Beelink ME Pro NAS Review

The Beelink ME Pro is a 2-bay NAS-style mini PC that aims to deliver a full home or small office storage setup in a much smaller chassis than most traditional 2-bay systems. It is sold in 2 main versions, based on the Intel N95 or Intel N150, and both ship with pre-attached LPDDR5 memory and a bundled NVMe SSD as the system drive. Storage expansion is a mix of 2 SATA bays for 2.5-inch or 3.5-inch drives, plus 3 internal M.2 NVMe slots (1 running at PCIe 3.0 x2 and 2 running at PCIe 3.0 x1), and networking includes 5GbE plus 2.5GbE alongside WiFi 6 and Bluetooth 5.4. This review is based on several weeks of use and a set of structured tests covering temperatures over extended uptime, noise in idle and active states, power draw across different drive and workload combinations, and storage and network performance over both HDD and NVMe, with additional notes on the system’s internal layout and the practical limitations that come from its compact design.

Beelink ME Pro NAS Review – Quick Conclusion

The Beelink ME Pro is a very compact 2-bay NAS-style mini PC that combines 2 SATA bays with 3 M.2 NVMe slots and multi-gig connectivity, aiming to deliver a small footprint system without dropping features that are often reserved for larger enclosures. It is sold in N95 and N150 versions, both with pre-attached LPDDR5 memory (12GB or 16GB) and a bundled system SSD, and its internal layout uses 1 PCIe 3.0 x2 NVMe slot plus 2 PCIe 3.0 x1 slots, with 5GbE plus 2.5GbE Ethernet, WiFi 6, USB-C 10Gbps (with video output), HDMI 4K60, and a barrel-powered 120W PSU. In testing over extended uptime, external chassis temperatures stayed broadly in the mid-30C range with the rear around 38C, HDDs sat around 34C to 36C with modest 4TB drives installed, and NVMe temperatures rose sharply if the base thermal panel was removed, indicating the thermal pads and chassis contact are part of the cooling design and leaving no practical clearance for NVMe heatsinks. Noise in the tested setup remained in the mid-30 dBA range both at idle and under mixed access, power draw ranged from around 15W to 16W with no drives installed, 18W to 19W with only NVMe, about 22W to 23W with HDDs and NVMe idle, and peaked around 41W to 42W under a combined heavy workload. Performance was consistent with the hardware layout: HDD RAID1 throughput landed around 250MB/s to 267MB/s and will not saturate 5GbE, while NVMe could saturate the 5GbE link and internal testing showed about 1.5GB/s to 1.6GB/s reads and 1.1GB/s to 1.2GB/s writes on the PCIe 3.0 x2 slot, with the PCIe 3.0 x1 slots closer to roughly 830MB/s reads and 640MB/s to 670MB/s writes; media server use handled 4 simultaneous high bitrate 4K playback streams with CPU usage in the teens using Jellyfin. The main drawbacks are tied to the compact design choices: the RAM is not upgradeable, the chassis and storage fitting are very tight during installation, fan control outside BIOS was not straightforward in early testing, the NVMe slots are mixed speed by design, and the CPU options are closely spaced, meaning the upgrade decision is often about the bundled memory and SSD tier as much as the processor. Official messaging also says hot swapping is not supported, yet it worked during testing in a RAID1 scenario, suggesting a support-position limitation rather than a strict hardware block.

Where to Buy the Beelink ME Pro NAS: Beelink ME Pro (N95 + 12GB + 128GB) $369 – HERE Beelink ME Pro (N150 + 16GB + 512GB) $529 – HERE Beelink ME Pro (N150 + 16GB + 1TB) $559 – HERE

Beelink ME Pro NAS Review – Design & Storage

The ME Pro is built around an all-metal unibody chassis that prioritizes footprint over easy internal spacing. In physical terms it sits noticeably smaller than many mainstream 2-bay enclosures, and in my comparisons it looked roughly 20% to 25% smaller next to typical 2-bay units from brands like Synology and TerraMaster. The front panel styling leans into a speaker-like look, and it has been compared to a Marshall speaker design, which is likely intentional given the mesh and badge layout. Functionally, that front area is not a speaker, and the design choice is mostly about appearance and airflow rather than adding any front-facing audio hardware.

From a storage perspective, the ME Pro is a hybrid layout rather than a traditional “2-bay only” NAS. It supports 2 SATA bays for 2.5-inch or 3.5-inch drives, and Beelink positions it as supporting up to 30TB per SATA bay, giving a stated 60TB HDD ceiling. Alongside that, it has 3 internal M.2 NVMe slots with a stated 4TB per slot limit, which Beelink frames as up to 12TB of SSD capacity. Taken together, that is the basis for the commonly quoted 72TB maximum figure, although most buyers will treat that as an upper boundary rather than a typical real-world configuration due to drive cost and heat considerations.

The SATA bays are accessed from the rear by removing a magnetic cooling mesh cover, then sliding out the drive bracket assembly. The trays are screw-mounted rather than tool-less, and the manual specifies different screw types depending on whether you are installing 2.5-inch or 3.5-inch drives. In practice, it is possible to physically place a drive in a tray without fully fastening it, but the design clearly expects proper screw mounting for stability and vibration control. The device also includes silicone plugs intended to reduce vibration and protect the drives, and the overall bay system is designed to sit very flush once reassembled.

One unusual design detail is that each HDD tray includes a thermal pad intended to draw heat away from the drive’s underside. That is not common on many 2-bay systems, and it suggests Beelink is trying to compensate for the compact enclosure by using direct contact points for heat transfer. The tradeoff is that this design pushes the product toward precision fitting, and it aligns with the wider theme of the ME Pro being tightly engineered rather than roomy.

If you typically choose NAS hardware where drive swaps are quick and frequent, this approach will feel more like a compact appliance that expects occasional changes, not a platform designed around constant drive rotation.

The compact chassis also affects how storage installation feels in the hands. Because clearances are tight, inserting the drive bracket and getting everything seated can feel less smooth than on larger 2-bay boxes, even though it looks clean once it is in place. This tightness is likely part of how Beelink is managing airflow paths and vibration control in such a small enclosure, but it still means you have less margin for error during installation. Overall, the storage design is best described as space-efficient and deliberate, but it asks for patience during assembly and it rewards users who install drives once and leave the configuration largely unchanged.

