A First Look Around the Minisforum Stand at Computex 2026

Computex 2026 is now underway in Taipei, and I am at the Minisforum stand looking over what the company has brought to the show floor this year. There are several compact systems on display, including the S5 all-flash NAS, the MS-03 workstation mini PC, and the smaller M2 Pro mini PC, with more possibly being added to this article as I continue working through the stand. What I am seeing is not just a single type of compact PC repeated in different sizes, but a mix of storage, workstation, and AI-focused hardware, each aimed at a slightly different use case. The S5 is the one that ties back most closely to my recent NAS coverage from mid-May, while the MS-03 and M2 Pro sit more firmly in Minisforum’s mini PC and workstation range. There is also a clear focus here on faster networking, newer Intel platforms, local AI acceleration, and making higher-performance desktop systems fit into smaller spaces.

Minisforum S5: A Silent All-Flash NAS for Smaller Spaces

The first system I am looking at is the Minisforum S5, an all-flash NAS that I previously covered in more detail in mid-May. At Computex, Minisforum is showing it again as part of its wider compact hardware line-up, and the basic idea remains the same: this is a small NAS built around M.2 SSD storage rather than traditional 3.5-inch or 2.5-inch hard drives. That matters because it changes both the size and noise profile of the system. With no spinning drives inside, Minisforum has also removed the fan, so the S5 is designed to run silently.

The S5 is positioned between lower-cost all-flash NAS systems and more expensive high-end models. Minisforum is clearly trying to avoid the main compromises often seen in cheaper SSD NAS devices, where the storage may be flash-based but the networking and I/O are not fast enough to make full use of it. Here, the inclusion of 10GbE and USB4/TBT4 gives the S5 more room to actually benefit from SSD performance, whether that is for direct transfers, faster network access, or use in a small media and editing setup. It is not being shown as a large enterprise NAS, but more as a compact flash storage system for users who want more speed and less noise than a hard drive-based box.

The other part of the S5 story is the newer platform inside. Minisforum lists 5 M.2 slots, WiFi 7, AV1 hardware encoding and decoding, and an iGPU plus NPU combination rated at 24 to 33 TOPS for lightweight AI tasks. That does not make it a heavy AI workstation, but it does suggest the S5 is intended to do more than just basic file storage.

The target audience seems fairly clear: home theater users, HiFi setups, small studios, Apple users looking for a quieter storage box, and people who like the idea of a NAS but do not want the noise, power draw, or physical size that usually comes with mechanical hard drives.

Minisforum MS-03: A Workstation Mini PC With Faster Networking and Newer Intel Hardware

The next system on the Minisforum stand is the MS-03, which follows on from the MS-01 rather than replacing something in the NAS range. This is important, because although it shares the same compact, high-I/O style that made the MS-01 interesting, the MS-03 is being presented as a workstation mini PC, not a storage appliance. Minisforum is describing it as a regular iteration of the MS-01, but the changes are not minor. The focus is on a newer Intel Panther Lake-H platform, faster memory, faster SSD support, upgraded networking, and added local AI acceleration.

Compared with the MS-01, the MS-03 moves to DDR memory up to 7200MHz and upgrades 2 SSD slots from PCIe 4.0 to PCIe 5.0. Wired networking is also improved, with 1 port moving from 2.5GbE to 10GbE, while the wireless card moves from WiFi 6E to WiFi 7. Minisforum is also raising the TDP from 60W to 70W, with a 240W power adapter as standard. On the display side, the HDMI connection is upgraded from HDMI 2.1 TMDS to HDMI 2.1 FRL, with CEC support included.

The AI angle is also more visible on this model than it was on the MS-01. The MS-03 adds an NPU rated at 50 TOPS, with Minisforum specifically pointing to Intel AI application support. That does not turn it into a GPU-heavy tower workstation, but it does make the system more relevant for local AI workloads, development, and applications that can take advantage of Intel’s newer platform features.

One trade-off is that the PCIe slot is reduced from x8 to x4 because of CPU PCIe lane limits. Minisforum says x4 is still enough for most expansion cards, although a graphics card will see some performance reduction if installed.

Minisforum M2 Pro: A Smaller Mini PC Built Around Local AI

The Minisforum M2 Pro is the smaller mini PC on the stand, and unlike the S5, it is not being presented as a NAS. This is more of a compact desktop system for users who want newer Intel hardware, stronger integrated graphics, faster memory, and local AI features in a smaller footprint. Minisforum is basing it on Intel’s Panther Lake platform, specifically listing PTL-H-12Xe, with a focus on combining CPU, GPU, and NPU resources for local AI tasks rather than relying only on cloud processing.

The headline figure here is up to 180 TOPS of total AI performance across the system. That includes a new NPU5 AI engine rated at up to 50 TOPS, alongside the CPU and Xe3 integrated GPU. Minisforum is also claiming more than a 50% graphics performance improvement from the Xe3 GPU, which is relevant for users looking at light creative work, GPU-assisted workloads, and general desktop performance without moving to a larger system with a discrete graphics card. Memory is another major part of the platform, with LPDDR5X 8533 listed for high-bandwidth workloads such as local model inference, multitasking, and media work.

In terms of physical setup, the M2 Pro is designed to reduce the amount of clutter around the desk. Minisforum lists a built-in power supply, an all-metal body, support for horizontal, vertical, and VESA-mounted installation, and a dedicated button for Microsoft Copilot.

Connectivity is also a significant part of the design, with 10GbE, 2.5GbE, USB4, and support for up to 4 displays, including up to 8K at 60Hz. That makes the M2 Pro less of a basic office mini PC and more of a compact workstation-style system for local AI, remote work, media use, and higher-speed networked workflows.

Specification	Minisforum M2 Pro Mini PC
Product type	Compact AI-focused mini PC
Launch timing	Early September
CPU platform	Intel Panther Lake, PTL-H-12Xe
Total AI performance	Up to 180 TOPS
NPU	New-generation NPU5
NPU performance	Up to 50 TOPS
GPU	Intel Xe3 integrated graphics
Claimed GPU improvement	More than 50% graphics performance boost
Memory	LPDDR5X 8533
Storage	3 x M.2 2280 PCIe 4.0 SSDs
Wired networking	10GbE + 2.5GbE
External connectivity	USB4
Power design	Built-in power supply
Chassis	Lightweight all-metal body
Mounting options	Horizontal, vertical, and VESA-mounted setup
Display support	Up to 4 displays, up to 8K at 60Hz
Extra feature	One-touch Microsoft Copilot button
Target users	Local AI users, remote professionals, software engineers, media creators, education, edge AI use

Minisforum N4 NAS: A Compact 4-Bay NAS with Intel Hardware

Also on the Minisforum stand at Computex 2026 is the N4 NAS, a compact 4-bay system that sits in a different part of the range from the larger N5 Max and the silent S5 all-flash NAS. At first glance, the N4 looks like it could have been built around a lower-power ARM platform, especially given the smaller chassis and more compact layout. However, Minisforum is instead using an Intel Core 3 x86 processor here, with a 6-core configuration and an early target of 16GB LPDDR memory onboard. That gives the N4 a more conventional mini PC-style hardware base than some entry NAS systems, and it also fits with Minisforum’s wider direction of using Intel and AMD platforms across its NAS products.

Storage is split between 4 SATA bays and 2 M.2 NVMe slots, giving the N4 a more flexible layout than a simple 4-bay hard drive NAS. The SATA bays are there for conventional high-capacity storage, while the M.2 slots can be used for faster flash storage, caching, or other SSD-based tasks depending on the final software implementation. On the rear, Minisforum is showing 10GbE and 2.5GbE networking, USB4 connectivity, and WiFi 7, which is a stronger I/O mix than expected on a smaller 4-bay NAS. That gives the system a better chance of handling faster local transfers, SSD-assisted workloads, and mixed home or small office use.

The chassis is also worth noting. Although the N4 looks as if it might be plastic at first, the unit on display uses a metal body, with ventilation across the top and a cooling path running through the system. Minisforum still appears to be in the early development stage with this model, but the direction is clear enough: this is not being treated as a very basic home NAS. Instead, the N4 looks like a compact Intel-based NAS that combines HDD storage, NVMe support, 10GbE, USB4, WiFi 7, and a more rugged chassis design. It also continues the company’s wider Computex theme of leaning into x86 processors, faster networking, and AI-capable platforms rather than moving toward ARM-based NAS hardware.

Specification	Minisforum N4 NAS
Product type	Compact 4-bay NAS
Status	Early development / shown at Computex 2026
CPU	Intel Core 3
CPU architecture	x86
CPU configuration	6-core processor
Memory	Targeting 16GB LPDDR onboard memory
Main storage	4 x SATA bays
Flash storage	2 x M.2 NVMe slots
Wired networking	10GbE + 2.5GbE
External connectivity	USB4
Wireless	WiFi 7
Chassis	Metal body
Cooling	Internal cooling path with top ventilation
Positioning	Compact Intel-based NAS with stronger I/O than a basic 4-bay system
Related Minisforum NAS range	Sits below larger N5 Max and alongside the S5 all-flash NAS in the Computex line-up

 

Minisforum PCIe Expansion Card: 4 x NVMe, OCuLink and 20Gb USB on 1 Card

Also on the Minisforum stand is a PCIe expansion card that is a little less conventional than the usual multi-NVMe adapter. At a basic level, this is a 4-bay M.2 NVMe PCIe card, but the design goes beyond simply adding extra SSD slots.

The card includes active cooling, a heatsink assembly, copper heat pipe cooling, and 4 M.2 NVMe positions under the top section. When used with a single SSD, the card can provide up to PCIe Gen 4 x4 to that drive, while a fully populated 4-drive setup appears to divide the available bandwidth across the installed SSDs. This makes it more of a compact high-speed storage expansion option than a simple passive adapter.

The more unusual part is the additional I/O built into the card. Minisforum has added an OCuLink port at the base, alongside a USB 3.2 Gen 2×2 20Gbps USB port. There is also a rear switch that appears to change the OCuLink output between PCIe mode and SATA mode. Multi-M.2 PCIe cards are not new, and there are already expansion cards that combine NVMe storage with networking or other add-ons, but seeing OCuLink added alongside 4 NVMe slots and 20Gb USB is less common.

It fits with Minisforum’s wider Computex approach of combining storage, expansion, and compact workstation use cases into products that are not always easy to place in a single category.

Thoughts From the Minisforum Stand

From what I am seeing at the Minisforum stand, the company is using Computex 2026 to show a wider spread of compact systems rather than focusing on a single product type or single massive ‘launch’ of a product for 2026. This kinda makes sense, as the hardware market for their products has no doubt taken something of a hit with the rise in HDDs. SSD and RAM market to deter buyers. The S5 is the storage-focused device here, and its main point of interest is the move toward a quieter all-flash NAS with faster I/O than many entry-level SSD NAS systems. The MS-03 is a different kind of product, with a stronger focus on workstation use, newer Intel hardware, 10GbE, PCIe 5.0 storage, and a dedicated NPU. The M2 Pro then takes some of that same AI and connectivity direction into a smaller mini PC design with a built-in power supply and a more desk-friendly layout. I may add more devices to this article as I continue going through the stand, but the early picture is that Minisforum is putting more emphasis on local AI, faster networking, and compact systems that do not require a full-size desktop tower.

