Visiting a NAS Production Facility in Shenzhen, China – The CWWK Factory and Office Tour

As part of a broader effort to explore the landscape of Chinese tech manufacturers, I recently visited the facilities of CWWK (ChangWang) in Shenzhen, China. CWWK is best known in enthusiast circles for producing NAS motherboards and compact computing solutions, often associated with budget-friendly, DIY network storage builds. My visit aimed to independently assess the scope and structure of their operations. What made this particular tour notable was the access I was granted: no NDAs were signed, there were no editorial restrictions placed on what I could film or ask, and I was permitted to record freely inside their production and R&D spaces.

This is uncommon, particularly in the tech hardware space, where many brands—especially in Asia—are typically guarded about internal processes, even when media are invited. The open format allowed for a more thorough and independent evaluation, without needing to speculate based on secondhand reports or promotional material.

It’s important to contextualize how the visit came about. CWWK did not arrange or sponsor my trip to China in any way. I was in the region for a series of self-funded visits to multiple tech companies, looking to gain a clearer understanding of how various hardware brands operate behind the scenes. The idea was to go beyond spec sheets and product listings and see what real infrastructure, if any, stood behind companies whose products are often marketed under many different brand names on platforms like AliExpress, Amazon, and Alibaba.

I reached out to CWWK on short notice—roughly 10 to 14 days prior—and they agreed to the visit. The fact that they were able to accommodate the tour with minimal lead time is worth noting. It doesn’t rule out the possibility of some presentation enhancements being made in preparation, but it does suggest that the company was not reliant on elaborate staging to present a working production environment.

The first location I visited was a mixed-use building that included administrative offices, logistics personnel, and access to part of the factory floor. Externally, the building bore no clear CWWK branding, which initially raised questions about ownership or exclusivity. Inside, however, the picture was more cohesive: staff wore uniforms bearing CWWK logos, and product runs on the factory floor featured motherboards that matched CWWK’s catalog.

While I wasn’t given lease documentation or corporate records, the volume of CWWK-branded activity suggested the company either occupies a substantial portion of the facility or has secured long-term, semi-exclusive use of the space. Several floors were accessible, and the presence of both production and support teams indicated that this was more than a satellite or temporary operation. Even so, it’s likely this building is part of a larger industrial complex shared with other tenants, which is common practice in Shenzhen’s manufacturing zones.

One of the key questions I brought to the visit concerned product design and IP ownership—specifically, whether CWWK truly engineers its own hardware or rebrands ODM (original design manufacturer) platforms that are available generically to other companies. In a formal meeting with several members of their team, facilitated by a translator, I was told that all motherboard designs are created in-house.

The company emphasized that while many of their designs do appear under other brand names, including through known resellers or system integrators, the core engineering and schematics originate from their internal teams. Some of these designs, they explained, are distributed under license or through contract manufacturing relationships.

While I wasn’t shown the full design pipeline or documentation for each SKU, I was given access to product schematics, test rigs, and development areas. Based on what I observed, it’s reasonable to conclude that CWWK controls the design process and that their platforms are later distributed—often without clear attribution—by partner companies.

Technical support and warranty policies are often ambiguous when it comes to imported tech from overseas sellers, so I took the opportunity to ask about their post-sales procedures. According to CWWK staff, customers who purchase through major e-commerce channels like AliExpress and Alibaba are serviced directly by the company’s internal support team. This contradicts the assumption that resellers handle all inquiries. They described a standard one-year warranty policy, during which defective products are repaired where feasible rather than replaced outright.

While this approach may not satisfy buyers expecting instant replacements, it aligns with broader industry trends aimed at reducing e-waste and extending hardware lifespans. I observed a dedicated support office where staff were responding to issues, many of which involved firmware or BIOS concerns. The responses to my questions were generally clear but did follow a templated structure, which made it difficult to determine how adaptable their support might be in complex cases.