Beelink ME Pro NAS Review – Internal Hardware

The ME Pro is sold in 2 CPU variants, based on Intel’s N95 or N150, both 4-core and 4-thread chips with integrated graphics. In practical NAS terms, these CPUs sit in the low power mini PC category rather than the heavier desktop class, so the platform is designed around efficiency and compact integration rather than raw compute headroom. In your testing and general use, that design target showed up as stable day-to-day responsiveness for typical NAS tasks, plus enough iGPU capability for common media server workloads when paired with the right software stack.

Memory is integrated rather than socketed. The configurations pair the N95 with 12GB LPDDR5 4800MHz and the N150 with 16GB LPDDR5 4800MHz, and there is no user-accessible SO-DIMM slot to expand it later. In the context of a small NAS, this matters less for basic file serving and backups, but it becomes more relevant if the device is expected to run multiple containers, heavier indexing, or virtual machines. Because the memory is fixed at purchase, the CPU choice is also effectively tied to your long-term memory ceiling.

Internally, the platform is constrained by limited PCIe resources, which affects how the storage and networking are wired. In the review you noted the CPU platform has 9 lanes available, and the device uses a split approach across its internal components rather than giving every subsystem the same bandwidth. The NVMe area reflects this most clearly, with 1 slot operating at PCIe 3.0 x2 while the other slots operate at PCIe 3.0 x1, which makes slot choice part of performance planning for any workload that leans heavily on NVMe. This lane budgeting also helps explain why the system lands at 5GbE plus 2.5GbE rather than a single 10GbE port, since 10GbE would typically add pressure to an already tight allocation.

Controller choices are mixed rather than uniform, and you called that out as unusual. The 5GbE port uses a Realtek RTL8126 controller and the 2.5GbE port uses an Intel i226-V controller, which is not a common pairing in the same chassis. On the storage side, the SATA side is handled by an ASMedia ASM2116 controller, and in your notes you referenced it operating on a PCIe 3.0 x1 link, which is still sufficient for 2 SATA bays in most real-world use. These choices are relevant for OS compatibility and driver maturity, particularly if the unit is being used with NAS focused platforms rather than the included Windows 11 installation.

Cooling is one of the main internal design decisions that enables the smaller enclosure. Instead of a traditional rear fan placed at the drive backplane, the system uses a CPU fan working with a vapor chamber arrangement, and airflow is routed so that it also passes over other internal heat sources rather than treating the CPU as a separate cooling zone. In your thermal testing, you observed that the front panel area ran warmer than the rest of the chassis due to the WiFi hardware placement, and you also saw a noticeable rise in NVMe temperatures when the base thermal panel was removed, which supports the idea that the chassis panels and pads are intended to be part of the heat management system. Power is delivered via a barrel connector using a 120W external PSU, which provides headroom for spin-up and load, but it also means this is not a USB-C powered design.

Beelink ME Pro NAS Review – Ports and Connections

Up front, the ME Pro keeps things simple: a power button and a single front-mounted USB port for quick access. This suits the NAS-first intent, where most interaction is remote, but it also sets expectations for local use. If you plan to attach multiple peripherals directly to the unit, you are quickly pushed toward using a hub or relying on network-based management rather than treating it like a conventional mini PC with generous front I/O.

Most connectivity is placed at the rear and along the base section of the chassis, which also helps keep cables routed in one direction when the unit is placed on a desk or shelf. Wired networking is split across 2 Ethernet ports, a 5GbE port and a 2.5GbE port, and the unit also includes WiFi 6 plus Bluetooth 5.4. That mix allows both a standard single-cable setup and more flexible layouts such as separating traffic across the 2 wired links, or keeping WiFi available for temporary placement, troubleshooting, or scenarios where pulling Ethernet is not straightforward.

For general external connectivity, the ME Pro includes a USB-C port rated at 10Gbps for data and it supports video output, but it is not used for power input. Power is delivered through a barrel connector and the unit ships with a 120W external PSU, which provides comfortable headroom and removes any questions around USB-C PD negotiation. Alongside USB-C, it includes 1 USB 3.2 port rated at 10Gbps and 2 USB 2.0 ports at 480Mbps, which covers basic keyboard, mouse, UPS signalling, or low bandwidth accessories, but it is still a small selection compared with many mini PCs.

For local display and basic audio, there is 1 HDMI output rated up to 4K 60Hz and a 3.5mm audio jack. The manual also calls out a reset hole and a CLR CMOS function, which is useful context for users who intend to experiment with different operating systems, boot media, or BIOS settings, since recovery options are clearly exposed rather than being hidden inside the chassis. Overall, the port selection feels intentionally weighted toward networking and core connectivity, with enough display and USB support for setup and troubleshooting, but not a layout aimed at heavy local peripheral use.

Beelink ME Pro NAS Review – Noise, Heat, Power and Speed Tests

Testing was done over several weeks of general use and targeted measurements, with a focus on temperatures, noise, power draw, and storage and network throughput. The typical configuration used for the core measurements included 2 SATA HDDs and 3 installed NVMe drives, with the system left running for extended periods and accessed regularly throughout the day. In addition to network file transfers, I also checked internal storage performance directly over SSH to separate storage limits from network limits.

On thermals, external chassis temperatures after a 24-hour period of operation with regular hourly access sat around 34C to 35C across most sides. The base area was a little warmer at roughly 34C to 38C, and the rear section around the motherboard and vapor chamber area was around 38C. The installed HDDs sat around 34C to 36C in that same period, using 4TB IronWolf drives, so not high power enterprise class media. The front panel area peaked higher than the rest of the enclosure, which aligned with the internal placement of the WiFi hardware near the front of the chassis.

The NVMe area showed the clearest example of how much the chassis panels and pads matter. With the base thermal panel in place, the panel itself sat around 36C over the same extended uptime. When that panel was removed, temperatures on the NVMe drives rose noticeably, with the PCIe 3.0 x2 slot drive reaching around 45C to 46C and the PCIe 3.0 x1 slot drives sitting around 38C to 41C. The difference suggested that the base panel and thermal pad contact are doing meaningful work as part of the heat path, and it also reinforces that there is no practical clearance for NVMe heatsinks in this chassis.

