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Aoostar WTR Max INTEL i5 VERSION Revealed

Par : Rob Andrews
13 mars 2026 à 15:00

Aoostar WTR Max… but with an Intel i5 Now

The Aoostar WTR Max Intel version is best understood, at least at this stage, as an early preview of a known NAS design rather than a finished retail product. The unit sent to me appears to retain the same general WTR Max concept as the earlier 2025 model, built around a compact 6-bay SATA layout plus 5 M.2 NVMe slots, while replacing the Ryzen 7 8845HS used in the current WTR Max 8845 with Intel’s Core i5-1235U. That CPU change is significant because these 2 processors target different kinds of systems: the Ryzen 7 8845HS is an 8-core, 16-thread chip with a 45W default TDP and boost speeds up to 5.1GHz, whereas the Core i5-1235U is a 10-core, 12-thread Alder Lake-U part with 2 performance cores, 8 efficiency cores, a 15W processor base power, and a launch date going back to Q1 2022. On paper, that makes the Intel version a potentially more efficiency-focused or cost-focused variation of the same platform, rather than a direct step up from the AMD model. That distinction matters, because this is not yet a product with confirmed pricing, confirmed availability, or a final release timetable, so the more useful question at this stage is not whether it definitively replaces the existing WTR Max 8845, but whether Aoostar is preparing to turn this chassis into a broader platform with multiple hardware tiers built around different CPUs and buyer priorities.

If this version works as intended, its appeal is fairly easy to understand even before full launch details are known. The original WTR Max formula already stands out because it combines high drive density, modern external connectivity, and small-footprint DIY NAS flexibility in a way that relatively few systems currently do, and an Intel alternative could broaden that appeal for buyers who prefer Intel media features, lower-power mobile silicon, or simply a lower entry point than the Ryzen-based model if Aoostar prices it accordingly. At the same time, this remains a first look at hardware provided by the brand, not a final buying recommendation. Until Aoostar confirms retail positioning, regional availability, and exact specifications for this Intel edition, it makes more sense to treat the device as an interesting platform variation with clear practical potential, rather than a confirmed replacement for the existing AMD version already listed by Aoostar at $669 in its current storefront


The Aoostar WTR MAX Nas is available from the following places:
  • Aoostar WTR Max NAS $699 on Amazon – HERE
  • Aoostar WTR Max NAS $679 on Official Site – HERE
  • Aoostar R1 N150 2-Bay NAS $179 – HERE
  • Aoostar R7 4-Bay NAS $419 – HERE
  • Aoostar R7 2-Bay 5825U NAS $399 – HERE
  • Aoostar Oculink 800W ePCIe Docking Station $169 – HERE
  • Aoostar GEN12 Gen4 PC $374 on AliExpress – HERE

Aoostar WTR Max Intel Version – Storage

The storage layout appears to be unchanged from the earlier WTR Max 8845 design. Physically, this platform combines 6 SATA drive bays with 5 M.2 2280 NVMe slots, giving it a mixed storage approach that is more flexible than most compact DIY NAS systems in the same size class. Aoostar’s official specification for the current WTR Max 8845 lists support for up to 6 x 24TB SATA HDDs and 5 NVMe SSDs, with the M.2 allocation split across PCIe 4.0 x2 and PCIe 4.0 x1 links rather than giving every slot the same bandwidth. In practical terms, that matters less for bulk storage and more for how the system is likely to be used: large-capacity SATA bays can be assigned to primary data, backup, or archive duties, while the NVMe slots are better suited to cache, application storage, containers, VMs, or high-speed working data. For a NAS aimed at users choosing their own OS and storage strategy, that mixed topology is one of the main reasons the WTR Max platform is notable in the first place.

The Intel Core i5-1235U is also a sensible fit for this kind of storage-heavy design because, like the Ryzen 7 8845HS used in the existing AMD version, it supports up to 20 PCIe lanes and PCIe 4.0 connectivity. That does not automatically mean the Intel model will perform identically in every storage scenario, because lane routing, controller choice, and motherboard implementation still determine how those lanes are divided between SATA, NVMe, USB4, OCuLink, and networking. Even so, on an early preview basis, the key point is that Aoostar does not appear to have changed the overall storage proposition of the WTR Max by moving to Intel. The appeal here remains the same: this is a compact chassis that can hold a large amount of slower capacity storage alongside a meaningful amount of flash storage, which makes it suitable for users who want both traditional NAS volume space and a faster SSD tier in the same enclosure.

