Les prix des ordinateurs personnels devraient grimper en 2026. La pénurie de mémoire et de stockage pourrait entraîner une hausse allant jusqu’à 8 %

Cet article PC en 2026, la chute des ventes et l’augmentation des prix sont inévitables a été publié en premier par GinjFo.

The Minisforum MS-02 Ultra – The First 48 Hours

The MS-02 Ultra is the latest workstation from Minisforum, and is currently undergoing testing and review here at NASCompares. However, even after just 48 hours, a whole bunch of interesting design choices and unique qwerks to the arcitecture have emerged that I wanted to cover in the meantime before the full review is complete. The MS-02 Ultra essentially trying to recapture the magic and impact of the incredibly popular MS-01 – and it is attempting this by doubling, trippling and (in some cases) quadrupling the base specifications! The Minisforum MS-02 Ultra arrives as a compact workstation that incorporates a 24-core Intel Core Ultra 9 285HX processor, up to 256 GB of ECC DDR5 memory, internal 350 W power delivery, multiple PCIe expansion options, and a network configuration that includes dual 25GbE, 10GbE, and 2.5GbE. After 48 hours of initial testing, several hardware behaviors have emerged regarding thermals, acoustics, lane distribution, storage configuration, and chassis layout. The following sections outline these early observations, supported by confirmed specifications and hands-on inspection. Stay tuned for the full review, but at least for now, let’s discuss the early highlights and low lights!

Design of the MS-02 Ultra

The internal design of the MS-02 Ultra differs considerably from earlier Minisforum workstation models and moves away from the layout used in the MS-S1 Max. Although the system retains a slide-out internal frame, the mechanism is less streamlined than the earlier S-series implementation because of how densely the components are arranged.

The interior resembles a compressed micro-tower layout, with the CPU cooling assembly, PSU, PCIe risers, and storage positions layered closely together. A dual-fan ventilation chamber spans the frontal section of the chassis, pulling air through a vented intake and directing it across the primary cooling hardware before forcing it out the rear. This arrangement appears to be a necessary response to the higher thermal output of the Ultra 9 285HX and the inclusion of multiple expansion slots, both of which require more directed airflow than Minisforum’s previous compact workstation designs.

The placement of internal components reflects the limited spatial tolerance of the 4.8-liter enclosure. The internal 350 W PSU occupies a significant section of the lower frame and includes additional power leads intended for low-profile GPU or accelerator cards, something rarely present in machines of this size. The motherboard runs across most of the horizontal section and positions the CPU vapor-chamber cooler toward the middle, while memory slots, NVMe connectors, and the PCIe riser for the combo NIC occupy the remaining pockets of available space.

Because cooling pipes and the ventilation housing sit directly above the CPU-side memory slots, Minisforum added a custom angled heatsink to ensure airflow reaches these modules. This results in a serviceable layout but one that requires more deliberate disassembly, as the compact structure prioritizes component density and thermal guidance over ease of access or open internal spacing.

Early Heat, Noise and Power Use of the MS-02 Ultra

Initial thermal behavior suggests the MS-02 Ultra is managing its compact layout with a cooling strategy built around a dual-fan chamber and a six-heatpipe radiator assisted by phase-change material. During the first setup period, surface temperatures around the chassis varied, with readings near the side ventilation panels and case edges settling around the low-to-mid 40s, while the front intake area measured lower due to the direct airflow path.

Early internal temperature checks, taken before any sustained workloads were applied, showed values consistent with a system that is heavily packed but actively cooled across multiple zones. These readings align with Minisforum’s stated 5000 RPM maximum fan speed and the intention to maintain a 100 W to 140 W CPU power envelope depending on configuration. However, because these measurements were taken during routine preparation rather than stress testing, they provide only a preliminary indication of how the system will manage long-duration loads.

Noise levels during this early period ranged from the low 30s dBA while performing software installations and background operations, with no significant fluctuations unless brief bursts of activity occurred. This behavior suggests fan control may be tied primarily to BIOS-level thermal triggers rather than granular OS-side control, something that will require further testing.

Power consumption during light activity remained in the 50 to 60 W range, which is consistent with a workstation-class system running the Ultra 9 285HX while idle or handling moderate foreground tasks. Removing the dual-25GbE combo card or disabling its slot reduced power draw by roughly 10 to 11 W, highlighting the overhead associated with multi-lane NICs and onboard controllers. These early figures provide a baseline for comparison against heavier benchmarks that will be performed in the full review.

The 25GbE, 10GbE and WiFi 7 Network Card in the MS-02 Ultra

The MS-02 Ultra’s networking implementation is centered around a PCIe-based combo card that integrates dual 25GbE SFP+ ports with two additional M.2 NVMe slots. This card is installed in the PCIe 4.0 x16 position rather than the PCIe 5.0 slot, and it includes a dedicated controller with active cooling and heatsinks that cover both the networking and storage components.

Early inspection shows the card draws a notable amount of power, which corresponds with the increased thermal and electrical requirements of Intel’s E810-class 25GbE controllers. Because of this, Minisforum’s inclusion of dedicated airflow and structural reinforcement around the card is necessary within the constrained 4.8-liter chassis. The presence of this dual-purpose add-in card also means the MS-02 Ultra’s total NVMe count depends on whether the system is configured with the 285HX version, as the lower-tier CPUs remove the combo module entirely.

Beyond the 25GbE configuration, the system includes onboard 10GbE and 2.5GbE RJ45 ports, the latter supported by Intel’s i226-LM with vPro capabilities, allowing BIOS-level remote management. The combination of high-speed SFP+, copper-based multi-gigabit ports, and embedded management options positions the system for lab, server, or virtualization roles rather than conventional desktop use.

Wireless capability is supplied via a WiFi 7 and Bluetooth 5.4 module connected through an M.2 E-Key slot, providing high-throughput wireless performance alongside its wired interfaces. Together, these connectivity features expand the system’s potential use cases, particularly for users planning to deploy virtualized environments or bandwidth-intensive tasks such as shared storage testing or multi-system clustering.

How m.2 Storage on the MS-02 Ultra is Done

The MS-02 Ultra distributes its four NVMe slots across two different locations, with two mounted on the mainboard and two integrated into the dual-25GbE combo card. The pair located on the system board are positioned on the underside, near the memory and CPU assembly, and both are listed as PCIe 4.0 x4 according to Minisforum’s documentation.

Early inspection suggests that one of these may have a PCIe 5.0 lane path available at the hardware level, though software restrictions or lane bifurcation rules may currently limit it to Gen 4 behavior. This is an area that requires further validation using a Gen 5 SSD, as the lane layout on the 285HX platform allows various allocation possibilities depending on how Minisforum assigned bandwidth between CPU, chipset, and expansion slots. These internal slots have modest vertical clearance, meaning SSDs with tall heatsinks cannot be used without removing or replacing the pre-fitted cooling structures.

The remaining two NVMe slots reside on the network combo card alongside the 25GbE controllers. These operate under different bandwidth rules depending on SSD capacity: drives up to 4 TB operate at PCIe 4.0 x4, while larger 8 TB models shift down to PCIe 3.0 x4. This behavior appears to be related to the card’s onboard controller and how its internal bifurcation splits resources between the NIC and storage lanes.

Physical space is also restricted on the card, requiring low-profile SSDs in certain positions to avoid obstruction of the cooling shroud and airflow channel. Minisforum includes an additional heatsink in the package for users installing their own drives, but using SSDs with taller factory heatsinks may be impractical. Altogether, storage layout on the MS-02 Ultra is functional and high-capacity, but with lane behaviors and physical constraints that require attention during configuration.

Memory on the MS-02 Ultra

The MS-02 Ultra provides four DDR5 SODIMM slots, but their distribution within the chassis is unconventional due to the system’s compact thermal layout. Two slots sit on the mainboard near the CPU-side M.2 positions, placed directly in the airflow path of the vapor-chamber cooler and its dual-fan assembly. Because of this, Minisforum has added a custom angled heatsink that draws air from the primary cooling channel across the modules and nearby components.

This arrangement is intended to compensate for the thermal density around the CPU area, where heat buildup would otherwise be more likely. These two slots support both ECC and non-ECC memory, though ECC functionality is active only on the 285HX model. Their placement suggests Minisforum prioritized consistent airflow over ease of access, making upgrades possible but less straightforward than on more open workstation layouts.

The remaining pair of SODIMM slots is located on the opposite side of the board, positioned away from the CPU cooling assembly and closer to the chassis frame. These modules have more breathing room but rely on passive airflow from the system’s general ventilation rather than a focused cooling path. All four slots support speeds up to 4800 MHz, with XMP profiles unavailable due to Minisforum’s implementation and Intel’s platform limitations.

During early testing, memory installation worked as expected, though the arrangement of these slots means users planning maximum 256 GB configurations will need to work within the physical constraints of the layout. Overall, the memory design reflects a tradeoff between supporting high-capacity ECC configurations and fitting the necessary cooling infrastructure into a small volume.

PCIe Card Support on the MS-02 Ultra

The MS-02 Ultra incorporates three PCIe slots arranged to maximize flexibility within its compact chassis: a PCIe 5.0 x16 slot, a PCIe 4.0 x16 slot, and a PCIe 4.0 x4 slot. The PCIe 5.0 slot is left unoccupied by default, allowing users to install a low-profile GPU or accelerator card that fits within the airflow and power constraints of the 350 W internal PSU.

Minisforum includes auxiliary power cables within the system, which is uncommon for small-form-factor workstations and indicates that the chassis is intended to support cards that require supplemental power. Because of the chassis height and width, only dual-slot, low-profile cards with modest cooling requirements are viable, but this still introduces options for compute or media workloads that benefit from hardware acceleration.

