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Hier — 8 juillet 2025Flux principal

Prime Day : offrez-vous un mini PC Geekom grâce à cette remise de 15%

8 juillet 2025 à 09:22

À l'occasion de l'événement Amazon Prime Day 2025, notre partenaire Geekom propose une remise de 15% sur plusieurs modèles de mini PC ! Découvrez les offres.

The post Prime Day : offrez-vous un mini PC Geekom grâce à cette remise de 15% first appeared on IT-Connect.

À partir d’avant-hierFlux principal

Test Geekom A5 2025 Edition : un mini PC polyvalent à moins de 350 euros

5 juillet 2025 à 09:00

Découvrez notre test complet du mini PC Geekom A5, édition 2025, un modèle évolutif et polyvalent, proposé à moins de 350 euros.

The post Test Geekom A5 2025 Edition : un mini PC polyvalent à moins de 350 euros first appeared on IT-Connect.

Bon plan – 15% de réduction sur le mini PC Geekom IT13 Édition 2025 avec un Intel Core i9

16 juin 2025 à 10:34

Le mini PC Geekom IT13 2025 Edition bénéficie d'une réduction de 15% grâce à ce code promo exclusif, soit une remise pouvant atteindre 119 euros.

The post Bon plan – 15% de réduction sur le mini PC Geekom IT13 Édition 2025 avec un Intel Core i9 first appeared on IT-Connect.

Minisforum MS-R1 POWERHOUSE ARM Mini PC

Par : Rob Andrews
23 mai 2025 à 16:00

Minisforum Reveal the MS-R1 PCIe Gen4 ARM Mini PC

At Computex 2025 in Taipei, Minisforum introduced the MS-R1 — a new class of mini PC that marks a distinct departure from its usual reliance on x86 architecture. This compact system is built around the ARM-based CIX P1 processor, an emerging 12-core chip aimed at redefining performance standards for ARM in desktop computing. The MS-R1 combines this processor with dual 10GbE networking, PCIe Gen 4 expansion, and up to 64GB of onboard LPDDR5 memory — all within a chassis under 5 cm thick. Unlike traditional Minisforum models that have leaned on AMD Ryzen or Intel Core platforms, this system positions itself as a versatile option for edge computing, AI acceleration, and lightweight server tasks.

The MS-R1 is clearly still in development, but its early prototype already suggests Minisforum is exploring wider horizons beyond conventional desktop replacement PCs. It leverages many of the strengths typically associated with ARM — such as power efficiency and thermally lightweight design — while mitigating common limitations through generous I/O and expansion capabilities. Whether this signals a broader shift in the company’s product direction remains to be seen, but the MS-R1 offers an intriguing glimpse into how ARM-based platforms might coexist with, or even challenge, traditional x86 solutions in the years ahead.

Minisforum MS-R1 PC Hardware Specifications

The Minisforum MS-R1 is equipped with the newly announced CIX P1 (CP8180) processor, a 12-core, 12-thread ARM-based SoC built on the ARMv9.2-A architecture. Manufactured using a 6nm process, the CPU combines eight performance cores and four efficiency cores, operating at up to 2.6 GHz. It is complemented by a 10-core Arm Immortalis GPU, likely the G720 series, which supports advanced graphical output and light AI rendering. Additionally, the chip includes a 30 TOPS-capable neural processing unit (NPU), bringing the total onboard AI compute power to 45 TOPS. This SoC runs Linux systems with kernel 6.6 or later and offers a UEFI-compatible BIOS with ACPI support — a rare but increasingly essential feature for ARM-based systems targeting general desktop or server use.

Component Details
CPU CIX P1 (CP8180) – 12-core (8P + 4E), ARMv9.2-A, up to 2.6 GHz
Process Node 6nm
GPU Arm Immortalis (10-core) – likely G720 series
NPU 30 TOPS (Total AI: 45 TOPS)
RAM 64GB LPDDR5 (128-bit, onboard/soldered, non-upgradable)
Storage Expansion 1 × M.2 2280/22110 NVMe (PCIe 4.0 x4, up to 4TB)
Wireless M.2 2230 slot – Wi-Fi 6E + Bluetooth 5.2
Display Output 1 × HDMI 2.0 (4K@60Hz), 2 × USB-C (Alt DP1.4, 8K@60Hz support)
Audio Output HDMI, USB-C (Alt DP), 1 × 3.5mm combo audio jack
PCIe Expansion 1 × PCIe x16 slot (wired as PCIe 4.0 x8)
Ethernet 2 × 10GbE (Copper RJ45)
USB Ports (Rear) 2 × USB 3.2 Gen2 Type-A (10Gbps), 2 × USB 2.0
USB Ports (Front) 1 × USB 3.2 Gen1 Type-A (5Gbps), 2 × USB 2.0
Power DC-IN (19V / 9.47A)
OS Support Linux kernel 6.6+, UEFI BIOS with ACPI standard
Chassis Dimensions 195.6 × 189 × 48 mm
The MS-R1 includes 64GB of onboard LPDDR5 memory configured in a 128-bit arrangement. The memory is soldered and therefore non-user-upgradable, though the capacity and bandwidth are positioned to meet the needs of multitasking and light-to-midweight computational tasks, including AI inference. For primary storage, the system features a PCIe 4.0 x4 M.2 slot compatible with both 2280 and 22110-length NVMe SSDs, supporting drives up to 4TB. In addition to internal storage, a separate M.2 2230 slot provides wireless connectivity via Wi-Fi 6E and Bluetooth 5.2 modules. On the video output side, the device supports HDMI 2.0 (4K at 60Hz) and two USB Type-C ports with DisplayPort 1.4 alternate mode — one of which is capable of up to 8K at 60Hz, enabling high-resolution display setups in professional or creative environments.