Noise levels were measured in a modest drive configuration, and they stayed in the mid-30 dBA range in the test environment. With the HDDs idle and the system otherwise sitting in standby, noise came in around 36 dBA to 37 dBA. With both HDDs being accessed simultaneously and NVMe activity occurring, it sat around 35 dBA to 38 dBA. The system uses a compact fan approach tied to the CPU cooling path, and one limitation I ran into is that I did not find a straightforward way to control the fan outside the BIOS during early testing, including attempts via SSH, which reduces fine tuning options for users who want tighter acoustics control.

Power consumption was tested in several stages to isolate the impact of installed storage. With no HDDs or NVMe installed and the system powered on, it drew around 15W to 16W. With 3 NVMe installed and no HDDs, it rose to around 18W to 19W. With 2 HDDs and 3 NVMe installed but all media idle, it sat around 22W to 23W.

Under a heavy combined workload with HDD and NVMe activity plus the CPU at full utilization, power draw reached around 41W to 42W, which reflects a worst case state rather than typical idle or light service operation.

For throughput, 2 HDDs in a RAID1 style setup were able to deliver around 250 MB/s to 267 MB/s, which is consistent with what you would expect from 2-bay HDD performance and means the HDD side will not saturate a 5GbE link.

NVMe storage over the 5GbE connection was able to reach full saturation of the network link in testing, so the network became the limiting factor rather than the SSD. Internal NVMe testing over SSH showed the expected split between slots, with the PCIe 3.0 x2 slot delivering roughly 1.5 GB/s to 1.6 GB/s reads and 1.1 GB/s to 1.2 GB/s writes, while the PCIe 3.0 x1 slots delivered around 830 MB/s to 835 MB/s reads and roughly 640 MB/s to 670 MB/s writes with more variability.

On media server use, 4 simultaneous high bitrate 4K playback streams ran with CPU usage in the teens, using Jellyfin. One extra operational note from testing is that while official messaging indicates hot swapping is not supported, I was able to remove and replace a drive in a RAID1 environment without powering down and continue the rebuild process, which suggests the limitation may be a support stance rather than an absolute hardware block.

Beelink ME Pro NAS Review – Conclusion & Verdict

The ME Pro’s main practical strengths are the space-efficient chassis, the combination of 2 SATA bays with 3 internal NVMe slots, and a connectivity set that includes 5GbE plus 2.5GbE and WiFi 6. In measured testing it delivered controlled external temperatures under typical always-on use, mid-30 dBA noise levels in the tested configuration, and power draw that stayed in the low-20W range at idle with drives installed, rising into the low-40W range under a full combined workload. Storage performance matched the internal design limits: HDD throughput was solid but not enough to saturate 5GbE, while NVMe performance split clearly between the PCIe 3.0 x2 slot and the PCIe 3.0 x1 slots, with the faster NVMe slot capable of saturating the 5GbE link in network transfers.

The main limitations are tied to the same compact, integrated approach that makes it unusual. Memory is fixed at purchase with no SO-DIMM upgrade path, NVMe cooling relies on chassis contact and leaves no clearance for heatsinks, and the lane allocation results in mixed NVMe slot speeds rather than uniform bandwidth across all 3 slots. The launch CPU options also remain close enough that the decision is often as much about bundled memory and SSD tier as it is about a clear performance tier shift. For buyers who want a small, always-on NAS with mixed SATA and NVMe storage, multi-gig networking, and reasonable thermals, noise, and power characteristics, the ME Pro aligns with that goal, but it is less suitable for users who expect frequent hardware changes, want expandability in RAM, or prefer a more conventional 10GbE-first network design.

PROs of the Beelink ME Pro NAS

CONs of the Beelink ME Pro NAS

Very compact footprint for a 2-bay NAS class system (166 x 121 x 112mm, metal chassis) 2x SATA bays (2.5-inch or 3.5-inch) plus 3x M.2 NVMe slots in the same enclosure Multi-gig wired networking: 5GbE + 2.5GbE, plus WiFi 6 and Bluetooth 5.4 Strong idle efficiency in testing with drives installed and idle (about 22W to 23W) Noise stayed in the mid-30 dBA range in the tested HDD and NVMe configuration NVMe performance is sufficient to saturate the 5GbE link, with the PCIe 3.0 x2 slot clearly faster than the x1 slots Chassis thermal design appears effective under typical always-on use, with external temps broadly in the mid-30C range Practical service access features: magnetic rear cover, base access for M.2, stored tool in the base, reset and CLR CMOS available

RAM is fixed (no SO-DIMM), so memory cannot be upgraded after purchase Very tight internal tolerances make drive and bracket insertion less forgiving during installation and changes Mixed NVMe slot speeds (1x PCIe 3.0 x2 and 2x PCIe 3.0 x1) and no 10GbE option

 

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Synology NAS Deals this Black Friday 2025

Black Friday 2025 has brought a round of uncommon discounts to Synology’s latest DiskStation models, with Amazon and B&H offering some of the strongest reductions across the current lineup. Synology hardware rarely receives notable price cuts, particularly on recently launched systems, so this is a useful opportunity for anyone planning an upgrade or expanding their storage. Whether you need a reliable home backup platform, a media server, or a compact office solution, several 2025 generation units are now available at lower prices. This guide outlines the best deals currently live and helps identify which DiskStation models offer the most value during this year’s Black Friday period.

Important note: Some users may have heard that Synology’s 2025 generation DiskStation models restrict the use of non-Synology hard drives. This was true earlier in the year, but Synology reversed the policy in October 2025. Current DiskStation units in this lineup now accept third-party HDDs from any manufacturer with no warnings or reduced functionality. However, M.2 NVMe SSD support remains limited to approved models, and the HDD restrictions still apply to RackStation systems and higher tier products in the broader Synology portfolio. Learn More about this HERE

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Synology DS925+ NAS – 14% OFF, NOW $552.99 @ Amazon USA

4-bay SATA/SSD NAS with dual 2.5 GbE ports, 2 × M.2 NVMe slots, AMD Ryzen V1500B quad-core 2.2 GHz processor, 4 GB DDR4 ECC memory (expandable to 32 GB).