The PCIe 4.0 x16 slot is occupied in the 285HX configuration by the dual-25GbE plus dual-M.2 combo card, which introduces additional thermal and power considerations. This leaves the PCIe 4.0 x4 slot available for further expansion, provided the card used meets the system’s spatial limitations. The layout demonstrates Minisforum’s approach to balancing lane allocation between CPU, storage, and networking, especially given the 24 available PCIe lanes on the Ultra 9 platform.

Although the physical presence of three slots in such a compact volume is unusual, the arrangement is functional, and power delivery from the internal PSU supports moderate add-in card configurations. Users will need to consider airflow direction, card length, and slot occupation carefully to avoid restricting internal ventilation.

Conclusion and Verdict on the Minisforum MS-02 Ultra (So Far…)

The MS-02 Ultra presents a compact workstation design that integrates a high-core-count CPU, multiple NVMe storage options, high-speed networking, and an internal PSU within a tightly arranged chassis. Early testing indicates that the system’s thermal behavior, noise profile, and power draw are consistent with its component density, though the long-term performance of its cooling strategy requires extended benchmarking before reaching definitive conclusions. The design choices, such as the split placement of memory slots, the use of a large dual-fan cooling chamber, and the reliance on a densely packed internal layout, all reflect Minisforum’s effort to fit workstation-grade hardware into a constrained volume.

In terms of features, the dual-25GbE plus dual-M.2 combo card remains the most distinctive element, expanding the system’s potential for virtualized environments, NAS roles, and bandwidth-heavy workflows. PCIe allocation, memory configuration, and storage behavior introduce several considerations for users planning upgrades or specialized deployments. While these early observations indicate a capable and flexible platform, further testing is necessary to determine sustained thermal performance, PCIe stability under load, and real-world throughput of the networking and storage subsystems. The forthcoming full review will provide those extended results, but for now, the system presents a feature-rich design with several areas that merit deeper evaluation.

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La pénurie de mémoire provoque une hausse brutale des coûts. Les fabricants de PC prévoient d’augmenter leurs prix d’au moins 20 %.

Cet article Crise de la mémoire : pourquoi les prix des PC vont grimper de 20 % en 2026 ? a été publié en premier par GinjFo.

Vous vous souvenez de Remix OS, de Phoenix OS et de tous ces projets qui promettaient ENFIN de faire tourner Android sur votre PC comme un vrai OS desktop ? Ouais, moi aussi je m’en souviens… Et ce dont je me souviens surtout, c’est de comment ça s’est terminé… Des abandons, des problèmes de mise à jour, du licensing foireux avec Google. Bref, un vrai carnage…

Hé bien cette fois c’est Google lui-même qui se lance dans l’aventure avec un projet baptisé Aluminium OS. Et attention, ce n’est pas juste une rumeur de plus puisque Rick Osterloh, le grand patron de la division Devices de chez Google, a officiellement annoncé le projet en septembre dernier au Snapdragon Summit de Qualcomm. Comme les deux boîtes bossent ensemble sur cette nouvelle plateforme, on devrait logiquement voir débarquer des machines sous puces Snapdragon.

Côté naming, Google reste fidèle à sa convention maison avec un nom de métal en “-ium”, vous savez, comme Chromium pour Chrome… Sauf qu’ils ont choisi la version britannique “Aluminium” plutôt que “Aluminum” nord-américaine. Ça sera aussi plus simple à retenir pour nous les français.

Aluminium c’est donc la fusion tant attendue entre ChromeOS et Android afin d’avoir un seul OS unifié pour les laptops, les tablettes détachables et même les mini-PC style Chromebox. L’objectif affiché c’est de mieux concurrencer l’iPad sur le marché des tablettes, mais aussi taper sur la tête de Windows et macOS côté PC. Et contrairement à ce qu’on pourrait craindre, Google ne compte pas limiter ça aux machines d’entrée de gamme pourries puisqu’ils prévoient trois segments : AL Entry (le pas cher), AL Mass Premium (le milieu de gamme) et AL Premium pour jouer dans la cour des grands.

Le truc qui change vraiment par rapport aux Phoenix OS et autres projets communautaires, c’est surtout que Google veut intégrer son IA Gemini au cœur du système. Bon ok, tout le monde fait ça maintenant, mais au moins ça prouve que c’est un projet sérieux avec de vraies ressources derrière.

Maintenant, si vous êtes actuellement utilisateurs de Chromebook (force à vous ! ^^), pas de panique puisque les machines existantes continueront à recevoir leurs mises à jour jusqu’à leur fin de vie. Les plus récentes pourraient même avoir droit à une petite migration vers Aluminium OS si elles sont compatibles. D’ailleurs, si on en croit les rapports de bugs internes, Google teste actuellement ce système sur des cartes de dev équipées de puces MediaTek Kompanio 520 et Intel Alder Lake 12e gen, donc si votre Chromebook tourne avec l’un de ces chipsets, vous avez peut-être une chance…

En interne, les ingénieurs parlent même déjà de “ChromeOS Classic” pour désigner l’ancien système, ce qui laisse penser que Google pourrait simplement renommer Aluminium en ChromeOS une fois leur truc mature.

Bref, le lancement de ce nouvel OS Made in Google est prévu pour 2026 et sera probablement basé sur Android 17. À voir maintenant si ça décollera plus que ChromeOS…

Source

1Password a annoncé le 12 novembre 2025 une amélioration majeure : le gestionnaire de mots de passe peut désormais s’ouvrir automatiquement dès que vous déverrouillez votre appareil, que ce soit via Face ID, Touch ID, un code PIN ou un mot de passe.

Beelink Me Mini vs GMKTec G9 vs CWWK P6 SSD NAS Showdown

The compact and SSD-focused NAS landscape has grown increasingly competitive, with new models targeting users who require silent operation, efficient performance, and small-scale virtualization or media serving capabilities. Devices like the GMKTec G9, Beelink ME Mini, and CWWK P6 represent a distinct shift from traditional 3.5” HDD-based systems, instead favoring M.2 NVMe SSD storage in compact chassis designs. These systems are marketed toward home users, prosumers, and developers looking for a balance between cost, flexibility, and low-noise operation, often for roles such as Plex servers, UnRAID deployments, or containerized environments.

Each unit in this comparison leverages low-power Intel Twin Lake processors (notably the N150), offers at least dual 2.5GbE connectivity, and supports multiple M.2 drives, but their implementations vary widely in thermal handling, expandability, and internal architecture. As the line between DIY NAS builds and pre-built options continues to blur, the GMKTec G9, Beelink ME Mini, and CWWK P6 provide a snapshot of how different brands interpret the needs of modern users who prioritize energy efficiency, small footprints, and SSD-based storage workflows. This article evaluates these three devices across pricing, storage architecture, design, and real-world usability to provide a clear overview of their relative strengths and compromises.

CWWK P6 SSD NAS	Beelink ME Mini SSD NAS – HERE	GMKTec G9 SSD NAS

Beelink Me Mini vs GMKTec G9 vs CWWK P6 SSD NAS – Price and Value

The GMKTec G9 enters the market at around $199 for its 12GB RAM base configuration, positioning it as one of the more accessible SSD-based NAS units available. It includes a Windows 11 Pro license and Ubuntu Linux pre-installed, which can be attractive to users interested in general computing as well as NAS tasks. However, these operating systems are not tailored for storage-focused functionality, and the burden falls on the user to install and configure something like TrueNAS or UnRAID for proper NAS use. Additionally, the system uses non-upgradable LPDDR5 memory and features a plastic chassis, suggesting a design focus on affordability over long-term flexibility. While value is present in terms of included software and passive SSD-ready operation, its entry-level design limits appeal to users planning to scale or repurpose the device beyond its initial setup.

The Beelink ME Mini NAS, typically available at $209 on Beelink’s own storefront, offers a slightly higher upfront cost but balances that with integrated features aimed at simplifying deployment. Unlike the GMKTec G9, the ME Mini comes with an internal power supply and Crucial-branded SSDs in pre-built configurations, offering a greater level of assurance for storage reliability and plug-and-play readiness. The system supports Wi-Fi 6, Bluetooth 5.2, and features a silent fan-assisted cooling design that makes it more suitable for living rooms or office environments. Though it also utilizes soldered 12GB LPDDR5 memory, its form factor, passive aesthetics, and better thermals make it more appealing to users who want a quiet and tidy NAS solution that requires minimal tinkering post-installation. When compared to generic prebuilds, the ME Mini offers greater refinement and turnkey usability in exchange for a modest premium.

The CWWK P6 NAS sets itself apart with a lower base price of $195 for the N150 version, but this does not include memory or storage. Instead, the system is designed for users who prefer sourcing their own SO-DIMM DDR5 RAM and M.2 SSDs, potentially reducing costs if spare components are available. Its use of a single SO-DIMM slot enables expansion up to 48GB, which is considerably more than either the GMKTec or Beelink models. However, this flexibility comes at the cost of initial convenience. Users will need to handle their own OS installation, BIOS configuration, and possibly even resolve SATA recognition issues via firmware tweaks. The CWWK P6 also lacks wireless connectivity by default, and its use of a barrel connector rather than USB-C for power delivery may feel dated. Still, for users with a higher comfort level in DIY environments, the P6 offers a customizable platform with greater headroom for VMs, Plex, and containers.

When considering long-term value, each NAS appeals to a different kind of buyer. The GMKTec G9 is best suited for users who want a simple, functional NAS with minimal setup, though they may run into its limits quickly if performance expectations rise. The Beelink ME Mini justifies its price by offering a more thought-out design, silent thermals, and premium SSD options out of the box—better suited to users who want a clean and quiet system that can be set up rapidly. Meanwhile, the CWWK P6 represents a builder’s NAS: inexpensive upfront, highly scalable, and intended for users who value control over convenience. Ultimately, while price differences between these units are small, the total value depends heavily on user intent and whether ease of deployment, expansion, or component choice takes priority.