Where the MS-R1 notably differentiates itself is in its high-speed I/O and expandability. Dual 10GbE copper LAN ports deliver enterprise-grade networking capability, especially valuable for file servers, edge compute nodes, or hybrid NAS use cases. A full-length PCIe x16 slot (operating at PCIe 4.0 x8 bandwidth) offers GPU or accelerator card support, effectively bridging the gap between ARM architecture and discrete compute expansion — something still rare in this space. USB connectivity is ample: 2 x USB 3.2 Gen 2 (10Gbps) Type-A on the rear, 1 x USB 3.2 Gen 1 (5Gbps) Type-A on the front, and four USB 2.0 ports split across the front and rear. Audio is handled via HDMI, the DisplayPort-enabled Type-C ports, and a 3.5mm combo jack. Power is supplied via a 19V barrel-type DC-IN jack rated at 9.47A, and the device is controlled by a front-facing LED-lit power button. Despite its compact 195.6 × 189 × 48mm footprint, the MS-R1 integrates a surprising breadth of features for ARM-based edge computing in a mini PC form factor.

Why the Minsforum MS-R1 is a Big Deal?

The MS-R1 stands out primarily because it brings ARM architecture into a domain traditionally dominated by x86 processors — compact desktop systems with high-speed networking, PCIe expansion, and broad OS compatibility. ARM chips have long been associated with mobile, embedded, and power-efficient use cases, but they have rarely offered the kind of performance, I/O, and system flexibility seen in x86-based mini PCs. With the CIX P1 SoC, the MS-R1 challenges that assumption. It pairs a 12-core CPU (based on the ARMv9.2-A standard) with a 10-core GPU and an NPU capable of 30 TOPS, totaling 45 TOPS of AI compute. This puts it within reach of edge AI tasks, containerized application hosting, or lightweight virtualization. It’s also rare to see an ARM system with UEFI BIOS support, which enables compatibility with a wide range of Linux distributions and other OS environments — removing a common barrier for general users or developers.

Another reason the MS-R1 matters is its hardware-level ambition. While many ARM-based devices are limited in I/O and expansion, this system includes two 10GbE ports and a PCIe Gen 4 x8 slot — enabling add-in graphics cards or accelerators, typically absent in ARM ecosystems. Combined with onboard LPDDR5 RAM and NVMe Gen 4 storage, the MS-R1 begins to resemble a standard workstation or edge server in capability. Minisforum’s decision to use the CIX P1 processor, which is likely based on licensable Arm Cortex designs and built for a Chinese market increasingly focused on domestic alternatives, reflects both a strategic and technical shift. It also comes at a time when ARM is being seriously considered for broader computing roles, particularly in energy-efficient high-performance setups. The MS-R1 doesn’t just experiment with ARM—it places it in a form factor, price tier, and feature set that could realistically serve prosumers, developers, and small enterprise users.

When will the Minisforum MS-R1 Be Released and Price?

The Minisforum MS-R1 is not just another compact system — it’s a deliberate move into new territory for the brand. By integrating an ARMv9 SoC with high-speed networking, PCIe expansion, and a mature BIOS environment, the MS-R1 challenges preconceptions about what ARM-based mini PCs can deliver. While still in early development, it already positions itself as a potential edge server, AI inference node, or Linux-based workstation. Its soldered LPDDR5 memory, limited to 64GB, and single NVMe slot may limit flexibility in some use cases, but the inclusion of dual 10GbE and PCIe Gen 4 support compensate with substantial throughput potential. It is not yet clear how the market will respond to such a hybrid product — one that crosses lines between embedded computing and traditional desktops — but it’s an important experiment in bringing ARM computing to mainstream deployment environments.

Minisforum’s broader product roadmap at Computex 2025 suggests that the MS-R1 is just one piece of a larger diversification strategy. Alongside it, the company showcased the upcoming N5 Pro — a Ryzen 9-based NAS/PC hybrid with ECC memory support — and the G1 Pro, a small form factor system housing up to RTX 5060-class graphics and 120W CPUs. These products collectively show the company’s intent to cover multiple tiers of performance and deployment, from ARM-powered edge systems to x86-based content creation rigs.