SUBSCRIBE TO OUR NEWSLETTER
[contact-form-7]
Join Inner Circle

Want to follow specific category? Also Read...Minisforum MS-03 Revealed - BeUGREEN DXP4800GT NAS Revealed QNAP TS-467X, TS-667X and TS-8QNAP TS-h265 and TS-h465 NAS RMinisforum MS-03: First Look aMinisforum at Computex 2026 - UGREEN DXP4800GT NAS Revealed Minisforum S5 and S7 All-FlashMinisforum S5 and S7 All-FlashMinisforum N5 Max - UPDATE & N Subscribe You can also follow specific search terms:

This description contains links to Amazon. These links will take you to some of the products mentioned in today's content. As an Amazon Associate, I earn from qualifying purchases. Visit the NASCompares Deal Finder to find the best place to buy this device in your region, based on Service, Support and Reputation - Just Search for your NAS Drive in the Box Below

Need Advice on Data Storage from an Expert?

TRY CHAT

If you like this service, please consider supporting us. We use affiliate links on the blog allowing NAScompares information and advice service to be free of charge to you.Anything you purchase on the day you click on our links will generate a small commission which isused to run the website. Here is a link for Amazon and B&H.You can also get me a Ko-fi or old school Paypal. Thanks!To find out more about how to support this advice service check HEREIf you need to fix or configure a NAS, check Fiver Have you thought about helping others with your knowledge? Find Instructions Here  

Or support us by using our affiliate links on Amazon UK and Amazon US

    

 

WE LOVE COFFEE

Where to Buy a Product
			VISIT RETAILER ➤
			VISIT RETAILER ➤

If you like this service, please consider supporting us.
We use affiliate links on the blog allowing NAScompares information and advice service to be free of charge to you. Anything you purchase on the day you click on our links will generate a small commission which is used to run the website. Here is a link for Amazon and B&H. You can also get me a Ko-fi or old school Paypal. Thanks! To find out more about how to support this advice service check HERE    

WE LOVE COFFEE

Or support us by using our affiliate links on Amazon UK and Amazon US

     

Minisforum MS-03: First Look at the New Workstation Mini PC

The Minisforum MS-03 is on show today at the company’s Computex 2026 stand, following its earlier Q1 appearance in prototype form at Minisforum’s Intel Core Ultra Series 3 event in Shanghai. At that earlier showing, the MS-03 was presented as part of Minisforum’s next wave of AI PC hardware, and here at Computex it is being shown more clearly as the follow-up to the MS-01 workstation mini PC. This is not a NAS (clearly! But always good to confirm on my website!) and it is not being positioned as a simple office mini PC.

The MS-03 is a compact workstation system built around Intel Panther Lake-H hardware, with a higher 70W TDP, faster memory support, PCIe 5.0 SSD upgrades, 10GbE networking, WiFi 7, HDMI 2.1 FRL, and a dedicated NPU rated at 50 TOPS for Intel AI workloads. Minisforum is treating this as a fairly direct evolution of the MS-01, but the hardware changes suggest a stronger focus on local AI, faster storage, and higher-speed networking than before.

Minisforum MS-03: Design and Connections

The MS-03 keeps the same general idea as the MS-01: a compact workstation mini PC with more connectivity than a typical small desktop. At the stand, Minisforum is presenting it as a system for users who need workstation-style I/O in a smaller enclosure, rather than a basic mini PC for light office use. The external design appears to stay focused on practicality, with the main value coming from the number and type of connections available rather than from the chassis alone.

The main wired networking change is the move to 10GbE. On the MS-03, Minisforum says 1 wired network port has been upgraded from 2.5GbE to 10GbE, which is a useful change for users working with fast NAS storage, shared project folders, local servers, or larger AI and media datasets. For a machine of this size, 10GbE makes the MS-03 more useful in a mixed workstation and homelab setup, especially where faster local network transfers matter more than raw internal storage alone.

Wireless networking is also updated, with the MS-03 moving from WiFi 6E on the MS-01 to WiFi 7. This does not replace the value of wired 10GbE for heavier workloads, but it does make the system more flexible when it is used away from a fixed wired setup. For users who want to keep the desktop cleaner, move the system between locations, or use it in an office where wired networking is not always available, WiFi 7 is a reasonable platform update.

Display output also gets a change, with the HDMI interface moving from HDMI 2.1 TMDS to HDMI 2.1 FRL, along with CEC support. That gives the MS-03 a more modern display connection than the MS-01 and makes it better suited to newer monitors and display setups. Minisforum has not positioned the MS-03 as a gaming box, but with the upgraded CPU platform, improved GPU performance, 10GbE, WiFi 7, and updated HDMI, the external design is clearly aimed at users who want a compact system that can sit on a desk, connect to faster storage and networks, and handle a more serious multi-purpose workstation role.

Minisforum MS-03: Internal Hardware

Inside, the Minisforum MS-03 moves to Intel’s Panther Lake-H platform, which is the main hardware change over the MS-01 generation. Minisforum is presenting this as a full platform update rather than a small CPU refresh, with improvements expected across CPU, GPU, memory, storage, networking, and AI acceleration. The system is still a compact workstation mini PC, so it is not trying to replace a large tower workstation in every scenario, but it does appear to be aimed at users who want more local performance than a standard mini PC normally provides. Memory support is one of the clearer upgrades. Minisforum lists DDR memory support up to 7200MHz, which gives the MS-03 a faster memory ceiling than the previous MS-01 platform. That matters for general responsiveness, heavier multitasking, development work, virtual machines, and workloads that benefit from higher memory bandwidth. For a compact workstation system, faster memory also helps keep the machine more balanced when paired with newer CPU and integrated graphics hardware. Storage is also being moved forward, with 2 SSDs upgraded from PCIe 4.0 to PCIe 5.0. This gives the MS-03 faster local storage potential, which is useful for large project files, scratch disks, application loading, VM storage, and local AI datasets. It also helps separate the MS-03 from more ordinary compact PCs, where storage may still be limited to PCIe 4.0 or lower-speed slots. The faster storage is not just about peak benchmark numbers, but about making the system more suitable for sustained workstation-style use.

The other major internal change is the addition of a dedicated NPU rated at 50 TOPS. Minisforum is specifically tying this to Intel AI applications, which suggests the MS-03 is being designed around local AI support rather than only conventional desktop performance. The TDP has also increased from 60W to 70W, with a 240W adapter as standard, giving the system more power headroom than the MS-01. One compromise is the PCIe slot change from x8 to x4, which Minisforum says is due to CPU PCIe lane limitations. For many expansion cards, x4 should still be workable, but anyone planning to use a graphics card should expect some performance reduction compared with a wider PCIe connection.

Minisforum MS-03 vs MS-01 vs MS-02: Design and Connections

Looking at the MS-03 alongside the MS-01 and MS-02, the main difference is that Minisforum appears to be adjusting the balance between compact workstation I/O, expansion, and newer platform features. The MS-01 made its name by offering an unusual amount of connectivity for its size, including dual 10GbE SFP+ ports, dual 2.5GbE RJ45 ports, dual USB4 ports, WiFi 6, and a PCIe 4.0 x16 physical expansion slot. In practice, that made it useful for homelab, firewall, virtualization, NAS-adjacent, and compact workstation use, even though it was still a mini PC rather than a NAS.

The MS-02 Ultra then moves further into workstation territory. It is a larger and more expandable system, with Intel Core Ultra HX options, 4 DDR5 SODIMM slots, PCIe 5.0 x16 expansion, USB4 v2 at 80Gbps, and, on the higher-end configuration, dual 25GbE SFP+ networking. It is less about being the smallest possible workstation box and more about providing a compact alternative to a more traditional tower system, especially for users who need more memory, more expansion, and higher-bandwidth networking.

The MS-03 sits between those 2 ideas. Compared with the MS-01, it updates the platform with Panther Lake-H, WiFi 7, HDMI 2.1 FRL, 10GbE RJ45, PCIe 5.0 SSD support, and a stronger 50 TOPS NPU. Compared with the MS-02 Ultra, it does not appear to be the larger, maximum-expansion option. The most obvious compromise is the PCIe slot, which drops from x8 on the MS-01 to x4 on the MS-03 because of CPU PCIe lane limits. For network cards, capture cards, storage cards, and many other add-in devices, that may still be enough, but it is a point to note for anyone thinking about adding a GPU.

Minisforum MS-03: Price and Estimated Launch Date

Minisforum says the MS-03 is planned for launch at the end of June, although final pricing has not been confirmed from the material available at the stand. Based on how the system is being positioned, it appears to sit as a direct MS-01 successor rather than as a replacement for the larger MS-02 Ultra. That means the final price will likely depend heavily on the CPU configuration, memory, SSD options, and whether Minisforum sells it mainly as a barebones unit or in pre-configured versions. For now, the most useful detail is the launch window: the MS-03 is being shown today at Computex 2026, with availability expected later in June.

Join Inner Circle

Want to follow specific category? Also Read...A Look Around the Minisforum SMinisforum MS-03: First Look aMinisforum at Computex 2026 - Minisforum S5 and S7 All-FlashMinisforum S5 and S7 All-FlashMinisforum N5 Max - UPDATE & NMinisforum N5 Max - UPDATEMinisforum N5 AIR NAS ReviewMinisforum N5 AIR NAS ReviewMinisforum Reveal the New Mini Subscribe You can also follow specific search terms:

This description contains links to Amazon. These links will take you to some of the products mentioned in today's content. As an Amazon Associate, I earn from qualifying purchases. Visit the NASCompares Deal Finder to find the best place to buy this device in your region, based on Service, Support and Reputation - Just Search for your NAS Drive in the Box Below

Need Advice on Data Storage from an Expert?