Beelink Me Mini vs GMKTec G9 vs CWWK P6 SSD NAS – Storage & Memory

All three NAS systems in this comparison rely exclusively on M.2 NVMe SSDs for internal storage, reflecting a growing emphasis on silent, high-speed flash-based configurations in compact enclosures. The GMKTec G9 features four M.2 NVMe slots, each limited to PCIe Gen 3 x2, offering a theoretical maximum of 2GB/s per drive. In contrast, the Beelink ME Mini supports six M.2 NVMe slots, with five operating at PCIe Gen 3 x1 and one—typically reserved for the OS—at Gen 3 x2. The CWWK P6 matches the G9 in having four slots, though each operates at PCIe Gen 3 x1 speeds, reducing peak bandwidth per drive. This difference in PCIe lane allocation directly impacts aggregate read/write performance, especially in RAID configurations or during high-traffic file operations.

The GMKTec G9’s storage slots are laid out beneath a plastic panel with no included heatsinks, a decision that raises concerns about sustained thermal performance. While it technically supports up to 32TB of total storage across its four bays, the lack of passive or active SSD cooling can lead to throttling unless third-party heatsinks are installed. The Beelink ME Mini, in contrast, integrates a large aluminum heatsink with pre-applied thermal pads on all six slots, ensuring consistent heat transfer and reduced risk of SSD overheating. Though five of its six slots are bandwidth-limited to Gen 3 x1, the thermal design makes it better suited for prolonged uptime and high-usage environments. The CWWK P6 also features a metal enclosure that acts as a passive heat sink, but ships with notably thin thermal pads and relies on an optional USB-powered fan for improved airflow.

Memory configuration is another key area of differentiation. The GMKTec G9 and Beelink ME Mini both ship with 12GB of soldered LPDDR5 memory running at 4800MHz. This fixed memory cannot be upgraded, limiting their long-term viability in RAM-intensive use cases such as virtualization or large-scale container deployment. The CWWK P6, by contrast, includes a single SO-DIMM slot that supports up to 32GB of DDR5 4800MHz memory, making it the most flexible of the three for VM hosting, ZFS-based NAS operating systems, or other memory-sensitive applications. The tradeoff is that buyers must provide their own RAM, adding to the setup cost but allowing for performance tuning based on workload.

Boot and operating system storage configurations differ subtly across the three units. The GMKTec G9 includes a 64GB eMMC drive with pre-installed Windows 11 Pro and Ubuntu, though the eMMC capacity is insufficient for most NAS deployments beyond initial setup. The Beelink ME Mini also offers a 64GB eMMC module but encourages users to install the OS on the Gen 3 x2 slot, especially in bundled configurations that include Crucial P3 SSDs. The CWWK P6 does not include any pre-installed OS or eMMC storage but does allow booting from any of its four NVMe slots, giving advanced users greater freedom to optimize OS installation, especially when using UnRAID or TrueNAS SCALE.

Ultimately, the memory and storage architecture of each system reflects different user priorities. The GMKTec G9 aims for simplicity but is hindered by non-upgradable memory and inadequate SSD cooling. The Beelink ME Mini offers better thermal management and storage capacity, albeit with limited PCIe bandwidth on most slots. The CWWK P6 provides the greatest upgrade potential with socketed RAM and M.2 flexibility, but demands user familiarity with thermal solutions, BIOS configuration, and peripheral sourcing.

The physical construction of these three NAS units reflects differing priorities in material choice, ventilation, and power integration. The GMKTec G9 uses a lightweight plastic chassis, which helps reduce cost but limits heat dissipation across its four M.2 SSDs. The unit relies on internal airflow generated by laptop-style fans, but its design lacks direct ventilation over the SSD bays, and the use of a plastic cover above the M.2 slots reduces thermal transfer. In contrast, the Beelink ME Mini is housed in a symmetrical 99mm³ cube with an internal aluminum heatsink and integrated fan. Its minimalist cube layout includes top and bottom ventilation for vertical airflow and maintains a more enclosed, consistent cooling environment that better suits SSD longevity in passive setups.

The CWWK P6 offers the most robust build quality of the three, using a solid aluminum alloy chassis that doubles as a passive heat sink. It includes a base-level fan mounted beneath the CPU and an optional USB-powered fan for SSD cooling. However, the included thermal pads are extremely thin, reducing their effectiveness under prolonged load unless replaced. Despite this, the chassis is designed to tolerate higher ambient temperatures and shows consistent performance in enclosed spaces. One drawback is the lack of airflow across the top panel unless the optional fan is mounted—without it, SSDs tend to accumulate heat more rapidly, especially during concurrent write operations or large file transfers.

Power delivery also differentiates these devices. The GMKTec G9 uses a USB-C power connector with an external 65W power brick, aligning with modern standards and reducing desktop clutter. The Beelink ME Mini further improves on this with a built-in PSU, removing the need for external adapters altogether and simplifying cable management in home setups. The CWWK P6 reverts to a more traditional 12V barrel connector, which, while functional, feels outdated compared to the USB-C or internal PSU solutions. This design choice may require users to carry a dedicated power supply, limiting flexibility in mobile deployments or environments with shared power infrastructure.

In testing, all three systems showed efficient power usage, though their idle and peak wattages differ slightly due to cooling, CPU behavior, and drive count. The GMKTec G9 drew 19–20W at idle and peaked at 28–30W under sustained load. The Beelink ME Mini demonstrated the lowest idle consumption at 6.9W with no drives, increasing to around 30W when fully populated with six SSDs under heavy activity. The CWWK P6 consumed approximately 18W at idle and peaked at 34–35W with three active VMs and four SSDs. These figures indicate that, despite modest differences in architecture, each system remains power-efficient and suitable for 24/7 use, especially in home environments with low thermal tolerance and energy cost sensitivity.

Beelink Me Mini vs GMKTec G9 vs CWWK P6 SSD NAS – Conclusion and Verdict

When assessed across all key metrics, the GMKTec G9, Beelink ME Mini, and CWWK P6 occupy distinct positions within the low-cost, all-flash NAS landscape, each catering to different user expectations and levels of technical comfort. The GMKTec G9 is the most turnkey in terms of initial usability, with pre-installed Windows and Ubuntu providing a base for users new to NAS setups or simply looking to use the device as a low-power desktop or file server. Its plastic chassis and lack of thermal optimization limit its suitability for intensive tasks, and the fixed 12GB LPDDR5 memory restricts performance scaling for containers or virtualization. That said, the G9 offers predictable behavior and basic capabilities that will satisfy those seeking an easy, entry-level NAS with minimal setup time, especially for local media streaming or light SMB file services. That said, the G9 is getting rather notorious for it’s poor cooling abilities – so much so that the brand has rolled out an improved cooling verion (see images below). There DO help, but the G9 is still the poorest of the three NAS in this comparison in terms of active cooling and long term temps!

The Beelink ME Mini, though only marginally more expensive, adopts a more premium approach to internal design and build quality. The integrated fan and large aluminum heatsink ensure more consistent SSD temperatures under sustained workloads, and the system is noticeably quieter at idle compared to the G9. Its six M.2 NVMe slots provide greater storage density potential, even though five are limited to PCIe Gen 3 x1 speeds. The soldered memory mirrors the G9’s limitations in upgradeability, but its inclusion of Wi-Fi 6, Bluetooth, and an internal PSU adds notable convenience for deployment in mixed-use environments like offices, bedrooms, or AV cabinets. It will appeal to users who value quiet, thermally reliable operation in a system that arrives largely preconfigured and ready for use with minimal additional hardware.

In contrast, the CWWK P6 forgoes polish and plug-and-play readiness in favor of maximum flexibility and user control. It is the only device in this group to feature upgradable RAM, allowing users to install up to 48GB of DDR5 memory, which opens the door to heavier workloads like virtual machines, ZFS-based NAS operating systems, or multiple Docker containers. The lack of included wireless, OS storage, or bundled RAM/SSD keeps the entry cost low but shifts responsibility onto the buyer to source compatible components. This extends to thermal management—while the chassis is solid aluminum, effective SSD cooling often requires replacing the thin stock pads and adding the optional USB-powered fan. These additional steps will deter less technical users but make the P6 a strong contender for builders, hobbyists, or professionals seeking a flexible platform they can adapt over time.

Ultimately, choosing between these three NAS units comes down to balancing ease of setup, long-term scalability, and thermal reliability. The GMKTec G9 suits users who want to get started quickly with a general-purpose device and accept limitations in memory and thermal design. The Beelink ME Mini delivers a more refined package, ideal for those who prioritize noise, storage density, and out-of-box functionality. The CWWK P6, meanwhile, is the most modular and scalable option, but requires technical confidence and additional investment in compatible components. Each has clear strengths and trade-offs, and the best choice depends on whether the user prioritizes convenience, passive reliability, or long-term upgradability in their NAS setup.

Device	Pros	Cons
GMKTec G9	– Includes Windows 11 Pro and Ubuntu pre-installed	– Non-upgradable 12GB LPDDR5 RAM
	– USB-C power input with compact external PSU	– Plastic chassis with VERY poor SSD thermal management
	– Supports 4 x M.2 NVMe (PCIe Gen 3 x2)	– No SSD heatsinks or airflow over storage
	– Quiet operation under light loads
	– Lower entry price with minimal setup required
Beelink ME Mini	– Includes 6 x M.2 NVMe slots (1 x Gen 3 x2, 5 x Gen 3 x1)	– Soldered 12GB LPDDR5, no memory expansion
	– Built-in PSU for cable-free deployment	– Most SSD slots limited to PCIe Gen 3 x1
	– Silent fan and integrated heatsink for passive SSD cooling	– No RAM or storage customization
	– Bundled with Crucial SSDs in some configurations
	– Wi-Fi 6 and Bluetooth 5.2 included
CWWK P6 (N150)	– Upgradable DDR5 RAM (up to 48GB via SO-DIMM)	– No bundled RAM or SSD; user must supply all components
	– Solid aluminum chassis for passive thermal dissipation	– Thermal pads are thin and require replacement for effective SSD cooling
	– 4 x M.2 NVMe slots (PCIe Gen 3 x1) with flexible boot drive assignment	– Barrel power connector instead of USB-C or internal PSU
	– Best suited for VMs, ZFS, and UnRAID with advanced configuration options
	– Lowest base cost and broadest expansion potential

CWWK P6 SSD NAS	Beelink ME Mini SSD NAS – HERE	GMKTec G9 SSD NAS

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The Minisforum MS-02 Workstation – FINALLY A MS-01 KILLER?