Component G1 G1 Pro
CPU AMD Ryzen™ 9 8940HX AMD Ryzen™ 9 9895HX (Higher TDP / Performance Tier)
CPU TDP Up to 100W Up to 100W
GPU NVIDIA RTX 4060 Laptop GPU (120W) NVIDIA RTX 5060 Laptop GPU (120W)
Memory Likely DDR5 SODIMM (config/details not yet confirmed) Likely DDR5 SODIMM (config/details not yet confirmed)
Storage Expansion 2 × M.2 NVMe (PCIe Gen 4) 2 × M.2 NVMe (PCIe Gen 4)
Wireless Wi-Fi (generation not specified), Bluetooth supported Wi-Fi (generation not specified), Bluetooth supported
Power Supply 550W Built-in PSU 550W Built-in PSU
Chassis Volume Approx. 3.9L (small form factor enclosure) Approx. 3.9L (small form factor enclosure)
Cooling Likely air cooling with dual-fan or vapor chamber (TBD) Likely air cooling with dual-fan or vapor chamber (TBD)
Software Minisforum Control Center app support Minisforum Control Center app support
Lighting Adjustable RGB Lighting Adjustable RGB Lighting
Use Case Compact gaming / creator PC Higher-tier gaming / GPU compute mini system

Whether or not the MS-R1 reaches widespread adoption, it represents a notable shift toward ARM’s growing viability outside mobile and embedded contexts. It’s a signal that the boundary between ARM and x86 in high-performance personal computing may continue to blur in the years ahead.

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Test du NiPoGi AM06 Pro

Par : EVOTk
20 mai 2025 à 07:00
test NiPoGi AM06 Pro - Test du NiPoGi AM06 Pro

Suite à un souci d’aiguillage, le produit devant arriver chez notre ami FX, voici que je me retrouve en test avec un NiPoGi AM06 Pro depuis un peu plus de 2 semaines. Si cette machine à un peu moins de 350€ (pour cette version) semble être parfaite sur le papier, voyons ce que cela donne à l’usage…

test NiPoGi AM06 Pro - Test du NiPoGi AM06 Pro

 

NiPoGi AM06 Pro

Le modèle que j’ai testé est équipé des composants suivants :

  • Processeur : AMD Ryzen 7 5700U (15686 points selon passmark)
  • Mémoire vive : 16 Go DDR4 3200Mhz (deux emplacements disponibles, dont un libre)
  • Stockage : 512 Go SSD SATA (remplaçable par un SSD NVMe)
  • Connectivité : Wi-Fi 6, 2x RJ45 (2,5 Gb/s + 1 Gb/s), Bluetooth 5.2
  • Ports : 2x USB-C*, 2x USB 3.0, 2x USB 2.0, prise jack audio, HDMI 2.0, DisplayPort
  • Système d’exploitation : Windows 11 Pro

* Il dispose d’un port USB-C qui va nous servir pour l’alimentation uniquement avec l’alimentation secteur USB-C fournie.

Premières impressions

IMG 20250512 083416 Personnalise - Test du NiPoGi AM06 Pro IMG 20250512 083357 Personnalise - Test du NiPoGi AM06 Pro

 

Conçu autour d’une coque en plastique dur noir avec les coins arrondis. J’avoue que cela ne m’a pas donné d’impression de haute qualité lors de la prise en main, même si j’aime bien le coin avec le bouton d’allumage. Le Mini-PC est fourni avec un adaptateur pour le rajout d’un SSD 2,5″ SATA, un support VESA, une alimentation USB-C et un câble HDMI. Aussi, le fait qu’il n’y a pas de différenciation entre le port 2,5 Gb/s et 1 Gb/s m’a un peu surpris.

NiPoGi AM06 Pro et usage quotidien

Premier démarrage

Le NiPoGi AM06 Pro est livré avec une version propre de Windows 11 Professionnel. L’installation initiale est simple et rapide : configuration de la langue, du clavier, de la connexion réseau (Wi-Fi ou filaire) et recherche des mises à jour. En débranchant le câble Ethernet pendant l’installation, j’ai pu installer Windows avec un compte local sans difficulté. En un petit quart d’heure, l’appareil est prêt !

Fluidité et usage bureautique

Équipé d’un CPU Ryzen 7 5700U avec un APU (combinaison CPU et iGPU sur une seule puce) Radeon, on remarque tout de suite que l’appareil est très fluide pour les taches bureautiques. La navigation sur Internet, l’édition de documents texte ou même la lecture de vidéos en streaming ne lui fait pas peur ! J’y vois aussi une machine tout à fait taillée pour un faire un serveur Proxmox !