TRY CHAT

If you like this service, please consider supporting us. We use affiliate links on the blog allowing NAScompares information and advice service to be free of charge to you.Anything you purchase on the day you click on our links will generate a small commission which isused to run the website. Here is a link for Amazon and B&H.You can also get me a Ko-fi or old school Paypal. Thanks!To find out more about how to support this advice service check HEREIf you need to fix or configure a NAS, check Fiver Have you thought about helping others with your knowledge? Find Instructions Here  

Or support us by using our affiliate links on Amazon UK and Amazon US

    

 

WE LOVE COFFEE

Where to Buy a Product
			VISIT RETAILER ➤
			VISIT RETAILER ➤

If you like this service, please consider supporting us.
We use affiliate links on the blog allowing NAScompares information and advice service to be free of charge to you. Anything you purchase on the day you click on our links will generate a small commission which is used to run the website. Here is a link for Amazon and B&H. You can also get me a Ko-fi or old school Paypal. Thanks! To find out more about how to support this advice service check HERE    

WE LOVE COFFEE

Or support us by using our affiliate links on Amazon UK and Amazon US

     

TP Link BE3600 WiFi 7 Travel Router Review (TL-WR3602BE)

The TP-Link TL-WR3602BE is a Wi-Fi 7 travel router built for situations where you want your own network layer on top of whatever internet you can get at the time, such as hotel Ethernet, public Wi-Fi with a captive portal, or a phone acting as a tether. The basic appeal is practical rather than flashy: it aims to reduce friction when you are carrying multiple devices, sharing a single connection, or switching between different uplinks while keeping the same SSID and settings for your own gear. It is a dual band BE3600 model limited to 2.4 GHz and 5 GHz, so it does not add a 6 GHz option, but it does support Wi-Fi 7 features like Multi-Link Operation when paired with compatible clients, which matters more for stability and real-world throughput than headline speeds. On the wired side it pairs a 2.5 Gbps WAN port with a 1 Gbps LAN port, and it can repurpose ports depending on how you set it up, which helps when the “internet source” is not always a standard WAN feed. The USB layout also fits the travel focus: USB-C for power from a wall adapter, laptop, or power bank, plus a USB 3.0 Type-A port that can be used for tethering or basic file sharing from attached storage. VPN support is another key part of the pitch, with WireGuard and OpenVPN available in client and server roles, and a physical button that can be mapped to VPN on and off or other functions, which is useful when you want a quick change without digging through menus. This review looks at what the device actually does in common travel scenarios, including setup flow, captive portal onboarding, mode switching, failover between uplinks, power draw, heat, and the way the web UI and mobile app handle day-to-day control at a price that has moved from its initial launch range down to around the 99 level depending on retailer and promotions.

TP Link BE3600 Router Review – Quick Conclusion

f you want a travel router that can take hotel Ethernet, public Wi-Fi, or phone tethering and turn it into a single private network for all your devices, the TP-Link TL-WR3602BE largely does that job without much fuss: it is small enough to live in a bag, runs off USB-C power with low wattage draw, stays relatively cool during longer use, and it supports the common travel modes plus VPN features that let you protect traffic across multiple devices from one place, including a physical button you can map to VPN on and off. The wired setup is sensible for travel, with a 2.5 Gbps port plus a 1 Gbps port that can be reassigned depending on how you configure it, and the USB 3.0 port is genuinely useful because it can handle tethering, some USB modem scenarios, or basic file sharing from attached storage. The main downsides are straightforward: there is no 6 GHz band, so you lose the cleanest spectrum option and the widest Wi-Fi 7 channel widths, it has no internal battery so you always need an external power source, and while Multi-Link Operation is supported, it is not “free” on the hardware side and can push CPU and RAM usage higher, which matters if you are stacking MLO with VPN and other features at the same time. The interface and management tools cover most settings people would expect, but the web UI can feel less polished than the mobile app, and switching between operating modes can take a short while to settle. At a street price around the 99 level depending on retailer promotions, it reads as a budget-friendly way into Wi-Fi 7 travel routing with a good set of real-world travel features, as long as you are comfortable with dual-band Wi-Fi 7 and the limits of a USB-powered, small-hardware platform.

SOFTWARE - 7/10

HARDWARE - 7/10

PERFORMANCE - 7/10

PRICE - 9/10

VALUE - 8/10

7.6

PROS

Dual-band Wi-Fi 7 (2.4 GHz and 5 GHz) with Multi-Link Operation support for compatible clients
Wide set of travel-focused modes: Router, Hotspot (WISP), USB Tethering, USB Modem, Access Point, Range Extender, Client
2.5 Gbps Ethernet plus 1 Gbps Ethernet, with flexible port role assignment depending on setup
USB-C power input makes it easy to run from a wall adapter, laptop, or power bank
Low measured power draw in multi-device use, making portable power practical
Good sustained thermals in longer sessions, helped by extensive chassis ventilation
VPN support in client and server roles, including WireGuard and OpenVPN, with a configurable physical button for quick actions
USB 3.0 port can be used for tethering or basic network file sharing from external storage

CONS

No 6 GHz band, which limits spectrum options and rules out 320 MHz channel operation
No internal battery, so it always depends on an external power source and cable
Higher CPU and RAM load observed with Multi-Link Operation, which can reduce headroom for stacked features
Web interface can feel dated compared with the mobile app, and mode switching may take 30 to 45 seconds
The MLO architecture is currently E-MLSR MLO (Enhanced Multi-Link Single Radio Operation Mode), which lacks the true aggregation of Sync MLMR (Synchronous Multi-Link Multi-Radio) MLO

Buy the TP-Link TL-WR3602BE for $99 on Amazon	Buy the TP-Link TL-WR3602BE for $99 on B&H

TP Link BE3600 Router Review – Design and Storage

The TL-WR3602BE is built around a pocketable, rounded plastic shell that is meant to survive being thrown into a bag without snagging on other gear. It is not the smallest travel router in this category, but it stays within the same general footprint and avoids sharp edges, which makes it easier to pack alongside cables, adapters, and power banks. In day-to-day use, it feels closer to a compact accessory than a “mini home router,” which fits the travel intent.

A noticeable design choice is ventilation. In addition to the usual venting on the base, it has venting around the sides and a vented front panel, which is not always present on small travel models. The external chassis is still plastic, but the amount and placement of venting suggests the device is built with sustained operation in mind, not just short sessions in a hotel room.

The overall finish is smooth and practical, with no gloss surfaces that look good on a product page but show scuffs quickly.

The antennas are mounted on either side and fold with up to 180 degrees of articulation, letting you flatten them for packing or angle them for a better signal path when the router is sitting behind a TV or on a desk.

This style of antenna hinge is common on travel routers, but the travel benefit is straightforward: the unit stores flatter, then quickly shifts into a more usable orientation once powered. There is also a physical toggle button on the body, which adds to the “quick control” feel without relying entirely on an app or web UI.

For storage and carry, the main practical detail is that the router has no internal battery, so it always travels with at least a USB-C power source. That slightly changes what “portable” means here: the router is easy to pack, but the full setup is the router plus a short cable and either the included adapter, a laptop port, or a power bank. If you already carry USB-C power for other devices, it fits into that routine cleanly, but it is not a self-contained unit you can pull out and run without accessories.

TP Link BE3600 Router Review – Ports and Connections

The TL-WR3602BE uses a simple physical layout: 1× 2.5 Gbps Ethernet port, 1× 1 Gbps Ethernet port, 1× USB-C power input, and 1× USB 3.0 Type-A port. The Ethernet ports are labeled WAN and LAN, but the router can be configured so the roles are swapped, and in some setups you can treat both as LAN-facing ports if you want a small wired pocket network. The 2.5 Gbps port is mainly there to avoid bottlenecking faster hotel or office uplinks and to give headroom for local wired transfers, while the 1 Gbps port covers the typical “plug a laptop in” use case. As with any multi-gig device, you only see 2.5 Gbps link rates if the upstream gear, cabling, and the connected device all support it.

The USB 3.0 Type-A port is intended as a multi-purpose expansion point rather than a “nice to have.” It supports USB tethering from a phone, USB modem internet in the supported modem mode, and external storage sharing across the local network. On storage, the router can expose attached drives to other devices using common network file methods such as SMB and FTP, which is enough for basic file drop and backup tasks without needing a separate NAS on the road. The trade-off is that storage performance and feature depth tend to be limited by the router’s processor and memory, and it is not positioned as an app-driven platform where you add services on demand. Compatibility is also a real consideration with USB modems and phone tethering, since support can vary by device and carrier behavior.

Power is delivered only through USB-C and the router has no internal battery, so stability depends on the power source you provide. TP-Link specifies 5V/3A, and in normal terms that means it is designed to run from a decent USB-C wall adapter, a laptop USB port, or a power bank that can hold 5V output without sagging under load. In practical use, its low wattage draw makes it easier to keep running from portable power, but it also means you need to plan around power availability in the environment. If the power source is shared, switched off, or flaky, the router will reboot and you lose the session, which can matter if you are mid-meeting or relying on it to stay logged into a captive portal.

TP Link BE3600 Router Review – Internal Hardware

Inside the TL-WR3602BE, TP-Link uses a dual-core MediaTek platform (MediaTek 981B) clocked at 1.3 GHz, paired with 512 MB of memory. In plain terms, this is a midrange setup for a travel router: enough to run a full router feature set, basic QoS, VPN, and multi-mode operation without the device feeling underpowered in light to moderate use.

It is not the kind of hardware you see in newer, higher-priced models that use faster quad-core chips, and that difference tends to show up when you stack heavier features at the same time, such as high-throughput VPN, multiple clients, and Wi-Fi 7 Multi-Link Operation. The upside of the more modest platform is that it helps keep power draw down, which matters more on a travel router than it does on a mains-powered home unit.

On the wireless side, it is a dual-band Wi-Fi 7 design offering 2.4 GHz and 5 GHz service, with rated speeds of 688 Mbps on 2.4 GHz and 2882 Mbps on 5 GHz under ideal conditions. It supports Wi-Fi 7 features like Multi-Link Operation, 4K-QAM, and Multi-RU behavior, but real benefit depends on client support because those features require Wi-Fi 7-capable devices to negotiate them. The lack of a 6 GHz radio is a meaningful design constraint because it removes the cleanest spectrum option and the ability to use 320 MHz channels, so the top-end “Wi-Fi 7 showcase” configurations are off the table. In return, the 160 MHz support on 5 GHz still gives it room for high practical throughput in environments that are not too congested, and dual-band keeps the radio design simpler and typically easier on thermals.

The hardware also includes a physical button that can be mapped to functions such as VPN activation, which is a small feature but relevant to how the device is used on the move. Under feature load, the limiting factors tend to be CPU cycles and memory headroom rather than raw link rates. In testing with Multi-Link Operation enabled, the device showed sustained CPU and RAM utilization in the 50% to 60% range with a single MLO client connected over a sustained period, which is a useful indicator that Wi-Fi 7 aggregation is not “free” on the router side. That does not automatically translate into a problem, but it does explain why performance and responsiveness can dip if you combine MLO, VPN, and heavier management features at the same time.

TP Link BE3600 Router Review – Software, Services & Tests

Management is available through a web-based admin interface and the TP-Link Tether mobile app, with the app generally feeling like the more streamlined option for quick changes. The feature set is closer to what you would expect from a small home router than a minimal travel gadget, including guest networks, client management, IPv4 and IPv6 options, port forwarding and related routing controls, plus basic QoS by device. It also supports multiple working modes, so the same unit can act as a router, access point, range extender, client, hotspot (WISP), USB tethering router, or USB modem router depending on what the environment provides. Remote access through a TP-Link ID is optional, and the core configuration does not depend on subscribing to anything.