Note – Massive thanks to PCWatch for their coverage of the Japan IT Week 2025 Event. They made an excellent article on the Minisforum MS-02 HERE and was the source for today’s article. Check them out!

The Minisforum MS-02 Ultra is a compact 4.8-liter workstation revealed at Japan IT Week Autumn 2025, marking a major upgrade over the earlier MS-01 model. Built around Intel’s 24-core Core Ultra 9 285HX processor, it merges high-end mobile CPU performance with features traditionally reserved for full-size desktops. The system includes support for up to 256 GB of ECC DDR5 memory, four PCIe 4.0 NVMe slots, and three PCIe expansion slots, one of which supports PCIe 5.0 ×16. Network connectivity options extend up to dual 25 GbE SFP28 ports, alongside 10 GbE and 2.5 GbE (vPro) Ethernet. Designed to serve as a workstation or mini-server, the MS-02 Ultra incorporates an internal 350 W Flex PSU, a slide-out chassis for maintenance, and advanced front-to-rear cooling architecture.

Category	Brief Specification
Processor	Intel Core Ultra 9 285HX (24 cores 8P + 16E, 36 MB cache, up to 5.5 GHz)
Memory	4 × DDR5 SO-DIMM slots (up to 256 GB 4800 MHz, ECC supported)
Storage	4 × M.2 2280 PCIe 4.0 ×4 slots (up to 16 TB total)
Expansion	1 × PCIe 5.0 ×16, 1 × PCIe 4.0 ×16 (25 GbE NIC installed by default), 1 × PCIe 4.0 ×4
Networking	2 × 25 GbE SFP28, 1 × 10 GbE RJ-45 (Realtek RTL8127), 1 × 2.5 GbE (vPro Intel i226-LM)
USB Ports	2 × USB4 v2 Type-C (80 Gbps), 1 × USB4 Type-C (40 Gbps), 3 × USB 3.2 Gen 2 Type-A (10 Gbps)
Display Output	1 × HDMI 2.1 (up to 8K 60 Hz / 4K 120 Hz support)
Audio	1 × 3.5 mm combo jack (TRRS)
Wireless	M.2 2230 E-Key slot (Wi-Fi 7 and Bluetooth 5.4 support)
Power Supply	350 W internal Flex PSU (100–240 V AC input)
Dimensions	221.5 × 225 × 97 mm (≈ 4.8 liters)

Minisforum MS-02 – Internal Hardware

The Minisforum MS-02 Ultra is built around Intel’s Arrow Lake-HX platform, with the Core Ultra 9 285HX serving as its central processor. This 24-core CPU combines eight performance cores and sixteen efficiency cores, reaching up to 5.5 GHz while maintaining a 140 W thermal design power. It incorporates an integrated Intel Arc GPU with four Xe cores and an NPU capable of up to 13 TOPS for AI acceleration. The CPU provides 24 PCIe lanes in total, which are distributed among the system’s multiple expansion and storage options.

Memory capacity is one of the most notable upgrades over its predecessor. The MS-02 Ultra offers four DDR5 SO-DIMM slots, supporting up to 256 GB of 4800 MHz memory, with full ECC functionality for stability in continuous workloads. Two modules are located on the CPU side of the board, and two on the reverse, optimizing thermal spacing and service access. This capacity places it closer to entry-level server configurations than typical mini PCs, reinforcing its suitability for virtualization or compute-heavy tasks.

Storage expansion is handled through four M.2 2280 NVMe slots, each supporting PCIe 4.0 ×4 bandwidth. Combined, these slots can accommodate up to 16 TB of SSD storage. The system’s slide-out chassis design allows quick installation or replacement of drives, simplifying maintenance. Minisforum has also introduced a small debug LED and clear CMOS button on the board, indicating that the model is targeted toward users familiar with system-level configuration and troubleshooting.

Expansion flexibility extends far beyond most small form factor workstations. The system includes three PCIe slots: one PCIe 5.0 ×16, one PCIe 4.0 ×16 (often occupied by a 25 GbE NIC in standard configurations), and one PCIe 4.0 ×4. The top slot can host dual-slot desktop graphics cards, drawing up to 140 W through an included 8-pin auxiliary connector. This allows for the addition of mid-range GPUs such as the NVIDIA RTX 4000 SFF Ada or workstation accelerators, while still retaining physical compactness.

Power delivery is managed through a built-in 350 W Flex PSU that eliminates the need for an external brick. This internal supply was a deliberate shift from the MS-01’s external adapter and helps sustain higher CPU and GPU draw without additional clutter. The unit supports 100–240 V AC input, giving it universal deployment flexibility for both workstation and light server scenarios.

Minisforum MS-02 – Ports and Connections

The Minisforum MS-02 Ultra includes a broad range of connectivity options intended to support both workstation and server workloads. Front access is optimized for frequent use, featuring two USB4 Version 2.0 Type-C ports offering 80 Gbps bandwidth each, a 10 Gbps USB Type-A port, a 3.5 mm audio combo jack, and the system power button. These front USB4 v2 ports also support DisplayPort Alternate Mode and Power Delivery up to 15 W per port, making them suitable for high-speed data transfer or direct monitor output without additional adapters.

The rear I/O layout is designed for permanent peripheral and network connections. It includes a third USB4 Type-C port rated at 40 Gbps, three USB 3.2 Gen 2 Type-A ports at 10 Gbps each, and a single HDMI 2.1 output supporting up to 8K at 60 Hz or 4K at 120 Hz. For network communication, the MS-02 Ultra integrates four ports in total: two 25 GbE SFP28, one 10 GbE RJ-45, and one 2.5 GbE RJ-45. The 2.5 GbE interface uses Intel’s i226-LM controller and supports vPro remote management for BIOS-level administration, which is beneficial for enterprise or headless operation.

Wireless connectivity is provided by an M.2 2230 E-Key slot supporting Wi-Fi 7 and Bluetooth 5.4 modules, enabling flexible configuration for wireless networks or peripheral pairing. The combination of USB4 v2, multiple Ethernet options, and RDMA capability positions the MS-02 Ultra as a system ready for both high-performance workstation setups and compact server deployments. Its port layout, with both front and rear accessibility, ensures straightforward use in horizontal or vertical orientations.

Minisforum MS-02 – Cooling and Temperature Management

The cooling system of the Minisforum MS-02 Ultra is designed to manage sustained high thermal loads while maintaining compact dimensions. The chassis follows a front-intake and rear-exhaust airflow pattern, similar to rackmount servers. A six-heatpipe radiator combined with phase-change material (PCM) ensures efficient heat dissipation from both the CPU and expansion slots. This design enables the system to maintain stable operation at a 140 W CPU TDP, even when fully populated with PCIe cards and NVMe storage. Airflow direction also varies depending on the unit’s orientation, with side-mounted intakes feeding the expansion slots and rear vents handling exhaust when the unit is placed horizontally or vertically.

The internal layout is structured to prevent thermal overlap between major components. The CPU and memory modules are cooled through a direct-contact heat spreader, while GPU and add-in cards draw intake air from the left side and expel it from the right or top, depending on placement. The inclusion of an internal 350 W Flex PSU was balanced with this design, ensuring sufficient clearance and airflow. This approach allows the MS-02 Ultra to sustain continuous high-load performance without external cooling solutions or the noise levels typical of larger tower workstations.

Minisforum MS-02 Ultra Workstation – Worth waiting for?

The Minisforum MS-02 Ultra represents a substantial progression from the original MS-01 workstation, addressing nearly every limitation of its predecessor. The earlier model, released in 2023, gained attention for integrating desktop-class performance into a small form factor but was constrained by its single-slot PCIe design, limited memory capacity, and reliance on an external power brick. The MS-02 Ultra resolves these issues with four DDR5 SO-DIMM slots supporting up to 256 GB ECC memory, a dual-slot PCIe 5.0 ×16 slot for graphics or accelerator cards, and a fully internal 350 W Flex PSU. These refinements, along with the addition of 25 GbE networking and USB4 v2 connectivity, elevate the system into a new category that bridges high-end workstation and compact enterprise server design.

Performance and versatility are at the center of this system’s concept. The inclusion of a 24-core Intel Core Ultra 9 285HX CPU and up to four PCIe 4.0 NVMe drives positions it for continuous workloads such as virtualization, software development, or AI inference without the thermal or structural compromises typical of small PCs. Minisforum’s decision to adopt ECC memory and RDMA-capable networking also underlines a shift toward reliability and professional usage scenarios rather than enthusiast or gaming audiences.

In terms of market placement, pricing has yet to be confirmed, but early indications suggest the MS-02 Ultra will likely start around $1,500, with higher configurations approaching or exceeding $2,000 depending on memory, storage, and NIC options. This aligns it with compact workstations like the ASRock DeskMeet X600 and high-end mini servers from OEM integrators, though the Minisforum model’s density and component flexibility set it apart. Overall, the MS-02 Ultra shows how far the brand’s SFF engineering has advanced since the MS-01, turning a well-liked prototype concept into a fully realized professional-grade workstation built for sustained heavy use.

Note – Massive thanks to PCWatch for their coverage of the Japan IT Week 2025 Event. They made an excellent article on the Minisforum MS-02 HERE and was the source for today’s article. Check them out!

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Le Minisforum M1 Pro est un mini PC polyvalent et performant, équipé d'un Intel Core Ultra 125H et de : USB4, OCulink (pour un eGPU), DDR5, Wi-Fi 7, etc...