Moving onto the factory floor, I was able to observe multiple stages of the production workflow. The environment combined automated processes—such as SMT (surface mount technology) component placement and soldering—with manual checkpoints, where staff would verify board integrity, inspect connector alignment, and move products between stations. The factory space showed signs of active use: floor scuffing, desk wear, and tooling marks suggested long-term operation rather than short-term setup.

Workers were equipped with anti-static wrist straps, and safety protocols appeared to be in place, though a few inconsistencies were observed. For instance, not all staff were wearing the full lab coats or coverings that I was required to wear as a visitor. While that’s not uncommon in similar facilities, it’s worth noting in the context of manufacturing discipline. Overall, the workflow followed a logical structure, and there were observable quality checks along the line, including one instance where a misaligned port was flagged and redirected for correction.

Direct interaction with factory personnel was limited, mainly due to language barriers and the guided nature of the tour. I attempted brief conversations, but most staff were focused on their tasks and understandably uninterested in lengthy exchanges with a foreign visitor.

I did not observe any signs of distress or visible overwork, but equally, I did not have enough time or context to draw firm conclusions about working conditions. The facility walls displayed motivational signage, some of which featured quite stern phrasing around responsibility and company reputation.

These types of messages—such as “Your mistakes are our mistakes”—may reflect common workplace culture in the region rather than specific managerial attitudes. In contrast, a separate building used for research and marketing featured more aspirational language. These environmental details may offer some insight into the tone and structure of the company, although they should be interpreted cautiously.

A portion of the facility was allocated to repairs and technical diagnostics. I observed several staff members actively responding to customer-reported issues and working on returned products. Desks were equipped with diagnostic tools and some BIOS interfaces were visible on screens.

In a nearby room, technicians were repairing or reworking boards—examples included reseating CPUs, correcting poorly soldered connectors, and inspecting DIMM slots.

Although the scale of this area was not massive (around six to eight desks), it indicated an operational RMA process. I did not assess how quickly repairs are processed or whether every return is examined manually, but the team appeared to be addressing real customer issues, not simply staging activity for the tour. Staff in this area were dressed more casually than the production line workers, likely due to the nature of their tasks involving pre-owned or defective components.

The second facility, located in the Beta Industrial Park, was clearly identified as a CWWK property. Unlike the first building, this one included prominent company branding, product showcases, and internal signage referencing CWWK’s development roadmap.

The upper floors were used by the R&D and marketing teams. In a dedicated product room, I was shown nearly every motherboard they’ve developed, including legacy models and upcoming releases. Several new boards were in early development, featuring high-density SATA fan-outs via SFF-8654 and NVMe expandability.

Designs ranged from micro-ITX to mATX, with plans to scale modularly using add-on cards for storage and connectivity. I also viewed design schematics and 3D renderings used to plan component layout and case compatibility. CWWK is working on 10GbE-capable models using newer Intel and AMD platforms, including boards with ECC memory support and USB4 integration. While I was not permitted to document everything in detail, the scope and clarity of the development process suggested an active, technically capable engineering team.

After spending a full day across both facilities, my overall impression of CWWK was that of a mid-sized but competent hardware developer with a growing international presence. While the first building’s exact ownership remains somewhat ambiguous, the second building was clearly operated and branded by CWWK, housing their product, development, and marketing teams. More significantly, based on my observations and the responses given, it is clear that CWWK designs and owns the intellectual property behind their motherboards.

There were also strong indications that they serve as an upstream supplier for other brands—likely including companies like Topton, MrRoute, and similar resellers often seen on Chinese e-commerce platforms. Whether these partners act as distributors, integrators, or white-label resellers wasn’t explicitly stated, but the relationship appears to exist.

CWWK is not a shell company or brand-only operation; it is a functioning developer and manufacturer of computing hardware with its own IP, infrastructure, and personnel. For buyers, this doesn’t automatically guarantee performance or support satisfaction, but it does lend some credibility and traceability to a product category often dominated by opaque supply chains and unbranded goods.

