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Proxmox Backup Space (Layer7) : test complet, avis et configuration PBS offsite
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J’utilise depuis un peu plus de dix-huit mois la solution Proxmox Backupspace, éditée par Layer7.net. Ce service repose sur une instance de Proxmox Backup Server (PBS) aux fonctionnalités volontairement limitées, conçue pour externaliser les sauvegardes (VM et conteneurs LXC) de mes serveurs PVE.
Faute de retours d’expérience disponibles lors de ma souscription, j’ai décidé de rédiger ce guide. Nous aborderons ensemble la mise en place, l’utilisation au quotidien, mais aussi les contraintes techniques inhérentes à cette offre, afin de vous donner une vision complète du produit.
Pourquoi externaliser ses sauvegardes ? (Règle du 3-2-1)
Avant d’entrer dans le concret, un rappel rapide s’impose. Si vous gérez un NAS ou un homelab, vous connaissez probablement la règle 3-2-1 :
- 3 copies de vos données (1 originale + 2 sauvegardes)
- 2 supports différents (NAS, disque local, USB…)
- 1 copie hors site (offsite)
C’est ce dernier point qui est souvent négligé. Avoir un NAS qui fonctionne à côté de son serveur Proxmox, c’est bien, et c’est même indispensable pour restaurer une VM rapidement après une fausse manip (encore faut-il réaliser cette sauvegarde
). Mais si votre maison ou votre baie de brassage subit un dégât des eaux, un incendie ou un cambriolage… vos sauvegardes locales partent en fumée en même temps que vos données sources.
C’est là que le besoin d’un stockage distant intervient. Proxmox Backup Server (PBS) est un outil génial pour ça, car il gère nativement la déduplication et les sauvegardes incrémentielles. Mais tout le monde n’a pas forcément un deuxième serveur chez un ami ou un parent pour y installer un PBS.
L’idée de prendre un service « clés en main » comme celui de Layer7, c’est d’avoir la puissance de PBS sans la gestion de la machine physique distante (hardware, stockage). On envoie ses backups dans le cloud, et on dort sur ses deux oreilles.
Présentation de l’offre
Maintenant qu’on est d’accord sur l’intérêt d’externaliser ses sauvegardes, pourquoi choisir Layer7.net ? C’est l’une des rares offres « clés en main » basées sur PBS que l’on trouve facilement.
L’offre Proxmox Backup Space
Ce qui m’a attiré chez eux, c’est la simplicité de l’offre. Pas de calculs compliqués de CPU ou de RAM : on achète avant tout du stockage. Depuis fin 2024, les tarifs ont un peu augmenté. Lorsque j’ai souscrit en 2024, j’ai choisi de payer pour 3 mois, me disant que c’était un bon compromis pour profiter d’un tarif réduit (oui, plus on prend une durée longue, moins c’est cher). À l’époque, j’en avais pour 20,45 € TTC. Maintenant, en 2026, les tarifs ont grimpé un peu, mais restent très accessibles pour un usage « homelab » ou petite PME :
- L’entrée de gamme commence aujourd’hui à 3,99 € HT (≈4,77€ TTC) / mois pour 1 To ;
- Chaque To supplémentaire coûte le même prix : 3,99 € HT (≈4,77€ TTC) / mois, avec un maximum de 100 To.
- Les tarifs qui deviennent dégressifs si vous payez plusieurs mois d’un coup (3 / 6 / 12 mois).
L’un des gros points positifs, c’est qu’il n’y a pas de frais de trafic cachés. Vous payez votre espace, et vous envoyez autant de données que vous voulez, tant que ça rentre dans votre quota. Il y a cependant des frais de mise en service d’environ 10 € TTC, à payer une seule fois à la commande uniquement.
Souscription et mise en route
La souscription se fait directement sur leur site. C’est du classique : on choisit son volume, son échéancier de paiement, on crée son compte et on passe à la caisse.
Une petite chose à savoir : l’activation n’est pas forcément instantanée. Dans mon cas, il a fallu attendre un petit moment avant de recevoir le mail contenant les accès à l’interface PBS. Rien de dramatique, mais ne prévoyez pas de lancer votre première sauvegarde de 500 Go dans les deux minutes après avoir sorti la carte bancaire !
Une fois le mail reçu, vous avez accès à une URL personnalisée qui vous mène vers l’interface de Proxmox Backup Server. On est en terrain connu, mais comme nous allons le voir juste après, tout n’est pas accessible.
Mise en place et configuration
Maintenant que le décor est planté, voyons comment mettre tout cela en place. L’idée est de lier notre PVE au service de Layer7. Mais avant de se lancer dans les explications de configuration, il faut d’abord préparer le terrain côté Layer7.
Configurer l’accès côté Layer7
Une fois connecté à l’interface PBS fournie par Layer7, on remarque vite les premières limitations. Par exemple, impossible de récupérer le Fingerprint de manière classique : le bouton est grisé. Pour contourner cela et sécuriser la connexion, il faut passer par la création d’un API Token.
Voici la marche à suivre :
- Allez dans la gestion des utilisateurs et créez un API Token.
- Attention : Notez bien l’ID du token et surtout le « Secret » (la clé) qui s’affiche, car il ne sera plus visible par la suite.
- Il faut ensuite lui affecter les permissions nécessaires : pour le Path, renseignez celui de votre Datastore, et pour le Rôle, j’ai choisi « Admin » (je n’ai pas testé d’autres rôles plus restrictifs, mais celui-ci fonctionne parfaitement).
- Enfin, pour récupérer les infos dont votre PVE aura besoin, utilisez le bouton « Show Connection Information »situé directement sur la page de votre Datastore. C’est là que vous trouverez l’URL et l’empreinte (Fingerprint) à copier.
Configurer PVE pour envoyer les sauvegardes
C’est ici que la magie opère. Côté Proxmox Virtual Environment (PVE), l’ajout se fait très naturellement puisque le support de PBS est natif.
- Direction l’onglet Datacenter > Storage > Add et on choisit Proxmox Backup Server.
- Dans la fenêtre qui s’ouvre, on renseigne les infos récupérées à l’étape précédente. Notez qu’ici, pas besoin de Fingerprint :
- 1⃣ ID : Un nom parlant pour vous (ex: PBS-Layer7).
- 2⃣ Server : L’adresse fournie par votre abonnement (ex: par1.layer7.net).
- 3⃣ Username : L’ID complet de votre API Token (format votre_login@pbs!nom_du_token).
- 4⃣ Password : Le « Secret » obtenu lors de la création du Token-ID.
- 5⃣ Datastore : Le nom de votre espace (ex: backup01-par1-votre_login).
- 6⃣ Namespace : (Optionnel) Celui que vous aurez créé au préalable et que vous souhaitez utiliser pour organiser vos sauvegardes.