Aoostar WTR Max Intel Version – Ports and Connections

The Aoostar WTR Max platform is already unusually well equipped on connectivity, and the Intel preview unit appears to preserve that same approach. On the currently listed WTR Max 8845 model, Aoostar specifies 2 x 10GbE SFP+ ports based on the Intel X710 controller, alongside 2 x 2.5GbE LAN ports, 1 x USB4 port, 1 x OCuLink port, 2 x USB 3.2 Gen 2 ports, 1 x USB 3.2 Gen 1 port, 1 x Type C port, 1 x HDMI output, a 3.5mm audio jack, a microSD card slot, and DC input. In practical terms, that gives the system a broader mix of storage, networking, and external expansion connectivity than most compact DIY NAS solutions, especially once the dual 10GbE and OCuLink are factored in. For an early preview, that matters because the appeal of the Intel version is not just the CPU change itself, but the fact that Aoostar seems to be pairing that CPU with the same high-connectivity platform rather than trimming the I/O to create a lower-tier model.

From the CPU side, the Core i5-1235U also makes sense in a system that leans heavily on external I/O. Intel’s official specifications list support for Thunderbolt 4 and PCIe 4.0, which aligns well with the inclusion of USB4 and helps explain why this processor can still fit into a NAS design with multiple high-bandwidth ports despite being a lower-power mobile chip. By comparison, the Ryzen 7 8845HS used in the current AMD version is the stronger processor in raw core configuration and sustained power class, but the Intel option may still hold practical appeal for buyers who place more value on Intel platform familiarity, media handling, or a potentially lower-cost entry point into the same chassis.

At this stage, though, the key observation is simply that Aoostar does not appear to have repositioned the WTR Max Intel model as a cut-down connectivity variant. Based on the preview hardware and the existing WTR Max specification, this still looks like a NAS platform built around unusually broad networking and expansion options first, with the CPU choice acting as the variable element.

Aoostar WTR Max Intel Version – Internal Hardware

Internally, the previewed WTR Max Intel unit appears to follow the same motherboard and chassis logic as the existing AMD-based design, with the main change being the move to Intel’s Core i5-1235U. That processor combines 10 cores and 12 threads in a hybrid layout made up of 2 performance cores and 8 efficiency cores, supports PCIe 4.0, and provides up to 20 PCIe lanes to distribute across storage, networking, and external expansion.

*Thanks to TechnicalCity and Nanoreview for their comparisons of these two processors

Category

 

Intel Core i5-1235U

AMD Ryzen 7 8845HS

Release date 23 February 2022 6 December 2023
Segment Laptop Laptop
Architecture Alder Lake-U Hawk Point-HS / Zen 4
Cores / Threads 10 / 12 8 / 16
Core layout 2 P-cores + 8 E-cores 8 cores
Base clock 1.3 GHz 3.8 GHz
Boost clock 4.4 GHz 5.1 GHz
L3 cache 12 MB 16 MB
Process node Intel 7 / 10 nm class 4 nm
TDP 15 W 45 W
PCIe version PCIe 4.0 PCIe 4.0
PCIe lanes 20 20
Supported memory DDR4, DDR5 DDR5
Max memory 64 GB 256 GB
Memory channels 2 2
ECC support No No
Integrated graphics Intel Iris Xe Graphics Radeon 780M
iGPU performance 1.5 TFLOPS 4.1 TFLOPS
Quick Sync Video Yes No
Aggregate score 7.24 16.24
NanoReview final score 45/100 63/100
Single-core score 63 73
Multi-core score 19 43
Power efficiency score 58 75
Integrated graphics score 40 81
Cinebench R23 Single 1640 1775
Cinebench R23 Multi 6601 16232
Cinebench 2024 Single 98 100
Cinebench 2024 Multi 368 893
Geekbench 6 Single 2089 2580
Geekbench 6 Multi 6362 13018
PassMark Single 3106 3734
PassMark Multi 12713 28449
Blender CPU 80.33 205.32

It also supports up to 64GB of memory officially on Intel’s own specification pages, across 2 channels, and does not list ECC memory support. By comparison, the Ryzen 7 8845HS commonly associated with this class of WTR Max hardware is an 8-core, 16-thread processor with PCIe 4.0, 20 usable PCIe lanes, support for DDR5-5600, and a much higher maximum supported memory capacity on AMD’s specification sheet. In simple terms, the Intel version looks less like a redesign of the platform and more like a rebalancing of it, using a lower-power mobile CPU that still has enough I/O resources to support the dense hardware layout that defines the WTR Max.

That internal trade-off is likely where the Intel model will either make sense or not, depending on the intended workload. The Ryzen 7 8845HS remains the stronger chip on paper for sustained multi-threaded tasks, heavier virtualization, and broader memory headroom, while the Core i5-1235U shifts the system toward a more efficiency-oriented profile and brings Intel’s integrated graphics stack into the equation. For a NAS like this, that could matter for media-focused deployments, lighter VM use, or users who simply prefer Intel’s platform characteristics, but it also means the Intel version should not automatically be viewed as equivalent to the AMD model in raw processing terms.

