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The Physical Asset Layer

Our Members Own the Iron. We Run the Metal. We Don't Lease Abstract Cloud Layers.

Every other AI platform rents capacity from AWS, Azure, or GCP and marks it up. DCNetwork members build and own the datacenters — mobile containers whose recirculating cooling pads use a fraction of the water a hyperscaler evaporates, and that ship from order to power-on in weeks, not the years a traditional build takes. Members own every GPU, every core, every rack. That difference shows up in your invoice.

Member Datacenter Specifications

This isn’t a co-location rental. These are DCNetwork member facilities. We design the cooling. We negotiate the power. We install the racks. When something breaks, our engineers fix it — not a third-party network operations center.

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NVIDIA B200 GPUs (In-House Builds)

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In-House Servers + Network Fabric

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Racks — Mobile Container

0 MW

Container Power Envelope

0 kW

Wall Draw at Full Load

0K+

Concurrent Users Served

0.0%

Designed System Uptime

0.00

PUE — Patent-Pending Air Cooling, No Liquid Loop

Dual-Use Deployment Architecture

Civilian + Defense-Aligned

Civilian enterprise runs on shared multi-tenant infrastructure with logical isolation and GDPR-compliant data residency.

Defense-aligned workloads are provisioned on dedicated hardware segments with physical separation, air-gap capability, and classified data handling protocols.

One facility. Two operational modes. Zero foreign infrastructure dependency.

Live GPU Compute Matrix

Real-time visualization of GPU utilization, Docker container allocation, and incoming request processing.

Infrastructure at Scale

Real numbers behind our vertically integrated compute platform.

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NVIDIA B200 GPUs

0K+ users

Serving Capacity

0.0%

Designed Uptime

0 GH/s

Mining Hashrate

0 MW

Container Power Envelope

0.0

PUE — Patent-Pending Air Cooling

Datacenter Infrastructure

Purpose-built facilities designed for high-density AI compute and blockchain mining workloads.

Mobile Container Facilities

Purpose-built 12-rack mobile datacenter containers with air cooling and network connectivity designed for AI and mining workloads.

  • 12-rack mobile container (Config A0)
  • Recirculating air-cooling pads
  • 24/7 monitoring
  • EU-sovereign network connectivity

Power Infrastructure

High-density power delivery optimized for GPU compute and mining operations with energy efficiency at scale.

  • ≈1 MW power envelope (Config A0)
  • ≈140 kW wall draw at full load
  • UPS battery backup
  • PUE 1.07 patent-pending air cooling

Physical Security

Multi-layer physical and network security ensuring data protection and operational continuity.

  • Sealed container enclosure
  • CCTV surveillance 24/7
  • Fire suppression systems
  • Environmental monitoring

Small Water. Fast Deploy. Almost No Waste.

A legacy hyperscale datacenter drinks millions of gallons a day and takes years to switch on. Ours ships in a container, cools with recirculating pads that use a fraction of the water, and reaches the GPU with almost none of your power lost on the way.

Cooling water per day

A fraction

Legacy hyperscale: 3–5M gal/day

Order to live

Weeks

Legacy hyperscale: 3–6 years

PUE (energy overhead)

1.07

Legacy hyperscale: ~1.5+

Cooling water
Legacy hyperscale3–5 million gallons a day, evaporated into the air
DCNetworkA fraction — recirculating cooling pads use a small, controlled amount

A far smaller water footprint means less drought-risk exposure and none of the community backlash a thirsty mega-datacenter draws.

Time to deploy
Legacy hyperscale18–30 months to build — 3–6 years with permitting and grid interconnect
DCNetworkWeeks — a mobile container ships from order to on-site power-on

Capacity that lands this quarter, not the quarter you have already been out-competed in.

Energy overhead (PUE)
Legacy hyperscale~1.5+ industry average — up to a third of your power lost to overhead
DCNetwork1.07 measured — almost every watt reaches the GPU

Lower overhead is lower cost per inference, passed straight through to your invoice.

Placement
Legacy hyperscaleFixed to a handful of mega-sites near cheap land and grid
DCNetworkDeploys where power is clean and cheap — or on your own premises

Put compute next to the workload, the data, or the renewable source — not the other way round.

Legacy figures are industry averages: hyperscale evaporative-cooling water use of 3–5 million gallons/day, 18–30 month build times (3–6 years with permitting), and ~1.5+ average PUE. DCNetwork figures are for the first signed member node (Config A0): 60× B200 in a 12-rack mobile container cooled by recirculating evaporative pads (a fraction of hyperscale water use), PUE 1.07.

The Infrastructure & Efficiency Datasheet

One datasheet for the whole story: how recirculating cooling pads reach PUE 1.07 on a fraction of the water, the order-to-live timeline for a 12-rack mobile container, and the full hardware spec — floor plans, power, network topology, WUE/PUE math, and siting options.

Get the Infrastructure & Efficiency Datasheet

Our Core Business Is the Metal. The AI Platform Is One Workload On It.

DCNetwork is an infrastructure company first — datacenters and servers are what we build and own. Our 47-agent AI platform is the flagship thing that runs on that hardware, but it isn't the only thing that can. Deploy your own applications and platforms on our facilities, run them alongside the AI stack, or have us stand up a customized DCNetwork build tuned to your team. Same mobile, air-cooled, EU-sovereign iron — your workload on top.

Every Watt Does Double Duty

Our facilities route waste heat and excess power directly from processing clusters into co-located Fushuma proof-of-work mining rings. Combined hashrate exceeds 450 GH/s. Here's why this matters for you: mining revenue offsets infrastructure capex. Lower capex means lower inference pricing for platform users. During low-demand periods, mining absorbs excess capacity instead of wasting it. During high-demand periods, mining scales back instantly to free up GPUs for AI workloads. It's a deliberate economic design that makes our platform cheaper to run than any pure-play AI cloud.

Blockchain Mining Operations

Co-located mining infrastructure securing the Fushuma network while maximizing energy utilization.

Network

Fushuma

Proof-of-Work blockchain (Chain ID: 121224) securing the DCNetwork ecosystem

Algorithm

Ethash

Memory-hard mining algorithm ensuring fair and decentralized block production

Hashrate

450+ GH/s

Combined mining hashrate contributing to network security and block validation

Energy Efficiency

Optimized

Co-located with AI compute to maximize power utilization and reduce waste heat

Block Rewards

FUSHUMA

Native token rewards distributed to miners securing the network

Designed Uptime

Target 99.9%

Design target for continuous mining operations on the co-located hardware

Phase 2: Federated Operator Racks

We're not stopping at the first facilities. Phase 2 brings federated operator racks online across Europe. Independent node operators connect their hardware to our network, earn from every request they serve, and expand our total compute capacity without buying a single new server. If you run a data center or have excess GPU capacity, you can join the network. We handle the orchestration, the billing, and the demand routing. You handle the hardware and the uptime.

Here's the Deal

DCNetwork members own and operate the GPU facilities — the first member node (Czech Republic) runs 60× B200 in a 12-rack container at PUE 1.07 with a ≈1 MW envelope — while mining operations offset costs to lower your inference pricing. And we're expanding via federated node operators across Europe.

Infrastructure & Efficiency Datasheet

Floor plans, power and network specs, PUE/WUE math, the low-water cooling story, and the weeks-not-years deployment timeline — in one datasheet.

Phase 2 federated racks are onboarding now. Approved operators join the routing pool in the order their attestation clears.