Why are NAS Systems not 10GbE as Standard Right Now?
It is 2025, yet the majority of NAS systems on the market continue to ship with 1GbE or, at best, 2.5GbE networking, leaving many users questioning why 10GbE has not become a standard feature. Over the past decade, the cost of 10GbE networking equipment, including switches, NICs, and adapters, has steadily declined, and the technology has long since moved from being an enterprise-only option into mainstream availability. Home labs, creative professionals, and small businesses are increasingly working with 4K and 8K media, large VM environments, and multi-terabyte datasets, all of which can easily saturate a 1GbE or even 2.5GbE connection. Despite this shift, when browsing the portfolios of Synology, QNAP, Asustor, TerraMaster, or even newer DIY-friendly NAS brands, the entry-level and mid-tier systems remain locked at bandwidth speeds that are already dwarfed by modern SSD arrays and multi-bay RAID configurations.
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This gap between user expectations and manufacturer offerings has become more striking as affordable consumer motherboards and even some mini-PCs now integrate 5GbE or 10GbE as standard. By contrast, NAS vendors still tend to position 10GbE as a high-end add-on or restrict it to flagship models, often requiring costly proprietary NIC upgrades. For the average buyer, this creates the perception that NAS devices are lagging behind broader networking trends and are artificially constrained to maintain price tiers. The reality is more complex. The question of why 10GbE has not become universal in NAS hardware cannot be answered solely by pointing to falling market prices of controllers and switches. Instead, the explanation lies in a mix of economics, hardware design limitations, CPU lane allocations, and the fact that networking itself is evolving beyond 10GbE into alternatives like 25GbE and USB4. All of these factors together show why the integration of 10GbE into NAS devices remains more complicated than it may first appear.
Discussing the Issue / Barriers to Manufacturers
One of the most persistent barriers to universal 10GbE adoption in NAS systems is the economic reality of how these devices are positioned. Vendors like Synology, QNAP, and Asustor operate in a layered product ecosystem, where each tier is designed to push customers toward more expensive models. Entry-level devices often compete on affordability rather than raw performance, meaning that features like 10GbE are deliberately held back to differentiate mid-range and enterprise systems. The actual bill of materials (BOM) cost for including 10GbE hardware is lower than it was five years ago, but manufacturers still view it as a premium feature that justifies higher price points. By holding 10GbE in reserve for upper tiers, vendors protect their margins, avoid cannibalising sales of more profitable models, and keep upgrade paths clear for customers as their needs grow. This is not simply technical gatekeeping but a conscious market segmentation strategy.
A second, more technical challenge comes from CPU and chipset design. The processors used in affordable NAS devices are almost always low-power embedded models—Intel Celeron, Atom, or entry-level AMD Ryzen Embedded chips—which provide only a limited number of PCIe lanes. These lanes must be distributed across storage controllers, NVMe slots, expansion slots, and network interfaces. Introducing 10GbE requires not only dedicating at least two, and often four, PCIe lanes, but also ensuring that the CPU can handle the higher throughput without becoming the bottleneck. If a vendor reallocates lanes to add 10GbE, they may have to reduce the number of NVMe slots, cut down on SATA ports, or compromise expansion card bandwidth. For many manufacturers, it is simpler to leave 10GbE out of the base design than to risk producing a system that looks good on paper but struggles to deliver in practice.
Beyond lane allocation, there is also the issue of power, thermals, and board layout. 10GbE controllers typically draw more power and generate more heat than 1GbE or 2.5GbE chips. In compact NAS enclosures designed for low-noise operation, this can force more aggressive cooling solutions or tighter thermal management. For brands already working within strict acoustic and energy efficiency limits, especially in home or small office NAS devices, the integration of 10GbE becomes a balancing act between speed and stability. Higher thermal load can also reduce the overall lifespan of components or require larger enclosures, both of which erode the appeal of entry-level systems where buyers expect compact and efficient designs.