Architecture interne de la machine

Aperçu du BIOS

Le BIOS est plutôt simple, uniquement en langue anglaise

IMG 20250517 221113 Personnalise - Test du NiPoGi AM06 Pro IMG 20250517 221123 Personnalise - Test du NiPoGi AM06 Pro IMG 20250517 221127 Personnalise - Test du NiPoGi AM06 Pro IMG 20250517 221130 Personnalise - Test du NiPoGi AM06 Pro IMG 20250517 221134 Personnalise - Test du NiPoGi AM06 Pro IMG 20250517 221237 Personnalise - Test du NiPoGi AM06 Pro

 

Matériel

Pour les plus curieux, voici quelques photos de l’intérieur du boitier :

IMG 20250513 080748 Personnalise - Test du NiPoGi AM06 Pro IMG 20250513 080812 Personnalise - Test du NiPoGi AM06 Pro IMG 20250513 081137 Personnalise - Test du NiPoGi AM06 Pro IMG 20250517 214147 Personnalise - Test du NiPoGi AM06 Pro

On remarquera que la carte Wi-Fi 6 est sous le SSD. Il faut donc forcément démonter le SSD pour y avoir accès. De plus les 4 vis qui servent à tenir le cache de fermeture du boitier sont également les vis de maintien de la carte mère. Il n’y a donc rien de plus à dévisser pour extraire la carte mère (cependant, attention, cela rentre au chausse-pied !)

Voici un aperçu des informations remontées à l’aide de HWiNFO

hwinfo - Test du NiPoGi AM06 Pro hwinfo ram - Test du NiPoGi AM06 Pro

Coté disque (AirDisk) et RAM (Kinsotin), on est clairement sur du no-name (ce qui n’est en soi pas surprenant sur ce type de machine). Cependant je n’ai pas vu de problème de fiabilité pendant mon utilisation ni au Memtest.

Résultats des tests techniques

Performances du SSD

Nous sommes sur du SSD SATA, avec donc des résultats sans surprise : correcte pour ce type de SSD, sans plus. Je regrette vraiment au vu du reste de la machine qu’on ne soit pas sur un NVMe, de plus que la machine est compatible. Au final le SSD SATA est la « tâche » dans cette belle configuration.

disk - Test du NiPoGi AM06 Pro disk bench - Test du NiPoGi AM06 Pro

Test de stabilité (OCCT)

Ici aussi, une agréable surprise, CPU à 100% dans un 1er temps, puis CPU et APU en forte sollicitation, la chauffe est bien gérée avec une stabilisation de la fréquence du CPU à 3200 Mhz environ pour environ 70 à 75°C. Le ventilateur du CPU bien qu’audible lors de ce test, reste discret !

cpu 100 percent - Test du NiPoGi AM06 Pro cpu and gpu 100 percent - Test du NiPoGi AM06 Pro

Test Ethernet et Wifi 6

Comme indiqué dans les premières impressions, il n’y a pas de différence entre le port LAN 2.5 Gb/s, et celui à 1 Gb/s, dont il faut brancher, puis vérifier sur Windows si c’est le bon port. Un peu dommage !

IMG 20250517 234003 scaled - Test du NiPoGi AM06 Pro
À gauche, le port 2.5 Gb/s / À droite, le port 1 Gb/s

Les performances en 2.5 Gb/s sont sans surprise : très bonne. Lors d’un test en Wi-Fi, on remarque tout de suite la compatibilité Wi-Fi 6 avec des performances proche du Gigabit ( à environ 3m du point d’accès ) :

wifi 6 - Test du NiPoGi AM06 Pro
Test en Wi-Fi vers fast.com, à quelques mètres du PA

Consommation électrique

Le NiPoGi AM06 Pro n’est pas le meilleur élève, même s’il y a bien pire. Environ 30W sous Windows (sans tache particulière), max 45W lors de forte sollicitation, le Ryzen 7 5700U est un processeur un peu ancien maintenant (Q1/2021). Il reste cependant parfaitement adapté à un usage bureautique / multitâche grâce à ces 8 cœurs / 16 Threads et l’APU (puce graphique) intégré.

CONCLUSION
Le NiPoGi AM06 Pro est au final une bonne surprise, bien que le boitier ne donne pas une superbe impression au 1er contact. Le Mini-PC est globalement bien équilibré et on ne regrettera que le fait qu'il soit équipé par défaut d'un SSD M.2 SATA et non d'un NVMe. J’apprécie beaucoup ses connectivités récentes, comme l’Ethernet 2,5 Gb/s, l'USB-C ou même le Wi-Fi 6. Même s'il n'est pas taillé pour du jeu, il répondra sans souci à un usage bureautique, même un peu exigeant. Il arrive même à nous faire oublier que le CPU n'est pas de dernière génération.
Points forts
Format compact
Performance en multitaches
Silence en fonctionnement
Version propre de Windows 11
Connectivités (USB-C, 2.5 Gb/s, Wi-Fi 6, BT, jack audio, HDMI, DP...)
Points faibles
SSD M.2 SATA de base
CPU un peu ancien
Boitier "cheap"
8.5

Bon plan Mini PC : Geekom Mini Air 12 à moins de 260 euros grâce à 15% de réduction

19 mai 2025 à 09:41

Profitez d'une réduction exclusive de 15% sur le mini PC Geekom Mini Air 12, équipé d'un processeur Intel N150, de 16 Go de RAM et 512 Go de SSD.

The post Bon plan Mini PC : Geekom Mini Air 12 à moins de 260 euros grâce à 15% de réduction first appeared on IT-Connect.

Zimaboard 2 Review

Par : Rob Andrews
16 mai 2025 à 18:00

The Zimaboard 2 Single Board Server Review – The Best Yet?