It is also worth noting that Aoostar’s current public WTR Max 8845 materials refer to the retail model as using a Ryzen 7 PRO 8845HS rather than the standard Ryzen 7 8845HS, which suggests the final retail naming and CPU positioning around this series may still vary depending on region or configuration. As an early preview, the most accurate conclusion is that the internal hardware remains recognisably WTR Max in structure, but the CPU choice changes the expected character of the system more than the exterior suggests.

Aoostar WTR Max Intel Version – Price, Launch Date, More?

At the time of writing, Aoostar has not publicly listed this Intel Core i5-1235U version of the WTR Max on its storefront, so price, release date, and regional availability remain unconfirmed. By contrast, the currently listed WTR Max 8845 is shown on Aoostar’s site at $669, reduced from $699, and the product naming has shifted to specifically identify that model as the WTR Max 8845 rather than simply the WTR Max. That naming detail is relevant because it suggests Aoostar may be preparing the chassis for more than 1 CPU configuration, even if the Intel variant has not yet been formally announced. The Core i5-1235U itself is not a new processor, having launched in Q1 2022 with a 15W processor base power, while the Ryzen 7 8845HS used in the 2025 WTR Max model is a newer and higher-power chip with an 8-core, 16-thread design and a 45W default TDP. Taken together, that makes the Intel preview unit look less like a replacement for the existing AMD version and more like a possible alternative tier within the same product family.

The more important question is what Aoostar intends to do with this platform next. If the company keeps the same chassis, storage layout, and broad I/O design while offering multiple CPU variants, the WTR Max could become a more flexible series rather than a single fixed model. In that context, an Intel version would make sense as a lower-cost or differently positioned option for buyers who do not need the stronger processing profile of the Ryzen 7 8845HS, or who specifically want an Intel-based media and virtualization platform. At this stage, though, that remains an informed reading of the hardware direction rather than a confirmed launch plan. Since this unit was sent as an early preview sample and Aoostar has not yet published a retail page for the Intel edition, the most accurate conclusion is that the WTR Max Intel version is promising as a product idea, but still undefined in the areas that matter most for a final purchasing decision: official pricing, shipping regions, final specification sheet, and release timing.

The Aoostar WTR MAX Nas is available from the following places:
  • Aoostar WTR Max NAS $699 on Amazon – HERE
  • Aoostar WTR Max NAS $679 on Official Site – HERE
  • Aoostar R1 N150 2-Bay NAS $179 – HERE
  • Aoostar R7 4-Bay NAS $419 – HERE
  • Aoostar R7 2-Bay 5825U NAS $399 – HERE
  • Aoostar Oculink 800W ePCIe Docking Station $169 – HERE
  • Aoostar GEN12 Gen4 PC $374 on AliExpress – HERE

 

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Finally, for free advice about your setup, just leave a message in the comments below here at NASCompares.com and we will get back to you. Need Help? Where possible (and where appropriate) please provide as much information about your requirements, as then I can arrange the best answer and solution to your needs. Do not worry about your e-mail address being required, it will NOT be used in a mailing list and will NOT be used in any way other than to respond to your enquiry. [contact-form-7] TRY CHAT Terms and Conditions
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Gl.iNet Beryl 7 vs Slate 7 Travel Router Comparison

Par : Rob Andrews
4 mars 2026 à 18:00

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.

If you are in a hurry – here is the TL;DR – the Slate 7 is $30-40 more, and for that you get a touchscreen LCD panel to allow for client-less configuration on the fly, it arrives with double the base memory (1GB, as opposed to 512MB) and a much more performance focused processor (a Qualcomm, rather than a Mediatek, which is much more widely supported and used in router applications and services). If you can spare the $30-40, get the Slate 7!

 

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

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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?

Finally, for free advice about your setup, just leave a message in the comments below here at NASCompares.com and we will get back to you. Need Help? Where possible (and where appropriate) please provide as much information about your requirements, as then I can arrange the best answer and solution to your needs. Do not worry about your e-mail address being required, it will NOT be used in a mailing list and will NOT be used in any way other than to respond to your enquiry. [contact-form-7] TRY CHAT Terms and Conditions
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
    
 
Alternatively, why not ask me on the ASK NASCompares forum, by clicking the button below. This is a community hub that serves as a place that I can answer your question, chew the fat, share new release information and even get corrections posted. I will always get around to answering ALL queries, but as a one-man operation, I cannot promise speed! So by sharing your query in the ASK NASCompares section below, you can get a better range of solutions and suggestions, alongside my own.

☕ WE LOVE COFFEE ☕

 
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