Another factor that discourages widespread 10GbE adoption is ecosystem alignment. NAS vendors are keenly aware that a large percentage of their target audience does not yet operate in 10GbE-ready environments. Even though 10GbE switches and NICs are more affordable in 2025, many households and small offices still rely on routers and switches with 1GbE or 2.5GbE uplinks. For these users, the inclusion of 10GbE would have little practical benefit, since the rest of the network infrastructure cannot support it. From the manufacturer’s perspective, bundling 10GbE into a device that will simply be throttled by the customer’s network backbone risks making the feature look pointless, or worse, “non-functional.” As such, 10GbE tends to be reserved for prosumer and enterprise segments, where it is more likely that users already have or are willing to invest in compatible infrastructure.
Finally, there is a subtle but important business factor at play: vendor ecosystems and upsell opportunities. Many NAS brands sell proprietary 10GbE upgrade cards or branded NICs, which can only be used with their systems. By omitting onboard 10GbE but providing expansion slots, vendors create an additional revenue stream while giving customers flexibility to upgrade later. This model also ensures that users who truly require 10GbE end up spending more within the brand’s ecosystem, while casual buyers stick to lower-cost systems that do not overdeliver. In this sense, the absence of 10GbE on affordable NAS units is not only about technical limitations, but also about preserving a staged upgrade model that aligns with each brand’s long-term revenue strategy.
The Solution – How Can 10GbE Be More Accessible?
The landscape for 10GbE networking hardware has improved significantly in the last few years, with controllers becoming cheaper, more efficient, and easier to integrate into consumer systems. Early 10GbE relied heavily on costly Intel or Mellanox chipsets designed primarily for enterprise servers, often priced in the hundreds of dollars per card. Today, vendors such as Realtek, Aquantia (now under Marvell), and Broadcom produce consumer-focused 10GbE controllers that are smaller, run cooler, and consume less power. These newer chipsets are also designed to integrate more smoothly with mainstream CPUs and motherboards, reducing the need for complex PCB layouts. The result has been a marked reduction in the cost of standalone NICs and USB-to-10GbE adapters, which now frequently sell for under $100, making them accessible even for home users experimenting with faster networking.
Even with this progress, manufacturers remain hesitant to make 10GbE a baseline feature across all NAS devices. Part of the reason lies in how modern NAS systems must juggle limited resources. As CPUs have shifted to PCIe Gen 4 and Gen 5, the available bandwidth has increased, but vendors are also using these lanes to expand NVMe storage pools, enable GPU acceleration, or add AI-focused co-processors for surveillance, indexing, or media analysis. In many cases, vendors see greater value in offering more M.2 slots, dual PCIe expansion options, or flexible NIC bays than in permanently dedicating space to 10GbE. This explains why hybrid designs are now common: devices shipping with 2.5GbE or 5GbE onboard, with a dedicated slot for an optional 10GbE card. Such configurations give users a faster-than-gigabit baseline, but also keep upgrade paths open for power users who truly need multi-gigabit networking.
The state of 10GbE is also being influenced by the rapid adoption of adjacent technologies. 2.5GbE has become the de facto standard in new consumer motherboards and mid-tier switches, offering a cheap and widely compatible upgrade path for everyday users who want more than 1GbE without changing their cabling. At the other end of the spectrum, higher-speed networking such as 25GbE or 40GbE is filtering down from data centres to advanced prosumer setups, while direct-connect solutions like Thunderbolt 4 and USB4 offer bandwidth well beyond 10GbE with less CPU overhead and simpler plug-and-play deployment. Software optimisation is also playing a role: modern NAS operating systems increasingly support IP over Thunderbolt or USB4, which provides a parallel path to multi-gigabit performance without the traditional reliance on Ethernet standards. As a result, 10GbE finds itself squeezed in the middle—too expensive to be a no-brainer at the entry level, but increasingly overshadowed by faster alternatives at the top end. It remains a critical sweet spot for small businesses and creative professionals, but its window of dominance is being challenged by the pace of networking innovation.
Verdict and Conclusion – Buy a 10GbE NAS Now or Wait?