In an increasingly saturated market of single-board computers and compact servers, the ZimaBoard 2 arrives with a clear goal: to offer an affordable, x86-powered, DIY-friendly alternative that bridges the gap between embedded systems and full-blown home servers. Developed by IceWhale, a brand that has already seen crowdfunding success with products like the original ZimaBoard, ZimaBlade, and ZimaCube, the ZimaBoard 2 aims to refine the company’s mission of delivering low-power, highly customizable devices for tinkerers, creators, and homelab enthusiasts. At its core, the ZimaBoard 2 is designed for users who want flexibility without complexity—whether that’s spinning up a lightweight virtualization platform, building a smart home hub, deploying a personal cloud, or running a local media server with minimal noise and energy consumption.

Unlike consumer-grade NAS systems or ARM-based boards, ZimaBoard 2 taps into the x86 ecosystem, offering broader OS compatibility and performance benefits while maintaining a compact, passively cooled footprint. This review explores the hardware, thermal and network performance, and software environment of the ZimaBoard 2, evaluating where it fits in the broader landscape of edge computing and personal infrastructure. As with previous IceWhale launches, this unit is being released initially through crowdfunding—a factor that calls for cautious optimism. Still, with a track record of fulfilling past campaigns, IceWhale appears confident in ZimaBoard 2’s readiness. Whether that confidence is justified, and whether the board truly earns its place in a crowded DIY server landscape, is what we’ll determine over the course of this review.

Zimaboard 2 Review – Quick Conclusion

The ZimaBoard 2 is a compact, x86-based single board server that strikes a balance between flexibility, efficiency, and affordability. It offers solid performance for its size, thanks to an Intel N150 processor, dual 2.5GbE ports, and a PCIe 3.0 x4 slot for meaningful expansion, making it suitable for tasks like media serving, light virtualization, and home automation. However, limitations such as non-upgradable 8GB RAM, slow onboard eMMC storage, and reliance on passive cooling require careful consideration for more demanding workloads. ZimaOS provides a user-friendly starting point with Docker support and basic file management, though advanced users may prefer to install alternative operating systems. Overall, the ZimaBoard 2 is a capable and well-engineered device for DIY server enthusiasts who understand its constraints and plan their use case accordingly

BUILD QUALITY - 10/10
HARDWARE - 8/10
PERFORMANCE - 8/10
PRICE - 9/10
VALUE - 10/10


9.0
PROS
👍🏻x86 Architecture – Compatible with a wide range of operating systems including ZimaOS, Unraid, TrueNAS SCALE, and Proxmox.
👍🏻Dual 2.5GbE LAN Ports – Offers strong networking capabilities for multi-service workloads and gateway setups.
👍🏻PCIe 3.0 x4 Slot – Enables high-speed expansion for 10GbE NICs, NVMe storage, or combo cards.
👍🏻Fanless, Silent Operation – Completely passively cooled, ideal for home or quiet office environments.
👍🏻Compact and Durable Build – Small footprint with an all-metal chassis that doubles as a heatsink.
👍🏻ZimaOS Included – User-friendly OS with a Docker-based App Store and basic VM tools, ready out of the box.
👍🏻Flexible Storage Options – Dual SATA ports plus USB 3.1 support for connecting SSDs, HDDs, or external drives.
👍🏻Low Power Consumption – Efficient 6W CPU with ~10W idle and ~40W max under heavy load scenarios.
CONS
👎🏻Non-Upgradable RAM – 8GB of soldered LPDDR5x limits long-term scalability for memory-intensive tasks.
👎🏻Slow/Small Default Internal Storage – 32GB eMMC is convenient but underperforms for OS-level responsiveness or high I/O workloads.
👎🏻Thermal Headroom is Limited – Passive cooling alone may not be sufficient in closed environments or under sustained load without added airflow.
👎🏻Not Launching on Traditional Retail, but instead on Crowdfunding.

NOTE – You can visit the Zimaboard 2 Crowdfunding Page (live from 10:30AM ET 22nd April 2025) by clicking the banner below. The entry price for early backers is $169, but that will revert to $179 (and $239 for a scaled-up storage and memory version). I DO NOT receive any kind of affiliate commission or sponsorship for this review (and this review, like all reviews at NASCompares, was done without the brand in question’s interference or input). You can use the link HERE to see the campaign for yourself and/or click the banner below:

Zimaboard 2 Review – Design and Hardware

The physical build of the ZimaBoard 2 continues IceWhale’s trend of delivering thoughtfully designed hardware. The full aluminum enclosure gives the board a sturdy, premium feel, while also serving as its main cooling surface. Every port is clearly labeled, and the board layout is practical and accessible.

