A MicroLink data center on a city corner, compute on the ground floor and a glowing greenhouse under glass above
MicroLink Data Centers

AI compute that recovers every watt.

Liquid cooled compute inside industrial facilities that already hold the power, and already buy the heat.

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We design, build, and operate liquid cooled AI data centers inside industrial facilities that already hold the power, and already buy the heat.

The host gets the heat its boilers would otherwise make and shares in the value the site creates. The tenant gets below market power in markets that are otherwise closed. One facility, paid twice.

100%

Almost every watt a chip draws leaves the silicon as heat. The industry throws it away. We treat it as a second product.

A liquid cooled compute chip held in tweezers
How it works01

Three loops. One of them is always open.

Section drawing of a MicroLink deployment beside a greenhouse, showing the cooling loops and dry cooler reject path
Loop 1

Liquid cooling

Direct to chip liquid cooling at densities air cannot reach, returning water at 40 to 65°C (104 to 149°F), engineered for recovery.

Loop 2

Heat recovery

Recovered heat crosses one metered exchanger into the host's systems: process hot water, digesters, district heat, greenhouses.

Loop 3

The reject path

Dry coolers sized for the full load carry whatever the host does not take, hour by hour. Compute never waits on thermal demand.

The model

One facility. Two beneficiaries.

For hosts

Your facility already does the hard part.

Interconnection, footprint, and year round thermal demand are already on your site.

  • Recovered heat displaces purchased gas
  • Share in the value the site creates
  • No capital outlay, no operating burden
For tenants

Capacity where the grid says no.

Compute inside markets where new utility load waits years, or never connects.

  • Below market power on a cost plus structure
  • Bring your own servers or take provisioned GPUs
  • Liquid cooled densities from day one
Portfolio02

Six sites. 520 MW. Built on power that already exists.

6
sites across the United States
520 MW
portfolio capacity at Full Build
85%
of compute heat recovered for hosts

View the portfolio

Illustrated panorama of an industrial host facility on the riverfront
Technology03

PUE tells you what you wasted. ERE tells you what you saved.

1.10
PUE target
<1.0
ERE, host taking heat

We report both, always. Recovery is the metric the industry does not publish.

Explore the technology

A modular MicroLink compute block being installed
Community04

Infrastructure should always add to its community.

Every site carries a binding community program built on the heat it returns, co designed with the neighborhood.

Food · the greenhouse Make · the craft brewery Use · the laundry Gather · the public center

See the community program

Compute modules inside a working greenhouse heated by recovered warmth
Contact05

Have a facility? Need capacity? Talk to us.

Email MicroLink For hosts