The question of why 10GbE has not become a standard feature across NAS devices in 2025 does not have a single answer, but rather a convergence of factors. Manufacturers face technical challenges in CPU lane allocation, thermal management, and system design, while also making deliberate market choices to protect product segmentation and encourage upsell opportunities. At the same time, 10GbE sits in an awkward position within the networking landscape: cheaper and more efficient than ever, yet increasingly bypassed by the widespread adoption of 2.5GbE on the low end and the emergence of 25GbE, Thunderbolt, and USB4 on the high end. For now, this means that 10GbE remains reserved for higher-tier NAS systems where the hardware can genuinely sustain its throughput and where the user base is prepared to invest in compatible infrastructure. While prices will continue to fall and adoption will grow, it is unlikely that every NAS will adopt 10GbE as standard before other technologies begin to replace it as the next performance baseline.
5 affordable Turnkey 10GbE NAS Solutions (Between $499 and $699)
For years, 10GbE networking has been seen as a premium feature reserved for high-end or enterprise-grade NAS devices, often pushing total system costs well beyond the reach of home users and small businesses. However, as controller prices have dropped and demand for faster data transfers has grown, a new wave of affordable NAS solutions has started to appear with built-in 10GbE. These systems no longer require expensive proprietary upgrade cards or third-party NICs, and many sit comfortably below the $699 / £599 price point. They cover a range of use cases, from compact SSD-based NAS devices to rackmount storage appliances and versatile desktop units. Below is a selection of some of the most notable options currently available, each offering a balance of performance, connectivity, and affordability for users who want to move beyond 1GbE or 2.5GbE without breaking the bank.
UniFi UNAS Pro (7-Bay, Rackmount)
I keep coming back to two words for the UniFi UNAS Pro—fundamentals and consistency. UniFi has clearly focused on making this system a strong addition to their ecosystem, prioritizing the essential storage needs of a NAS. They’ve succeeded in this, but comparisons with long-established competitors are inevitable. While solid, reliable, and stable, the UniFi UNAS Pro will take time to be competitive on the software front. If you’re deeply invested in the UniFi ecosystem, you’ll appreciate its ease of use and integration. However, outside of a UniFi network, it may feel feature-light compared to alternatives. The pricing is competitive for a launch product at $499, and while it’s not the best NAS on the market, it’s the most user-friendly and UniFi-ready. It will likely satisfy many users’ needs. I can certainly see this being integrated into existing UniFi networks as a 2nd stage backup alongside their already existing 3rd party NAS solution, with the potential to graduating to their primary storage as Ubiquiti continue to evolve this platform above and beyond the fundamentals their have nailed down in the UNAS Pro system.
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Approx. Price: $499 / £400
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Specs: ARM Cortex-A57 quad-core CPU, 8 GB RAM, seven 2.5″/3.5″ SATA bays, 1×10GbE SFP+ and 1×1GbE.
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Why It Stands Out: Exceptional price-to-performance for pure storage needs. Lacks advanced multimedia or container apps but ideal for high-speed backups in a rackmount setup.
Asustor Flashstor 12 Gen 1 (Compact NVMe NAS)
The Asustor Flashstor Gen 2 12-Bay NAS is a robust and versatile solution for users with demanding storage needs. Its combination of high-performance hardware, extensive connectivity options, and compact design makes it a standout choice for content creators, small businesses, and enthusiasts. With dual 10GbE ports, USB 4.0 connectivity, and support for up to 12 M.2 NVMe drives, it offers exceptional speed and scalability. While the device has a few quirks, such as its mixed PCIe slot speeds and lack of M.2 heat sinks, these are manageable with proper planning and aftermarket solutions. The Flashstor Gen 2 excels in raw performance, handling intensive workflows with ease and maintaining low noise levels even under load. Its power efficiency and robust thermal management further enhance its appeal for 24/7 operation. For users prioritizing hardware capabilities and performance, the Flashstor Gen 2 delivers on its promises. While its complexity may deter less experienced users, those with the technical expertise to configure and optimize the system will find it a valuable addition to their workflow.