- 7⃣ Une fois ces champs remplis, cliquez sur Add.
Si tout est correct, votre stockage « Cloud » s’affiche instantanément dans votre liste de ressources à gauche. Il ne vous reste plus qu’à créer un Backup Job (ou à modifier l’existant) pour envoyer vos VM et conteneurs vers ce nouveau point de chute. Personnellement, j’ai programmé mes sauvegardes Layer7 la nuit pour ne pas saturer mon upload, même si, comme on le verra, la déduplication de PBS limite énormément le volume de données réellement envoyé.
Les limitations : Un PBS un peu « bridé » ?
Comme je vous le disais en introduction, ce service est un Proxmox Backup Server (PBS) un peu « castré ». D’ailleurs, c’est assez logique quand on y regarde de plus près, l’offre ne s’intitule pas « Proxmox Backup Server », mais bien « Proxmox BackupSpace« . C’est un espace de stockage avant tout.
Ce qui manque à l’appel
Le point le plus évident, c’est l’absence totale d’accès SSH. C’est assez limitant si vous avez l’habitude de surveiller l’OS de près. Dans la même lignée, n’espérez pas gérer les mises à jour système ou d’autres tâches administratives : tout cela est verrouillé.
Plus agaçant au quotidien :
- Les notifications emails : Tout est verrouillé, on n’a simplement pas les permissions pour les configurer. Impossible donc de recevoir un rapport de santé du PBS par mail.
- Le message de souscription : À chaque connexion, vous aurez le fameux message indiquant qu’aucune souscription valide n’est détectée. Le support refuse catégoriquement de faire la manipulation (pourtant simple) pour le retirer. Il faudra faire avec.
Les bonnes surprises (tout n’est pas bloqué !)
Malgré ces restrictions, les Namespaces sont bien présents. J’ai pu en créer deux distincts pour dissocier proprement les sauvegardes de mes deux instances PVE. C’est indispensable pour ne pas tout mélanger. Concernant les performances, même si on ne choisit pas son type de disque, le débit de 10 Gbits annoncé laisse supposer du matériel performant (probablement du NVMe).
Le support technique
Réactif mais… « austère »
J’ai eu l’occasion d’échanger plusieurs fois avec le support de Layer7. Premier point important : tout se fait en anglais. Oubliez le français ici.
Globalement, ils sont très réactifs, même le week-end. Cependant, le ton est… direct. On est sur une communication « brute », parfois un peu brusque. J’ai même failli me désabonner après avoir demandé comment configurer mon propre SMTP pour les notifications e-mails. La réponse (traduite dans notre langue de Molière ici) a été claire :
« Voulez-vous un compte de sauvegarde pas cher ou un Proxmox Backup Server complet ? Vous n’aurez pas 100% des fonctions, c’est la différence entre un système partagé et un système dédié. »
Une réactivité technique surprenante
Pour autant, tout n’est pas à jeter, loin de là. Récemment, alors que la version 4.0 de PBS était sortie mais pas encore déployée sur mon instance, je les ai contactés pour demander la mise à jour vers la 4.1.1.
La réponse a été typique de leur style : un mélange de « on fait ça quand on a le temps car ça n’apporte rien aux clients » et d’une efficacité redoutable. Le technicien a lancé la mise à jour dans la foulée (« backup01 n’avait pas encore reçu cet amour« , m’a-t-il dit (traduction littérale)) et 40 minutes plus tard, c’était réglé.
On est donc sur un support qui ne s’encombre pas de fioritures commerciales, mais qui, techniquement, assure le suivi quand on le demande poliment. Aujourd’hui, je tourne sur la 4.1.1, en attendant de les relancer pour la 4.1.4 (ou la 4.2 !).
Conclusion : Mon verdict après un an et demi
Alors, est-ce que je recommande le Proxmox BackupSpace de chez Layer7.net ?
La réponse est oui, mais avec une nuance importante : il faut savoir ce que l’on achète. Si vous cherchez un Proxmox Backup Server complet, avec les droits root, des notifications personnalisées par email et une interface parfaitement propre, passez votre chemin. Vous seriez déçus par le côté « bridé » du service et le ton parfois sec du support.
En revanche, si votre objectif est simplement de respecter la règle du 3-2-1 avec un stockage distant ultra-stable, performant et surtout à un prix défiant toute concurrence pour un homelab ou une petite structure, c’est une excellente pioche.
Après 18 mois d’utilisation quotidienne pour mes deux instances PVE, le service n’a jamais failli. Les sauvegardes partent chaque nuit, la déduplication fait son travail, et même si l’interface me rappelle à chaque connexion que je n’ai pas de « souscription valide », l’essentiel est là : mes données sont à l’abri hors de chez moi.
Bref, c’est du « Low Cost » au sens noble du terme : on retire le superflu pour se concentrer sur l’efficacité brute. Et pour environ 27 € TTC par trimestre pour 2 To, c’est un rapport qualité/prix qu’il est difficile d’ignorer en 2026.
UniFi UNAS 4 Review
UniFi UNAS 4 NAS Review – Simple Safe Storage?
The UniFi UNAS 4 is Ubiquiti’s desktop 4 bay NAS and part of the company’s growing UniFi storage portfolio. Positioned as a compact network storage appliance, it is designed to provide centralized file storage, backups, and shared access within a local network, while also integrating with the wider UniFi management platform. The 4 bay form factor is widely considered a practical starting point for NAS deployments, offering enough capacity for RAID redundancy while maintaining a relatively small physical footprint suitable for offices, home labs, and small business environments. At $379, the UNAS 4 enters the market as a relatively affordable turnkey NAS that includes both hardware and the UniFi Drive software platform. The system combines traditional SATA storage bays with NVMe SSD caching support and 2.5GbE networking, while also introducing PoE+++ power as a deployment option. On paper, the device aims to deliver a straightforward storage solution that focuses on core NAS functionality rather than attempting to compete directly with more feature heavy platforms.
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UniFi UNAS 4 Review – Quick Conclusion
TLDR: The UniFi UNAS 4 is a compact $379 4 bay NAS aimed at straightforward file storage and backups, with a clean UniFi oriented deployment that includes PoE+++ power plus data over a single cable and a bundled 90W adapter for non PoE setups. It combines 4 SATA bays with 2 M.2 NVMe slots for SSD caching, simple click and load drive trays, and a small front status display, while UniFi Drive provides the expected NAS services such as SMB and NFS access, RAID options, snapshots, encryption, share links, and multi user management, plus backup support that can include other UNAS targets, SMB destinations, and several cloud providers. The main compromises are the single 2.5GbE port that caps throughput and offers no redundancy, NVMe trays not being included despite the slots being present, and a USB C port that currently functions mostly for basic external storage rather than broader expansion, so it fits best when the goal is uncomplicated storage within a UniFi managed environment rather than a more flexible, performance oriented NAS platform.