The DS925+ is a compact four bay desktop NAS built for users who want a balance of performance, expansion, and long term DSM support in a small footprint. It runs on the AMD Ryzen V1500B processor with ECC memory, giving it a stronger hardware foundation than most entry tier systems and enough overhead for multi user workloads, backups, and light virtualisation. The unit supports both SATA hard drives and SSDs, while the two M.2 NVMe slots allow users to add cache or create faster SSD volumes without occupying the main bays. Dual 2.5GbE ports provide improved throughput over standard 1GbE models and support link aggregation for higher sustained speeds. With DSM offering SHR, Btrfs snapshots, file sync tools, media applications, and extensive package support, the DS925+ serves as a flexible storage platform for home offices and small teams that need dependable performance without moving to a larger enclosure. BUY HERE

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Synology DS225+ NAS – $303.49 (11% REDUCTION) @ Amazon US

2-bay SATA NAS with Intel Celeron J4125 quad-core 2.0/2.7GHz CPU, 2.5GbE + 1GbE LAN ports, dual USB 3.2 Gen 1 ports, 2GB DDR4 memory expandable to 6GB

The DS225+ is Synology’s 2025 two-bay desktop NAS designed for home users, creatives, and small teams seeking a straightforward yet capable storage solution. It supports both 3.5″ and 2.5″ SATA drives, and offers dual network ports—including a 2.5GbE link—for improved throughput in compact deployments. Running DSM, Synology’s mature NAS operating system, it delivers file sharing, backup, photo management, and surveillance features in an easy-to-use package. Its quad-core Intel processor provides capable performance for standard NAS tasks, though the soldered memory and modest expandability may limit its usefulness for heavier workloads or large scale expansion. With its balance of refined software and network capability, the DS225+ is a solid entry point for users focused on dependable, integrated NAS functionality.  BUY HERE

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Synology DS925+ NAS @ Amazon UK – 15% OFF, NOW £472 inc.TAX @ Amazon UK

4-bay SATA/SSD NAS with dual 2.5 GbE ports, 2 × M.2 NVMe slots, AMD Ryzen V1500B quad-core 2.2 GHz processor, 4 GB DDR4 ECC memory (expandable to 32 GB).

The DS925+ is Synology’s 2025 four-bay desktop NAS targeted at home offices, prosumers, and small teams who want a mature software ecosystem and future-proof networking. It supports both 3.5″ and 2.5″ SATA drives in its four bays, plus two M.2 NVMe slots for caching or fast SSD volumes, and can be expanded up to nine bays using an external unit. Dual 2.5 GbE ports provide better than standard network speed, while the AMD Ryzen V1500B processor (quad-core) and 4 GB of onboard ECC memory (expandable) deliver a solid foundation for multi-user access, backups, file sharing, and lightweight virtualization. It runs Synology’s DSM operating system, offering rich features such as SHR, Btrfs snapshots, file sync, collaboration tools and media streaming. With its blend of hardware and software, the DS925+ delivers a flexible platform for centralised storage and data management in a compact desktop form. BUY HERE

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Synology DS1525+ NAS – $160 OFF, NOW $639.99 @ B&H

5-bay SATA/SSD NAS with 2 × M.2 NVMe cache slots, quad-core AMD Ryzen R1600 processor, 8 GB DDR4 ECC memory (expandable to 32 GB), four 1 GbE LAN ports plus optional 10 GbE upgrade slot.

The DS1522+ is a five-bay entry in Synology’s Plus series designed for home offices, prosumers, and small businesses that want advanced storage features in a desktop form. It supports both 3.5″ and 2.5″ SATA drives, plus two M.2 NVMe slots for caching or SSD-based volumes, and can expand up to 15 bays using official expansion units. With the AMD Ryzen R1600 quad-core processor, 8 GB of ECC RAM (upgradeable), and four built-in LAN ports, the unit delivers solid performance and reliability for file sharing, backups, and multi-user environments. The optional 10 GbE upgrade slot adds headroom for higher bandwidth workflows, and the included DSM operating system provides mature features such as SHR, snapshots, virtualization support, surveillance, and rich app integration. With its balance of expansion, performance and software depth, the DS1522+ offers a capable all-round platform for centralised data storage and management. BUY HERE

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Synology DS124 NAS – NOW $139.99 (22% PRICE DROP) @ Amazon

2-bay SATA/SSD NAS with dual 2.5 GbE ports, Realtek RTD1619B quad-core 1.7GHz CPU, 2 GB DDR4 memory (expandable), and dual M.2 NVMe slots for caching.

The DS124+ is a compact desktop two bay NAS aimed at home users and small offices who want reliable storage with Synology’s DSM platform. It supports both 3.5″ and 2.5″ SATA drives in the two bays, and adds dual M.2 NVMe slots for caching or faster storage tiers. Dual 2.5 GbE network ports give it strong connectivity when paired with a capable switch. Running the RTD1619B quad-core processor and with upgradable memory, the unit delivers better performance than many entry level NAS boxes. DSM provides features such as file sync, snapshot protection, collaboration tools, and mobile access. While it lacks some of the more advanced expandability of larger models, the DS124+ offers a balanced mix of hardware and software for users who need a modest sized, efficient centralized storage box under the Synology ecosystem. BUY HERE

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Synology DS1825+ NAS – NOW $919 ($230 OFF) @B&H

8-bay SATA/SSD NAS with dual 2.5GbE ports, 2 × M.2 NVMe slots, AMD Ryzen V1500B quad-core 2.2GHz CPU, 8GB DDR4 ECC memory (expandable to 32 GB), and up to 360TB raw capacity with expansion units.

The DS1825+ sits at the upper end of Synology’s Plus desktop NAS lineup, delivering high capacity and flexibility for serious home users, creatives, and small business teams. With eight hot-swappable drive bays supporting both 3.5″ HDDs and 2.5″ SSDs, and two M.2 NVMe slots for caching or SSD pools, it handles large data sets without needing a rack enclosure. Dual native 2.5GbE ports support modern network speeds out of the box, while the PCIe slot allows optional 10GbE or 25GbE upgrades for future proofing. Its AMD Ryzen quad-core CPU paired with 8GB ECC memory provides a stable foundation for file services, snapshots, VM or container usage, and media streaming. The unit also supports up to 18 drive bays and 360TB raw storage with two DX525 expansion units, offering growth potential as storage needs increase. While it may not push the highest processing power, the DS1825+ blends Synology’s mature DSM software, robust hardware build quality, and flexible storage architecture into a capable all-rounder for users who require capacity, data protection, and software depth in a compact form. BUY HERE

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Synology DS1525+ NAS – REDUCED TO $691.49 (15% OFF) @ Amazon

5-bay SATA/SSD NAS with 2 × M.2 NVMe cache slots, quad-core AMD Ryzen R1600 processor, 8 GB DDR4 ECC memory (expandable to 32 GB), four 1 GbE LAN ports plus optional 10 GbE upgrade slot.