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Approx. Price: $750 / £600
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Specs: Intel Celeron N5105, 12×M.2 NVMe slots, single 10GbE port, compact form factor.
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Notable Traits: High-density SSD storage in a small desktop chassis. Excellent value for SSD-heavy builds.
UGREEN NASync DXP4800 Plus
BOTTOM LINE – The UGREEN NASYnc DXP4800 Plus does not feel ‘finished’ yet and still needs more time in the over, but UGREEN have been very clear with me that this product is not intended for release and fulfilment till summer 2024 and improvements, optimization and product completion is still in progress. Judging the UGREEN NAS systems, when what we have is a pre-release and pre-crowdfunding sample, was always going to be tough. The DXP4800 PLUS is a very well put-together NAS solution, arriving with a fantastic launching price point (arguably even at its RRP for the hardware on offer). UGREEN has clearly made efforts here to carve out their own style, adding their own aesthetic to the traditional 4-bay server box design that plagues NAS boxes at this scale. Equally, although they are not the first brand to consider Kickstarter/Crowdfunding for launching a new product in the NAS/personal-cloud sector, this is easily one of the most confident entries I have seen yet. The fact that this system arrives on the market primarily as a crowdfunded solution (though almost certainly, if successful, will roll out at traditional retail) is definitely going to give users some pause for thought. Equally, the UGREEN NAS software, still in beta at the time of writing, although very responsive and nailing down the basics, still feels like it needs more work to compete with the bigger boys at Synology and QNAP. Hardware architecture, scalability, and performance are all pretty impressive, though the performance of the Gen 4×4 M.2 NVMe slots didn’t seem to hit the numbers I was expecting. Perhaps a question of PCIe bottlenecking internally, or a need for further tweaking and optimization as the system continues development. Bottom line, with expected software updates to roll out closer to launch and fulfillment, such as an expanded App center and mobile client, the UGREEN DXP4800 Plus is definitely a device worth keeping an eye on in the growing Turnkey and semi-DIY NAS market. As an alternative to public cloud services, this is a no-brainer and worth the entry price point. As an alternative to established Turnkey NAS Solutions, we will hold off judgment till it is publicly released.
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Approx. Price: $595 / £475
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Specs: Intel Pentium Gold 8505 (6-thread), 8 GB DDR5, 4×SATA + 2×M.2 slots, 1×10GbE and 1×2.5GbE, plus HDMI, USB-C, USB-A, and SD reader.
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Why It’s Attractive: Well-rounded design with rich connectivity and media support, undercuts most rivals on price and features.
TerraMaster F4-424 Max / F6-424 Max
The TerraMaster F4-424 Max is a robust 4-bay NAS system that offers a powerful mix of features and flexibility for a wide range of tasks. Powered by the Intel i5-1235U CPU with 10 cores and 12 threads, the F4-424 Max excels at resource-intensive applications such as Plex media streaming, 4K hardware transcoding, and virtual machine hosting. Its dual M.2 NVMe slots running at PCIe Gen 4 speeds significantly improve storage performance, especially when used for caching, while the two 10GbE ports offer high-speed networking environments, allowing for 20Gbps throughput via link aggregation.
In terms of software, TOS 6 brings notable improvements, although it still lags behind the more polished ecosystems of Synology DSM and QNAP QTS. That said, TerraMaster’s continuous software evolution with each new version of TOS ensures that users have access to more robust tools and security features. For its price point of $899.99, the F4-424 Max is a compelling option for those seeking high-performance NAS solutions with scalability in mind. While the Pro model offers competitive performance, the Max takes it a step further with advanced networking, making it ideal for environments where speed is a priority.
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Approx. Price: $675 / £550 (F4-424 Max, during sale) – $899 / £700 (F6-424 Max, regular)
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Specs: Intel Core i5-1235U (10-core), 8 GB RAM, dual 10GbE ports, dual M.2, with 4 or 6 SATA bays depending on model.