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You can buy the UniFi UNAS 4 NAS via the link below – doing so will result in a small commission coming to me and Eddie at NASCompares, and allows us to keep doing what we do!
UniFi UNAS 4 Review – Design & Storage
The UniFi UNAS 4 uses a compact desktop chassis that differs from the more traditional box shaped NAS designs seen from many competing brands. The enclosure is relatively narrow and deep, giving it a vertical appearance that resembles some earlier consumer NAS designs. The casing itself is constructed from polycarbonate rather than metal, which keeps overall weight down to around 2.6 kg without drives installed. Ventilation is primarily handled through openings along the upper portion of the chassis, with airflow directed toward a rear mounted cooling fan.
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At the front of the unit is a small 1.47 inch color LCM display that provides basic system information. This panel is not touch enabled but can show details such as drive activity, network activity, and general system status. It acts primarily as a quick visual reference rather than a full control interface. For most configuration and monitoring tasks, the system is intended to be managed through the UniFi Drive interface via a web browser or mobile application.
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The primary storage configuration consists of 4 drive bays supporting either 3.5 inch or 2.5 inch SATA drives. Each drive uses an individual tray that slides into the chassis and clicks into place without requiring screws for 3.5 inch drives. The trays are ventilated and designed for relatively straightforward installation or replacement, although they are not lockable. Compared with earlier UniFi NAS designs that grouped multiple drives into a single tray, the use of separate trays simplifies drive access and improves hot swap usability.
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In addition to the main hard drive bays, the system includes 2 M.2 NVMe slots intended for SSD caching. These slots are located in a separate compartment on the base of the device and can be accessed by removing a small cover using the included key. Once installed, these SSDs can be used to provide read and write caching to improve responsiveness when working with frequently accessed data. At the time of writing, these NVMe drives cannot be used as independent storage pools and are limited to caching roles.
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One design choice that may affect installation is that the trays required to hold the NVMe SSDs are not included in the retail package. Instead, they must be purchased separately or obtained as part of pre populated SSD modules from Ubiquiti. While the M.2 slots themselves are built into the device, the lack of included trays adds an additional step and cost for users who intend to make use of SSD caching alongside the main hard drive storage.
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UniFi UNAS 4 Review – Internal Hardware
Internally, the UniFi UNAS 4 is built around a quad core ARM Cortex A55 processor running at 1.7 GHz. This type of processor is commonly used in embedded networking hardware and lower power storage appliances, where efficiency and reliability are prioritized over raw processing performance. Ubiquiti has extensive experience deploying ARM architectures across its networking and infrastructure products, and the choice here aligns with the system’s intended role as a dedicated storage appliance rather than a general purpose server platform.
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The system includes 4 GB of LPDDR4 memory, which is fixed and not user upgradeable. For the core functions the device is designed to handle, such as file transfers, backups, and storage management, this amount of memory is generally sufficient. However, the fixed memory configuration does place a ceiling on how much additional functionality the hardware could realistically support in the future, particularly if the software platform expands with additional services or heavier workloads.
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From a power perspective, the system is designed to operate within a relatively modest power envelope. The maximum system power consumption is rated at 90 W, with a maximum drive power budget of 80 W. Power delivery is handled through PoE+++, allowing both data and power to be carried through the same Ethernet connection when used with compatible infrastructure. For deployments without PoE support, the device ships with a 90 W PoE+++ adapter, allowing it to be powered from a standard mains outlet while still maintaining the same connection layout.
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UniFi UNAS 4 Review – Ports and Connections
The UniFi UNAS 4 keeps connectivity simple, with a single 2.5GbE RJ45 port handling both network data and PoE+++ power delivery. This allows the unit to be deployed with a single cable when used with compatible switches or injectors, which can reduce cable clutter and simplify placement compared with NAS systems that require separate power and network connections. The port supports 2.5G, 1G, 100M, and 10M link speeds, so it can operate in mixed networks even if 2.5GbE infrastructure is not available.
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The main limitation is that there is only 1 network interface, with no secondary port for link aggregation, redundancy, or dedicated management traffic. In practical terms, this reduces options for failover and makes the network connection a single point of dependency. It also places a hard ceiling on throughput, which is relevant on a 4 bay system where aggregate drive performance can exceed what a single 2.5GbE link can sustain in some workloads.
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For external expansion, the device includes a 5 Gbps USB C port intended for attaching external storage. In its current form, it functions primarily as a straightforward way to connect a USB drive for basic transfers rather than as a broader expansion interface. The hardware capability suggests potential for wider use cases, but the available functionality is mainly determined by what UniFi Drive supports at the software level.
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UniFi UNAS 4 Review – Software and Services
The UNAS 4 runs UniFi Drive and is managed through the same UniFi style web interface used across the wider portfolio, with system status, storage, backups, and user access presented through a single dashboard. For typical NAS use, the core functions are in place: initializing drives, building RAID storage, creating shared and personal drives, enabling file services, and checking drive health information. The interface is mostly structured around completing common tasks quickly and keeping administration consistent with other UniFi products, rather than exposing a long list of granular configuration controls. That approach makes initial setup and day to day management relatively straightforward, but it also means experienced NAS users may notice limits in how far the system can be tuned.
File access is centered on SMB and NFS, with browser based file management available for basic upload, download, and folder navigation. The web file manager covers essential functions and includes share link creation plus thumbnail and preview handling, but it is not designed as a full productivity layer with collaborative editing or advanced file workflow tools. Client access is largely built around standard network shares and UniFi’s account-driven identity layer, and while the system can be deployed locally without relying on a UniFi account, the most integrated remote workflow is clearly designed around UniFi’s own UI and identity services rather than third party remote networking options.
Data protection features cover most of what is expected for a general purpose file NAS. UniFi Drive supports snapshots, encrypted storage, and configurable retention policies, which covers common rollback needs and basic ransomware recovery strategy when paired with sensible scheduling. Backup tooling is one of the stronger areas in terms of scope, supporting tasks to another UniFi NAS, to SMB targets, and to cloud services such as Google Drive, OneDrive, Dropbox, Amazon S3, Backblaze B2, and Wasabi. Time Machine support is also present for macOS environments, and Microsoft 365 backup is part of the broader UniFi Drive direction, even if the overall feature set remains more storage and protection focused than application focused.