The post Test Minisforum M1 Pro : un mini PC prêt à l’emploi ou en version barebone first appeared on IT-Connect.

Minisforum MS-01 vs MS-A2 – Which Should You Buy?

Minisforum has steadily earned recognition in the compact workstation space, and the MS-01 stands as one of its most prominent entries. Released with a focus on balancing high-performance hardware in a small chassis, the MS-01 quickly found popularity among professionals needing powerful networking and scalable internals without the bulk of a full-sized desktop. It supports CPUs up to the Intel Core i9-13900H, includes dual 10GbE SFP+ ports, and provides expansion via a PCIe 4.0 x16 slot (operating at x8 speed), giving users access to discrete graphics or high-performance cards if needed. With three internal M.2 slots and support for up to 64GB of DDR5 memory, the MS-01 became a go-to mini workstation for users who value connectivity and component flexibility at a relatively modest price point.

In early 2025, Minisforum introduced the MS-A2 — a system clearly designed as a next-generation counterpart to the MS-01, but one that leans into AMD’s latest advancements. Featuring the Ryzen 9 9955HX processor based on the Zen 5 architecture, the MS-A2 offers more cores, more threads, faster base and boost clocks, and higher supported memory capacity, reaching up to 96GB DDR5 at 5600MHz. It also brings upgrades in memory bandwidth, M.2 storage speed (with all three slots supporting PCIe 4.0 x4), and internal thermal design. From a feature standpoint, the MS-A2 is positioned to meet or exceed the MS-01 in most categories — but it does so with a noticeable bump in price. Still, for users prioritizing top-end performance and storage throughput, the MS-A2 might justify the premium. The sections below break down how these systems stack up in real-world terms — not just on paper, but in actual deployment.

Minisforum MS-A2 vs MS-01 – Hardware Specifications Compared

At a glance, both the MS-01 and MS-A2 share a near-identical chassis, measuring 196×189×48mm and following Minisforum’s signature small form factor aesthetic. Internally, however, there are several notable differences that affect both systems’ expandability and long-term utility. Both devices feature three M.2 slots for high-speed NVMe SSDs, but only the MS-A2 supports full PCIe 4.0 x4 lanes on all three slots. By contrast, the MS-01 includes a single PCIe 4.0 x4 slot, one PCIe 3.0 x4 slot, and one limited PCIe 3.0 x2 slot. This directly impacts storage performance, especially for users aiming to run multiple high-throughput drives in parallel. In real terms, the MS-A2 allows up to three SSDs each capable of saturating 7,000MB/s read speeds, whereas the MS-01 will bottleneck in its second and third storage bays.

Specification	MS-01 (Intel Core i9-13900H)	MS-A2 (AMD Ryzen 9 9955HX)
CPU	Intel Core i9-13900H (14C/20T, up to 5.4GHz)	AMD Ryzen 9 9955HX (16C/32T, Zen 5, up to 5.4GHz)
GPU	Intel Iris Xe (96 EUs @ 1.5GHz)	AMD Radeon 610M (2 CUs @ 2.2GHz)
RAM Support	DDR5-5200MHz, up to 64GB (2x SO-DIMM)	DDR5-5600MHz, up to 96GB (2x SO-DIMM)
M.2 Storage	1x PCIe 4.0 x4 (2280), 1x PCIe 3.0 x4 (22110), 1x PCIe 3.0 x2	1x PCIe 4.0 x4 (U.2/2280), 2x PCIe 4.0 x4 (2280/22110)
Max Storage Capacity	Up to 15TB (U.2), 4TB (each 2280/22110 slot)	Up to 15TB (U.2), 4TB (each 2280/22110 slot)
PCIe Expansion	1x PCIe 4.0 x16 slot (x8 speed, half-height)	1x PCIe 4.0 x16 slot (x8 speed, split support)
Ethernet Ports	2x 10Gbps SFP+, 2x 2.5GbE RJ45	2x 10Gbps SFP+, 2x 2.5GbE RJ45
Wi-Fi & Bluetooth	Wi-Fi 6, Bluetooth 5.2	Wi-Fi 6E, Bluetooth 5.3
Display Output	1x HDMI 2.0, 2x USB4 (Alt DisplayPort 1.4a)	1x HDMI 2.1, 2x USB-C (Alt DisplayPort 2.0, up to 8K@60Hz)
USB Ports (Front)	2x USB 3.2 Gen2 Type-A, 1x USB 3.2 Gen1, 2x USB 2.0	2x USB 3.2 Gen1 Type-A, 1x USB 2.0 Type-A, 1x Audio Jack
USB Ports (Rear)	2x USB4 (40Gbps), 1x USB 3.2 Gen2 Type-A, 1x USB 3.2 Gen1	2x USB 3.2 Gen2 Type-C, 1x USB 3.2 Gen2 Type-A, 1x USB 3.2 Gen1
Audio I/O	HDMI audio + 3.5mm combo jack	HDMI audio + 3.5mm 4-in-1 combo jack (input/output)
Cooling	1x CPU fan (12V), 1x SSD fans (5V)	1x CPU fan (12V), 1x SSD fans (5V)
Power Supply	19V DC input (external adapter)	19V / 12.63A (external adapter)
OS Support	Windows 11 Pro	Windows 11 / Linux
Chassis Dimensions	196 × 189 × 48 mm	196 × 189 × 48 mm
Additional Accessories	U.2 adapter, SSD heatsink, mounting hardware	Not specified

Both systems include a PCIe 4.0 expansion slot, which is a rare and welcome inclusion in mini PCs. On the MS-01, this slot is x16 physically but electrically operates at x8 speed and is suitable for half-height, single-slot PCIe cards. The MS-A2 retains this format but introduces PCIe bifurcation support, enabling more advanced setups with compatible cards — a notable advantage for developers or users building niche use cases like NVMe RAID or multi-GPU compute tasks in an edge environment. Additionally, memory support is slightly more capable on the AMD model, with the MS-A2 supporting up to 96GB of DDR5-5600 via two SO-DIMM slots, compared to the MS-01’s 64GB ceiling at DDR5-5200. This can make a tangible difference in virtualization or memory-intensive creative workflows.

In terms of connectivity, both units are very well equipped: dual 10GbE SFP+ ports, dual 2.5GbE RJ45, HDMI output, USB 3.2 Gen1/Gen2 Type-A ports, and USB4 (or USB-C with DisplayPort alt mode). The MS-A2 takes a slight lead in display output capabilities, supporting HDMI 2.1 and DisplayPort 2.0 over USB-C, compared to HDMI 2.0 and DisplayPort 1.4a on the MS-01. This means the AMD system supports 8K60 and 4K144 video streams natively. Wireless capability is also a step ahead on the MS-A2 with Wi-Fi 6E and Bluetooth 5.3, compared to the MS-01’s Wi-Fi 6 and Bluetooth 5.2. Altogether, while the MS-01 still holds up well a year after release, the MS-A2 offers clearly improved throughput, higher bandwidth components, and better display and wireless standards.

Minisforum MS-01 vs MS-A2 – CPUs Compared

The defining difference between the Minisforum MS-01 and MS-A2 lies in their processor choices: the Intel Core i9-13900H and the AMD Ryzen 9 9955HX, respectively. While both CPUs are built for high-end mobile performance and boast identical peak boost clocks of up to 5.4GHz, the underlying architecture and core configurations are markedly different. The i9-13900H uses a hybrid architecture with 6 performance cores and 8 efficiency cores, totaling 14 cores and 20 threads. In contrast, the Ryzen 9 9955HX employs 16 full-fledged performance cores and 32 threads based on AMD’s latest Zen 5 architecture. For users engaged in parallel processing tasks—such as 3D rendering, large-scale compilation, or virtualization—the extra cores and threads in the AMD chip deliver a tangible performance uplift.

Specification	AMD Ryzen 9 9955HX	Intel Core i9-13900H	Better Performer
Architecture	Zen 5 (TSMC 4nm)	Raptor Lake (Intel 7)	AMD (newer architecture, denser node)
Cores / Threads	16C / 32T	14C (6P+8E) / 20T	AMD (more cores and threads)
Base Clock	2.5 GHz	~3.1 GHz (P-cores, estimated)	Intel (higher base for performance cores)
Boost Clock	5.4 GHz	5.4 GHz	Tie
L2 Cache	16 MB	Part of total cache (not separated)	AMD (clearly larger L2 cache)
L3 Cache	64 MB	24 MB	AMD (much larger L3 cache)
TDP (Base / Max)	55W / 75W	45W / 115W	Depends (Intel boosts higher, AMD more efficient)
Integrated GPU	Radeon 610M (2 CUs @ 2.2GHz)	Iris Xe (96 EUs @ 1.5GHz)	Intel (much better GPU performance)
Memory Support	DDR5-5600, up to 96 GB	DDR5-5200, LPDDR5x-6400, DDR4/LPDDR4x	Intel (more flexible memory support)
PCIe Support	PCIe 5.0 (28 lanes)	PCIe 5.0 (CPU) + PCIe 3.0 (Chipset)	AMD (uniform PCIe 5.0 support)
Overclocking	Yes (Unlocked, PBO, Curve Optimizer)	No	AMD
Memory Overclocking	AMD EXPO	Intel XMP	Tie
Instruction Set	x86-64, AVX512, SSE4A	64-bit, AVX2, SSE4.2	AMD (supports AVX512)
Multithreading	Yes (SMT)	Yes (Hyper-Threading)	Tie
AI Acceleration	None	DL Boost, GNA 3.0	Intel (dedicated AI features)
Virtualization	AMD-V	VT-x, VT-d, VT-rp	Intel (more granular features)
Security Features	SHA, AES, SEV	TME, Boot Guard, Control-Flow Enforcement	Intel (broader security set)
Display Output	DP 2.0, HDMI 2.1	DP 1.4a, HDMI 2.1	AMD (newer DisplayPort version)
Graphics API Support	DirectX 12, HDMI 2.1, DP 2.0	DirectX 12.1, HDMI 2.1, DP 1.4a	Tie
USB Support	USB 3.2 Gen 2 (4), USB 2.0 (1)	Thunderbolt 4 (USB4), USB 3.2	Intel (Thunderbolt included)
RAID/NVMe Support	Boot, RAID0/1/10	Likely supported via chipset	AMD (more explicitly documented)
Thermal Headroom (TjMax)	100°C	100°C	Tie
Software Ecosystem	Windows/Linux, no vPro	Windows/Linux, vPro supported	Intel (enterprise-ready)
Smart Platform Features	SmartShift MAX, SmartAccess Memory	Thread Director, Adaptix, Speed Shift	Intel (broader platform-wide optimization)
Max Memory Speed (Type)	DDR5-5600	LPDDR5x-6400	Intel (higher speed supported)
ECC Support	Not specified	No	Tie (consumer chips)
Max Displays Supported	4	4	Tie
Target Segment	Gaming, Content Creation	AI Tasks, Office/Enterprise	Depends on use case