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Why It Helps: The F4-424 Max frequently drops below the $800 mark in promotions, offering unusually strong CPU performance and dual 10GbE at a mid-range price point.
| Where to Buy?
Terramaster F4-424 Max ($899 Amazon) – HERETerramaster F4-424 Max ($799 Aliexpress) – HERE |
Summary Table
| Model | 10GbE Ports | Price (USD) | Under $800? | Highlights |
|---|---|---|---|---|
| UniFi UNAS Pro | 1×10GbE SFP+ | ~$499 | Yes | Rackmount, high bay count, pure storage |
| Asustor Flashstor 12 Gen 1 | 1×10GbE | ~$750 | Yes | 12×M.2 NVMe, SSD-focused design |
| UGREEN DXP4800 Plus | 1×10GbE + 1×2.5GbE | ~$595 | Yes | Versatile ports, compact and affordable |
| QNAP TS-332X | 1×10GbE SFP+ | ~$600–700 | Yes | Entry-level 10GbE desktop NAS |
| TerraMaster F4-424 Max | 2×10GbE | ~$675 (sale) | Yes | Strong CPU, 4-bay, Plex-friendly |
| TerraMaster F6-424 Max | 2×10GbE | ~$899 | No | 6-bay version, exceeds budget |
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UniFi UNAS Pro 8 Tests - Noise, Power, Performance & Temps
UGREEN DXP4800 PLUS vs DH4300 NAS - Price vs Power?
Sharge Disk Pro Review - Mobile Storage Done Different?
WHERE is the New QNAP TS-464 Follow Up?
Minisforum MS-S1 Max PC Review
How To Get Graphics Drivers and Hardware Transcoding BACK on Synology DS225+ & DS425+ NAS *SOLVED*
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HELP !!! Is there a way where I can call you and get your help. I’ve literally spend about 2000 aud trying to set up 10G to reach at least 1 gigabyte file transfers and be able to edit 4k footage but my file transfer are only reach 250mb/s
My set up
PC have a 10G Network Card PCIE installed
QNAP NAS has a 10G Network Card PCIE Installed – Qnap 6 bay TS-x64
I have Netgear 10G TP-Link 8-Port 10G Desktop Unmanaged Switch, 10 Gbps Ports
I have 2x 4tb Crucial M.2 Nvme with read and write of up to 5000MB
My Jumbo Frames are 9000, I’ve tried running a direct to NAS to PC its still not reaching that speed.
I have all CAT 6 cables
I’m not running a Raid 0 just a stand alone static drive.
HELP!!!! IM GOING CRAZY!!!
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I don’t buy any electronics from Aliexpress, as I don’t want any back door chinese hacking.
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I just purchased 1 router: xiaomi BE10000 WiFi 7 router which has 1*10Gbps SFP, 1*10Gbps RJ45, 4*2.5Gbps RJ45, 1*USB3.0, 12* Power amplifier chips, 12*antennas, 2GB of DDR4 ram(docker ready), 4*CPU cores at 2.2Ghz for ¥1350 CNY. It’s very fast and endurable. And it can run OpenWRT. ???? I think it’s really nice for home users.
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Does it do N-baseT? Or multi gig on copper?
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the link takes me to the wrong switch and I cant find that one on google…
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Are you going to Japan next week to see the new Minisforum NAS & MS-A2?
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Why if I click the link get a price of €271 + €26 shipping ? Clickbait? Glad I bought QNAPs.
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The link is dead…
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so… it can’t do 5Gb/s switching in 2025… shame.
-you should be pointing that fact out in all your reviews now-
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Silly recommendation.
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Maybe this switch will be saturated at 10 gb between 2 ports already? Sorry, without any Iperf test I’m not convinced. I am waiting for Patrick @ servethehome to do a throughput test to find out at what point this switch starts to saturate.
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Noise levels are deal breaker for me :(. Thanks for the test and review!
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AliExpress Cashback Challenge is April 15th – April 30th . Join my team to get up to £400 cash back!