The limitations are consistent with the UNAS 4’s role and its hardware profile. There is no iSCSI target support, which restricts certain virtualization, hypervisor, and block storage workflows, and there is no container or VM layer intended for running third party services directly on the device. NVMe support remains limited to SSD caching rather than separate pools, and on the UNAS 4 that caching is also constrained by the single 2.5GbE connection, which can cap how much of the cache benefit is visible over the network in sustained sequential transfers. More broadly, system level configuration remains relatively contained, with fewer advanced networking and scheduling controls than many established NAS platforms provide.
Client side tooling is also still relatively limited compared with ecosystems that offer a more developed sync, selective download, and offline pinning experience across desktop and mobile. UniFi Drive does provide client app support and identity driven access, but the overall workflow remains closer to traditional network share usage than to a full cloud drive style experience. As it stands, the software aligns with the UNAS 4’s positioning as a storage and backup appliance with a clean management layer, rather than a platform intended to replace a more feature dense NAS operating system.
UniFi UNAS 4 Review – Noise, Temp, Temp & Performance
In practical use, performance on the UNAS 4 is largely shaped by its single 2.5GbE connection. With mechanical drives, the system can deliver consistent transfer rates that sit within the expected ceiling of a 2.5GbE link, but it does not have the networking headroom to take full advantage of what a 4 drive array can potentially deliver under sustained sequential workloads. This is most noticeable when using higher capacity 7200 RPM drives, where the combined throughput of multiple disks can exceed the network limit even before SSD caching is factored in.
Testing with mixed file transfers showed typical throughput in the range of roughly 180 to 250 MB/s depending on file type and workload, with higher results generally observed once NVMe caching was enabled. A 50 GB Windows transfer completed at a pace that aligned with these figures, with sustained rates remaining stable rather than spiking briefly and then dropping sharply. The overall behaviour suggests that the device can maintain steady network limited transfers, but it is not designed to chase peak throughput beyond what 2.5GbE allows.
NVMe caching improved responsiveness and helped maintain higher sustained transfer speeds, particularly during repeated reads and writes where the cache could play an active role. However, the caching implementation is limited to acceleration rather than acting as a separate storage tier, and the benefit is workload dependent. Large sequential transfers still remain constrained by the network port, while smaller or more frequently accessed data sees more practical gains from the cache layer.
From an operational standpoint, power draw remained relatively modest for a 4 bay system. A baseline measurement with no drives installed was around 14.1 W. With 4 HDDs and 2 NVMe SSDs installed, idle power use was observed at around 46 W, rising to roughly 50 to 51 W under active read and write workloads with moderate CPU and memory utilization. The relatively small gap between idle and active indicates that drive idle draw forms a significant portion of the total consumption in typical day to day use.
UniFi UNAS 4 Review – Conclusion & Verdict
The UniFi UNAS 4 is a compact 4 bay NAS that prioritizes straightforward storage deployment, particularly for users already running UniFi hardware and UniFi management. Its pricing, PoE+++ support with an included adapter, NVMe caching capability, and generally simple physical drive access make it a practical option for core NAS tasks such as shared folders, backups, and centralized file storage. The hardware choices are consistent with that goal, and the platform is best assessed as a storage appliance rather than a general purpose server. On the software side, UniFi Drive provides the expected baseline services for this category, including SMB and NFS file access, RAID options, snapshots, encrypted storage, share links, and multi user management. Backup support is broader than the basics, with options that can include remote UNAS targets, SMB destinations, and several mainstream cloud services, along with Time Machine support for macOS. Management is clearly aimed at keeping configuration simple through a unified interface, but it also remains more limited than mature NAS platforms in areas such as deeper system tuning, third party remote access alternatives, and broader application style features.
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The trade offs are easy to identify. A single 2.5GbE port limits peak throughput and removes options such as link aggregation or network failover, which matters more on a 4 bay system than it would on a smaller unit. The NVMe slots are limited to caching rather than independent pools, and using them adds cost due to trays not being included. Cooling behaviour can become more noticeable if fan speed increases, and the USB C port currently operates mainly as an external drive attachment point rather than a broader expansion interface. Overall, the UNAS 4 makes the most sense when its role is kept narrow, and when UniFi Drive’s storage and backup feature set, alongside UniFi ecosystem integration, is a meaningful part of the purchase decision.
You can buy the UniFi UNAS 4 NAS via the link below – doing so will result in a small commission coming to me and Eddie at NASCompares, and allows us to keep doing what we do!
| PROs of the UniFi UNAS 4 | CONs of the UniFi UNAS 4 |
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Need Advice on Data Storage from an Expert?
Finally, for free advice about your setup, just leave a message in the comments below here at NASCompares.com and we will get back to you.UniFi Cloud Gateway Industrial – Should You Buy One?
UniFi Cloud Gateway Industrial – Did Ubiquiti Go Too Hard Here?
The UniFi Cloud Gateway Industrial and UniFi Cloud Gateway Fiber are positioned as high throughput UniFi gateways that also act as the controller for UniFi Network and other UniFi applications, so the buying decision is less about basic compatibility and more about which hardware package better fits the environment and the deployment style. The Fiber model is typically the lower cost entry point and focuses on compact desktop placement, multiple high speed WAN options, and optional local storage via an NVMe SSD for UniFi Protect. The Industrial model costs more and its appeal is tied to practical deployment factors rather than raw routing numbers: a heavier, ruggedized, fanless chassis intended to tolerate harsher placement, integrated WiFi 7 for situations where local wireless is useful at the gateway, built in microSD storage for NVR use out of the box, and a much higher PoE output budget that can power downstream devices directly. Both are rated for similar IDS/IPS throughput and similar scale on paper, so the price gap tends to come down to whether you actually need the Industrial model’s power delivery, integrated wireless, and physical design features, or whether you would get more value by choosing the Fiber model and putting the savings into switches, access points, cameras, storage, or redundancy elsewhere in the network.
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UniFi Cloud Gateway Industrial – Quick Conclusion
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The UniFi Cloud Gateway Industrial only makes sense at $579 if you will actually use what drives that price. That primarily means the 270W PoE budget with multiple PoE+++ 90W ports, the integrated WiFi 7 radio, the included 128 GB microSD for immediate Protect recording, and the tougher deployment profile. That deployment profile includes a fanless design, heavier build, higher operating temperature rating, and more mounting options. Those features can replace a separate PoE switch, a basic access point, and some setup time. They are most relevant in locations that are not ideal for a small desktop gateway. If your network already has a PoE switch and dedicated access points, the value shifts quickly. The same is true if you mainly want a fast UniFi controller and gateway with flexible uplinks, or if you would rather put $300 into more switching, an AP, cameras, or more storage capacity.
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In that case, the UniFi Cloud Gateway Fiber is generally the more rational buy. Both units share the same core platform traits that matter for routing and security workloads, including the 5 Gbps IDS/IPS rating. The Fiber’s higher WAN port count and 2x 10G SFP+ layout also fits conventional designs where WiFi and PoE are handled elsewhere. Put simply, the Industrial is a justified premium when it simplifies the overall bill of materials or solves placement constraints. It is hard to justify as an upgrade on performance alone. For typical indoor deployments, it usually makes more sense to buy the Fiber and allocate the difference to parts that materially expand the network.