For VPN use, the router supports both client and server roles across several protocols, including WireGuard and OpenVPN, and it also lists PPTP and L2TP options. The practical angle here is that you can run a VPN for specific situations without changing settings on every connected device, and the physical button can be used as a quick on-off for VPN rather than hunting through menus. TP-Link’s own performance ratings list WireGuard up to 450 Mbps and OpenVPN up to 350 Mbps, which helps set expectations that encrypted throughput will be lower than a direct connection. In normal use, that means it is suitable for typical travel workloads like browsing, work apps, and streaming, but it is not aimed at sustaining multi-gig speeds through a VPN tunnel.

In basic travel workflow, two timings stood out. From a cold boot, measured from connecting USB power through to a laptop joining the router Wi-Fi and reaching the admin dashboard, the process took 1 minute and 43 seconds. With the router already powered and a laptop already connected to its Wi-Fi, joining a public Wi-Fi network and reaching the captive portal login page took 42 seconds using the built-in connection tools. Put together, that places the “out of the bag to captive portal page” path at a little over 2 minutes and 30 seconds in that scenario, which is relevant because travel routers are often judged by how quickly they become usable rather than by peak throughput claims.

Mode switching was more variable than initial boot. The router tends to retain the last operating mode used, which helps if your routine is consistent, but switching between modes on the fly could require roughly 30 to 45 seconds to reconfigure and settle.

Failover behavior between uplinks was generally quick: in a setup where the router had both a public Wi-Fi uplink and a tethered phone connection available, removing the tethered phone did not drop the active session, and reintroducing tethering was followed by about a 5 second delay before the router picked it back up. The practical takeaway is that dual-uplink travel setups can work without long interruptions, but the device may make its own decisions about which uplink is preferred at a given moment.

Power draw and heat behavior were both measured under a multi-device load. With 3 Wi-Fi 7 clients connected and 2 wired clients connected, observed power use ranged from about 2.84 W to about 4.12 W, which keeps it within easy range for laptop power or a modest power bank. Under Multi-Link Operation, the internal platform showed sustained CPU and memory use around 50% to 60% with 1 MLO client over a 10 minute window, suggesting the feature has a real processing cost even at low client counts.

Thermals stayed controlled over several hours of mixed use, with readings around 32°C on the top, 33°C to 34°C around ports, about 34°C on the side panels, and about 29°C to 30°C on the vented front panel, which aligns with the heavy venting built into the chassis. There is also an eco mode system that lets you shift between boost, balanced, and eco behavior, which is not essential for most users but does provide a manual lever for trading responsiveness for lower power use.

TP Link BE3600 Router Review – Conclusion and Verdict

The TL-WR3602BE lands as a practical travel router with a modern headline feature set, but it is clearly built around a few deliberate trade-offs. You get Wi-Fi 7 support in a dual-band design, plus the flexibility of multiple operating modes, a usable mix of wired and wireless connectivity, and VPN options that can be controlled without much friction. The constraints are easy to define up front: there is no 6 GHz band, so you are not getting the cleanest spectrum option or the wider 320 MHz channels that some people associate with “full” Wi-Fi 7 setups. It also has no internal battery, so the travel setup always includes a power source, and under Multi-Link Operation the device can show noticeably higher CPU and memory load, which is worth keeping in mind if you plan to run MLO alongside VPN and other services at the same time.

On balance, it comes across as a router that prioritizes travel usability over chasing the highest spec sheet ceiling. The measured behavior supports that, with reasonable boot and captive-portal onboarding times, quick recovery when a tethering source is removed and reintroduced, low wattage draw that fits typical USB power situations, and controlled temperatures during longer sessions. The main “con” side is less about any single flaw and more about expectations: if you are buying specifically for 6 GHz, or you want more processing headroom for heavier, always-on features, this is not the most future-proof option even if it is labeled Wi-Fi 7. At a street price around the 99 level depending on retailer and promotions, it makes sense as a cost-focused way into Wi-Fi 7 travel routing, especially for people who want a consistent personal network when moving between hotels, cafés, and tethering, and who are comfortable with the limits of a dual-band, USB-powered design.

Buy the TP-Link TL-WR3602BE for $99 on Amazon	Buy the TP-Link TL-WR3602BE for $99 on B&H

Join Inner Circle

Want to follow specific category? Also Read...Gl.iNet MUDI 7 5G SIM WiFi 7 TGl.iNet Slate 7 Pro Travel RouTP Link TL-WR3602BE Travel RouGl.iNet Beryl 7 vs Slate 7 TraGl.iNet Slate 7 vs Beryl 7 TraGl.iNet Beryl 7 vs Beryl AX TrGl.iNet Beryl 7 vs Beryl AX TrGl.iNet Beryl 7 Travel Router Gl.iNet Beryl 7 Travel Router Gl.iNet Slate 7 Pro (GL-BE1000 Subscribe You can also follow specific search terms:

This description contains links to Amazon. These links will take you to some of the products mentioned in today's content. As an Amazon Associate, I earn from qualifying purchases. Visit the NASCompares Deal Finder to find the best place to buy this device in your region, based on Service, Support and Reputation - Just Search for your NAS Drive in the Box Below

Need Advice on Data Storage from an Expert?

TRY CHAT

If you like this service, please consider supporting us. We use affiliate links on the blog allowing NAScompares information and advice service to be free of charge to you.Anything you purchase on the day you click on our links will generate a small commission which isused to run the website. Here is a link for Amazon and B&H.You can also get me a Ko-fi or old school Paypal. Thanks!To find out more about how to support this advice service check HEREIf you need to fix or configure a NAS, check Fiver Have you thought about helping others with your knowledge? Find Instructions Here  

Or support us by using our affiliate links on Amazon UK and Amazon US

    

 

WE LOVE COFFEE

UniFi and the Airwire – Did Ubiquiti just SOLVE Everyone’s WiFi MLO Issue?

Ubiquiti has introduced the UniFi AirWire, a WiFi 7 client adapter designed to address one of the more limited areas of current WiFi 7 deployment: the client side. While WiFi 7 access points and routers have been marketed heavily around Multilink Operation, many currently available client devices still rely on single-radio implementations that switch between bands rather than maintaining simultaneous links. The AirWire is positioned as a dedicated external client that aims to deliver true STR MLO operation across 5 GHz and 6 GHz, with Ubiquiti claiming improved throughput, lower latency, and better resilience than conventional integrated client hardware.

At a hardware level, the AirWire is a USB-C connected WiFi 7 adapter with a 4-stream design, support for 5 GHz and 6 GHz 2 x 2 MU-MIMO operation, and a quoted uplink capability of up to 5.8 Gbps on 6 GHz and 4.3 Gbps on 5 GHz. It also adds a high-gain antenna design and a dedicated scanning radio for real-time spectrum analysis. At $199, this places it well above the cost of generic USB wireless adapters, but it is also targeting a more specific role: enabling multi-gigabit wireless client connectivity in environments that already have the access point infrastructure to support it.

You can buy the Airwire via the link below – doing so will result in a small commission coming to me and Eddie at NASCompares, and allows us to keep doing what we do! 

UniFi Airwire – Design

The UniFi AirWire has a noticeably different physical design to the compact USB WiFi adapters that are typically associated with desktop or laptop client upgrades. At 117 x 117 x 42.5 mm and 537 g, it is much closer in appearance to a standalone wireless bridge or directional client than a conventional dongle. That larger enclosure is directly tied to its intended function, as Ubiquiti is clearly building around higher power operation, larger antenna structures, and the thermal requirements that come with sustained WiFi 7 activity across multiple radios.

The housing is made of polycarbonate and includes a fold-out top section that appears to be part of the antenna assembly and directional positioning of the unit. This gives the AirWire a more deliberate deployment profile, where placement and orientation are likely to matter more than they would with an internal laptop radio or a low-profile USB adapter. On the front, there is also a 0.96-inch status display, which provides at-a-glance information during setup and operation without needing to rely entirely on software feedback from the host system.

From a practical standpoint, the design reflects that this is not intended to be an invisible add-on for casual wireless use. It is an external client device built to sit on a desk or near a workstation, with a form factor that prioritizes radio performance and signal handling over portability. That makes it less discreet than mainstream client adapters, but it also aligns with the product’s stated purpose as a high-performance WiFi 7 endpoint for users trying to push beyond the limitations of standard integrated wireless hardware.

UniFi Airwire – Internal Hardware

Internally, the UniFi AirWire is built around a dual-band WiFi 7 architecture that focuses entirely on 5 GHz and 6 GHz operation, without any 2.4 GHz support. Ubiquiti rates the device as a 4-stream client, split across 2 x 2 MU-MIMO on 5 GHz and 2 x 2 MU-MIMO on 6 GHz.

This layout is central to its stated role as an STR MLO client, allowing both bands to be active simultaneously rather than relying on the more common single-radio behaviour seen in many current WiFi 7 client devices.

Ubiquiti also specifies a high-gain antenna design, with 11 dBi quoted on both 5 GHz and 6 GHz, which is significantly more aggressive than the antenna arrangements found in most integrated laptop or mobile WiFi hardware. Alongside this, the AirWire includes a dedicated scanning radio for real-time spectral analysis. That separate scanning capability is notable because it suggests the unit is not just focused on link speed, but also on monitoring local RF conditions and interference in parallel with normal client operation.

The trade-off for that hardware approach is power and thermals. Ubiquiti lists maximum power consumption at 18 W, with USB PD 5/9/12V support and separate normal and performance power profiles. In practical terms, that places the AirWire closer to a compact external network appliance than a typical USB wireless adapter. It also helps explain the larger chassis, the need for external power flexibility, and the expectation that sustained performance operation will demand more cooling headroom than a smaller bus-powered client device could realistically provide.

UniFi Airwire – Connectivity

The UniFi AirWire connects to the host system over USB-C, but from a networking perspective it is presented as a 5 GbE interface over USB 3.2 Gen 2. That distinction matters, because although the wireless side of the device is rated far higher in combined theoretical bandwidth, the host connection places an upper practical ceiling on what can be delivered to the attached PC, laptop, or workstation. In effect, the AirWire is designed to behave more like an external multi-gig network adapter than a conventional USB WiFi dongle.

On the wireless side, the AirWire operates on 5 GHz and 6 GHz only, with support for WiFi 7, WiFi 6, WiFi 5, and 802.11n data rates across a wide range of channel widths. Ubiquiti lists support for EHT 20/40/80/160/240/320 MHz, alongside HE, VHT, and HT modes on earlier standards. The maximum quoted link rates are 5.8 Gbps on 6 GHz using 320 MHz bandwidth and 4.3 Gbps on 5 GHz using 240 MHz bandwidth, though actual results will depend heavily on access point capability, spectrum availability, regional channel restrictions, and signal conditions.