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CWWK N355 DIY NAS Motherboard Review

The CWWK N355 DIY NAS motherboard is a Mini-ITX board designed for users looking to build a compact yet powerful NAS system with high storage capacity and expansion potential. Featuring the Intel Twin Lake N355 processor, dual 2.5GbE networking, six SATA ports, and two NVMe slots, it balances performance and affordability. With PCIe 3.0 expansion and a power-efficient CPU, it provides a solid foundation for home lab enthusiasts and small-scale NAS builders. However, it does come with some limitations, particularly in PCIe lane allocation and component placement. This review covers design, hardware, storage, performance tests, and overall value to determine whether it’s the right choice for your next DIY NAS project.

Available in two configurations, the N150 quad-core version ($174) and the N355 octa-core version ($288), this motherboard positions itself as a budget-friendly but capable alternative to more expensive NAS solutions. While the onboard features are generous for the price, the placement of components and some design choices might limit expandability for certain users. Let’s dive deeper.

Component	Details
Processor (SoC)	Intel Twin Lake N355 (8 cores, 8 threads, 3.9GHz max turbo)
Memory	1x SO-DIMM DDR5 4800 MHz (up to 48GB, Non-ECC)
Storage Slots	2x M.2 NVMe PCIe 3.0 x1 (2280)
SATA Support	6x SATA3.0 ports (ASM1166 controller)
Networking	2x 2.5GbE RJ45 (Intel i226V controllers)
USB Ports	1x USB 3.0, 3x USB 2.0, 1x USB 3.0 internal header, 1x USB 2.0 internal header
Video Output	1x HDMI 2.0, 1x DP 1.4 (4K@60Hz)
Expansion	1x PCIe 3.0 x4 slot
Power Supply	24-pin ATX + 4-pin CPU power connector
BIOS Features	Auto Power On, Wake-on-LAN (WoL), PXE Boot
Form Factor	Mini-ITX (17 x 17 cm)

Where to Buy? CWWK N355 MITX NVMe NAS ($184-295 AliExpress) – HERE CWWK x86 P6 NVMe NAS Box ($160 AliExpress) – HERE DIY N355 NAS Products ($254-349 Amazon) – HERE

CWWK N355 NAS Review – Quick Conclusion

The CWWK N355 DIY NAS motherboard provides a solid balance between affordability and performance, making it a strong option for NAS builders and home lab users. With six SATA ports and two NVMe slots, it offers flexible storage options, while dual 2.5GbE networking ensures decent network speeds. The PCIe 3.0 x4 slot allows for expansion, but lane allocation limitations could be a bottleneck for certain configurations. Power efficiency is excellent, and during testing, the N355 CPU handled multiple VMs, media streaming, and general NAS tasks well. However, thermal management and component placement could have been better, particularly around the PCIe and SATA ports.

Overall, the CWWK N355 is a capable Mini-ITX NAS motherboard, especially for those comfortable with DIY setups. The lack of ECC memory support, PCIe lane sharing, and close component placement are drawbacks, but for the price, it remains a versatile and well-featured board.

CWWK N355 NAS Review – Design

The CWWK N355 DIY NAS motherboard follows a compact Mini-ITX design, offering a good mix of functionality and space efficiency. Its 10-layer high-density PCB provides durability, while the standard ATX 24-pin power and 4-pin CPU power connectors make it easy to integrate into various NAS chassis. The purple PCB aesthetic is unique, setting it apart from many other DIY NAS motherboards. However, despite its compact build, some of the design choices create challenges when it comes to expandability.

One of the most noticeable issues is the placement of the PCIe 3.0 x4 slot in relation to the SATA ports. While the board allows for expansion cards like RAID controllers or 10GbE adapters, the proximity of the PCIe slot to the six SATA ports means that larger cards can obstruct some of the SATA connections.

This could force users to choose between additional network connectivity and full SATA drive support, which is an unfortunate trade-off. Ideally, an SFF-8087 or OCuLink alternative for SATA connectivity would have been a better approach, reducing port congestion.