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You can buy the UniFi UNAS Pro 4 NAS via the link below – doing so will result in a small commission coming to me and Eddie at NASCompares, and allows us to keep doing what we do!
UniFi Cloud Gateway Industrial (vs Fiber) – Design & Storage
Physically, the UniFi Cloud Gateway Industrial is built around a larger, heavier enclosure that is meant to stay in place rather than sit lightly on a shelf. In informal handling, it feels closer to a small piece of infrastructure gear than a typical compact gateway, which is consistent with its stated intent for rugged or semi permanent installs. By contrast, the Cloud Gateway Fiber is a low profile compact desktop unit, and its design reads more like a traditional small office gateway that can be placed near an ISP handoff or a small network stack.
The materials reflect that difference in intent. The Industrial uses a polycarbonate and aluminium alloy enclosure, while the Fiber uses polycarbonate. In practical terms, the Industrial’s metal content is more aligned with durability and heat management expectations in a fanless box that may be mounted in less forgiving places, whereas the Fiber’s lighter build aligns with a device expected to live in normal indoor environments.
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Mounting flexibility is also not equal. The Industrial is listed as supporting wall mounting, compact desktop placement, and rack mounting via an accessory sold separately. The hardware design includes elements intended to support reconfiguration and installation style changes without changing the device itself.
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The Fiber is primarily framed as a compact desktop form factor, which is typically fine for small racks or structured cabling areas only if you are comfortable improvising placement, rather than using a purpose built mounting approach.
Environmental tolerances are one of the clearest design separators. The Industrial is rated for an ambient operating range of -30 to 50 C, with 5 to 95 percent noncondensing humidity. The Fiber is rated for 0 to 40 C, also with 5 to 95 percent noncondensing humidity. If the gateway will be placed in a garage, loft, workshop, cabinet with poor airflow, or any space that regularly drifts outside typical indoor office temperatures, the Industrial’s ratings are the more relevant detail than most headline performance numbers.
Storage is where the devices take opposite approaches. The Industrial includes pre installed storage for NVR use, listed as a 128 GB microSD, and also supports microSD expansion. The Fiber does not ship with built in NVR storage, but supports selectable NVMe SSD storage up to 2 TB. In practice, the Industrial’s included microSD makes Protect usable immediately for light camera retention without additional parts, while the Fiber’s NVMe approach is better aligned with longer retention targets and scaling camera storage without relying on removable flash media
UniFi Cloud Gateway Industrial (vs Fiber) – Internal Hardware
At the core, both gateways sit on a very similar compute platform: a quad core ARM Cortex A73 CPU clocked at 2.2 GHz with 3 GB of system memory. In practical terms, that means neither device has an inherent advantage in baseline controller duties like running UniFi Network alongside other UniFi applications, or handling typical gateway services such as stateful firewalling, VPN termination, and traffic analysis.
The key performance headline for security enabled routing is also aligned. The Cloud Gateway Fiber is rated at 5 Gbps IDS/IPS throughput, and the Industrial model is positioned at the same 5 Gbps figure in the specifications you provided. That sets a realistic expectation that the price difference is not being driven by faster IDS/IPS, and that either unit can be the bottleneck if the goal is to inspect traffic at speeds above that rating.
Where the internal design diverges is less about raw compute and more about what each device integrates around that shared platform. The Industrial model bundles additional subsystems into the chassis, including a built in WiFi 7 radio, PoE switching hardware with much higher total PoE delivery, and cellular related features such as SIM slots intended for use with UniFi cellular hardware. Those additions change the role of the device from a gateway plus controller into something closer to a gateway, small switch, and basic wireless node combined, which can simplify certain installations where power and connectivity need to be consolidated.
The Fiber model stays more focused on being a high speed gateway with multiple WAN options and scalable local storage via NVMe for Protect, rather than integrating WiFi and high power PoE into the same chassis. In a typical structured network design, that aligns with the approach of keeping wireless and switching as separate components. In a more compact or power constrained install, the Industrial’s integrated approach can reduce the number of separate devices, but it also means you are paying for features you might not use if you already have dedicated switches and access points.
UniFi Cloud Gateway Industrial (vs Fiber) – Ports and Connections
Both gateways are built around multi WAN capability and a mix of 10 GbE and 2.5 GbE connectivity, but they prioritize different things. The Fiber model pushes WAN flexibility and high speed uplinks, listing a max WAN port count of 6. The Industrial model lists a max WAN port count of 5 and instead leans into powering downstream equipment directly through multiple high wattage PoE ports.
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On the Cloud Gateway Fiber, the physical layout is centered on high speed copper and fiber. It includes (2) 10G SFP+ ports, (1) 10 GbE RJ45 port, and (4) 2.5 GbE RJ45 ports. Its default WAN configuration is shown as (1) 10G SFP+ and (1) 10 GbE RJ45, which makes it straightforward to mix fiber and copper upstream, or to reserve additional ports for LAN and internal switching depending on how you assign roles inside UniFi.
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On the Cloud Gateway Industrial, the port layout is more explicit about power delivery. It has (4) 2.5 GbE RJ45 ports split as (2) PoE+++ and (2) PoE+, plus (1) 10 GbE RJ45 port that is PoE+++, and (1) 10G SFP+ port. The default WAN ports are listed as (1) 10 GbE RJ45 and (1) 2.5 GbE RJ45. In other words, it gives up some of the Fiber model’s extra high speed uplink optionality in exchange for multiple powered Ethernet outputs, including 90W class ports intended for higher draw devices.
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Power input design also differs because it sets limits on what the PoE side can realistically do. The Industrial lists a PoE budget of up to 270W on DC input, with a 54V 350W adapter included, and it also supports an ATX power input (48V) with a lower PoE budget listed at 75W. The Fiber lists a much smaller PoE budget of 30W and is powered via a 54V DC jack with a 1.1A adapter. Excluding PoE output, both are in the same general range for the gateway itself, listed at 28W max for the Industrial and 29.4W max for the Fiber, but the Industrial’s power system is sized for PoE heavy deployments.
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The Industrial also adds non Ethernet connectivity that the Fiber does not include. It has integrated WiFi 7 on 2.4 GHz and 5 GHz with external antenna support, and it includes 2 SIM slots intended for use with UniFi cellular hardware. The Fiber does not integrate WiFi or SIM slots, so wireless and cellular failover are typically handled by separate UniFi devices rather than being built into the gateway.