Team Link :https://s.click.aliexpress.com/e/_okQBR3T?af=MDU084
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What about Unifi Cloud Gateway Fiber?
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If u want something that last a few days, go for it. Please stop advertising for bad products.
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I am running 3x Zyxel XGS1250-12 for a year now : One SFP-Port 10GBits, 3x Copper 10GBits Ports, 8x 1GBit Copper and the best: No fan at all. – Paid 175€ for each, and it is a trusted brand.
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People DO NOT waste money for those cheap 10G switches from Ali express. They will go bad sooner and $ will be wasted. Get a used name brand like cisco etc that has are reputable brand and will last longer years.
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I imagine we’ll be seeing Aliexpress and the like pushing hard into EU and APAC now Trump has gone full T-Bone on his taxes.
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I’m using it as a unmanaged switch, as other unmanaged switches are still more expensive than this.
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As somebody from the USA, I can’t watch this video in public with the sound on.
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what is the point of 10g in 10g out ? do all the ports deliver 10g at the same time?
8:54 just leave it open remove that small fan and add a Noctua NF-F12 PWM, Premium Quiet Fan, 4-Pin (120mm) over these heat sinks
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Add a $20 noctua fan and an hour of DIY fan fiddling to the price. Still crazy cheap, TBH.
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Nice bit of kit there m8, looking to buy one now
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are we really recommending people to go out and buy super cheap networking equipment from aliexpress now?
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Great for a lab I guess, but I need a 48 port one.
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That noise level is a total dealbreaker, but I’m trying to stick with Unifi gear at the moment anyway.
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Thanks for the review, I recently bought (160 EUR – 140 USD) MikroTik CRS304 10G switch, which is a great value switch, you should do a review on it definitely.
BTW still waiting on the following videos:
1. Zettlab HQ Team Interview
2. UNAS Pro 6 Months Review
3. Are Chinese NAS Safe
4. Inside a Chinese NAS Factory
All these videos are 8+ days old..
Thanks!
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Would you be kind enough to whack an iperf through some of these? Be curious to see how a mix of packet sizes and use of vlans impacts these. Could help pick between the budget options quite nicely! Thanks.
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As far as I can tell, 10gbe over copper mostly is good for poe, like WiFi 7 APs. If you don’t need poe then SFP+ is far cheaper and more power efficient.
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I see from the case that those ports say “Web Managed”. Not too long ago you did a review and interview of, I forget the name, a new NAS that had a web managed operating systems. Do you remember how much push back from people who said “NEVER” to web managed software ? And from Aliexpress no less. Seems like a spyware gateway box.
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I dont know why you talk about the noise so much, i would much prefer noise and a cool switch, put it somewhere out of earshot. OR Turn fan speed down and cook your breakfast on it 🙂
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I have trust issues with that price. ???? TrendNet has better warranties.
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that link goes to a TPlink 8 port switch for twice the price
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Hmm… video just posted and the link doesn’t seem to work? And searching on Aliexpress I could only find a “GoodTop 2.5Gb L2 Managed POE Switch 8 Port 2.5G Network Switch 2 Port 10G SFP+” for about 170 Euro.
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I bought this switch yesterday…. Will be connected to my Nas TS-464, ASUS RT-BE92U and PC with 10gb lan.
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Comes with free Chinese spyware.
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Just scored a mikrotik cars 317-1g-16s+ for 175… 16 ports of sfp+. This might be nice to hang off of that
Sadly the good port link leads me to a TP-Link switch on Ali
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You should not be buying anything from aliexpress.
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Need this with PoE & 24+2ports ????
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I’m sorry, I wouldn’t buy ANYTHING from Ali Express
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I have a variant of this switch…. Can you tell me how to get a 1U mounting bracket for this ?
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I’m having issues finding a 10/5/2.5Gb managed budget switch. Most are just 10/2.5Gb.????
