Swappable TBT5/USB4/OCuLink | 2.79" Dashboard | 34-Zone ARGB | Triple-Input Power up to 1200W | Backplate Fan | Mechanical GPU Lock
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"Build the future with us, not just consume it."
Have you ever felt uninspired by the bland, boxy designs of traditional eGPU docks?
Are you tired of the "black box" experience, guessing your GPU’s power and thermals?
Do you worry about the safety of your high-end GPU, hanging solely by a delicate PCIe slot?
Are you tired of buying a single-purpose, bulky power brick just for one device—only to watch it go to waste?
And worst of all—do you dread the day you have to throw away your entire expensive dock just because a new interface arrives?
The world’s first modular, dashboard-equipped eGPU dock designed to fight systemic hardware disorder and obsolescence.
Negent Dockr was conceived with long-term iteration in mind. Our innovative modular architecture allows you to upgrade your core interface board seamlessly while keeping the rest of the dock completely intact.
Traditional eGPU docks are built for obsolescence. The moment a new connection standard drops, your expensive enclosure instantly turns into electronic waste.
At Negent Tech, our core philosophy is rooted in Negentropy—the pursuit of systemic order. We engineer for sustainability, fighting chaos by cutting down on waste and saving you money.
Whether you start with USB4 and later leap to Thunderbolt 5, or switch gears to high-bandwidth OCuLink, upgrading is as simple as swapping a board.
Our architecture isn’t just built for today—it’s engineered to evolve. Future core modules will expand beyond connectivity to integrate multi-functional I/O (like M.2 storage and networking).
When the next standard arrives, you only need to replace the core board and the I/O backplate, keeping 90% of your initial investment completely safe from electronic waste.
We currently offer three swappable interface modules right out of the box to fit your exact setup:
Universal plug-and-play across most modern laptops.
Native PCIe 4.0 direct connection for zero performance loss.
Next-gen high-speed connectivity for extreme bandwidth overhead.
Full-Color Programmable Display
Traditional eGPU enclosures are complete "black boxes"—leaving you completely blind to your hardware's actual running state. The Negent Dockr shatters this limitation, bringing engineering-grade visibility directly to your desktop.
Precise power tracking and rail stability logging.
Ensure peak performance delivery and transient spike capture.
Keep your cooling dynamics in check with thermodynamic accuracy.
Unlock the full potential of your display with our upcoming dedicated software, Negent Console. The screen is a blank canvas tailored to your exact style.
Download and apply bespoke dashboard skins created by fellow tech enthusiasts. Tap into a global network of open-source order.
Express yourself by uploading your own static images or dynamic pixel-art GIFs. Make your hardware pulse with your own creative frequency.
We also offer tailored screen layout customization services to match your unique desktop ecosystem. Engineered precisely for your workflow.
1import negent_core as nt23# True order comes from collaborative freedom4class DockrDashboard(nt.Telemetry):5 def __init__(self):6 self.hardware = "FULLY_OPEN"7 self.schematics = "AVAILABLE"89 def push_limits(self, firmware):10 return firmware.flash_custom_logic()At Negent Tech, we believe true order comes from collaborative freedom. For the hard-core makers and developers, we are fully open-sourcing the dashboard's hardware schematics and source code.
Flash your own firmware, design custom telemetry logic, and upload your own screen applications to push the hardware to its absolute limits.
ATX // DC5525 // XT60 Interfaces
Traditional eGPU setups trap your desktop with proprietary, brick-sized power supplies that ruin your minimalist aesthetic.
Negent Dockr shatters these constraints by introducing a world-first triple-input power ecosystem. The power supply adapts entirely to your workspace and needs.
Perfect for bus-powered or low-profile PCIe expansion using standard 12V DC power bricks. You can bypass massive desktop power blocks entirely when high-wattage monsters aren't required.
Engineered to efficiently drive specialized hardware, including high-speed video capture cards, hardware RAID arrays, or compact, low-consumption GPUs.
Optimized for minimalist desktop setups. Delivers ultra-clean direct current to low-profile rails without thermal or acoustic overhead.
The 12V power enters the dock via the standard DC5525 interface, providing power to both the dock and the PCIe slot. This mode is perfectly tailored for low-power, bus-powered GPUs that require no supplemental power connectors. The maximum supported TDP for the GPU in this configuration is 75W.
We offer an ultra-compact 12V 120W GaN (Gallium Nitride) charger, delivering maximum portability without the traditional desktop bulk.
Engineered with zero thermal compromise. Heavy-duty solid gold-plated brass connectors lock your hardware into a high-current, low-resistance direct energy delivery pipe.
Engineered for power-hungry flagship GPUs and custom power builds, utilizing the heavy-duty, ultra-reliable 12V XT60 connector ecosystem.
Whether you are unlocking massive power limits or pushing custom open-frame desktop setups, the XT60 rail guarantees extreme voltage stability during transient spikes.
The 12V power connects to the dock via the XT60 interface, powering both the dock and the PCIe slot. From there, the included CPU 8-pin to dual-PCIe 8-pin splitter cable routes power from the base directly to the GPU's supplemental power inputs. This configuration supports a maximum GPU TDP limit of 410W.