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UniFi Cloud Gateway Industrial vs Cloud Gateway Fiber – Where Has $300 Been Spent?
At $579 versus $279, the Industrial is asking you to pay about $300 extra for a different kind of gateway bundle rather than a higher routing ceiling. Both platforms align on the core controller and gateway capability, including the same general IDS/IPS rating, so the decision largely comes down to whether you will use the Industrial model’s integrated features and physical design enough to offset the price difference. The biggest measurable value add is PoE output. The Fiber’s PoE budget is 30W total, which covers a single low to moderate power device, but it does not change how you design a network. The Industrial can deliver up to 270W of PoE output on DC input, with multiple ports supporting PoE+++ up to 90W per port. If your plan includes powering higher draw devices directly from the gateway, or you want to avoid adding a separate PoE switch in a small installation, that difference can replace other hardware and simplify cabling.
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The next set of value drivers are convenience and deployment constraints. The Industrial includes integrated WiFi 7 (2.4 GHz and 5 GHz) with external antennas, plus dual SIM slots intended for cellular related UniFi use, and it is built for harsher placement with a higher listed operating temperature range. Those are specific benefits when the gateway needs to live in less controlled spaces, when a basic local wireless link at the gateway is useful, or when you want those functions inside a single enclosure. If you already plan to deploy dedicated access points, dedicated switching, and a separate failover device, these integrated features are less likely to change the design. Storage is a smaller part of the $300, but it affects out of box readiness. The Industrial includes 128 GB microSD intended for NVR use, so Protect storage exists immediately with no additional parts. The Fiber can scale higher with an NVMe SSD up to 2 TB, but that storage is optional and adds cost. If Protect is a core requirement and you want higher retention, the Fiber can still end up costing more once storage is added, while the Industrial starts with basic capacity included.
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UniFi Cloud Gateway Industrial – Verdict & Conclusion
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The UniFi Cloud Gateway Industrial is primarily justified by what it combines into a single chassis, and by where it is intended to live. The unit pairs a fanless, ruggedized enclosure and higher temperature tolerance with integrated WiFi 7 (2.4 GHz and 5 GHz) using external antennas, multi port PoE output that includes PoE+++ at up to 90W per port, and a high total PoE budget when powered from its included 54V adapter. It also includes pre installed microSD storage aimed at NVR duties, plus SIM slots that are designed around supported UniFi cellular integrations. None of these features change the stated IDS/IPS ceiling compared with other similar gateways, but they do change what additional equipment is required in smaller or more constrained deployments.
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The value case depends on whether those integrated functions replace other purchases. If you would otherwise buy a separate network gateway, a WiFi access point or router, and a PoE+++ capable switch to power downstream devices, the combined cost and installation complexity can narrow the apparent price gap and in some cases make the Industrial model the simpler, potentially cheaper route overall. If your design already assumes dedicated switching, dedicated wireless, and storage sized beyond what a microSD setup can reasonably provide, the Industrial model’s premium is more likely to be paying for capabilities you do not use. In that situation, the practical advantage of the Industrial is mainly its physical build and power delivery, not a different performance class for routing and security inspection.
| Here are all the latest UniFi Gateway Network PoE Solutions & Prices: |
You can buy the UniFi UNAS Pro 4 NAS via the link below – doing so will result in a small commission coming to me and Eddie at NASCompares, and allows us to keep doing what we do!
| PROs of the UniFi Cloud Gateway Industrial | PROs of the UniFi Cloud Gateway Industrial |
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Finally, for free advice about your setup, just leave a message in the comments below here at NASCompares.com and we will get back to you.UniFi UNAS Pro 4 NAS Review
Review of the UniFi UNAS Pro 4 NAS – Possibly the Best Value 1U Rack Ever?
Over the last 18-24 months, Ubiquiti has shifted the ‘UniFi’ label from being a networking and bridging ecosystem into a wider storage hardware and software platform that now includes a steadily expanding NAS line under UniFi Drive. Early UniFi UNAS storage products leaned heavily on simple file sharing and basic backup, but the pace of updates and the broader product rollout in 2025/2026 pushed the range closer to what small business buyers expect from an entry level NAS platform: clearer storage management, stronger snapshot and backup tooling, and tighter integration with the UniFi account and identity layer for remote access and user control (with the recent Drive 4.0 Update really uping their game considerably). The UniFi UNAS Pro 4 sits within that context as a compact 1U, 4 bay rack mount system designed mainly for file storage and sharing over SMB and NFS, rather than running third party applications, containers, or virtual machines. At $499, it is priced noticeably lower than many competing 1U rack NAS products at broadly comparable “headline” hardware, particularly where dual 10Gb networking and NVMe caching are concerned, which makes it hard to ignore if the goal is simple, high bandwidth storage in a rack footprint without moving into significantly higher spend.
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UniFi UNAS Pro 4 Review – Quick Conclusion
The UniFi UNAS Pro 4 is a 1U, 4 bay rack mount NAS aimed at straightforward SMB and NFS file storage, and its main differentiator is value: at $499 it undercuts many comparable 1U rack units while still offering 2x 10Gb SFP+ plus a separate 1GbE management port, 4 hot swap bays for 3.5 inch or 2.5 inch drives, and 2 M.2 NVMe slots for read and write caching. In testing with 4 HDDs in RAID 5 over 10GbE, it delivered strong real-world file transfer results for a small SATA array, with synthetic benchmarks showing high peak throughput but some variability depending on the tool used, and the platform’s power draw and noise profile were heavily influenced by drive choice and fan mode, including very loud output if maximum cooling is forced. UniFi Drive covers the core fundamentals expected at this level, including snapshots, encrypted volumes, and a wide range of backup targets (NAS, SMB, and multiple cloud services, with Microsoft 365 direction evident in recent updates), but the interface still limits deeper tuning in places and the feature set remains focused on storage rather than apps. The main downsides are structural and easy to identify up front: NVMe can only be used for cache rather than storage pools, the NVMe carriers are an extra purchase, there are no USB ports for local copy tasks, the PSU is internal and not a hot swap module, and missing features like iSCSI, ECC, and RAM upgradability place a clear ceiling on more advanced workloads, though those trade-offs are broadly consistent with a $499 ‘turnkey’ NAS appliance in 2026 though and hard to criticise!