Zen 5 is a notable advancement over its predecessors, built on TSMC’s 4nm process and optimized for both performance and power efficiency. This gives the Ryzen 9 9955HX a structural advantage in multithreaded scenarios, with improved instruction throughput, cache handling, and memory bandwidth. The Intel Core i9-13900H, based on Raptor Lake and fabricated using Intel’s “7” process (a refinement of their 10nm SuperFin node), holds its own with mature thread management and strong single-thread performance. Its support for Intel’s Thread Director technology ensures efficient scheduling across its mixed-core layout, which can be beneficial in workloads like content creation and lightly-threaded business apps. However, the Ryzen chip’s unified core design tends to yield more predictable and consistent scaling when all threads are pushed simultaneously, reducing thermal spikes and improving overall sustained performance.

Thermal and power characteristics further highlight the gap between the two systems. Intel’s i9-13900H has a base power of 45W but can boost up to 115W under load, while AMD’s Ryzen 9 9955HX has a configurable TDP ranging from 55W to 75W. Although the Intel chip has a higher upper limit, in practice it tends to spike power draw during short workloads and then throttle back. In comparison, the Ryzen CPU maintains a steadier thermal and power profile over longer tasks. This behavior was reflected in sustained tests over one-hour and 24-hour windows under mixed network and compute usage: the MS-A2’s CPU performed more consistently, with lower long-term thermal build-up, aided by its upgraded internal fan design. Combined with support for up to 96GB of DDR5 memory versus 64GB on the MS-01, the MS-A2’s CPU configuration offers better overall headroom for demanding, sustained workstation use.

Minisforum MS-A2 vs MS-01 – Graphics and Processing Power Compared

Although the Minisforum MS-01 and MS-A2 are positioned as compact workstations rather than gaming rigs, integrated graphics performance still plays a role in determining their suitability for visual workloads, media playback, and GPU-accelerated tasks. The MS-01 leverages Intel’s Iris Xe graphics, which includes 96 execution units running at up to 1.5GHz. The MS-A2, on the other hand, features AMD’s Radeon 610M — a lightweight RDNA2-based iGPU with 2 compute units operating at 2.2GHz. While the AMD GPU has a higher clock speed on paper, the significantly larger number of execution units in the Iris Xe gives the Intel system a considerable edge in real-world performance. In benchmarks such as the Steel Nomad Light test, the MS-01 consistently delivered higher frame rates and better render completion times, particularly during prolonged sequences that tax the GPU.

This performance advantage was also evident in media encoding and general GPU-accelerated workloads. Intel’s integrated graphics tend to benefit from better driver maturity, wider codec support (particularly for Quick Sync Video), and improved handling in professional apps with Intel-optimized pipelines. Users working in environments involving light 3D rendering, accelerated video encoding, or virtual display compositing are more likely to see stable and consistent results from the MS-01’s iGPU. However, it’s important to note that neither device is intended to replace a discrete GPU for high-end graphical workflows. Their iGPUs are best suited for media playback, multi-monitor output, light rendering tasks, and as fallback units for headless server use.

That said, the MS-A2 reclaims ground when it comes to video output capabilities. While the MS-01 supports HDMI 2.0 and DisplayPort 1.4a via USB4, the MS-A2 steps forward with HDMI 2.1 and DisplayPort 2.0 over Type-C. This enables support for up to 8K at 60Hz and 4K at 144Hz, offering tangible benefits for users who rely on ultra-high-resolution displays or high refresh rate monitors in productivity setups. Professionals in video editing, CAD work, or photography may find that this broader standard support gives the AMD model a longer shelf life as display technologies advance. In broader processing terms, the MS-A2’s superior CPU — the Ryzen 9 9955HX — delivers more overall compute performance, particularly in multi-threaded applications. But for users with GPU-reliant workloads or who value stability across legacy software environments, the MS-01’s Iris Xe graphics make a compelling case. Ultimately, choosing between the two comes down to workload distribution: CPU-heavy environments favor the MS-A2, while mixed or GPU-skewed tasks lean toward the MS-01.

Minisforum MS-01 vs MS-A2 – Conclusion and Verdict

After evaluating both systems across CPU architecture, internal connectivity, storage bandwidth, and thermal performance, it becomes clear that the Minisforum MS-01 and MS-A2 cater to slightly different segments of the same professional user base. The MS-01, despite being over a year old, still offers a well-balanced configuration with mature Intel performance, reliable thermal behavior, and excellent compatibility with existing Intel-optimized software. Its Intel Core i9-13900H processor delivers solid single-core performance and responsive handling in mixed-load scenarios, particularly when combined with Iris Xe graphics that outperform AMD’s 610M in general GPU-accelerated tasks. When paired with dual 10GbE SFP+ ports, 2.5GbE RJ45, and PCIe expansion, the MS-01 provides considerable functionality in a highly compact chassis — all at a more affordable starting price than its AMD counterpart.

However, the MS-A2’s specification gains are more than just incremental. It introduces a newer CPU platform with significantly higher multi-threaded performance, better storage throughput via triple PCIe 4.0 x4 M.2 slots, and wider memory support scaling up to 96GB at 5600MHz. These improvements position the A2 as a clear upgrade in raw compute potential. Enhanced display output support, including HDMI 2.1 and DP 2.0 over USB-C, adds flexibility for users deploying ultra-high-resolution or high-refresh-rate monitors in content creation, design, or data visualization environments. Furthermore, the updated internal cooling system — subtle in layout but effective in long-term thermal consistency — ensures the AMD-based system maintains sustained performance under extended workloads. While the MS-A2 demands a higher upfront investment, it delivers longer-term value for users running multi-threaded software stacks, high-speed storage arrays, or heavy virtual machine workloads. In essence, the MS-01 is still a dependable and well-priced workstation that meets the needs of a wide user base. But the MS-A2 redefines Minisforum’s performance ceiling with broader bandwidth, more compute power, and enhanced scalability. For users focused on future-proofing, heavier workloads, or maximizing hardware capability within a small form factor, the MS-A2 is the more capable — if more expensive — option. Your choice ultimately comes down to whether cost or capability is the higher priority in your deployment.

Minisforum MS-01 Pros and Cons	Minisforum MS-A2 Pros and Cons
Lower Price Point The MS-01 is considerably more affordable than the MS-A2, making it a better value for users with lighter or mixed workloads. → The MS-A2 demands a premium due to its higher-end specs, which may not be fully utilized in typical home or office deployments. Superior Integrated Graphics (Intel Iris Xe) With 96 execution units, the Iris Xe GPU in the MS-01 outperforms the Radeon 610M in the MS-A2 for media encoding, driver stability, and general GPU-accelerated workloads. → The MS-A2’s Radeon 610M has only 2 compute units and is weaker in rendering, encoding, and professional visual tasks. Thunderbolt 4 and Mature USB4 Support The MS-01 offers USB4 with DisplayPort 1.4a and Thunderbolt compatibility, which ensures greater peripheral compatibility and broader bandwidth for external devices. → The MS-A2 lacks Thunderbolt and uses USB-C ports with DisplayPort 2.0, which are better for displays but more limited in external expansion options. More Established Intel Software Ecosystem Features like Intel vPro, Thread Director, and DL Boost make the MS-01 better suited to enterprise, AI inference, and compatibility with legacy Intel-tuned workloads. → The MS-A2 is newer but lacks mature support for certain enterprise features like vPro or AI-specific instructions. Limited Storage Bandwidth Only one of the three M.2 slots runs at PCIe 4.0 x4; the others run at PCIe 3.0 x4 and x2. This bottlenecks multi-drive setups or RAID configurations. → The MS-A2 supports PCIe 4.0 x4 on all three M.2 slots, enabling full-speed NVMe performance on every drive. Lower Memory Capacity and Speed Supports up to 64GB DDR5 at 5200MHz. This limits RAM-heavy workloads like virtualization or large dataset handling. → The MS-A2 supports up to 96GB DDR5 at 5600MHz, giving it better headroom for demanding memory scenarios. Solid GPU Performance Stability The MS-01 performs better under GPU-accelerated tasks due to more mature graphics drivers and better software integration (Quick Sync, Adobe, etc.). → MS-A2 may suffer compatibility or driver limitations in older applications or video pipelines.	Much Higher CPU Performance The Ryzen 9 9955HX delivers 16 cores and 32 threads, far exceeding the MS-01’s i9-13900H with 14 cores (6P+8E) and 20 threads. This gives the MS-A2 a major edge in rendering, VMs, and parallel workloads. → The MS-01 holds its own in lightly threaded or bursty workloads but falls behind in sustained multi-core tasks. Full-Speed NVMe Across All Storage Bays All three M.2 slots run at PCIe 4.0 x4 speeds, which is ideal for users building high-speed RAID arrays or multi-disk configurations. → The MS-01’s mixed PCIe generation slots limit throughput and performance scaling with multiple drives. Higher RAM Capacity and Bandwidth The MS-A2 supports up to 96GB DDR5-5600, making it more suitable for VM clusters, code compilation, or large creative project workflows. → The MS-01 tops out at 64GB DDR5-5200, which may become a limiting factor in future-proofing. Advanced Display Output Support The MS-A2 features HDMI 2.1 and DisplayPort 2.0, allowing up to 8K60 or 4K144Hz. Ideal for users with high-res displays or multi-monitor setups. → The MS-01 is limited to HDMI 2.0 and DP 1.4a, which caps out at 4K60 in most scenarios. Weaker Integrated GPU (Radeon 610M) The 2CU RDNA2 iGPU in the MS-A2 underperforms compared to the Iris Xe in the MS-01 in encoding tasks, graphical acceleration, and some professional media pipelines. → The MS-01 offers better iGPU performance and is more compatible with widely used software stacks. Higher Price for the Same Chassis While offering better specs, the MS-A2 comes at a significantly higher price for a similar form factor and port layout, making it less cost-efficient for users not needing its full capabilities. → The MS-01 delivers solid value for money and remains a competitive mini workstation despite being a generation older. Improved Thermal Efficiency and Sustained Load Performance A redesigned internal cooling layout in the MS-A2 provides better performance consistency under long-term stress compared to the MS-01, which can throttle during extended workloads. → The MS-01’s cooling is competent but may experience more thermal spikes under 24/7 heavy use.