We offer a massive 12V 1200W high-power-density PSU, which beautifully integrates its own real-time power telemetry display panel to match your main dashboard.
Native standard 24-pin alignment. Designed to seamlessly convert legacy desktop power units into clean, localized external GPU energy stations.
Breathe new life into that spare ATX power supply sitting idle in your drawer—saving you money while cutting down on electronic waste.
Instead of purchasing another redundant, proprietary power brick, Negent Dockr allows you to repurpose standard desktop PSUs with absolute high-efficiency power delivery.
The 12V power is delivered through the CPU 8-pin connector to feed the dock and the GPU’s PCIe slot. Meanwhile, the PCIe 8-pin cables connect directly from your PSU to the GPU, bypassing the dock entirely. In this mode, there are no TDP limits imposed on the GPU.
We provide an engineered modular PSU docking cradle that seamlessly mounts Negent Dockr alongside your standard ATX or SFX power supplies.
Engineered for Stability, Built to Protect the Slot.
Zero-flex mechanical engineering. Transfers the center of gravity of flagship triple-slot GPUs directly to the rigid alloy base, shielding the PCIe traces from structural fatigue.
Traditional eGPU solutions force you to make a frustrating compromise. Some chase an ultra-compact footprint but leave your expensive, heavy-duty GPU hanging precariously—relying solely on a delicate PCIe slot for physical support.
Others offer stability, but only by trapping your setup inside a massive, bulky, and uninspiring desktop chassis that suffocates airflow and destroys your aesthetic.
We shattered this dilemma with our proprietary, minimalist L-shaped architecture. Absolute physical rigidity meets total thermal and visual openness.
By utilizing both the reinforced PCIe slot and a rigid, heavy-duty mechanical I/O backplate lock, the dock creates a rock-solid dual-anchor system.
The mechanical bracket bears the structural weight of even the most massive flagship GPUs, completely eliminating the risk of sagging, warping, or cracking your motherboard’s gold fingers.
No matter the size or thickness of your graphics card, the adjustable mechanical lock tightly secures your hardware into place, making it fully ready for desktop action or safe transport.
Dedicated Airflow for Hotspot Relief.
Engineered logic that actively evacuates trapped static heat. Direct forced-convection vectors target critical rear-mounted components, driving down delta temperatures across the entire layout.
In traditional open-air frames or tight eGPU enclosures, the graphics card’s backplate is often a forgotten thermal dead zone. High-performance GPUs trap immense heat directly behind the core, roasting crucial components like VRAM chips and VRM power phases.
Negent Dockr eliminates this bottleneck with an engineered, independent cooling channel built right into its core. By forcing dedicated airflow across the rear PCB layout, it actively disperses hot spots before they choke your performance.
Quietly yet forcefully pumps a continuous stream of fresh, cool air directly onto the scorching hot GPU backplate.
Specifically targets the extreme thermal hotspots of next-gen graphics cards, keeping rear-mounted video memory and power delivery modules stable under full synthetic loads.
Engineered with an independent, unobstructed airflow pathway, achieving maximum heat dissipation efficiency while keeping acoustic noise at an absolute whisper.
Cyberpunk Aesthetics, Ambient Flow.
Custom internal light path engineered to project diffuse, continuous ambient flow. Zero hot-spots, pure optical saturation.
Performance is order, but aesthetics is freedom. To ground Negent Dockr’s brutalist industrial design with a striking digital pulse, we engineered a custom internal light path inspired by the neon underglow of world-class supercars.
It’s an addressable ambient lighting grid that transforms your workspace into a high-octane cyberpunk command center. Synchronize your thermals, map your custom profiles, and let the underglow pulse to the rhythm of your frame rate.
Embedded seamlessly within the base chassis, paired with a specialized optical diffuser to project a smooth, uniform ground glow.
Flooding the active backplate cooling channel with sharp, dynamic color pathways.
Through the Negent Console software, the control is absolute. Choose from a library of pre-tuned ambient profiles, adjust universal brightness, or map out custom per-key coloring—down to the exact hue and luminance of a single individual LED.
# Bypassing consumer software layers
import negent_hardware as nh
import time
def command_the_light():
sub_board = nh.DisplaySubBoard(bus=0x4F)
argb_grid = sub_board.get_argb_matrix()
# Map custom low-level logic directly
while True:
metrics = nh.get_pcie_throughput()
hue = map_range(metrics, 0, 100, 120, 360)
argb_grid.set_zone_all(hue, saturation=1.0)
argb_grid.flush() # Zero-latency commit
time.sleep_ms(10)Because we believe true customization belongs to the community, the ARGB hardware controller is fully integrated into our smart display sub-board.
By referencing Negent Tech's open-source board schematics and hardware documentation, advanced developers can bypass the consumer software entirely.
The ARGB programming interface is completely open to you—letting you write custom low-level lighting logic, sync the ambient flow with system metrics, or create entirely new interactive illumination frameworks.
From a bold concept to a production-ready reality.
Building an eGPU dock isn't just about assembling parts; it's about re-engineering the relationship between power, cooling, and aesthetics.
Our journey with Negent Dockr began with a simple question: What if an eGPU dock could have a soul?