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Not saying non-Chinese counterparts are much better, but adding this to anyone’s network is a disaster about to happen. If not for a botnet/back port, just the future bugs on an unmaintained firmware. Please tell me that it is possible to flash alternative firmwares like OpenWRT?
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had a tplink from aliexpress 10gbe… died after 4 months … no warranty at all… hecne… you should not buy such stuff from there..
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Guy dropping the n word like wild.
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Thanks for the review. Link doesn’t work.
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Needed this about 2 years ago!! Awesome, still might buy you can never have too many lol jk????
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ARM can be great, its just the ones qnap use are cheap. Apples M series for instance does high speed encryption pretty damn fast.
Its just about having the instruction set being hardware accelerated or specifically optimised!
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Ever thought of a service (paid obviously) where you remote into someone’s system to check on all this as we are often not as tech savvy as you in a lot cases.
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You mentioned intel processors are better choice , then synology ds923+ with AMD , is the 923 capable with the extra port added in the back?
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When I was a kid (sort of), we routinely backed up one of our pizza sized 2MB disk packs to the other one on our personal computer of the day. That backup took an acceptable 2 minutes or so, after which we could get back to work defining the future.
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I have a Synology DS1819+ with a Synology E10M20-T1 M.2 SSD & 10 GbE Combo Adapter installed. Does this Adapter require any drivers or are they embedded into DSM? I checked the download page for the E10M20-T1 adapter and the only downloads available are documentation. Depending on the type and size of the files I am uploading to my NAS I see a range of 300 to 700 MB/s is that good?
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So very informative with a massive explanation of possible bottlenecks affecting data transfer speeds. Love the point in the video while steaming information at the camera an interrupt is acknowledged, and the result of “I hate seagulls” is multiplexed. Love the video. There is so much key information in the cake, let alone the icing.
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Great video!
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Practical read-write speed on a spinning HDD is more like 120[5400]-160[7200] MiB/s. The 200+ numbers are for very idealized raw sequential data on the outer cylinders without so much overhead as a file system structure. Platter bit density also matters to some degree, because for a given RPM more bits pass by the head per second.
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Windows has some interesting limitations if you are running WSL, Hyper-V etc. For example were a VM can get full 10Gbe speeds but the host OS will see something around 7-8Gbps. There are various fixes that can be used once a windows machine gets into this state. (this is beyond the fixes mentioned on this video – which are also great things to check).
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I don’t know if it was mentioned, but it’s really important to study the capacity to writespeed drop on SSD’s. This goes for all SSD’s; NVME, SATA etc. 80-90% of consumer SSD’s have an issue with writespeed dropping off severely as the drive gets fuller.
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A single HDD will be 2-3x faster than 1GbE connection, so a 10GbE connection is necessary to get the full speed out of even the smallest NAS.
However, the read and especially write speed really tapers off for HDD’s when trying to scale it. Adding more drives in a a RAID will increase speeds, but not linearly, and one should not expect to hit the 10GbE limit easily.
But SSD’s are completely different. Even 3 x SATA 2.5″ SSD in RAID will easily saturate a 10GbE, hitting 1.1GB/s, on both read and write. And that’s before even talking about how much better SSD is with many small files.
You can easily make 10GbE capable NAS by just putting in a sata card or two and installing 2.5″ SATA disks. This can be easier and more flexible than trying to find ports for NVME sticks.
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Great video idea, this is a common issue. Also really nice improvement in video image quality! 🙂
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You find really seem to have a strong understanding of this, right up calling that ‘fibre channel’ shows me you probably shouldn’t make these videos.
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I have DS1621xs+ with 6x SSD drives in RAID5 plus Ubiquity USW-EnterpriseXG-24 switch and get 9500Mbit/s download, but upload never exceeded 3000Mbit/s. Why do you think it may be?
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well done with the new set man! much cleaner look!
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More people should use Kraftwerk’s “Computer World” album for sound effects.
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8:12 I have tried just about every brand available for SFP+ to RJ45 adapters in my network gear. Yes they do get hot like you said. lol.