8.4
Dual 10Gb SFP+ networking is unusual in a 1U 4 bay NAS at this price point + failover will not result in bandwidth throttle
A separate 1GbE port is useful for management or fallback connectivity
1U chassis with relatively short depth is easier to fit in smaller racks and cabinets
Rails and rack hardware included, reducing extra setup cost and friction
Ubiquiti and UniFi online/brand services are optional (i.e pure offline/LAN is possible)+ no need for a Ubiquiti/UniFi network setup to use
NVMe read and write caching support can improve responsiveness in mixed workloads
UniFi Drive provides snapshots, encryption, and a broad set of backup targets (NAS, SMB, and multiple cloud providers)
Setup and management are streamlined, especially for users already running UniFi infrastructure
Drive 4.0 Update scales up the Business Utilities notably
NVMe is cache only, with no option to use M.2 drives as primary storage pools
NVMe trays or carriers are not included, adding extra cost and an extra purchase step
Single PSU (no redundency) and non-slide removable SFX/ATX PSU (relies on propriatary UniFi Battery Backup rack module or external UPS)
No NAS Expansion Support, so 4 HDDs are your limit
| Here are all the current UniFi NAS Solutions & Prices: |
You can buy the UniFi UNAS Pro 4 NAS via the link below – doing so will result in a small commission coming to me and Eddie at NASCompares, and allows us to keep doing what we do!
UniFi UNAS Pro 4 Review – Design & Storage
The UNAS Pro 4 uses a conventional 1U rack mount layout, with a plain, functional front panel and an all metal enclosure intended for permanent installation rather than desktop use. It ships with rails and rack handles, which removes the usual extra step of sourcing mounting hardware separately. The chassis depth is about 400 mm, so it is not in the “full depth server” category, and that helps in smaller cabinets where rear clearance and cable management space can be limited.
Across the front are 4 hot swap bays supporting both 3.5 inch and 2.5 inch SATA drives. The trays are set up for tool-less 3.5 inch HDD installation with a click-in fit, while 2.5 inch SSDs still require screws to secure them properly. Each bay has status lighting, and the front panel also provides system level indicators so you can identify basic state and drive activity at a glance without logging into the interface. The trays feel rigid and spring-loaded, but they are not lockable, which is a practical consideration if the unit is placed in a shared rack or anywhere physical access is not strictly controlled.
From a capacity and planning perspective, this system is defined by its fixed 4 bay layout. You can configure a conventional RAID group within those bays, but there is no built-in path to scale beyond the internal slots, and there is no supported external expansion shelf option to push the same chassis further later on. That means the decision on drive sizes and redundancy level matters upfront, because the ceiling is reached quickly compared with higher bay count rack units. In a small rack deployment, it also means the unit is either a compact standalone store or part of a broader multi-NAS approach rather than a single box that grows over time.
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In addition to the SATA bays, the chassis supports 2 M.2 NVMe slots intended specifically for SSD caching. The caching model is designed to accelerate HDD-based storage by using SSDs as a performance layer, rather than allowing NVMe drives to become their own primary pool for general file storage. Practically, that positions the NVMe feature as a supplement for mixed workloads, such as improving responsiveness for frequently accessed data and smoothing write behavior, rather than a route to running the system as a small all flash NAS.
A design detail that affects the storage experience is the physical NVMe mounting method. Instead of a simple screw-down slot on a board, the NVMe drives are installed via a tray or carrier mechanism, and that carrier is not included with the base unit. The carrier itself is neatly engineered with a clip-in style insertion and thermal padding, and it supports common M.2 lengths including 2280 and 22110, but requiring an additional part adds friction if caching is part of the plan from day 1. It is a small issue, but it is the kind of detail that can slow down an otherwise straightforward deployment.
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UniFi UNAS Pro 4 Review – Internal Hardware
The UNAS Pro 4 is built around a quad core ARM Cortex-A57 CPU clocked at 2.0 GHz and paired with 8 GB of memory, which sets expectations for the type of workloads it is designed to handle. This is not a platform aimed at heavyweight compute tasks, but for file services and scheduled backup activity it has enough headroom to keep the system responsive, particularly when multiple users are accessing shared folders and snapshots are being taken in the background.
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The CPU choice also reflects a focus on predictable appliance behavior and lower overall platform complexity rather than maximum expandable performance.
Internally, the power system is a single 150 W unit mounted inside the chassis rather than a hot swap module, which influences servicing and downtime planning. If the PSU fails, replacement is more involved than swapping an external canister, and that is a meaningful difference compared with rack systems that use easily replaceable redundant modules.
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The unit does, however, support UniFi’s USP-RPS DC input as an alternative redundancy method, which changes the redundancy approach from “dual PSU in the chassis” to “centralized redundant supply for multiple devices,” with different trade-offs in cost, cabling, and rack layout.
A further internal design choice is how the system treats its software environment as a dedicated appliance rather than an OS sharing space with user storage. The system software runs on its own internal storage rather than living on the same disks that hold your data. In practical terms, that reduces the chance of the OS being affected by changes to the main array, and it can make maintenance tasks like drive replacement or pool rebuilds feel more self-contained, because the unit remains manageable even while the primary storage is under stress.
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ARM-based NAS platforms typically bring some efficiency advantages, and this model follows that general pattern. The CPU class and memory configuration are aligned with lower baseline overhead than many x86 NAS designs, which can help keep idle draw and sustained power use in check relative to equivalent rack hardware, though drive choice still dominates the total. The trade-off is a lower performance ceiling compared with modern x86 systems for certain workloads, plus the usual limitations seen in this category: no practical RAM upgrade path, no ECC support, and fewer options for buyers who want to push beyond file services into heavier compute. At $499, those omissions are consistent with the target price bracket in 2026 rather than being unexpected corner cutting.
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UniFi UNAS Pro 4 Review – Ports and Connections
The rear connectivity is centered on 2x 10Gb SFP+ ports, and that is the defining hardware choice for this NAS in a 1U, 4 bay format. It allows the unit to be placed into a 10Gb environment without adapters, and it also opens up practical options beyond raw throughput, such as separating traffic types, connecting into different switches, or keeping a second path available for failover. The choice of SFP+ over 10GBase-T will suit users already running fiber or DAC links in a rack, but it can be less convenient for small setups built around copper RJ45.
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Alongside the 10Gb ports is a separate 1GbE RJ45 port that can be used for management or for general connectivity in networks where 10Gb is not available everywhere. In a mixed UniFi environment, this is useful because it avoids tying basic onboarding and administration to a 10Gb port that might be better reserved for file traffic. It also gives a simple fallback path for access and troubleshooting if the 10Gb side is being reconfigured, moved between switches, or temporarily taken offline.
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What is missing is just as relevant as what is included. There are no USB ports for quick ingest, offline copy tasks, or attaching temporary media, which some rack NAS platforms still provide for convenience even in 1U designs. Wireless is not a focus here, though Bluetooth is present for initial setup workflows, which fits the product’s “appliance onboarding” approach more than it does ongoing connectivity. The result is a port layout that prioritizes network-first storage and rack integration, while leaving out local expansion and quick-access I/O features that some users expect on a NAS.