The DS1825+ sits at the upper end of Synology’s Plus desktop NAS lineup, delivering high capacity and flexibility for serious home users, creatives, and small business teams. With eight hot-swappable drive bays supporting both 3.5″ HDDs and 2.5″ SSDs, and two M.2 NVMe slots for caching or SSD pools, it handles large data sets without needing a rack enclosure. Dual native 2.5GbE ports support modern network speeds out of the box, while the PCIe slot allows optional 10GbE or 25GbE upgrades for future proofing. Its AMD Ryzen quad-core CPU paired with 8GB ECC memory provides a stable foundation for file services, snapshots, VM or container usage, and media streaming. The unit also supports up to 18 drive bays and 360TB raw storage with two DX525 expansion units, offering growth potential as storage needs increase. While it may not push the highest processing power, the DS1825+ blends Synology’s mature DSM software, robust hardware build quality, and flexible storage architecture into a capable all-rounder for users who require capacity, data protection, and software depth in a compact form. BUY HERE

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Synology DS425+ NAS – Price Reduction, Now $415.99 (20% OFF) @ Amazon

4-bay SATA NAS with 2.5GbE + 1GbE, 2 × M.2 NVMe slots, Intel Celeron J4125 quad-core 2.0/2.7GHz CPU, and 2GB DDR4 memory expandable to 6GB

The DS425+ is a four bay desktop NAS positioned as an accessible entry into Synology’s 2025 Plus series, offering a familiar balance of performance, storage flexibility, and DSM software capability. It supports both 3.5″ and 2.5″ SATA drives in its main bays, with two M.2 NVMe slots available for caching or faster SSD-based volumes. The system runs on an Intel Celeron J4125 processor and includes 2GB of expandable DDR4 memory, making it suitable for everyday multi user file storage, backups, and light media serving. Connectivity consists of one 2.5GbE port and one 1GbE port, giving users bandwidth options depending on their network. DSM provides features such as SHR, Btrfs snapshots, cloud sync, surveillance tools, and a broad library of first-party applications. With Synology’s updated 2025 stance on third-party drive support, the DS425+ now accepts any standard HDD or SSD without warnings, making it a more flexible option for buyers who want a compact, straightforward, and software-rich NAS at this capacity point. BUY HERE

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Synology DS725+ NAS – Price Drop, Now $449.49 (14% OFF) @ Amazon US

2-bay SATA NAS with dual 2.5GbE ports, 2 × M.2 NVMe slots for caching, AMD Ryzen R1600 dual-core 2.6/3.1GHz CPU, and 4GB DDR4 ECC memory expandable to 32GB.

The DS725+ is Synology’s compact two-bay Plus series NAS from the 2025 generation, designed for home offices and small businesses seeking high performance and flexibility in a small footprint. It supports both 3.5″ and 2.5″ SATA drives in its bays, and includes two M.2 NVMe slots for cache or fast solid state volumes. Networking is enhanced with dual 2.5GbE ports—an upgrade over earlier two-bay models—delivering better throughput for multi user access or file sharing. Powered by the AMD Ryzen R1600 dual-core processor with default 4GB of ECC memory (expandable), it handles standard NAS workloads, backups and light virtualisation with ease. The inclusion of DSM features such as shared folder snapshots, cloud sync, hybrid backup and mobile client integration makes it a strong choice for users who want Synology’s mature software ecosystem in a compact form. With the company’s updated 2025 policy, users can now install third-party HDDs without compatibility warnings, improving the DS725+’s flexibility when sourcing storage media. BUY HERE

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UGREEN NASync vs UniFi UNAS – Which Should You Buy?

In the evolving landscape of network-attached storage, the arrival of UGREEN and UniFi (Ubiquiti) marks one of the more interesting shifts in consumer and prosumer data management over the last two years. Both brands, previously recognised for their strength in peripheral hardware and networking respectively, officially entered the NAS sector around late 2023 to early 2024, each taking distinct approaches to design, functionality, and ecosystem integration. UGREEN, following a successful crowdfunding launch in early 2024, built its NASync series around desktop and SSD-based solutions for home, creative, and prosumer users seeking all-in-one local storage, virtualization, and multimedia platforms. Its portfolio now includes systems ranging from the ARM-based DXP2800 to the Intel-powered DXP8800 Plus, offering performance tiers from modest home use to compact workstation-class environments.

Meanwhile, UniFi, a brand with a long history in professional networking and surveillance infrastructure, released its UNAS family within the same timeframe, targeting users already invested in its ecosystem of routers, cameras, and switches. The UNAS lineup now spans from the compact UNAS 2 and UNAS 4 desktop units to the rackmount UNAS Pro 4 and Pro 8 systems, with each designed for straightforward deployment and remote integration within the UniFi Network and Protect platforms. Despite arriving from very different sectors, both companies have effectively lowered the cost of entry to reliable NAS storage while redefining how integrated ecosystems can extend storage functionality. This comparison explores their respective design choices, hardware capabilities, software environments, and operational scope to assess which platform is best suited to different user scenarios in 2025 and 2026.

UniFi vs UGREEN NAS – The TL;DR

In comparing the UniFi and UGREEN NAS platforms, it becomes clear that each brand represents a different vision of what modern network storage should be. UniFi’s UNAS series builds on the company’s heritage in networking and surveillance, delivering a range of efficient, ARM-powered NAS systems that integrate tightly within the UniFi ecosystem. Models such as the UNAS 2, UNAS 4, UNAS Pro 4, and UNAS Pro 8 prioritize reliability, centralized management, and long-term stability rather than raw compute power or expandability. Their hardware is deliberately fixed—non-upgradable memory, ARM Cortex-A55 or A57 CPUs, and limited caching support for NVMe drives—but balanced by advanced network connectivity, including dual 10G SFP+ ports, PoE+++ power options, and redundant power supplies. UniFi’s storage OS focuses on core NAS fundamentals: multiple RAID levels, snapshots, encryption, and secure remote access via the UniFi controller. It is intentionally simple, relying on integration with other UniFi products for extended functionality such as surveillance and automation. In contrast, UGREEN’s NASync line follows an open, performance-driven approach designed for flexibility and standalone capability.