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GMKTec G9 NAS (New Improved Cooling Version) Review

Important – My original review of the GMKTec G9 NAS in it’s original design can be found HERE on YouTube and HERE on the NASCompares blog.

The GMKTec G9 NucBox NAS has re-emerged in mid-2025 with a revised cooling design, following a wave of thermal criticism directed at the original release earlier in the year. Still marketed as an SSD-only NAS aimed at home and small office environments, the G9 maintains its core identity—a compact enclosure powered by Intel’s N150 quad-core processor, soldered LPDDR5 memory, and four M.2 NVMe SSD bays. The G9’s primary appeal continues to be its affordability, silent operation, and dual-use flexibility as both a NAS and lightweight desktop system, thanks to the inclusion of Windows 11 Pro and Ubuntu out of the box. However, early buyers and reviewers, including this channel, highlighted persistent thermal issues affecting SSD performance and overall system reliability under load, leading to thermal throttling even during idle states in warmer environments.

In response, GMKTec has issued an updated version of the G9 that retains the same form factor, internal hardware, and I/O but incorporates enhanced passive ventilation on the side and top panels. Though subtle at first glance, these structural changes are designed to improve airflow over the CPU and SSD compartments without increasing noise levels or power draw. In this updated review, we will revisit all aspects of the G9’s design, connectivity, and system behaviour under continuous load, while highlighting what exactly has changed and what remains untouched. The new G9 model introduces targeted thermal improvements, but beyond ventilation, it leaves the original architecture and feature set entirely intact.

GMKTec G9 Ver.2 NAS Review – Quick Conclusion

The improved GMKTec G9 NAS represents a targeted refinement rather than a full redesign, addressing the primary weakness of the original model: inadequate thermal performance. The updated version introduces enlarged ventilation cutouts on the top panel above the CPU fan and replaces the pinhole rear exhaust with a wider mesh, leading to measurable but modest reductions in system temperatures. In 48-hour test scenarios using UnRAID with hourly backup tasks, SSDs without heatsinks in the original unit reached idle temperatures of 66–67°C, while the revised model brought this down to 56–57°C. CPU vent temperatures similarly dropped from 54–56°C to 50–52°C, and rear I/O areas cooled by 5–7°C. These improvements enhance stability during sustained I/O activity but do not eliminate the need for additional SSD cooling—particularly in environments where ambient heat or multi-user access is expected. Internally, the hardware remains unchanged: Intel N150 CPU, 12GB of non-upgradable LPDDR5 memory, four PCIe Gen 3 x2 M.2 NVMe bays, and dual 2.5GbE ports, with storage and network throughput consistent with entry-level expectations. Power consumption remains efficient (19–30W), and noise levels stay low at under 40dB, making it suitable for always-on deployment. However, the continued use of a plastic chassis and base panel still limits effective heat dissipation, and the absence of thermal sensors or fan curve controls further limits its thermal adaptability. Compared to the Xyber Hydra—featuring a metal base, better SSD thermal contact, and 16GB RAM—the G9 now performs better than before but still falls short of what its hardware could achieve with more thoughtful engineering. For users willing to invest in SSD heatsinks and mindful of its limitations, the G9 is now a reasonably balanced entry NAS, though not the strongest performer in its tier.

BUILD QUALITY - 6/10

HARDWARE - 7/10

PERFORMANCE - 6/10

PRICE - 10/10

VALUE - 9/10

7.6

PROS

Affordable price point for a 4-bay NVMe NAS with dual 2.5GbE (typically under $200).
Support for up to 32TB of SSD storage across four M.2 NVMe slots.
Low power consumption (19W idle, ~30W under load) suitable for 24/7 operation.
Improved passive airflow design compared to the original model (lower overall temps).
Dual USB-C power input options for flexible cable management.
Silent operation, even during sustained activity (under 40dB).
Pre-installed OS (Windows 11 Pro and Ubuntu) allows for flexible initial use.
Compact, space-saving enclosure ideal for desktop setups or constrained environments.

CONS

Cooling Improvements are relatively small and No bundled SSD heatsinks, making thermal throttling likely without aftermarket cooling.
Non-upgradable 12GB LPDDR5 RAM limits scalability for heavier workloads.
Plastic chassis and base panel still hinder full thermal dissipation from SSDs.
The Introduction of other NAS such as the Beelink ME Mini and Xyber Hydra has provided appealing alternatives to this device right now

GMKTec G9 Ver.2 NAS Review – Design and Storage

The GMKTec G9 continues to use a compact, matte-black plastic chassis that is closer in design to a mini PC enclosure than a traditional NAS. The vertical design conserves desk space, and the front-facing panel remains clean and understated, with no visible drive trays or status indicators beyond the power button and basic branding. As with the original model, the chassis sacrifices the durability and thermal advantages of metal in favour of a lightweight, cost-efficient build. This makes the device appealing for users with space constraints, but it also signals the system’s budget positioning. The plastic enclosure, while solid enough for day-to-day use, is not especially resistant to heat buildup during sustained I/O operations, which remains one of its most persistent limitations.

Internally, the system supports four M.2 NVMe SSDs, each connected via PCIe Gen 3 x2 lanes. This setup allows up to 32TB of total SSD storage, assuming the use of high-capacity 8TB NVMe drives. The use of SSDs rather than traditional 2.5″ or 3.5″ hard drives enables near-silent operation, faster access times, and lower power consumption. However, SSD-only NAS designs like this one typically require better airflow and heatsinking to mitigate thermal throttling—especially during RAID operations or when used as a media server with multiple concurrent reads and writes. The G9 supports basic RAID via third-party NAS OSs, but due to PCIe lane limitations and lack of onboard RAID management, advanced configurations will rely entirely on software.

One of the primary complaints in the original model was the absence of SSD heatsinks and the system’s poor natural heat dissipation. While pre-built units from GMKTec occasionally shipped with low-profile aluminum heatsinks, user-added drives often ran hot, especially under sustained write loads. The M.2 slots sit stacked vertically inside a cramped compartment behind the lower rear panel, and when combined with a sealed plastic baseplate, heat quickly accumulates. This design still persists in the new version, and although airflow has been improved through the external vents, the interior thermal behaviour remains heavily dependent on user-supplied heatsinks and ambient cooling conditions. Users deploying high-endurance SSDs or running frequent write-intensive tasks will need to factor this into their thermal strategy.

The internal layout is efficient but fixed. There are no modular trays or hot-swap capabilities for the SSDs, and all upgrades must be performed by opening the device. Memory is soldered and therefore non-upgradable, and while there’s internal eMMC storage used for the pre-installed OS, most users will opt to install TrueNAS, UnRAID, or OpenMediaVault onto one of the NVMe drives for full NAS functionality. The passive cooling approach is unchanged in its core design: two internal fans (one for CPU, one system) move air through the case, but without direct thermal contact to the SSDs or a conductive enclosure material, this airflow has limited reach. Placement of the unit in a well-ventilated space remains essential.

The only real physical design changes in the new version are to the external ventilation panels. GMKTec has replaced the original pinhole-style vent on the rear side with a wider mesh grille, which now spans a greater portion of the side panel. Additionally, the top panel has been revised to include a broader cutout directly above the CPU fan, allowing a clearer exhaust path for rising hot air. However, the plastic base and internal heat chamber structure remain unchanged, meaning SSD temperatures are still a potential concern—especially without aftermarket cooling. The updated G9 retains the same core storage architecture as the original, but introduces modest improvements to airflow via enhanced external ventilation.

GMKTec G9 Ver.2 NAS Review – Internal Hardware

At the center of the GMKTec G9 is the Intel N150 processor, a quad-core, four-thread CPU built on the 10nm Twice Lake architecture. Designed for ultra-efficient computing, it operates at a modest 6W TDP, making it ideal for passive or semi-passive cooling environments like compact NAS systems. The N150 runs at a 1.0GHz base frequency and boosts up to 3.6GHz under load, delivering just enough headroom for tasks like SMB/NFS sharing, low-volume web hosting, and basic media playback. Its integrated Intel UHD Graphics support up to 4K at 60Hz output via HDMI or USB-C DisplayPort alt mode, though without hardware acceleration for modern codecs like AV1, its suitability for on-the-fly transcoding is limited. The CPU also lacks advanced server-grade features like ECC memory support, SR-IOV, or high-bandwidth PCIe 4.0 lanes, which reflects its role in cost-conscious, entry-level applications.