Power delivery is also part of the connection design. Ubiquiti specifies USB PD 5/9/12V support, with 15 W in normal mode and 20 W in performance mode, while maximum device power consumption is listed at 18 W. This means that, depending on how the host system is connected and powered, full performance operation may require more than a single low-power USB port can reliably provide. That makes cable quality, port specification, and available USB power budget more relevant here than they would be for standard client adapters.

The AirWire also includes support for wireless meshing and real-time spectral analysis, which extends its connection role beyond basic client access. In a UniFi environment, setup is intended to be handled through UniFi AutoLink for rapid onboarding, reducing the need for separate client-side software installation. Even so, the broader connection experience will still depend on the surrounding infrastructure, particularly whether the connected UniFi access point supports the required WiFi 7 and 6 GHz features needed for the AirWire to operate in the way it is being marketed.

Specification	Details
Product Name	UniFi AirWire
Model	U-AirWire
Price	$199.00
Dimensions	117 x 117 x 42.5 mm
Dimensions (Imperial)	4.6 x 4.6 x 1.7 in
Weight	537 g
Weight (Imperial)	1.2 lb
WiFi Standard	WiFi 7
Spatial Streams	4
Uplink	WiFi
MIMO 6 GHz	2 x 2 (DL/UL MU-MIMO)
MIMO 5 GHz	2 x 2 (DL/UL MU-MIMO)
Max Data Rate 6 GHz	5.8 Gbps (BW320)
Max Data Rate 5 GHz	4.3 Gbps (BW240)
Antenna Gain 6 GHz	11 dBi
Antenna Gain 5 GHz	11 dBi
Max TX Power 6 GHz	20 dBm
Max TX Power 5 GHz	25 dBm
Supported Standards	802.11be, 802.11ax, 802.11ac, 802.11n
802.11be Data Rates	7.3 Mbps to 5.8 Gbps
802.11ax Data Rates	7.3 Mbps to 2.4 Gbps
802.11ac Data Rates	6.5 Mbps to 1.7 Gbps
802.11n Data Rates	6.5 Mbps to 300 Mbps
Wireless Meshing	Yes
Real-Time Spectral Analysis	Yes
Max Power Consumption	18 W
Power Supply	USB PD 5/9/12V, 15 W normal mode, 20 W performance mode
Networking Interface	1 x 5 GbE port (USB 3.2 Gen 2)
Management	USB-C
Enclosure Material	Polycarbonate
Display	0.96 in status display
Channel Bandwidth	HT 20/40, VHT 20/40/80/160, HE 20/40/80/160, EHT 20/40/80/160/240/320 MHz
NDAA Compliant	Yes
Certifications	CE, FCC, IC
Operating Temperature	-10 to 40 °C
Operating Humidity	5 to 95% non-condensing

UniFi Airwire – Verdict?

The UniFi AirWire is a more specialised product than its USB-C connection initially suggests. Rather than serving as a low-cost way to add basic WiFi 7 support to a system, it is designed to address a specific gap in the current client ecosystem: the lack of widely available true multi-radio MLO hardware on the device side. Its value therefore depends less on headline wireless specifications alone and more on whether the surrounding network environment is already capable of taking advantage of simultaneous 5 GHz and 6 GHz operation, wider channel support, and multi-gigabit client throughput.

On that basis, the AirWire appears to be an interesting but clearly targeted piece of hardware. The larger chassis, higher power requirements, directional design, and likely dependency on a strong WiFi 7 6 GHz deployment mean it is not a universal client upgrade for every user. However, for users already invested in UniFi WiFi 7 infrastructure and looking for a higher performance external client than the current mainstream market provides, it introduces a form factor and feature set that are still relatively uncommon. Whether that translates into a meaningful real-world advantage will depend on testing, particularly around sustained throughput, latency behaviour, thermal limits, and the practical impact of STR MLO outside of ideal conditions.

You can buy the Airwire via the link below – doing so will result in a small commission coming to me and Eddie at NASCompares, and allows us to keep doing what we do! 

Join Inner Circle

Want to follow specific category? Also Read...UniFi Dream Machine BEAST - ShUniFi Dream Machine BEAST - ShNew UniFi Dream Machine BEAST,New UniFi UDM Beast, EnterprisUGREEN DH4300 PLUS vs UniFi UNUniFi UNAS 4 vs UGREEN DH4300 UniFi Airwire - REAL WiFi 7 MUniFi UNAS 4 ReviewUniFi UNAS 4 ReviewIs the UniFi Dream Router Stil Subscribe You can also follow specific search terms:

This description contains links to Amazon. These links will take you to some of the products mentioned in today's content. As an Amazon Associate, I earn from qualifying purchases. Visit the NASCompares Deal Finder to find the best place to buy this device in your region, based on Service, Support and Reputation - Just Search for your NAS Drive in the Box Below

Need Advice on Data Storage from an Expert?

TRY CHAT

If you like this service, please consider supporting us. We use affiliate links on the blog allowing NAScompares information and advice service to be free of charge to you.Anything you purchase on the day you click on our links will generate a small commission which isused to run the website. Here is a link for Amazon and B&H.You can also get me a Ko-fi or old school Paypal. Thanks!To find out more about how to support this advice service check HEREIf you need to fix or configure a NAS, check Fiver Have you thought about helping others with your knowledge? Find Instructions Here  

Or support us by using our affiliate links on Amazon UK and Amazon US

    

 

WE LOVE COFFEE

Gl.iNet Slate 7 vs Beryl 7 Travel Router – Which Should You Buy?

At first glance, the GL.iNet Beryl 7 (GL-MT3600BE) and the GL.iNet Slate 7 (GL-BE3600) appear very closely matched. Both are compact dual band WiFi 7 travel routers, both include dual 2.5GbE ports, USB 3.0 expansion, OpenWrt based firmware, and support for VPN client and server deployment. They are designed for similar use cases such as securing public WiFi in hotels and airports, creating a private subnet for multiple personal devices, or acting as a portable gateway for temporary work setups. On paper, their wireless speed ratings are identical, and their overall feature sets overlap significantly. However, there is a clear price separation, with the Beryl 7 typically retailing at $139.99 and the Slate 7 positioned higher at $169.99. Given how similar they appear in specification tables, this comparison focuses on what justifies that difference, looking beyond headline WiFi 7 support and examining hardware platform choices, memory configuration, interface design, performance ceilings, and overall positioning within the travel router lineup.

Gl.iNet Beryl 7 Travel Router		Gl.iNet Slate 7 Travel Router
Buy From Gl.iNet	Buy From Amazon	Buy From Gl.iNet	Buy From Amazon

Gl.iNet Beryl 7 vs Slate 7 – Wireless Connectivity

Both the GL.iNet Beryl 7 (GL-MT3600BE) and the GL.iNet Slate 7 (GL-BE3600) are dual band WiFi 7 routers operating across 2.4GHz and 5GHz, with identical rated wireless speeds of 688Mbps on 2.4GHz and 2882Mbps on 5GHz, for a combined 3600Mbps class rating. Neither device includes 6GHz support, which means both are technically WiFi 7 implementations without access to the expanded 6GHz spectrum or 320MHz channel widths. Instead, they focus on delivering WiFi 7 features such as improved OFDMA efficiency, 4K QAM, preamble puncturing, and Multi Link Operation within the existing 2 band framework.

In practical use, this means the wireless experience between the two routers is very similar when connecting modern WiFi 7 client devices. Multi Link Operation allows compatible devices to aggregate traffic across 2.4GHz and 5GHz simultaneously rather than choosing a single band. This can improve stability and reduce latency under load, particularly when multiple devices are active. However, because neither router supports 6GHz, both are limited to 160MHz channels, which caps the theoretical advantage compared to tri band WiFi 7 platforms. For most travel environments where surrounding networks are congested and spectrum is shared, the absence of 6GHz may not be the primary limiting factor.

It is also relevant that WiFi 7 client adoption is still developing, and many connected devices will continue to operate using WiFi 6 or earlier standards. In those cases, both routers fall back to backward compatible modes with similar performance characteristics. Since their radio specifications are aligned and both omit 6GHz, there is no material wireless generation advantage of one over the other. The distinction between these two models therefore lies less in raw WiFi 7 capability and more in the hardware platform and resource allocation that supports that wireless layer.

Gl.iNet Beryl 7 vs Slate 7 – Wired Connectivity

From a wired networking perspective, both the GL.iNet Beryl 7 (GL-MT3600BE) and the GL.iNet Slate 7 (GL-BE3600) are equipped with dual 2.5GbE ports. Each device includes 1 port typically designated as WAN and 1 as LAN, but both allow role reassignment within the software. This means either router can be configured to accept a multi gigabit internet uplink while simultaneously providing a 2.5G wired connection to a local client such as a workstation, NAS, or switch. In contrast to earlier travel routers limited to 1G LAN outputs, both of these models are capable of sustaining multi gigabit throughput on both ingress and egress.

In practical deployment, this gives both devices flexibility in scenarios where internet speeds exceed 1Gbps or where high speed local transfers are required. For example, a user connecting to a fiber service above 1G can feed that into the WAN port and still provide full 2.5G bandwidth to a wired LAN device. This configuration also supports load balancing or failover setups when combined with USB tethering or repeater modes. Since both routers share this dual 2.5G configuration, there is no structural limitation on either side in terms of raw Ethernet throughput.

The differences in wired behavior emerge more subtly in how the internal hardware handles sustained traffic across those ports, rather than in port specification alone. On paper, the Ethernet configuration is effectively matched between the two models. Both remove the earlier compromise seen in WiFi 6 travel routers where users had to choose between multi gigabit WAN or LAN, and both provide the same baseline flexibility for wired high speed connectivity in a compact travel format.

Gl.iNet Beryl 7 vs Slate 7 – Internal Hardware

Although their wireless ratings and Ethernet layouts are nearly identical, the internal hardware platforms of the GL.iNet Beryl 7 (GL-MT3600BE) and the GL.iNet Slate 7 (GL-BE3600) are based on different SoCs with distinct design goals. The Beryl 7 uses a MediaTek quad core processor operating at 2.0 GHz per core, paired with 512 MB of DDR4 memory and 512 MB of NAND flash. The Slate 7 instead uses the Qualcomm IPQ5018 platform, which integrates a quad-core ARM Cortex-A53 CPU running at about 1.0 GHz with additional packet processing and network subsystem features, and pairs that with 1 GB of DDR4 memory and 512 MB of NAND flash.

In real-world router workloads, CPU architecture and memory allocation each play a role. A higher clock speed like that in the Beryl 7 tends to benefit single threaded tasks such as some encryption operations and packet inspection. The Qualcomm IPQ5018’s emphasis on networking, hardware acceleration, and integrated network subsystem may offset its lower clock speed, particularly in tasks like NAT, traffic classification, or other system-level switching operations, and the doubled memory of the Slate 7 provides more space for concurrent services, queuing, and package expansions without immediate memory contention. In practice, the two platforms reflect different design priorities rather than a simple faster/ slower division.