Ranging from the DXP2800 with its 8-core ARM processor to the flagship DXP8800 Plus powered by Intel’s i5-1240P, these systems cover every segment from entry-level home use to prosumer and light enterprise workloads. UGREEN’s hardware offers user-upgradable DDR4/DDR5 memory, PCIe expansion, NVMe storage pooling, and multi-gig connectivity, with higher-end models adding dual 10GbE, Thunderbolt 4, and even GPU compatibility. Its UGOS Pro operating system transforms the NAS into a hybrid server capable of running Docker containers, virtual machines, and AI-based indexing, alongside comprehensive backup and synchronization tools across cloud and local environments. While UniFi emphasizes simplicity, low maintenance, and enterprise-grade network reliability, UGREEN delivers a richer feature set and greater hardware freedom at the expense of long-term enterprise validation. In essence, UniFi NAS suits users already invested in UniFi’s ecosystem who value cohesion, predictable performance, and integrated security, whereas UGREEN NAS appeals to those seeking raw performance, versatility, and independent control without ecosystem constraints.

Why Buy UniFi NAS?	Why Buy UGREEN NAS?
Want to support us NASCompares? Use the links/buttons below, and anything you purchase results in a small commission coming to me and Eddie @NASCompares. It really is just the two of us doing everything, and purchasing things via these links will allow you to passively support creators like us (as well as allow us to keep making videos, providing support, running the forum, making tutorials and more) at no extra cost to yourself!
Ecosystem Integration: Seamlessly integrates with UniFi Network, Protect, and Access systems, allowing unified management through a single controller interface. Centralized Management: Designed for administrators managing multiple UniFi sites or devices, providing consistent firmware, remote access, and monitoring from one dashboard. Reliable, Efficient Design: ARM-based architecture ensures low power draw, cool operation, and stable long-term performance with minimal maintenance. Enterprise-Grade Networking: Equipped with up to dual 10G SFP+ and 10GBase-T ports, plus USP-RPS redundancy for professional deployments. Proven Security Framework: Benefits from Ubiquiti’s mature network security infrastructure, signed firmware updates, and NDAA-compliant hardware.	Superior Hardware Performance: Offers a full range from ARM to Intel Core i5 CPUs, with upgradable RAM, NVMe storage pools, and optional PCIe expansion. Versatile Software (UGOS Pro): Supports Docker, virtual machines, AI photo indexing, and multi-platform backups out of the box. All-in-One Standalone System: Functions independently without relying on an external ecosystem, ideal for users wanting a complete server in one unit. Advanced Connectivity: Includes 2.5 GbE and 10 GbE networking, USB 4/Thunderbolt 4, and support for direct-attached workflows like video editing or large-file transfer. Rapid Development and Updates: Frequent firmware releases continually add new features, broader hardware support, and improved backup and security options.

 

UniFi vs UGREEN NAS – Design, Storage and Range

When comparing UGREEN and UniFi’s NAS portfolios, the first and most visible difference lies in how each brand approaches system design and deployment environment. UGREEN’s NASync series is focused entirely on desktop enclosures, reflecting the brand’s consumer electronics background and intent to cater primarily to home users, prosumers, and creative professionals. Each model, such as the DXP2800, DXP4800 Plus, and DXP8800 Plus, follows a compact, upright chassis layout with attention to quiet cooling and minimal footprint. The aesthetic is consistent across the range—metallic finishes, clear drive bay accessibility, and understated branding—intended to fit easily on a desk or in a studio environment. By contrast, UniFi’s UNAS range adopts both desktop and rackmount designs, depending on model class. The UNAS 2 and UNAS 4 are designed for smaller workspaces and integrate PoE+++ power options to simplify installation, while the UNAS Pro 4 (1U) and UNAS Pro 8 (2U) are full rackmount systems made from SGCC steel, reflecting their professional and data-center-friendly construction standards.

UGREEN’s systems emphasize flexibility and user-level expandability within their desktop footprint. Most models in the NASync line support 2.5-inch or 3.5-inch SATA drives, dual NVMe SSD slots, and optional PCIe or Thunderbolt expansion, allowing them to function as both storage servers and active editing platforms. The DXP480T Plus, for example, is an all-SSD NAS with four M.2 NVMe bays that appeals to users seeking maximum I/O performance for tasks such as 4K video editing or database caching. The DXP8800 Plus, the flagship, extends this design language with eight SATA bays, dual Gen 4 M.2 SSD slots, dual 10 GbE networking, and Thunderbolt 4 connectivity, making it one of the most powerful turnkey NAS options in the consumer space. In comparison, UniFi’s UNAS systems prioritize structural consistency and network integration over expandability. Even though all models provide dual or single NVMe slots, these are limited to caching duties. Drive capacity across the lineup scales more linearly, from two to eight 3.5-inch bays, maintaining a clear size-to-performance progression while focusing on rack density and cooling efficiency.

From a usability perspective, UGREEN’s design philosophy focuses on standalone versatility. Each NASync model is built to function independently as a complete storage and application host, with optional integration through standard network protocols. Physical accessibility is a clear design consideration, with quick-release trays, front USB ports, and in some models, SD card readers for direct media offload. The visual and acoustic design is optimized for open environments, with whisper-quiet fan systems and smart temperature management, making them suitable for use beside workstations or in living spaces. UniFi’s design philosophy, however, centers on infrastructure harmony rather than isolation. The rackmount models are designed to slide directly into existing UniFi network installations, using standard 1U or 2U spacing and consistent power integration with UniFi’s USP-RPS redundant supply network. Even the desktop UNAS 4 maintains visual continuity with UniFi routers and switches, using similar matte finishes, front-facing status LEDs, and clean ventilation lines.

In terms of product range, UGREEN currently offers at least seven NASync models, each targeting a specific performance segment. These include the DXP2800 (2-bay ARM), DXP4800 (4-bay N100), DXP4800 Plus (4-bay N305), DXP6800 Pro (6-bay N305), DXP480T Plus (SSD-only, N305), DH4300 Plus (4-bay ARM), and DXP8800 Plus (8-bay i5-1240P). Each generation introduces more advanced CPUs, faster interfaces, and expanded media capabilities. UniFi’s current UNAS range, while smaller, has diversified rapidly since its launch. The confirmed models include the UNAS 2, UNAS 4, UNAS Pro 4, UNAS Pro 8, and the earlier UNAS Pro 7-Bay, all of which use ARM-based processors and fixed memory configurations. A larger ENAS 16-Bay ZFS system is already in development, targeting enterprise and datacenter deployments in 2026. Compared with UGREEN’s more gradual tiered approach, UniFi’s product scaling is defined by form factor and network bandwidth rather than by CPU class or user workload.