There is only a single chipset available righty now at least as far as I am aware that has any kind of decent heat output level. It is a much newer Broadcom chipset based adapter, and you can get the model from places like 10GTek or FS but they are quite expensive (double the price). Most of these adapters use 2.5-2.9w each and are the old Broadcom chip or Marvell chips (or Aquantia which is now Marvell). The newest Broadcom models use 1.8w. There are very few ways of differentiating which chip is in the device, but the easiest thing to watch for is the power draw spec on the product page. If it says 1.8w then it is the new Broadcom chip, if it doesnt then it is an old and hot chip. The other way to tell is the newer chip also supports copper Ethernet up to 100m, the older and hotter chips only support between 30m and 80m depending on the chip model.
The other thing to watch out for when using these adapters is that sometimes the switch you stick them in is incompatible to some extent. They will do 10gb down, but only 2.5gb up despite being rated as 10/10. That means when doing a file transfer you are limited to 2.5gb because one side is going up and that uplink is being capped by the switch or transceiver/adapter due to the incompatibility. No settings you change can fix this as it is a problem at the hardware level. I suspect that since Ethernet at these speeds use all 4 wire pairs, and since 2.5g*4 = 10gb, that somehow the incompatibility is sending the uplink side data on only as single pair of wires instead of all of them.
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Good****
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I want to know why so many motherboards now have 5Gbe and not 10Gbe. I am not aware of a switch that is 5Gbe so unless there is a splitter to two 2.5Gbe or you are connecting directly to another pc with 5Gbe I am not sure what the use case is
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Great review of the elements that need to be considered when looking at a high performance NAS.
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My Synology homemade nas is running 25G and transfers a little over 2000MB/sec read and write four PCIe U.2 7.68TB drives. I don’t need much storage just fast. Using a Ubiquiti USW-Pro-Aggregation 28port 10G 4 port 25G switch.
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Hello Rob, 10 GBE is not 1000 or even 1024 MB/sec but instead 1250 MB/sec. 8 Bits equal 1 Byte, so 10.000 / 8 is 1250 mb/sec.
As this is a 20% difference to what you explained I am sorry but I had to clarify that, my friend.
Greetings from Germany.
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Make a shirt of yourself saying I hate seagulls while doing nas review
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All Hail Kraftwerk for their essential assistance on Robbie “The Robot”‘s video!
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A lot of people forget to change the MTU/Jumbo Frames on the switch as well.
A lot of cheaper switches don’t even support MTU/Jumbo Frames.
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The Lan wall socket has to be cat6 also. When I upgraded my house to cat6 I bought less expensive copper coated aluminum. Cat6 only ever got 768. Lots of information here to check out on my Nas thank you very much
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Not have had any problems at all. I am not getting the transfer speeds as my Truenas pools aren’t able to get higher speeds. But the linkspeed easily reaches 10gbe in Iperf. And also when loading the ramcache I often see the 10gbe speeds.
I just bought 10gbe nics, a cheap zyxsel 10gbe capable switch. 15+ meters of cat7 (which is quite cheap) on one hand, and just regular shorter cat5e on the other end. And done. Decent quality cat5e is perfectly capable of running 10gbe on shorter lengths.
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If the cable length is more than 5m then go for optic to prevent issues. Even with Cat6 you are not free.
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Should you NAS be connected directly to your router or your switch for best performance ? Or does it matter ? I have seen some very vehement arguments for both.
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I’m glad to see you mention cabling. And it’s not just what’s in the walls. I was doing some work on my network last year and found some very old pre Cat5e patch cords. Yes, they were short but those old, low band width things couldn’t have helped.
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Thats why Unraid array user withiut cache best stick with 2.5G
Destruction write mode max about 250MB/s with modern spinning rust
Or 60-80MB/s in normal write mode
Read : about max speed of a spinning rust which about a 2.5G speed
It dont stack up speed like zfs raidz or raid 0/5/6
????
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I’ll do you one better than that guy in the comments section. I measure my NAS speeds in Seagulls per Second.
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