Component Details
Processor Intel® N150 (4 cores, 6MB cache, up to 3.6GHz)
Memory 8GB LPDDR5x @ 4800MHz (soldered, non-upgradable)
Internal Storage 32GB eMMC (soldered)
LAN 2 x 2.5GbE Ethernet ports (Intel chipset)
Storage Interfaces 2 x SATA 3.0 (6Gb/s) with power
USB Ports 2 x USB 3.1
Display Output 1 x Mini DisplayPort 1.2 (up to 4K @ 60Hz)
PCIe Expansion 1 x PCIe 3.0 x4
Cooling Passive cooling (full metal heatsink enclosure)
Graphics Features Integrated graphics (up to 1GHz), Intel® Quick Sync Video
Virtualization Support Intel VT-x, VT-d, AES-NI
Power Supply 12V / 3A DC input
TDP 6W
Dimensions 140mm x 81.4mm x 31mm

The PCIe slot includes a pre-cut section to accommodate longer cards, allowing for flexibility even in this small form factor. IceWhale also includes eco-friendly packaging, a detail that reflects both brand identity and attention to user experience. A cardboard insert allows users to hold the board upright alongside drives, useful for initial setup before a case is selected.

Optional accessories like a SATA adapter board with combined data/power connectors and third-party-compatible drive cages help complete the DIY experience. However, there are some practical limitations to consider: the soldered RAM means users must carefully plan for memory demands, and the internal storage, while functional, will not satisfy users looking for fast OS performance.

At the core of the ZimaBoard 2 is the Intel N150 processor, part of Intel’s Twin Lake architecture, offering four cores with a base clock that boosts up to 3.6GHz. This chip represents a significant step forward compared to the Celeron N3450 used in the original ZimaBoard, delivering better single-thread and multi-thread performance while maintaining a low 6W TDP.

Complementing the CPU is 8GB of LPDDR5x memory clocked at 4800MHz. While the use of fast memory is a welcome improvement, the limitation lies in its soldered nature—users cannot expand beyond this capacity.

This decision may be acceptable for light workloads such as running a Plex server, Docker containers, or Home Assistant, but it could become a bottleneck for users planning to run multiple VMs or resource-heavy services. The N150 CPU does support hardware virtualization and Intel AES-NI, which is essential for tasks like encrypted storage or virtual machine deployment.

In testing scenarios, the CPU delivered solid performance across typical tasks, and managed to keep up during multi-tasked environments with multiple services active. However, users with ambitions for more demanding applications will need to balance those expectations against the non-upgradable memory ceiling.

ZimaBoard 2 comes with 32GB of onboard eMMC storage, a choice that is both practical and limiting. This eMMC module is soldered to the board and is intended to house ZimaOS out of the box, giving users a ready-to-use system upon first boot. While this inclusion lowers the barrier to entry and simplifies setup for beginners, it presents performance limitations and a lack of flexibility. In testing, write speeds hovered around 35MB/s during mixed I/O operations, which is noticeably slow for tasks that involve frequent read/write cycles.

Moreover, should a user opt to install a different OS—such as TrueNAS SCALE, Proxmox, or Unraid—they would either overwrite the bundled ZimaOS or need to boot from an external USB or PCIe-based drive. Since the internal storage is neither M.2 nor socketed, it lacks the speed and modularity enthusiasts often seek in modern setups. As a result, users planning to use ZimaBoard 2 as a primary virtualization or storage server are better off supplementing it with faster storage via USB 3.1, SATA, or the PCIe slot for booting alternative OS environments. This caveat underscores a recurring theme with ZimaBoard 2: it’s well-positioned for entry-level use but requires external upgrades for more ambitious workflows.

One of the ZimaBoard 2’s most compelling features is its inclusion of two SATA 3.0 ports alongside a full PCIe 3.0 x4 slot. This greatly expands the device’s potential beyond typical SBCs, offering users a reliable way to build custom NAS setups, integrate high-speed NVMe storage, or even install networking and accelerator cards. During testing, a Synology combo card featuring two M.2 NVMe slots and a 10GbE Ethernet port was installed in the PCIe slot. The board successfully recognized all interfaces, demonstrating full PCIe compatibility and allowing throughput measurements to confirm the system could push high-bandwidth traffic.

With up to 4GB/s of bandwidth over PCIe, users can install expansion cards for fast storage, additional networking, or even compute offloading—although the small form factor means thermal and power considerations become important quickly. The SATA ports, while standard in speed, proved perfectly functional for connecting 2.5″ SSDs or traditional HDDs. IceWhale’s own accessories, like SATA power adapters and drive cages, help streamline this process, though third-party solutions work just as well.

For users aiming to transform this board into a flexible micro-server, this PCIe slot is a gateway to many possibilities and a key reason ZimaBoard 2 stands out in its category.

In terms of networking, the ZimaBoard 2 comes equipped with two 2.5GbE Ethernet ports, both powered by Intel chipsets—a choice that emphasizes reliability and driver compatibility across various operating systems. These ports are more than just a checkbox feature; they performed reliably under load and achieved full link saturation during file transfer tests and when used in conjunction with PCIe expansion.

In more advanced setups, users can configure bonding or load balancing to maximize throughput or redundancy. Additionally, there are two USB 3.1 ports for attaching external drives, peripherals, or USB-bootable OS images.