The built-in cooling options are fairly basic, with a single CPU fan header and two system fan headers (only one supporting PWM). While the board is designed for low-power efficiency, adding high-performance storage or running multiple VMs may generate additional heat that requires better cooling.

The included stock CPU cooler is not ideal, as it sits too close to nearby components, making it harder to install without interfering with the SO-DIMM DDR5 memory slot. Users are advised to invest in a third-party low-profile cooler for better thermal management.

On the connectivity side, dual 2.5GbE network ports (Intel i226V) provide solid networking performance for most NAS use cases, with support for SMB Multichannel and link aggregation. The limited USB selection, however, could be a concern.

With only one USB 3.0 port and three USB 2.0 ports, users relying on external storage or bootable USB setups may find the available connections restrictive. That said, the internal USB 3.0 and USB 2.0 headers provide some additional flexibility for internal USB-based boot drives, but a few more rear-facing USB ports would have been welcome.

CWWK N355 NAS Review – Storage

Storage is a key strength of the CWWK N355 motherboard, with a combination of six SATA3 ports and two M.2 NVMe slots offering flexibility for different storage configurations. The ASM1166 SATA controller is responsible for managing the six SATA ports, providing stable performance for hard drives and SSDs. Users looking to build a NAS with high-capacity drives will appreciate the dedicated SATA expansion, which supports RAID configurations through software.

The two M.2 NVMe slots, while a welcome addition, are limited to PCIe 3.0 x1 speeds, meaning they can only reach maximum sequential throughput of around 780-800MB/s. This is a clear limitation compared to PCIe 3.0 x4 NVMe slots found in higher-end boards. However, these slots are still useful for caching or fast-access storage, especially when paired with SATA drives for bulk data storage.

During testing, a RAID 0 setup with six 4TB HDDs achieved 650MB/s sustained throughput, showing that the ASM1166 controller handles multiple drives efficiently. Performance with SATA SSDs was better, with speeds saturating the SATA3 interface at 550-560MB/s per drive. Users expecting enterprise-level speeds may find this limiting, but for general NAS applications, it performs well.

Another consideration is PCIe lane allocation. Because the ASM1166 controller operates on a PCIe 3.0 x1 interface, total throughput is shared across all six SATA ports. This means that in heavy read/write operations across multiple drives, users might encounter bottlenecks. Those planning on maximizing SATA performance should ensure efficient data distribution across drives.

Ultimately, while the storage configuration is flexible and functional, the PCIe 3.0 x1 restrictions on both NVMe and SATA controllers present some limitations. For users needing high-speed NVMe storage, a motherboard with PCIe 3.0 x4 support per NVMe slot would be preferable, but for most NAS applications, the N355 provides good storage expandability at a reasonable price.

Interestingly, when I rand 100x 1GB File tests via terminal on each of the Gen 3×1 m.2 NVMe, the numbers were pretty good (factoring in the efficient class CPU and 1 lane of Gen 3 – so was never gonna exceed 800-900MB/s anyway).

Afterwards, I wanted to check if the PCIe slot was sharing lane space with the 2nd m.2 slot (as is the case on some of the N100/N305 NAS Moos before) and I am pleased to confirm that I was able to use terminal and 100x 1GB Read on both the 2nd M.2 NVMe slot AND another m.2 NVMe on a PCIe Card mounted on via the PCIe 3×4 slot.

So I am quite happy with the data/internal bandwidth in these tests with such a modest CPU. Let’s discuss this internal hardware and performance more.

CWWK N355 NAS Review – Tests & Performance

The Intel N355 CPU offers efficient performance for NAS-related tasks, including file sharing, virtualization, and media streaming. During testing, it handled multiple VMs running concurrently, with each assigned a virtual CPU and minimal RAM. Even under load, the CPU maintained stable performance without excessive heat generation, making it suitable for users who need a lightweight but capable processing unit for home lab applications.