Both devices provide a single USB 3.0 port for data expansion alongside a USB Type-C port for power input, meaning external storage, USB tethering, or a cellular dongle must share the same data port; using one function prevents the simultaneous use of the others. The Slate 7 also includes an integrated touchscreen display that provides real-time status information and direct toggling of features such as VPN or network mode, while the Beryl 7 relies solely on web and mobile app based controls. Internally, the distinction therefore is not just MediaTek versus Qualcomm, but a trade-off between frequency-focused CPU design, expanded system memory, and user interface enhancements.

Gl.iNet Beryl 7 vs Slate 7 – Deployment

When translating specifications into practical deployment behavior, the most measurable difference between the GL.iNet Beryl 7 (GL-MT3600BE) and the GL.iNet Slate 7 (GL-BE3600) appears in VPN throughput. The Beryl 7 is rated at up to 1100Mbps with WireGuard and up to 1000Mbps with OpenVPN DCO in client mode. The Slate 7, powered by the Qualcomm IPQ5018 platform, is rated at up to 490Mbps with WireGuard and up to 385Mbps with OpenVPN DCO. Although the Qualcomm platform is well optimized for routing and packet handling, the higher clock speed MediaTek processor in the Beryl 7 provides substantially more headroom for encrypted throughput. In scenarios where the internet connection exceeds 500Mbps and VPN encryption is permanently enabled, the Beryl 7 is less likely to become the limiting factor.

In raw LAN and WiFi performance, both devices operate within a similar ceiling due to identical wireless radios and dual 2.5GbE ports. Real world file transfers over 2.5GbE typically settle below theoretical maximums, often in the 230MB/s to 240MB/s range depending on workload and protocol overhead. Neither device consistently saturates the full 2.5GbE line rate under mixed routing and wireless conditions, which reflects internal processing overhead rather than port limitation. From a pure switching and routing standpoint without heavy encryption, both platforms are capable of sustaining high multi gigabit traffic within expected travel router boundaries.

Both units are rated to support up to 120 concurrent devices, which exceeds typical travel usage but provides insight into scheduler and resource allocation capacity. The Slate 7’s 1GB memory pool may provide additional stability when multiple OpenWrt services, monitoring tools, DNS filtering, and USB storage sharing are active simultaneously. The Beryl 7, meanwhile, demonstrates a clear advantage when encrypted traffic volume is high relative to available WAN bandwidth. As a result, the performance distinction depends less on wireless speed and more on whether the primary workload is VPN intensive broadband use or service heavy multi feature deployment.

Gl.iNet Beryl 7 vs Slate 7 – Which One Should You Buy?

The GL.iNet Beryl 7 (GL-MT3600BE) and the GL.iNet Slate 7 (GL-BE3600) are closer in capability than their price difference might initially suggest. Both deliver dual band WiFi 7 across 2.4GHz and 5GHz, both provide dual 2.5GbE ports, both support OpenWrt with extensive plugin flexibility, and both are designed for securing public internet connections while travelling.

From a purely wireless and Ethernet standpoint, they are effectively matched. The practical separation appears in internal resource allocation and user interface design. The Beryl 7, priced at $139.99, offers significantly higher rated VPN throughput and a faster clocked processor, making it better suited to users with high speed broadband connections who intend to run persistent encrypted tunnels. The Slate 7, priced at $169.99, provides double the system memory and integrates a touchscreen interface that allows direct device control without relying entirely on a browser or mobile app.

The decision therefore depends on workload priorities rather than headline WiFi generation. If the primary requirement is maximizing encrypted throughput over fast WAN connections, the Beryl 7 presents stronger performance value at a lower price. If the focus is on memory headroom for multiple services, a more integrated on device interface, and a Qualcomm based networking platform, the Slate 7 may justify its higher cost. Neither device includes 6GHz support, meaning both are dual band WiFi 7 implementations rather than full tri band models.

For users specifically seeking 6GHz spectrum and 320MHz channel capability, a different tier of hardware would be required. Within the compact dual band travel router segment, the distinction between these two models is defined less by WiFi 7 itself and more by how each device balances CPU performance, memory allocation, and interface design within a portable form factor.

Gl.iNet Beryl 7 Travel Router		Gl.iNet Slate 7 Travel Router
Buy From Gl.iNet	Buy From Amazon	Buy From Gl.iNet	Buy From Amazon
PROs	CONs	PROs	CONs
+ Cheaper + Smaller & Lighter + Lower Power Consumption	– Less RAM – Lesser CPU	+ LCD Control Screen + Better Hardware Inside + Better Build Quality	– More Expensive – Larger – Slate Pro Model Coming Soon

Join Inner Circle

Want to follow specific category? Also Read...Gl.iNet Slate 7 Pro Travel RouGl.iNet Slate 7 Pro Should YouGl.iNet Comet Q USB-C KVM for Gl.iNet Comet 5G Review - The Gl.iNet Slate 7 vs Beryl 7 TraGl.iNet Beryl 7 vs Beryl AX TrGl.iNet Beryl 7 vs Beryl AX TrGl.iNet Beryl 7 Travel Router Gl.iNet Beryl 7 Travel Router Gl.iNet Reveal the Flint 4 WiF Subscribe You can also follow specific search terms:

This description contains links to Amazon. These links will take you to some of the products mentioned in today's content. As an Amazon Associate, I earn from qualifying purchases. Visit the NASCompares Deal Finder to find the best place to buy this device in your region, based on Service, Support and Reputation - Just Search for your NAS Drive in the Box Below

Need Advice on Data Storage from an Expert?

TRY CHAT

If you like this service, please consider supporting us. We use affiliate links on the blog allowing NAScompares information and advice service to be free of charge to you.Anything you purchase on the day you click on our links will generate a small commission which isused to run the website. Here is a link for Amazon and B&H.You can also get me a Ko-fi or old school Paypal. Thanks!To find out more about how to support this advice service check HEREIf you need to fix or configure a NAS, check Fiver Have you thought about helping others with your knowledge? Find Instructions Here  

Or support us by using our affiliate links on Amazon UK and Amazon US

    

 

WE LOVE COFFEE

UniFi Dream Router 7 – ONE YEAR LATER

A lot can change in 12 months with a router, especially one that launched with strong hardware and a lot of software ambition behind it. The UniFi Dream Router 7 (UDR7) arrived in February 2025 at $279 and immediately stood out on paper, but a year later the more useful question is not what it promised at launch, it is what it actually delivers now: is it better, worse, or largely the same after a full year of real-world use and updates? In this 1 year later review, I am looking at that from 3 angles: my own experience of using the UDR7 in a live home setup over the last 12 months, the wider experience of other users in home and business environments, and how Ubiquiti has supported the platform through UniFi OS and router software updates since release. The goal is to move beyond launch-day specs and first impressions and answer the more practical question for anyone considering an upgrade today: in early 2026, is the UniFi Dream Router 7 still worth $279?

My Own 12 Month Experience of the UniFi Dream Router 7

My own experience with the UDR7 over 12 months is slightly different from a short test bench review because this unit stayed deployed in my home for most of that time. After the original review, I kept it and ran it in a real environment rather than treating it as a temporary test device.

It was not my only wireless setup, so there was some unavoidable radio overlap in the house, and I was also running the UDR7 with 4 additional access points placed across different rooms. It was positioned behind a TV rather than in an ideal open location, which is worth stating because that kind of placement can affect both wireless behavior and thermals.

In terms of reliability, my own results were stable across the year. The UDR7 was set to install updates automatically, so it received every update as it arrived, and outside of planned interruptions for filming, firmware reboots, and a reprofile/reset around October for remote access preparation, it remained in service continuously.

Across that period it handled a regular set of around 12 active devices, while interacting with roughly 20 to 25 devices over time.

I did not run UniFi Protect on this unit in my own setup, so my long-term comments are focused on routing, wireless management, and day to day network operation rather than surveillance recording. In that role, it was dependable and I did not encounter recurring crashes or operational failures.

Resource use and thermals were also within a reasonable range for the way I deployed it. Internally, the system generally sat around 61 to 67°C depending on load, with CPU utilization commonly around 20 to 25% and RAM usage often around 40 to 50% when more security features and logging were enabled.

External temperatures were warmer than ambient but not excessive for a compact desktop gateway placed in a less than ideal location: roughly 48 to 49°C on the outer body, around 51°C near the top ventilation strip at peak use, and around 43 to 45°C at the base.

The copper ports remained cooler, while the SFP side ran hotter when used. None of this pointed to a thermal problem in my deployment, but it does reinforce that placement and ventilation still matter.

Traffic volume across the test period also helps frame the result. I put roughly 1.25TB of internet traffic through the unit, with just over 1TB downloaded and around 204GB uploaded, while also testing PoE output with a few APs.

The only PoE limitation I ran into was with a higher draw AP that exceeded what the port is designed to provide, which matched the published power limits rather than indicating a fault.

Taken strictly from my own 1 year usage, the UDR7 did what it was supposed to do at $279 in a mixed home environment with multiple APs, automatic updates, and steady day to day load. My experience was not a stress test of every feature, but as a long-running gateway deployment it remained reliable.

The Community Feedback on the UniFi Dream Router 7 in 1 Year

Looking at wider user feedback over the last 12 months, the most consistent pattern is that early criticism focused less on the hardware itself and more on launch readiness. Across UniFi Community threads, Reddit posts, and ISP forum discussions, many users described the UDR7 as capable hardware paired with software that felt immature in the first weeks and months after release. The phrase “unfinished at launch” appears repeatedly in community discussions, particularly from users who deployed it as a primary gateway rather than a simple single room router.

The most widely reported issue was selective connectivity behavior, especially on PPPoE connections using the RJ45 WAN port. Users reported situations where speed tests looked normal but specific services failed or behaved unreliably, including video calls, social media video loading, live camera feeds, and some VPN apps. Multiple threads also repeated the same temporary workarounds: moving WAN to the SFP+ port or enabling Smart Queues, with users noting the tradeoff in cost, added hardware, or reduced throughput. This issue appears frequently enough across separate threads and forums to be treated as a recurring launch-period problem rather than isolated misconfiguration.

A second recurring theme was inconsistent WiFi behavior in more demanding or more complex deployments. Community reports described unstable wireless performance, intermittent disconnects, poor range relative to expectations, and in some cases daily reboots or loss of connectivity requiring a full restart. Not every report points to the same root cause, and some users specifically tied their issues to WAN mode, AP combinations, or feature settings, but the overall pattern is clear: setups with heavier tuning, multiple APs, or more demanding coverage expectations were more likely to expose weaknesses during the early firmware cycle. Also, there was the expensive testing of ‘REAL’ MLO support by RTINGS last month, where the marketing materials around WiFi 7 routers and the level of currently MLO abilities vs the reality of client and router support.