Price segmentation further highlights their opposing strategies. UniFi’s UNAS line is priced aggressively to attract users into its broader ecosystem, starting at $199 for the UNAS 2, rising to $799 for the Pro 8, and including mid-tier models like the UNAS 4 ($379) and Pro 4 ($499). The pricing aligns with UniFi’s established model of offering capable hardware at low margins to encourage ecosystem investment across switches, cameras, and controllers. UGREEN, by contrast, positions its NASync devices as feature-rich all-rounders, with prices reflecting performance class: from $279 for the DXP2800 to around $1,299 for the DXP8800 Plus. The difference in pricing structure is significant but reflects how each company defines value—UniFi through integrated ecosystem scaling, and UGREEN through standalone hardware strength and included functionality.

 

UniFi vs UGREEN NAS – Hardware Range

The internal hardware philosophy of UniFi and UGREEN reflects two distinct interpretations of what a modern NAS should prioritize: efficiency and integration versus performance and versatility. UniFi’s UNAS series relies entirely on ARM-based architecture, a deliberate decision aligned with the company’s emphasis on low power consumption, predictable thermal characteristics, and embedded system reliability. Every model in the current UNAS lineup, including the UNAS 2, UNAS 4, UNAS Pro 4, and UNAS Pro 8, is built around a quad-core ARM processor—the A55 at 1.7 GHz for the smaller systems and the A57 at 2.0 GHz for the rackmount models. These CPUs deliver modest compute performance but strong stability and power efficiency, allowing for sustained 24/7 operation without requiring active thermal management beyond standard fan arrays. This design philosophy mirrors UniFi’s broader network device ecosystem, where embedded ARM SoCs dominate routers, gateways, and cameras, ensuring unified firmware management and hardware compatibility across all product categories.

UGREEN’s NASync architecture takes the opposite route, aiming to deliver workstation-grade power in compact form factors. The entry-level DXP2800 features an octa-core ARM CPU, already outpacing UniFi’s top models in raw processing capability, while the remainder of the series transitions to x86 platforms from Intel’s latest low-power and mid-tier lines. The DXP4800 uses Intel’s N100 processor, the DXP4800 Plus and DXP6800 Pro adopt the more capable N305 with improved iGPU performance, and the flagship DXP8800 Plus integrates the 12th Gen Intel Core i5-1240P, offering hybrid performance and support for hardware transcoding, virtualization, and PCIe Gen 4 NVMe. This variation in processor choice underlines UGREEN’s strategy of providing scalable compute resources for different workloads, from basic backup operations to multi-user virtualization and AI-assisted indexing. Unlike UniFi, UGREEN’s systems can operate as full Linux servers, running multiple containers or virtual machines without external dependencies.

Memory and expansion options further highlight the divergence in hardware scope. UniFi’s systems employ fixed memory configurations—ranging from 4 GB on the UNAS 2 and 4 to 16 GB on the Pro 8—with no user-accessible upgrade paths. This aligns with their embedded design approach, where firmware optimization and unified memory management are prioritized over modularity. In contrast, UGREEN’s NASync devices all support user-upgradable SO-DIMM DDR4 or DDR5 modules, typically allowing capacities between 8 GB and 64 GB, depending on the model. This flexibility benefits users running memory-intensive services such as Docker containers, Plex transcoding, or AI indexing. Moreover, many of UGREEN’s x86 systems support PCIe expansion cards, offering pathways to add 10 GbE NICs, NVMe storage adapters, or GPU accelerators, while UniFi’s systems are intentionally non-upgradable to maintain uniform hardware control and firmware consistency across the UNAS ecosystem.

Networking and connectivity options serve as another key point of differentiation. UniFi has leaned on its networking pedigree, offering up to three 10 GbE connections (two SFP+ and one RJ45) on the UNAS Pro 8, with lower-tier models still providing 2.5 GbE or Gigabit connectivity. Power integration is also a hallmark of their design. The UNAS 2 and UNAS 4 use PoE+++, allowing single-cable deployment through UniFi switches, while the Pro series employs redundant power via USP-RPS or hot-swappable PSUs, reducing downtime in managed networks. UGREEN, on the other hand, focuses on local performance flexibility, providing multi-interface options like 10 GbE, 2.5 GbE, USB 4, and Thunderbolt 4, depending on model class. This allows their systems to double as direct-attached storage (DAS) for editors or content creators, particularly when used via Thunderbolt, an option not present in any UniFi NAS. Power designs in UGREEN systems are conventional but efficient, ranging from compact external adapters on smaller models to integrated supplies on higher-end devices.

The overall hardware comparison reveals two clear user archetypes. UniFi’s hardware suits IT administrators and network professionals seeking dependable, uniform, low-maintenance appliances that integrate natively with UniFi controllers and services. UGREEN’s NASync hardware, meanwhile, targets prosumers, creative professionals, and small business users requiring computational headroom and direct system control. Where UniFi builds closed but predictable infrastructure devices, UGREEN delivers open and adaptable machines capable of serving as both NAS and lightweight servers. The contrast is not one of quality but of philosophy—UniFi favoring consistency and system management efficiency, UGREEN focusing on flexibility and computational breadth.

UniFi vs UGREEN NAS – Software, Services and Apps

The most significant distinction between UGREEN and UniFi’s NAS platforms lies in their software ecosystems and the broader intent behind their development. UniFi’s UNAS software mirrors the brand’s overarching approach to product design: lightweight, efficient, and designed to integrate seamlessly into the UniFi Network and Protect ecosystems. The UNAS interface focuses almost exclusively on storage management and file security. It provides the fundamental NAS feature set, including multiple RAID configurations, volume encryption, snapshot management, and user-based permission control. Files can be accessed through SMB, NFS, with remote management possible via the UniFi portal or mobile app. However, beyond core storage functionality, UniFi’s NAS software remains deliberately minimal. It lacks support for virtual machines, Docker containers, or app installation frameworks, relying instead on integration with other UniFi devices for broader capabilities such as video surveillance, network management, or cloud relay services.