Network performance was another highlight, with the dual 2.5GbE interfaces providing a combined throughput of up to 550MB/s in link aggregation mode. Real-world file transfers over SMB showed consistent multi-gigabit speeds, demonstrating the board’s ability to handle data-heavy operations effectively. However, users aiming for 10GbE connectivity will need to rely on the PCIe slot, which introduces some trade-offs in terms of expansion options.

In media applications, the N355 CPU managed simultaneous 1080p and 4K Plex streams, with CPU usage remaining under 60% during software transcoding. Native playback and direct-streaming performed significantly better, with no noticeable impact on system resources. While the board lacks dedicated hardware transcoding support, it remains a viable option for users relying on direct-play workflows.

Power efficiency remained a strong suit, with idle power consumption measuring around 9-10W with SSDs installed, increasing to 30-40W under load with multiple drives and VMs active. The low TDP ensures minimal heat output, but active cooling is still recommended for prolonged high workloads. Overall, performance results confirm that this board is well-optimized for NAS duties, though users with high-end processing needs may require a more powerful solution.

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CWWK N355 NAS MITX Board Review – Verdict & Conclusion

The CWWK N355 DIY NAS motherboard is an excellent choice for those seeking an affordable and feature-rich Mini-ITX solution for NAS applications. Its combination of dual 2.5GbE networking, six SATA ports, and two NVMe slots offers a strong foundation for storage and high-speed connectivity. Performance-wise, the N355 CPU handles virtualization and media streaming well, maintaining a low power draw while running multiple tasks efficiently. However, the limited PCIe lane allocation can restrict certain use cases, particularly when adding high-performance storage or networking upgrades. Despite these constraints, this motherboard delivers solid performance for users prioritizing a cost-effective and power-efficient NAS setup.

That being said, users should carefully consider their expansion needs before purchasing, as PCIe slot placement and bandwidth limitations may impact future upgrades. Additionally, the lack of ECC memory support may be a concern for enterprise-level deployments, though most home users and small-scale NAS setups will not be significantly affected. Ultimately, the CWWK N355 stands out as a capable and versatile board, offering good performance, reasonable expandability, and excellent value for money.

PROs of the CWWK N355 NAS MoBo

CONs of the CWWK N355 NAS MoBo

Compact Mini-ITX design, ideal for NAS builds Dual 2.5GbE ports for enhanced network performance Six SATA ports for ample storage expandability Two NVMe slots for high-speed SSD caching or storage Energy-efficient Intel N355 CPU with low power draw Good virtualization support for lightweight VMs and containers Strong media streaming performance, including Plex compatibility Affordable price point compared to similar NAS motherboards

PCIe slot placement may block SATA ports with larger cards Limited PCIe lanes constrain high-speed expansion options No ECC memory support, which may be a concern for some user

Where to Buy? CWWK N355 MITX NVMe NAS ($184-295 AliExpress) – HERE CWWK x86 P6 NVMe NAS Box ($160 AliExpress) – HERE DIY N355 NAS Products ($254-349 Amazon) – HERE

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This description contains links to Amazon. These links will take you to some of the products mentioned in today's content. As an Amazon Associate, I earn from qualifying purchases. Visit the NASCompares Deal Finder to find the best place to buy this device in your region, based on Service, Support and Reputation - Just Search for your NAS Drive in the Box Below

Need Advice on Data Storage from an Expert?

Finally, for free advice about your setup, just leave a message in the comments below here at NASCompares.com and we will get back to you. Need Help? Where possible (and where appropriate) please provide as much information about your requirements, as then I can arrange the best answer and solution to your needs. Do not worry about your e-mail address being required, it will NOT be used in a mailing list and will NOT be used in any way other than to respond to your enquiry. [contact-form-7] TRY CHAT Terms and Conditions   Alternatively, why not ask me on the ASK NASCompares forum, by clicking the button below. This is a community hub that serves as a place that I can answer your question, chew the fat, share new release information and even get corrections posted. I will always get around to answering ALL queries, but as a one-man operation, I cannot promise speed! So by sharing your query in the ASK NASCompares section below, you can get a better range of solutions and suggestions, alongside my own.

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