By early 2026, community sentiment appears more mixed than uniformly negative. The strongest complaints are still easy to find, but there are also repeated updates from users saying behavior improved after firmware updates, manual upgrades, or configuration changes, especially in threads that started during the launch period. The broad shift is not that all criticism disappeared, but that the conversation moved from “basic reliability concerns” toward “specific deployment and tuning limitations,” which is a materially different position for a product that had a rougher first impression for many early adopters.

Changes, Fixes, Improvements on the UDR7 over 1 Year

The clearest difference between the UDR7 at launch and the UDR7 after 12 months is software maturity. Over the March 2025 to February 2026 period, UniFi OS and the router platform received a substantial number of additions, improvements, and fixes that changed the practical experience of using the device. This was not just a case of minor UI clean-up. The update history shows ongoing work across setup flow, backup and restore behavior, WAN resiliency, WiFi stability, VPN reliability, logging, storage handling, and administrative tooling. In simple terms, the software stack was actively developed throughout the year, which supports the wider view that the product improved materially after release.

The additions also indicate that Ubiquiti treated the platform as something to expand, not only stabilize. Over that period, support was added for features such as custom certificates, custom SMTP, packet captures, Hotspot 2.0/PassPoint, IPv6 traffic identification and DNS Shield support, SIEM integration, advanced mDNS options, Alarm Manager, CNAME DNS records, and additional identity and directory integration options. Some of these are more relevant to business or managed environments than typical home users, but they still matter in the context of value because the UDR7 is sold as a UniFi cloud gateway, not just a domestic WiFi router. The result is that 1 year later, the software feature set is broader and more aligned with the hardware’s original positioning.

Just as important are the fixes that directly overlap with common launch-era complaints. These include a specific fix for wireless throughput issues when using PPPoE on the RJ45 WAN port, fixes for MLO and guest portal interaction, WiFi and RF scanning related issues, stability improvements when using MLO, improved 2.4GHz client resiliency, improved minimum RSSI stability, and a long list of VPN, routing, and policy-based routing fixes. There were also repeated improvements to backup/restore resiliency, web UI stability, speed test stability, and hardware offloading. Taken together, this update history does not prove every user issue is resolved in every deployment, but it does show a sustained effort to address exactly the types of faults and inconsistencies that shaped the early reputation of the UDR7.

Is the UniFi Dream Router Better, Worse or the Same Value at $279 1 Year Later? (Verdict)

1 year on, the UniFi Dream Router 7 is easier to recommend than it was at launch, but for a different reason than the original review. The core hardware value proposition remains largely the same: at $279, it still offers an unusual combination of WiFi 7, multi-gig copper, 10G SFP+, 1 PoE output, UniFi application support, and a compact all-in-1 gateway design that many competing devices at this price either do not match or only match in narrower areas. What changed over the last 12 months is the software side. Early concerns around stability, selective connectivity, and inconsistent behavior in more demanding deployments were significant enough to affect the product’s reputation, and that criticism was not unreasonable. However, the volume and direction of updates over the year indicate that Ubiquiti has spent that time closing the gap between what the hardware promised and what the software delivered in practice.

The most accurate verdict in early 2026 is that the UDR7 is not a fundamentally different product than it was in February 2025, but it is a more complete one. In straightforward home and small business use, especially where the buyer wants a UniFi-managed gateway with room to scale, it now presents a stronger case than it did for early adopters. At the same time, buyers with more complex AP layouts, aggressive tuning requirements, or very specific expectations around WiFi 7 MLO behavior should still approach it with realistic expectations and pay attention to current firmware state and client compatibility. On balance, based on the hardware, the year of software support, my own long-term deployment experience, and the broader community trajectory, the UDR7 remains a valid purchase at $279 in 2026.

What I originally said about the UniFi Dream Router 7 in my Feb 2025 Review:

As appealing as the UniFi router and network software that this system is bundled with are, the main praise I have to give the UDR 7 is that everyone is going to feel the benefits of this router in their network at this price point. The small compromises it has compared to the previous UDR system (such as fewer PoE ports) are immediately outweighed by its versatility, which would be hard to find at a better price elsewhere. The fact that all LAN ports are 2.5G and that the two WAN/LAN ports are 2.5G and 10G SFP+ respectively puts this router massively ahead of most competitors in the sub-$300 market. Equally, support for the UniFi Protect surveillance software and the included WD Purple SD card storage are nice extras that you don’t commonly find elsewhere—let alone the inclusion of a PoE 2.5G port. The router and network management software is, of course, quintessentially UniFi in its presentation. Striking a balance between usability and information is a tough challenge, and the UniFi software almost succeeds. It excels in its presentation and management via the mobile app, though the desktop UI could be a touch more intuitive. How could you make wireless and wired network management truly user-friendly?

That said, the UDR 7 is a genuinely WiFi 7-ready router, offering 2×2 6GHz coverage and taking advantage of all the frequency and bandwidth benefits afforded to true WiFi 7 6GHz clients. Add a simple $20 USB WiFi 7 adapter to your system, and you can immediately enjoy base-level 2.8Gbps wireless connectivity, scaling this up substantially with the right WiFi 7 wireless NICs. Even if you’re not in love with the UniFi software platform or handing management of your services over to Ubiquiti’s remote services, you can still set up the device without a UI.com account. You do not need to deploy it with UniFi Network equipment, and VPN and encrypted protocol services can still be managed via popular third-party options if preferred. Buying a router for your home or business instead of relying on the one supplied by your ISP can often feel like an unnecessary expense. However, considering the price point and the network advantages the UDR 7 provides, I believe this system is worth it. Some of its services might require additional polish over time, and greater network capabilities on this router will be realized as technology progresses, but I wholeheartedly recommend the UDR 7 for the majority of setups.

BUILD QUALITY - 10/10

HARDWARE - 9/10

PERFORMANCE - 9/10

PRICE - 8/10

VALUE - 9/10

9.0

PROS

WiFi 7 Support – Offers Genuine 6GHz connectivity with 320MHz channels, enabling faster speeds and lower latency.
Multi-Gig Networking – Includes three 2.5GbE LAN ports and a 10GbE SFP+ WAN/LAN port, making it highly future-proof.
Comprehensive UniFi Software – Provides robust network management features, including VLANs, QoS, IDS/IPS security, and VPN support.
Integrated UniFi Protect Support – Comes with a pre-installed 64GB WD Purple SD card, allowing local video storage for security cameras.
Flexible WAN/LAN Configurations – Supports dual WAN for failover or load balancing, or repurposing the 10GbE SFP+ port as LAN.
High Customization & Security – Offers advanced firewall controls, application-aware filtering, and in-depth traffic analytics.
User-Friendly Mobile App – Easy setup and management via the UniFi mobile app, with intuitive controls and real-time monitoring.
No UI.com Account Required – Can be set up locally without requiring an online UniFi account, providing more control over network privacy.

CONS

Limited PoE Support – Only includes one PoE-enabled 2.5GbE port, which may be a drawback for users looking to power multiple UniFi cameras or access points.
6GHz Band Availability Varies by Region – While WiFi 7 delivers significant improvements, the 6GHz spectrum and 320MHz channels may not be fully available in all areas, limiting real-world performance.
Not the Most Budget-Friendly Option – Although competitively priced for a WiFi 7 router, there are still more cost-effective alternatives on the market, especially for users who don’t need UniFi’s ecosystem.
The MLO architecture is currently E-MLSR MLO (Enhanced Multi-Link Single Radio Operation Mode), which lacks the true aggregation of Sync MLMR (Synchronous Multi-Link Multi-Radio) MLO

Join Inner Circle

Want to follow specific category? Also Read...Gl.iNet Slate 7 Pro Travel RouUniFi Dream Router 7 - ONE YEATP Link TL-WR3602BE Travel RouTP Link TL-WR3602BE Travel RouGl.iNet Beryl 7 vs Slate 7 TraGl.iNet Slate 7 vs Beryl 7 TraGl.iNet Beryl 7 vs Beryl AX TrGl.iNet Beryl 7 vs Beryl AX TrGl.iNet Beryl 7 Travel Router Gl.iNet Beryl 7 Travel Router Subscribe You can also follow specific search terms:

This description contains links to Amazon. These links will take you to some of the products mentioned in today's content. As an Amazon Associate, I earn from qualifying purchases. Visit the NASCompares Deal Finder to find the best place to buy this device in your region, based on Service, Support and Reputation - Just Search for your NAS Drive in the Box Below

Need Advice on Data Storage from an Expert?

TRY CHAT

If you like this service, please consider supporting us. We use affiliate links on the blog allowing NAScompares information and advice service to be free of charge to you.Anything you purchase on the day you click on our links will generate a small commission which isused to run the website. Here is a link for Amazon and B&H.You can also get me a Ko-fi or old school Paypal. Thanks!To find out more about how to support this advice service check HEREIf you need to fix or configure a NAS, check Fiver Have you thought about helping others with your knowledge? Find Instructions Here  

Or support us by using our affiliate links on Amazon UK and Amazon US

    

 

WE LOVE COFFEE

Gl.iNet Beryl 7 vs Beryl AX Travel Router – Which Should You Buy?

The GL.iNet Beryl AX (GL-MT3000) and the GL.iNet Beryl 7 (GL-MT3600BE) are two compact travel routers from the same product line, aimed at users who need portable, secure network access for travel, remote work, or temporary deployments. They share a similar physical footprint, OpenWrt based software environment, USB powered design, and the ability to convert a single wired or wireless uplink into a private network for multiple client devices. The comparison between them is relevant because the price difference is relatively modest, yet they are based on different wireless generations and hardware platforms. As a result, prospective buyers and existing Beryl AX users may reasonably question whether the newer Beryl 7 represents a meaningful upgrade, or whether the earlier model remains sufficient for most travel focused networking requirements.

Gl.iNet Beryl 7 Travel Router		Gl.iNet Beryl AX Travel Router
Buy From Gl.iNet	Buy From Amazon	Buy From Gl.iNet	Buy From Amazon

Gl.iNet Beryl 7 vs Beryl AX – WiFi 6 vs WiFi 7 (Do You Need It?)

The GL.iNet Beryl AX (GL-MT3000) is based on the WiFi 6 standard, supporting dual band operation across 2.4GHz and 5GHz with a combined theoretical maximum of 3000Mbps, rated at 574Mbps on 2.4GHz and 2402Mbps on 5GHz. The GL.iNet Beryl 7 (GL-MT3600BE) moves to WiFi 7 and increases the combined theoretical bandwidth to 3600Mbps, rated at 688Mbps on 2.4GHz and 2882Mbps on 5GHz. Both devices operate on 2 bands only, as the Beryl 7 does not include 6GHz support, meaning it does not use the additional spectrum sometimes associated with WiFi 7 implementations.

The practical distinction between WiFi 6 and WiFi 7 in this comparison lies less in raw peak numbers and more in protocol efficiency and connection handling. WiFi 7 introduces Multi Link Operation, allowing compatible client devices to connect across multiple bands simultaneously rather than selecting a single band. In supported environments, this can improve throughput consistency and reduce latency under load. However, the benefit depends on the presence of WiFi 7 capable client hardware. Devices limited to WiFi 6 or earlier will connect using backward compatible standards, reducing the generational advantage to incremental improvements in signal handling and overhead efficiency.