UGREEN’s UGOS Pro platform adopts a far more expansive, multifunctional design. The software is built on a modern Linux kernel and supports both ARM and x86 architectures, allowing for a full-featured environment with native support for containers, virtual machines, and AI-enhanced media indexing. Out of the box, users can deploy Docker, Portainer, Kubernetes-compatible containers, and KVM-based virtual machines, enabling workloads that go far beyond traditional NAS operations. Backup and synchronization options are also more diverse, with support for rsync, S3, WebDAV, iSCSI, OneDrive, Google Drive, Dropbox, and two-way synchronization across multiple NAS units. The interface emphasizes transparency and customization, giving users direct access to system-level configuration that UniFi’s more streamlined interface omits. Features such as storage tiering (using both HDD and NVMe), application sandboxing, and external GPU detection on select models position UGREEN’s UGOS Pro as one of the most open and flexible NAS operating systems currently available outside of enterprise-class environments.

In client and access support, the contrast continues. UniFi’s ecosystem is designed for centralized control and consistent performance across its product range. The UNAS systems can be monitored via the same UniFi Controller interface used for switches, gateways, and access points, creating a single-pane-of-glass environment that appeals to IT administrators managing multiple UniFi sites. Remote access and firmware updates are handled automatically through UniFi Cloud, and security is strengthened by integration with two-factor authentication, device certificates, and network isolation policies inherited from the company’s professional networking hardware. UGREEN, conversely, provides a more conventional NAS interface that supports multiple access clients and cross-platform tools. In addition to browser access and mobile apps for Android and iOS, users can mount shared drives directly within macOS, Windows, and Linux, while also leveraging a dedicated UGREEN Drive application for photo management and AI-based face/object recognition. Where UniFi’s UNAS feels like an extension of a larger network ecosystem, UGREEN’s software operates as a complete standalone server environment.

Security and maintenance are handled very differently between the two brands. UniFi benefits from a mature background in network device hardening, employing signed firmware, rolling updates, and extensive beta testing through its large enterprise user base. Features such as encrypted storage volumes, HTTPS enforcement, and VLAN isolation come preconfigured with minimal user intervention. However, the trade-off for this controlled environment is reduced user autonomy, as firmware customization and software-side experimentation are discouraged. UGREEN, while newer to the enterprise security space, implements encryption standards such as AES-256, offers built-in 2FA, and continues to expand its ransomware prevention and snapshot recovery tools. Updates arrive frequently and often include feature additions alongside security patches, though the brand still lacks a formal bug bounty or transparency reporting system comparable to UniFi’s. Overall, UGREEN’s software offers greater flexibility and control, while UniFi’s remains more mature and hardened within its controlled network framework.

 

UniFi vs UGREEN NAS – Verdict and Conclusion

Both UGREEN and UniFi have entered the NAS sector from distinct starting points and continue to move in different directions, each targeting a particular type of user. UniFi’s UNAS series delivers consistency, predictable performance, and dependable integration with the broader UniFi ecosystem. Its software is stable, lightweight, and well-suited to users who prioritize straightforward storage management, reliable data handling, and unified control across routers, switches, and surveillance systems. While the hardware is limited to fixed ARM configurations and non-expandable memory, it is efficient, quiet, and designed for continuous operation with minimal maintenance. For organizations already invested in UniFi infrastructure, the UNAS systems provide a logical expansion that keeps management centralized and operational risk low. However, their value depends heavily on ecosystem synergy; outside of that environment, the systems remain competent but relatively inflexible standalone NAS options.

UGREEN’s NASync platform, on the other hand, appeals to users seeking broader performance capability and independence. Its x86-based models, upgradable memory, and open software environment allow it to serve as a hybrid between NAS and compact server, capable of running applications, containers, and virtual machines alongside storage tasks. The design language is more suited to individual or small business use than datacenter deployment, but the hardware range—from ARM to Core i5—covers a far wider performance spectrum than UniFi’s. Software maturity continues to evolve quickly, with new features added frequently, and the systems provide extensive compatibility with third-party clients and backup services. The trade-off is that long-term reliability and enterprise-level security validation are still developing.

Ultimately, UniFi NAS suits users who already rely on UniFi’s networking ecosystem and value simplicity, predictability, and centralized management, while UGREEN NAS caters to those prioritizing flexibility, compute power, and open software capability. Both brands have lowered the entry barrier into reliable NAS ownership, but they embody opposing philosophies: UniFi focuses on integration and control, whereas UGREEN emphasizes capability and independence.

Why Buy UniFi NAS?

Why Buy UGREEN NAS?

Ecosystem Integration: Seamlessly integrates with UniFi Network, Protect, and Access systems, allowing unified management through a single controller interface. Centralized Management: Designed for administrators managing multiple UniFi sites or devices, providing consistent firmware, remote access, and monitoring from one dashboard. Reliable, Efficient Design: ARM-based architecture ensures low power draw, cool operation, and stable long-term performance with minimal maintenance. Enterprise-Grade Networking: Equipped with up to dual 10G SFP+ and 10GBase-T ports, plus USP-RPS redundancy for professional deployments. Proven Security Framework: Benefits from Ubiquiti’s mature network security infrastructure, signed firmware updates, and NDAA-compliant hardware.

Superior Hardware Performance: Offers a full range from ARM to Intel Core i5 CPUs, with upgradable RAM, NVMe storage pools, and optional PCIe expansion. Versatile Software (UGOS Pro): Supports Docker, virtual machines, AI photo indexing, and multi-platform backups out of the box. All-in-One Standalone System: Functions independently without relying on an external ecosystem, ideal for users wanting a complete server in one unit. Advanced Connectivity: Includes 2.5 GbE and 10 GbE networking, USB 4/Thunderbolt 4, and support for direct-attached workflows like video editing or large-file transfer. Rapid Development and Updates: Frequent firmware releases continually add new features, broader hardware support, and improved backup and security options.

Want to support us NASCompares? Use the links/buttons below, and anything you purchase results in a small commission coming to me and Eddie @NASCompares. It really is just the two of us doing everything, and purchasing things via these links will allow you to passively support creators like us (as well as allow us to keep making videos, providing support, running the forum, making tutorials and more) at no extra cost to yourself!

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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   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