The inclusion of a Mini DisplayPort 1.2 allows for 4K video output at 60Hz, which is useful for users who want to use the board as a lightweight desktop or for initial OS installation and diagnostics—though it does require an adapter to convert to standard HDMI. Notably absent is built-in Wi-Fi or Bluetooth, which aligns with its target audience of wired-first home labs and embedded installations. Overall, ZimaBoard 2 offers a well-rounded set of connectivity options that exceed expectations for its size, with the dual 2.5GbE ports making it particularly attractive for networking-focused use cases like firewalls, proxies, or containerized gateways.

Thermal management on the ZimaBoard 2 is entirely passive, with the aluminum enclosure doubling as a heatsink to dissipate heat away from the CPU and other key components. This fanless approach results in completely silent operation, which is ideal for home or office environments where noise is a concern.

However, the trade-off is that the board’s temperature will steadily rise over time, especially in enclosed cases or cabinets with poor airflow. During idle operation, with minimal system load and attached drives in standby, temperatures hovered around 50°C after an hour, increasing slightly to 52–54°C over a 24-hour window.

Under heavier usage—including Plex playback, VM activity, active networking, and full PCIe slot utilization—the system remained thermally stable but showed significant heat buildup. Power consumption in these high-usage scenarios peaked at approximately 39–40W, which is quite efficient given the workload.

Still, users planning to run the board continuously under load are strongly encouraged to introduce active airflow or leave the system in a well-ventilated space. The all-metal build is a clever and minimalist solution, but it has practical limitations that users need to plan for—especially if operating in warmer environments or planning to enclose the unit in a tight chassis.

When put through real-world workloads, the ZimaBoard 2 delivered performance that largely aligned with its specs and design goals. File transfers over the onboard 2.5GbE interfaces reached full saturation in controlled conditions, proving the CPU and I/O subsystems are capable of pushing maximum throughput without significant bottlenecks. PCIe expansion further unlocked performance potential—especially with the Synology combo card, where simultaneous NVMe and 10GbE performance were tested. While NVMe read speeds reached up to 1.6GB/s, write speeds hovered around 500–700MB/s depending on traffic from the 10GbE port.

These variances are expected, given shared PCIe lanes and bandwidth contention, but overall results were respectable. Multimedia performance was also acceptable, with Plex running smoothly and able to stream and scrape metadata while supporting light VM usage concurrently.

In these scenarios, RAM utilization climbed past 50% and CPU usage approached 100%, but the board remained operational and responsive. It’s clear that ZimaBoard 2 is well-suited to low-to-moderate workloads, and can punch above its weight with strategic expansion. However, pushing it into more demanding territory—like simultaneous virtualization, AI inferencing, or high-speed file serving across multiple interfaces—will begin to test its limits.

The lack of active cooling makes thermal planning essential for any serious workload. But overall, the ZimaBoard 2 feels polished and reliable, with a design philosophy that caters well to its core audience of DIY server builders and edge compute experimenters.

Zimaboard 2 Review – Software

ZimaBoard 2 ships with ZimaOS, a custom-built operating system from IceWhale that is based on CasaOS—a lightweight, open-source platform designed for simplicity and ease of deployment. ZimaOS retains the core principles of CasaOS but adds refinements tailored to the Zima ecosystem, particularly features that emerged during development of the more powerful ZimaCube. The out-of-the-box experience is beginner-friendly, offering an intuitive web dashboard called “LaunchPad,” which centralizes access to installed applications, system controls, and file management.

ZimaOS is pre-installed on the board’s eMMC storage, enabling immediate setup without requiring users to flash a drive or download additional software. Despite the modest resources of the ZimaBoard 2, the OS performs responsively, even with several services running in parallel. The interface is clean, albeit minimalistic, focusing on usability over deep customization.

For users who are new to home servers or Docker deployments, the learning curve is surprisingly gentle. Though it lacks some of the granularity of more established platforms like OpenMediaVault or TrueNAS, it’s clear that IceWhale has designed ZimaOS to get users up and running quickly without sacrificing key functionality.

One of the more distinctive features of ZimaOS is its integrated App Store, which acts as a curated hub for Docker-based applications. Unlike traditional NAS interfaces that require command-line Docker commands or extensive Portainer configuration, ZimaOS simplifies deployment through one-click installation and automated environment setups.

Popular applications like Plex, Jellyfin, Stable Diffusion, and more are available by default, with the option to add third-party sources for broader container variety. Behind the scenes, the system leverages containerization frameworks to handle resource isolation and volume mappings, but much of this complexity is hidden from the end user.

Application setup is further eased by pre-configured defaults such as port assignments, directory structures, and even PUID/PGID settings, reducing friction for non-technical users. For those with more experience, ZimaOS still allows you to tweak or override these settings manually. Notably, ZimaOS also includes a basic virtualization interface that supports downloading and running lightweight VMs using prebuilt images.

While this feature is better suited to the higher-specced ZimaCube due to memory and cooling constraints, its presence on the ZimaBoard 2 is still a nice touch and shows that the OS is aiming to grow into a more comprehensive platform. Overall, the application and container ecosystem here punches above its weight, especially considering the resource constraints of the board itself.