In real world travel scenarios such as hotel rooms, shared apartments, or temporary office spaces, both routers provide sufficient bandwidth for streaming, browsing, cloud access, and moderate file transfers across multiple devices.

The Beryl 7 offers higher theoretical wireless ceilings and additional aggregation capability for compatible hardware, while the Beryl AX provides established WiFi 6 performance that remains adequate for most sub 2.5Gb internet connections. The decision between them in wireless terms is therefore primarily influenced by client device compatibility and the value placed on higher theoretical throughput within a portable deployment context.

It is also worth noting that 6GHz WiFi support, while often associated with WiFi 7, currently has more limited regulatory and client adoption in parts of Europe compared to other regions. Even if a travel router in this class were to include 6GHz radios, many users in European markets would not consistently benefit from the wider 320MHz channels or expanded spectrum due to regional availability constraints and lower client device penetration. In practical terms, this reduces the immediate advantage of tri band WiFi 7 for a large portion of the target audience. Integrating 6GHz capability would also require more advanced RF design, revised antenna layout, higher power handling, and often a different class of processor platform, frequently moving toward higher tier Qualcomm solutions. That shift would increase component cost, thermal requirements, and overall retail pricing, placing the device in a materially different market segment than the current dual band Beryl models.

Gl.iNet Beryl 7 vs Beryl AX – Wired Connectivity for WAN and LAN?

Both the GL.iNet Beryl AX (GL-MT3000) and the GL.iNet Beryl 7 (GL-MT3600BE) include 2 Ethernet ports that can be configured as WAN or LAN depending on deployment needs. The structural difference lies in port speed allocation. The Beryl AX provides 1 x 2.5G port and 1 x 1G port, while the Beryl 7 provides 2 x 2.5G ports. This distinction directly affects how multi-gigabit internet connections and high speed wired clients can be distributed within the local network.

On the Beryl AX, users must decide whether the 2.5G interface will function as WAN or LAN if both upstream and downstream multi gigabit throughput is required. If the 2.5G port is assigned to WAN for an internet connection above 1G, the remaining LAN port is limited to 1G for wired clients such as a NAS or workstation. In contrast, the Beryl 7 allows a multi gigabit WAN input and a separate 2.5G LAN output simultaneously. This removes the need to prioritize one side of the connection when operating in environments with faster than gigabit internet access.

In lower bandwidth scenarios, such as hotel or public WiFi uplinks that rarely exceed 1G, the practical difference may be minimal. However, in deployments involving fiber connections above 1G, local high speed storage, or internal data transfers over wired connections, the dual 2.5G configuration of the Beryl 7 provides greater flexibility. The distinction is therefore less about port quantity and more about simultaneous throughput capability when handling multi gigabit traffic on both WAN and LAN interfaces.

Gl.iNet Beryl 7 vs Beryl AX – Internal Hardware (and what difference it makes?)

The GL.iNet Beryl AX (GL-MT3000) uses the MediaTek MT7981B dual core processor running at 1.3GHz per core, whereas the GL.iNet Beryl 7 (GL-MT3600BE) moves to a MediaTek quad core processor running at 2.0GHz per core. This is not simply an incremental clock speed increase, but a combination of higher per core frequency and a doubling of available cores. In practical routing workloads, additional cores allow parallel handling of encryption, NAT, firewall inspection, QoS rules, and multiple concurrent sessions. The higher clock speed per core also improves single threaded tasks such as certain VPN operations and packet inspection routines. As network traffic increases, particularly when VPN encryption is enabled, the scaling advantage of 4 cores at 2.0GHz becomes more relevant than raw wireless bandwidth alone.

Both devices include 512MB DDR4 memory, so runtime capacity for active services and simultaneous connections is comparable at a base level. The difference lies in onboard NAND flash storage. The Beryl AX provides 256MB of flash, while the Beryl 7 includes 512MB. For basic firmware and light package installation, 256MB is typically sufficient. However, users deploying additional OpenWrt packages, extended logging, container based services, or more complex VPN and DNS filtering configurations may benefit from the additional internal storage headroom on the Beryl 7. The larger flash capacity reduces the need to offload configuration or expand storage through external means.

Both routers feature a single USB 3.0 port for data connectivity, while the separate USB Type C port is dedicated to power input. This means there is only 1 usable USB interface for peripherals. External storage devices such as USB flash drives or portable SSDs can be connected for file sharing via Samba or WebDAV, effectively turning the router into a lightweight network storage node. However, using the USB port for storage prevents simultaneous use for USB tethering or a USB cellular dongle. In travel deployments where USB tethering to a smartphone or 4G or 5G modem is required, the port cannot be shared. As a result, internal flash capacity and USB role allocation may influence configuration decisions depending on whether the router is being used primarily for storage sharing, mobile broadband input, or wired WAN operation.

Gl.iNet Beryl 7 vs Beryl AX – Performance and Deployment Scale Long term

The hardware and wireless differences between the GL.iNet Beryl AX (GL-MT3000) and the GL.iNet Beryl 7 (GL-MT3600BE) translate into measurable differences in VPN throughput and concurrent device handling. The Beryl AX is rated for up to 300Mbps via WireGuard and up to 150Mbps via OpenVPN in client mode. The Beryl 7 increases those ceilings to 1100Mbps via WireGuard and 1000Mbps via OpenVPN DCO. These figures are dependent on network conditions and configuration, but the scaling difference reflects the impact of the stronger quad core 2.0GHz processor on encryption and packet processing workloads.

Client device capacity is also higher on the Beryl 7. The Beryl AX is positioned to support 70 plus connected devices, while the Beryl 7 is rated for 120 plus. In most travel scenarios, such as hotel rooms or short term rentals, both limits exceed realistic usage. However, in small office, lab, classroom, or event environments where a travel router may be used as a temporary gateway, the higher client handling ceiling provides additional headroom. The increase is less about encouraging high density deployments and more about ensuring stability when multiple devices are actively transferring data simultaneously.

Deployment flexibility also differs when combining wired, wireless, and VPN loads. On the Beryl AX, performance limitations are more likely to appear when multi gigabit WAN input, active VPN encryption, and numerous client sessions are all enabled concurrently. The Beryl 7, with dual 2.5G ports, higher wireless ceilings, and stronger CPU resources, is designed to sustain heavier mixed workloads before reaching saturation. In low bandwidth environments such as standard hotel WiFi, both units operate comfortably within their limits. The divergence becomes more apparent in high speed fiber connections, homelab testing, or sustained VPN dependent remote work scenarios.

Gl.iNet Beryl 7 vs Beryl AX – Which One Should You Buy?

The GL.iNet Beryl AX (GL-MT3000) and the GL.iNet Beryl 7 (GL-MT3600BE) occupy the same physical category and share a similar deployment philosophy, but they differ meaningfully in processing capability, wired configuration flexibility, wireless ceiling, and VPN throughput. The Beryl AX remains a WiFi 6 based travel router with 2.5G WAN support, stable OpenWrt integration, and sufficient CPU resources for encrypted traffic at moderate broadband speeds. For users operating within sub gigabit internet connections, running standard VPN client configurations, and connecting a typical number of personal devices, its limitations are unlikely to surface in normal travel use. It continues to provide a compact, USB powered solution for converting public or shared internet access into a private subnet.

The Beryl 7 expands on that foundation with WiFi 7 protocol support across 2.4GHz and 5GHz, Multi Link Operation, dual 2.5G Ethernet ports, higher VPN throughput ceilings, a stronger quad core 2.0GHz processor, and increased onboard flash storage. These upgrades primarily increase performance headroom rather than altering the use case itself. In environments involving faster than 1G internet connections, sustained encrypted traffic, heavier concurrent client activity, or mixed wired and wireless high throughput workloads, the Beryl 7 is less likely to encounter processing or port bottlenecks. The higher rated VPN performance, particularly with WireGuard and OpenVPN DCO, may also be relevant for remote workers whose encrypted tunnel speed is constrained by router hardware rather than the upstream connection.

It is also relevant that the Beryl 7 does not include 6GHz spectrum support, meaning it does not implement the full 3 band WiFi 7 feature set. Within the broader portfolio of GL.iNet, development is ongoing toward a 6GHz capable WiFi 7 travel platform, referenced as the Slate 7 Pro, which is expected no earlier than Q2 2026. As such, the Beryl 7 represents an incremental step forward within dual band travel routers rather than the final stage of WiFi 7 implementation in this segment. Buyers prioritizing immediate WiFi 7 support with stronger processing and dual 2.5G ports may find the Beryl 7 aligned with their requirements, while those satisfied with WiFi 6 performance and lower VPN ceilings may find the Beryl AX remains proportionate to its price and intended scope.

Gl.iNet Beryl 7 Travel Router		Gl.iNet Beryl AX Travel Router
Buy From Gl.iNet	Buy From Amazon	Buy From Gl.iNet	Buy From Amazon
PROs	CONs	PROs	CONs
+ WiFi 7 and MLO + Dual 2.5G WAN/LAN + Better CPU + More Storage	– More Expensive – Lack of 6Ghz – Same RAM/Memory	+ Cheaper + Lower Power Use + Same RAM/Memory + Same Software & Features	– Lacks MLO – Less Base Storage – Lower USB PD Support

Join Inner Circle

Want to follow specific category? Also Read...TP Link TL-WR3602BE Travel RouGl.iNet Comet 5G Review - The Gl.iNet Beryl 7 vs Slate 7 TraGl.iNet Slate 7 vs Beryl 7 TraGl.iNet Beryl 7 vs Beryl AX TrGl.iNet Beryl 7 Travel Router Gl.iNet Beryl 7 Travel Router Gl.iNet Reveal the Flint 4 WiFGl.iNet Flint 4 WiFi7 Router RGl.iNet Slate 7 Pro Revealed a Subscribe You can also follow specific search terms:

This description contains links to Amazon. These links will take you to some of the products mentioned in today's content. As an Amazon Associate, I earn from qualifying purchases. Visit the NASCompares Deal Finder to find the best place to buy this device in your region, based on Service, Support and Reputation - Just Search for your NAS Drive in the Box Below

Need Advice on Data Storage from an Expert?

TRY CHAT

If you like this service, please consider supporting us. We use affiliate links on the blog allowing NAScompares information and advice service to be free of charge to you.Anything you purchase on the day you click on our links will generate a small commission which isused to run the website. Here is a link for Amazon and B&H.You can also get me a Ko-fi or old school Paypal. Thanks!To find out more about how to support this advice service check HEREIf you need to fix or configure a NAS, check Fiver Have you thought about helping others with your knowledge? Find Instructions Here  

Or support us by using our affiliate links on Amazon UK and Amazon US

    

 

WE LOVE COFFEE