The onboard 12GB of LPDDR5-4800 memory is soldered and cannot be replaced or upgraded, a design choice that simplifies manufacturing and keeps costs down but limits versatility in heavier multitasking scenarios. In practice, the memory is sufficient for running one or two lightweight NAS services alongside file sharing, or even a basic Docker container or two, but its soldered configuration leaves no room for future expansion. Notably, the memory is dual-channel, which does help offset some performance constraints—especially in scenarios where the integrated graphics or CPU requires memory bandwidth access. While most users won’t hit the ceiling of 12GB under standard NAS tasks, advanced setups involving active sync with cloud platforms, large-scale Plex libraries, or multiple concurrent rsync/FTP sessions could find the limitation restrictive. Also, unlike some similarly priced competitors, there’s no accessible BIOS option to reserve RAM for cache acceleration, which could have improved responsiveness under heavier I/O loads.

In terms of storage hardware, the G9 offers four M.2 NVMe slots with PCIe Gen 3 x2 interfaces, a configuration that supports up to 32TB of total storage using current consumer-grade drives. Each slot is keyed for M-Key NVMe SSDs and arranged vertically inside the enclosure, though installation requires unscrewing the rear panel and working within the confined internal cavity. The system’s internal PCIe lane distribution is handled through multiple ASMedia ASM1182e switch chips, which divide the CPU’s limited PCIe bandwidth across all four NVMe slots and the dual 2.5GbE interfaces. While the Gen 3 x2 interface is technically capable of 2GB/s per slot, real-world speeds are often lower during concurrent access due to the shared architecture.

This design also limits SSD passthrough capabilities in virtualized environments, and users aiming for high-speed SSD RAID configurations (RAID 5 or 10, for example) may encounter inconsistent write speeds. Additionally, there is no hardware-level thermal throttling safeguard tied to fan curves or SSD temperature sensors, so thermal build-up under load could directly affect sustained throughput unless active cooling measures are installed. The internal hardware of the improved GMKTec G9 remains completely unchanged from the original release—no CPU, RAM, SSD slot layout, or controller chip has been altered in the updated version.

GMKTec G9 Ver.2 NAS Review – Ports and Connections

The GMKTec G9 offers a well-rounded I/O configuration that reflects its hybrid role as both a compact NAS and lightweight desktop appliance. It features two 2.5GbE LAN ports, both of which are directly linked to the CPU via PCIe lanes and can be configured for link aggregation, failover, or isolated network segments. In real-world testing, these ports easily saturate their 312MB/s bandwidth under SMB and iSCSI workloads, making the G9 more capable than traditional Gigabit NAS units. The absence of 10GbE is notable, especially for users planning to deploy NVMe RAID arrays or work in content-heavy environments, but at this price point and power envelope, dual 2.5GbE is still a competitive offering. Notably, both NICs support Wake-on-LAN (WoL), making the system convenient for remote access or low-power automation setups.

For peripheral and expansion support, the G9 includes three USB-A 3.2 Gen 2 ports and a single USB-C 3.2 Gen 2 port, each capable of 10Gbps data transfer. The USB-C port also supports DisplayPort Alt Mode, allowing it to function as an additional video output alongside the two HDMI 2.0 ports on the rear panel. These HDMI ports support 4K resolution at 60Hz and are positioned for users who may wish to operate the G9 as a silent desktop system or a local media playback device via Kodi, Jellyfin, or Plex. However, the G9 does not include USB 4.0, Thunderbolt, or PCIe expandability, limiting options for future upgrades such as external GPUs, additional NICs, or DAS enclosures. In testing, connected peripherals such as USB drives and webcams were recognized instantly under Ubuntu and Windows, confirming basic plug-and-play compatibility.

Power delivery is handled via USB-C PD input, using a 65W external power brick that ships with the unit. Uniquely, the updated G9 introduces a small but notable change: dual USB-C power input points, allowing users to select which side of the device receives the power cable. This change doesn’t increase power capacity or enable redundancy, but it can improve cable management depending on the G9’s orientation on a desk or shelf. However, using one of the USB-C ports for power inherently sacrifices a high-speed data port—an unfortunate trade-off given the unit’s lack of PCIe or expansion bays. No dedicated power switch is present; the unit powers on via the front button or Wake-on-LAN and remains always-on unless shut down via software or OS-level scripts. Compared with the original G9, the only change to I/O is the addition of the second USB-C power input for layout flexibility—otherwise, all ports, speeds, and layout remain the same.

Port Type	Quantity	Specification
2.5GbE LAN	2	Realtek RTL8125, Link Aggregation Supported
USB-A 3.2 Gen 2	3	10Gbps, Backward Compatible
USB-C 3.2 Gen 2	1 (+1 PD)	10Gbps, DisplayPort Alt Mode
HDMI 2.0	2	4K @ 60Hz
Power Input (USB-C)	2	65W USB-C PD (Only 1 used at a time)
Wake-on-LAN	Supported	Both NICs
Audio	None	No 3.5mm jack or digital out

GMKTec G9 Ver.2 NAS Review – Tests and Performance

In synthetic and real-world benchmarks, the GMKTec G9 delivers the level of performance expected from an Intel N150 system with PCIe Gen 3 x2 storage. Read speeds per drive peaked around 1.4–1.5GB/s, aligning well with the theoretical limit of the x2 interface. Write speeds were notably more volatile, ranging between 400–600MB/s depending on SSD type, ambient temperature, and active processes. These numbers, while adequate for file serving, backups, and Docker apps, showed clear limitations when the system was pushed into simultaneous multi-disk writes or parity-based RAID configurations. The presence of ASMedia ASM1182e PCIe switches likely contributes to this variance, as downstream PCIe allocation under pressure introduces contention among the SSD lanes. In typical NAS tasks like SMB and NFS file transfers, however, performance remained consistent and stable, particularly when network activity was confined to single-user access or sequential transfers.

Thermal behaviour is where the most scrutiny falls, given the G9’s original design flaws. Under a controlled 48-hour test using UnRAID with scheduled hourly backups and mixed-use read/write activity, the older G9 unit routinely idled at 54–56°C, with peaks of 66–67°C on SSDs lacking heatsinks.

The improved model saw modest thermal gains, with idle temps reduced to 50–52°C at the CPU vent and around 56–57°C on the SSD layer. Some of this improvement came from the revised ventilation—namely the expanded top-panel fan cutout and rear-side mesh panel—yet the base remained the same thermally isolated plastic panel, and internal fan hardware remained unchanged.

Notably, temperatures around the rear I/O ports dropped by 5–7°C between versions, suggesting that airflow efficiency around the motherboard has improved even if core thermal load remains a challenge.

In terms of noise and power, the G9 performs admirably. Even under load, fan noise remained below 40dB, with idle operation being nearly silent. Power consumption remained within the expected range—19–21W idle and up to 30W under continuous activity—even during the 48-hour write test.

BIOS-level tuning is possible and can slightly reduce power draw or adjust fan thresholds, but no advanced power scaling or fan curve customization is exposed via software in stock OS images. More demanding operating systems like TrueNAS Scale ran stably on the G9 but did little to mitigate thermal behaviour, reinforcing the importance of user-added SSD heatsinks regardless of OS.

The lack of thermal sensors per SSD slot or fan feedback control means sustained operations should be closely monitored in hotter climates or enclosed environments.

Nowhere is the conversation about thermal and hardware design more relevant than in comparison to the Xyber Hydra, a near-identical system that appears to share much of its component sourcing with the G9—right down to the GMK-branded fans. The Hydra ships with 16GB of DDR5 memory, a metal base panel, and most notably, a thermal pad that bridges SSDs to the metal shell, allowing for actual heat transfer rather than passive convection. In direct tests, the Hydra consistently posted 5–10°C lower SSD temps under identical workload, with idle SSDs (no heatsinks) registering around 47–49°C versus 56–57°C in the improved G9.

Though the Hydra lacks branding clarity around its manufacturer, the design appears to be what the G9 should have evolved into: same layout and CPU, but better thermals, more memory, and more thought put into SSD dissipation. In conclusion, while the improved GMKTec G9 offers better thermals than its predecessor, the Xyber Hydra outperforms both G9 variants in every thermal category, making it the superior choice if cooling and memory capacity are priorities.

GMKTec G9 Ver.2 NAS Review – Verdict and Conclusion

The GMKTec G9, in its improved form, shows that the brand has listened—albeit cautiously—to thermal concerns raised by users and reviewers of the original model. The changes introduced in this updated version are minimal but measurable: better ventilation on the top panel and side mesh grille allow modest airflow gains, which result in lower surface and SSD temperatures across the board. Yet, GMKTec has stopped short of making any internal or structural upgrades that would more directly resolve thermal issues, such as introducing a metal baseplate, bundling SSD heatsinks, or adjusting the system’s internal fan architecture. All other hardware elements—CPU, memory, SSD configuration, I/O, BIOS, and software readiness—remain identical. As a result, while the device performs better in heat dissipation than before, it does so by a margin that may not justify an upgrade for existing G9 users. First-time buyers, however, may find it to be a safer choice now—particularly when paired with aftermarket heatsinks and used in moderate workloads.

However, the presence of the Xyber Hydra in the same price bracket poses a critical challenge to the G9’s value proposition. Offering the same N150 CPU, more memory, and a far superior thermal design with an integrated metal heat-spreading base, the Hydra addresses nearly every lingering complaint about the G9 without altering the system’s core layout. For prospective buyers deciding between the two, the G9’s only advantages now lie in its wider availability, slightly more recognizable branding, and marginally more mature firmware support. If those factors matter less than thermal reliability, long-term SSD health, and RAM headroom, then the Hydra is the more complete solution. Ultimately, the improved GMKTec G9 is a more stable and better-performing version of its former self, but its restrained upgrades feel like a missed opportunity in a market where near-clones have already moved ahead in meaningful ways.

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