In terms of storage and file sharing, ZimaOS delivers a capable if somewhat minimal feature set that prioritizes simplicity over enterprise-style depth. Users can create RAID groups—a new feature compared to earlier CasaOS iterations—manage individual drives, and set up file-level sharing using standard protocols like SMB.

The file manager, accessible through the main dashboard, allows for browsing, copying, and sharing content in a familiar web-based interface. Integration with IceWhale’s own client tool enables a peer-to-peer feature called “peerdrop,” which links multiple Zima-based systems or client devices (like phones and laptops) for rapid syncing and data exchange.

This is especially useful for users who want an easy method to upload media, backup devices, or move files between multiple systems on a local network. Remote access can be enabled through a simple relay-based mechanism, which generates shareable links for specific files or folders, complete with read/write controls. While more advanced access control, encryption, or user quotas are not present in this build, the essentials for home or small office use are here and function as expected.

Cloud integration is also available, allowing the addition of third-party storage such as Google Drive or Dropbox for backup or syncing purposes. Though ZimaOS doesn’t try to replace full-fledged NAS operating systems in terms of depth, it successfully delivers the features most users will need, and its lightweight design ensures responsiveness even on modest hardware like the ZimaBoard 2.

Zimaboard 2 Review – Conclusion & Verdict

The ZimaBoard 2 is a competent and thoughtfully assembled single-board server that builds meaningfully on IceWhale’s earlier efforts, especially the original ZimaBoard and the ZimaBlade. Its design clearly targets users who want more flexibility and performance than traditional ARM-based boards can offer, but who also value power efficiency, silence, and a small footprint. The use of an Intel N150 CPU, 8GB of LPDDR5x memory, dual 2.5GbE ports, and a PCIe 3.0 x4 slot makes it viable for a variety of home server roles—from basic NAS and smart home coordination to lightweight container hosting and local media streaming. Features like onboard SATA, USB 3.1, and a DisplayPort connection further add to its utility. However, there are hardware limitations that may affect long-term suitability for advanced deployments. The soldered RAM cannot be upgraded, and the internal eMMC storage, while useful for initial setup, is too slow for OS-level responsiveness in more demanding use cases. Passive cooling, while appreciated for silence, also imposes some thermal limitations depending on the deployment environment.

On the software side, ZimaOS offers a decent out-of-the-box experience that caters to users with minimal technical background. It handles core tasks like application deployment, file sharing, and system monitoring without requiring advanced configuration, and its Docker-based App Store simplifies access to popular tools. For more experienced users, the system supports third-party OS installation, which is likely how many will ultimately use the ZimaBoard 2. Still, as a bundled solution, ZimaOS has matured significantly and now presents itself as a lightweight, capable, and non-intrusive platform for those who prefer to get started immediately. In the broader context of DIY server hardware, ZimaBoard 2 occupies a middle ground: more powerful and modular than Raspberry Pi-class systems, yet more constrained than full x86 mini PCs or enthusiast-grade NAS hardware. For those who understand and accept these trade-offs, and are willing to plan around its limitations, the ZimaBoard 2 offers a reliable and flexible foundation for compact, energy-efficient computing at the edge.

PROs of the Zimaboard 2 CONs of the Zimaboard 2
  • x86 Architecture – Compatible with a wide range of operating systems including ZimaOS, Unraid, TrueNAS SCALE, and Proxmox.

  • Dual 2.5GbE LAN Ports – Offers strong networking capabilities for multi-service workloads and gateway setups.

  • PCIe 3.0 x4 Slot – Enables high-speed expansion for 10GbE NICs, NVMe storage, or combo cards.

  • Fanless, Silent Operation – Completely passively cooled, ideal for home or quiet office environments.

  • Compact and Durable Build – Small footprint with an all-metal chassis that doubles as a heatsink.

  • ZimaOS Included – User-friendly OS with a Docker-based App Store and basic VM tools, ready out of the box.

  • Flexible Storage Options – Dual SATA ports plus USB 3.1 support for connecting SSDs, HDDs, or external drives.

  • Low Power Consumption – Efficient 6W CPU with ~10W idle and ~40W max under heavy load scenarios.

  • Non-Upgradable RAM – 8GB of soldered LPDDR5x limits long-term scalability for memory-intensive tasks.

  • Slow/Small Default Internal Storage – 32GB eMMC is convenient but underperforms for OS-level responsiveness or high I/O workloads.

  • Thermal Headroom is Limited – Passive cooling alone may not be sufficient in closed environments or under sustained load without added airflow.

  • Not launching on Traditional Retail, but instead on Crowdfunding.

NOTE – You can visit the Zimaboard 2 Crowdfunding Page (live from 10:30AM ET 22nd April 2025) by clicking the banner below. The entry price for early backers is $169, but that will revert to $179 (and $239 for a scaled-up storage and memory version). I DO NOT receive any kind of affiliate commission or sponsorship for this review (and this review, like all reviews at NASCompares, was done without the brand in question’s interference or input). You can use the link HERE to see the campaign for yourself and/or click the banner below:

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