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However, (and I am sounding like a broken record at this point) at $499, these ports and connections are a notable degree more than most other turn-key NAS solutions from Synology, QNAP and even Terramaster (the more budget end of the NAS market already) are offering at under 500! So, what is presented here is a great value Day 1 solution in terms of base connectivity, but there is no denying that it might well feel the pinch in 5 years down the road when your storage is filling and your storage speeds begin to bottleneck vs your other equipment bandwidth.
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UniFi UNAS Pro 4 Review – Testing Noise, Temps, Power Consumption & Speed
Performance here needs to be framed around the physical limits of 4 SATA bays and the role of SSD caching. Even with dual 10Gb networking available, a 4 drive HDD array has a throughput ceiling that will be reached long before the network becomes the bottleneck in most single-client scenarios. The value of 10Gb in this context is less about hitting theoretical maximums and more about maintaining higher transfer rates consistently, handling multiple simultaneous users, and keeping latency lower when lots of smaller operations are happening alongside big file moves.
In testing with 4 HDDs in a RAID 5 configuration over a 10Gb link to a Windows 11 client, measured throughput landed in the range expected of a well-tuned 4 disk array. Using AJA with a repeated 1 GB test file, results sat around 680 to 730 MB/s for download and 520 to 600 MB/s for upload. A real-world Windows file transfer of 101 GB made up of 1,231 mixed files completed in 3 minutes and 57 seconds, which works out at an average of about 426 MB/s across the transfer, reflecting the usual drop from synthetic peak results when file variety and filesystem overhead are introduced.
Synthetic benchmarking results varied depending on the tool used, which is not unusual when caching behavior and test patterns differ. CrystalDiskMark with a 1 GB test file reported 353 MB/s read and 429 MB/s write in this run, with write coming out higher than read, which is atypical enough to treat as an outlier pending further retesting. ATTO produced stronger peak figures of 860 MB/s read and 570 MB/s write at the top end, which aligns more closely with the best-case behavior seen in sequential-focused tests on multi-drive arrays.
Noise, power draw, and thermal behavior were also measured because they affect rack placement and operating cost. With the fan profile set to auto and drives idle, noise sat around 42 to 44 dBA, dropping to roughly 38 to 40 dBA in the lowest RPM mode. Manually forcing maximum cooling pushed noise to around 56 to 57 dBA, and that level remained dominant even when drive activity increased, suggesting the cooling system prioritizes aggressive airflow when pushed. Power consumption with 4 enterprise HDDs measured roughly 49 to 50 W at idle and 60 to 62 W under activity, while swapping to 4 SATA SSDs reduced that to around 32 W during synchronization, underlining how drive choice can change the overall profile as much as the base platform.
UniFi UNAS Pro 4 Review – Software and Services
The UNAS Pro 4 runs UniFi Drive and is managed through the same style of web interface used across the broader UniFi portfolio, with system status, storage, backups, and user access presented in a single dashboard. For basic NAS use, the core functions are in place: creating storage pools, managing shares, enabling file services, and monitoring drive health. The interface is generally structured around doing common tasks quickly rather than exposing every possible tuning option, which keeps setup approachable but also limits deeper control in areas that some experienced NAS users look for.
File access is centered on SMB and NFS, with browser-based file management available for basic upload, download, and folder navigation. The browser file manager covers the essentials and includes sharing link creation, but it is not positioned as a full productivity layer with advanced file handling or rich collaboration features. Remote access and identity-based access tools are tied into UniFi’s account and identity layer, and while local-only deployment is possible, the most integrated remote workflow is clearly designed around UniFi’s own services rather than third party remote networking tools.
Storage protection features include snapshot support, encrypted volumes, and configurable retention policies, which addresses most common rollback and recovery needs for file storage. Backup tooling covers several targets, including backing up to another UniFi NAS, to SMB targets, and to cloud services such as Google Drive, OneDrive, Dropbox, Amazon S3, Backblaze B2, and Wasabi, with Microsoft 365 backup support also part of the broader UniFi Drive direction. These features reflect the brand’s recent focus on strengthening data protection rather than expanding into application hosting or media server style functionality.
The gaps are consistent with the product’s current scope. There is no iSCSI target support, which limits certain virtualization and block-storage workflows, and there is no container or VM layer for running third party services directly on the NAS. NVMe usage remains limited to caching rather than becoming its own storage pool, which narrows the performance paths available if the goal is to build a small all-flash volume.
Client-side tooling is also still limited compared with platforms that provide a dedicated sync-and-pin application, with access leaning on standard network shares and UniFi’s identity-driven access methods rather than a full drive-style client experience.
UniFi UNAS Pro 4 Review – Conclusion & Verdict
The UNAS Pro 4 is a focused 1U, 4 bay NAS that prioritizes networked file storage and straightforward deployment over broader application support. The hardware choices align with that goal: dual 10Gb SFP+ connectivity, 4 hot swap bays, and optional NVMe caching provide a platform that can deliver strong file transfer rates for a small array, while the ARM-based design keeps the system positioned as an appliance rather than a general-purpose server. Its main compromises are largely structural rather than hidden: fixed bay count with no expansion path, NVMe limited to cache, no USB I/O for local tasks, and a single internal PSU rather than a hot swap redundant design.
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At $499, the value case is driven by how much rack-oriented networking is included at a price that undercuts many comparable 1U NAS systems, especially those offering 10Gb as standard. The software is usable for core storage tasks and has clearly improved over the last year in areas like snapshots and backup targets, but it still leaves out features that matter to some buyers, including iSCSI and a fuller client sync experience. For users who want a compact rack NAS primarily for SMB or NFS file storage with modern backup and snapshot features, it fits its role well; for users expecting a broader NAS app ecosystem or more hardware serviceability, the limitations are likely to be decisive. But, as Delboy once said, at this price, “what do you want? Jam on it?”. This system is giving more at this price than anyone else right now and for its limitations, for many these will be paletable in the grand scheme of things. 1U 4Bay rackmounts has always been something that most turnkey NAS brands treat poorly, due to the low saturation point of four SATA drives and why waste more capable hardware on that? In that sense, Ubiquiti is really piling on the hardware here at this price – and I for one applaud this.
| Here are all the current UniFi NAS Solutions & Prices: |
You can buy the UniFi UNAS Pro 4 NAS via the link below – doing so will result in a small commission coming to me and Eddie at NASCompares, and allows us to keep doing what we do!
| PROs of the UniFi UNAS Pro 4 NAS | PROs of the UniFi UNAS Pro 4 NAS |
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This description contains links to Amazon. These links will take you to some of the products mentioned in today's content. As an Amazon Associate, I earn from qualifying purchases. Visit the NASCompares Deal Finder to find the best place to buy this device in your region, based on Service, Support and Reputation - Just Search for your NAS Drive in the Box Below