures and feature behavior should be treated as preliminary and dependent on implementation and environment.

What is WiFi 8?

WiFi 8 is the next planned generation of WiFi under IEEE 802.11bn, positioned around “Ultra High Reliability” rather than a primary focus on raising maximum theoretical data rates. The intent is to make wireless performance more predictable in the conditions that typically cause instability, including long distances from the access point, heavy contention from many simultaneous devices, and interference from overlapping networks in dense housing or office environments.

A key theme associated with WiFi 8 is increased coordination across access points and connected clients. Instead of treating each access point as an isolated transmitter competing for airtime, WiFi 8 is described as enabling access points to cooperate more directly on scheduling and interference management. In practical terms, this is meant to reduce latency spikes, improve consistency when multiple devices are active at the same time, and reduce disruptions during roaming events as clients move between access points.

WiFi 8 is also discussed as addressing weaknesses that show up with low power or edge devices, where the uplink from device to router is often the limiting factor for stability. By improving how devices use available spectrum and how the network allocates airtime, WiFi 8 is framed as improving steady connectivity for IoT-class devices and “always on” endpoints in difficult placements. Vendor messaging also links this reliability profile to AI-driven environments, where repeated small delays, packet loss, or brief disconnects can be more disruptive than a lower peak throughput number.

WiFi 8 vs WiFi 7 vs WiFi 6/6E – What Has Changed?

WiFi 6 and WiFi 6E are generally associated with capacity and efficiency improvements over earlier generations through features like OFDMA and expanded MU-MIMO, with WiFi 6E adding access to the 6 GHz band in supported regions. WiFi 7 shifted attention toward higher throughput and lower latency potential through wider channels (up to 320 MHz) and Multi-Link Operation (MLO), aiming to increase peak performance and improve responsiveness when devices and access points can use multiple links effectively. WiFi 8 keeps many of WiFi 7’s headline building blocks, but the stated emphasis changes toward more deterministic behavior under load, in dense radio environments, and during multi-access-point operation. In the provided material, WiFi 8 is positioned as adding coordination features that are not part of WiFi 7, with the goal of improving mid-range performance consistency and reducing tail latency metrics (for example, high-percentile latency behavior) rather than changing maximum theoretical data rates.

From an upgrade standpoint, the most direct “spec” differences between WiFi 8 and WiFi 7 are not listed as new bands or higher top-line channel width, but additional coordination and scheduling mechanisms that are intended to improve real-world outcomes in multi-router, multi-client environments. WiFi 6 and WiFi 6E remain relevant for environments that primarily need better capacity and efficiency for mixed-device networks, while WiFi 7 targets higher performance for compatible devices, and WiFi 8 is framed as refining how that performance holds up across tougher conditions.

What is the Asus ROG NeoCore Router?

The ASUS ROG NeoCore is a WiFi 8 concept router shown publicly as a prototype demonstration unit. ASUS positions it as an early platform for demonstrating draft WiFi 8 capabilities in a real environment, rather than a finalized consumer product with locked specifications. In the video discussion, ASUS staff described NeoCore as a prototype name for the concept device and noted that detailed hardware specifications and confirmed configurations were not available at the time.

The concept is presented as part of the broader ASUS mesh and optimization stack. ASUS ties NeoCore to AiMesh, which is its approach to linking multiple access points into a coordinated system, and to an “AI Network Engine” described as monitoring traffic and adjusting resource allocation to manage throughput and latency. In this framing, the router is less about a single access point’s peak output and more about how multiple access points and clients can coordinate to reduce interference and contention.

NeoCore is also used to illustrate the practical motivation for WiFi 8 in dense and mixed-device environments. The device was discussed in the context of apartment-style “noisy” wireless conditions, long-distance or edge-of-property placement, and smart home endpoints that may have weaker uplink capability than the router itself. In the accompanying CES material, ASUS connects the concept device to early throughput testing and to draft-based claims about improved mid-range performance and reduced high-percentile latency, while stating that results and features depend on draft specifications and implementation details.

When is WiFi 8 Launching?

WiFi 8 (IEEE 802.11bn) is still in development, with public materials commonly pointing to standard finalization in 2028, often described as late 2028. Until ratification, feature definitions and mandatory versus optional elements can change, so any current demonstrations should be treated as draft implementations rather than a finalized reference for the standard. On the product side, ASUS has stated plans to introduce its first WiFi 8 home routers and mesh systems in 2026, and it has already shown prototype demo hardware at CES 2026. If WiFi 8 consumer products ship ahead of standard finalization, they are expected to rely on draft specifications, meaning real-world behavior can vary by vendor design, firmware maturity, and the availability of WiFi 8 client devices needed to access the full feature set.

• What is WiFi 8, and when will it be available?

  WiFi 8 (IEEE 802.11bn) is new-generation wireless technology focused on Ultra-High Reliability (UHR) for better performance, smoother roaming, and smarter router and client coordination. WiFi 8 is still in development. ASUS is demonstrating prototypes and conducting real-world tests to validate the new technology.

• What’s the difference between WiFi 8, WiFi 7, and WiFi 6/6E?

  The primary difference lies in the core focus of each wireless standard. WiFi 8 represents a strategic shift toward Ultra High Reliability (UHR) and deterministic low latency. In contrast, WiFi 7 prioritizes raw speed and throughput via technologies like MLO and 320MHz channels. WiFi 6/6E focused on efficiency and capacity improvements through OFDMA and MU-MIMO.

• Is WiFi 8 faster than WiFi 7?

  Peak theoretical speeds are comparable. The essential difference is that WiFi 8 significantly improves real-world performance by focusing on Ultra High Reliability. It prioritizes stability and smarter spectrum use for advanced router and client coordination, making it a strategic evolution beyond previous standards like WiFi 7.

• Will WiFi 8 be backward compatible? Can older devices benefit from WiFi 8?

  Yes, WiFi 8 will be fully backward compatible with all previous standards. While full features require WiFi 8 support on both the router and the devices that connect to it, older devices can still benefit from the network’s improved coordination and interference mitigation. WiFi 8 users will get more stable connections and fewer drops on legacy devices facing congestion and signal-strength issues.

• Does WiFi 8 change the bands or add new bands?

  WiFi 8 continues to use the 2.4GHz, 5GHz, and 6GHz bands with up to 320MHz channels, focusing on smarter coordination and spectrum use.

• What WiFi 8 features help in crowded Homes and Businesses?

  Multi-AP coordination, including Co-BF, Co-SR, Co-TDMA, NPCA, and improved seamless roaming, reduces interference and contention between overlapping networks.

 

 

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