CONTAINER DATACENTER

Your AI datacenter, delivered in 30 days.

Factory-built. Truck-delivered. Plug-and-run. From empty land to IT-ready in 2 weeks on site.

01 / DELIVERY

30 days

500 kW

02 / DELIVERY

90 days

2 MW

03 / DELIVERY

180 days

10 MW

Request a quote → See product line

WHY SPEED

Built in a factory, not on a job site.

A traditional datacenter takes 18 to 24 months to build. Our containerized solution lands at your site in a third of that time, at half the CapEx, with an order of magnitude lower failure rate.

Metric	Traditional	TGs4
Build time	18–24 months	3–6 months
On-site labor	100% of work on site	~30% of work on site
CapEx ($/W, excl. IT)	$9–12	$3–5
Install quality	Site conditions vary	Factory-controlled, 10× lower failure rate
Horizontal scaling	Redesign each time	Add modules linearly

4–8×

Faster to first power-on

−50%

CapEx reduction (excl. IT)

THE REAL ECONOMICS

The cost of waiting is bigger than the cost of building.

$7.9M

gross margin lost per 12-month delay on a 4 MW AI cluster

Real economics aren't about CapEx. They're about cash flow timing.

At $0.15/kWh power and a 2.5× IT-rental markup, every month of construction delay costs a 4 MW operator roughly $660K in margin.

The 30% you save on CapEx by building traditionally is dwarfed by what you lose to time. Speed isn't a feature — it's the entire business case.

CapEx saving
(traditional build)

~$2M

Margin lost
(12-month delay)

~$7.9M

Speed isn't a feature. It's the entire business case.

THE QUALITY ARGUMENT

More than 50% of early-life infrastructure failures trace directly to field workmanship.

70–90%

HVAC defects

of HVAC systems contain at least one installation or maintenance defect — driving energy use up to 30% above design.

U.S. DOE Review

~57%

Power faults

of industrial electrical faults are loose connections, moisture ingress, and insulation defects — all site workmanship.

IEEE Gold Book

70–80%

MV cable faults

of medium-voltage cable failures are concentrated in field-fabricated terminations and splices, not in the cable itself.

Industry Field Data

Factory prefabrication moves cable terminations, busway joints, and HVAC commissioning from a −20°C outdoor job site into a controlled environment.

The result: quality consistency lifts by an order of magnitude. Early-life failure rates drop. PUE targets get hit on day one.

Read the full technical memo →

PRODUCT ARCHITECTURE

Modular atomic units. Combine to fit.

One design language, multiple capacities. Pick a power tier, pick a compute tier, ship. Every SKU is a multiple or fraction of the 2 MW atomic unit — defined by the physical limit of a single 40HQ container.

POWER MODULES

Transformer + UPS + battery + ATS in one container. Connects to the grid on one side, to compute on the other.

DP-500

500 kW

20HQ

Compact power core 630 kVA dry-type transformer + 500 kW modular UPS + 250 kWh LFP battery

DP-1000

1 MW

40HQ

Mid-tier power core 1250 kVA transformer + 1 MW UPS + 500 kWh LFP battery

DP-2000

2 MW

40HQ

Atomic unit 2500 kVA transformer + 2 MW UPS + 1 MWh LFP — pairs 1:1 with CC-B300-2MW

GENERATOR MODULES

Diesel genset + day tank + intake/exhaust silencing. Physically separated from the power core for fire isolation, vibration containment, and easier insurance approval.

GS-500

500 kW

20HQ

MTU 8V1600 compact 500 L day tank · 8 hr autonomy on built-in fuel

GS-1000

1 MW

40HQ

Cummins C1100D5 800 L day tank · external fuel-tank compatible

GS-2000

2 MW

40HQ

MTU 12V4000 1500 L day tank · 80 hr autonomy with FuelTank-20K

COMPUTE MODULES

Four density tiers, four GPU procurement models. Pick by how you buy your servers, not by performance.

CC-AIR-240

240 kW

40HQ · AIR-COOLED

Versatile baseline 6 racks @ 40 kW · Edge / storage / management nodes / H100, A100

CC-LIQUID-900

900 kW

40HQ · LIQUID-COOLED

Self-built GPU servers 10 racks @ 90 kW · H200 / B200 self-assembled

CC-NVL72-900

924 kW

40HQ · NVIDIA NVL72

NVIDIA reference design 7 NVL72 racks · 504 GB200/B300 GPUs · in-rack CDU

CC-B300-2MW

1.84 MW

40HQ · OCP ORV3

Hyperscale density 8 racks @ 230 kW · 1,152 B300 GPUs · 21" OCP

▸ EDGE SPECIAL · ALL-IN-ONE

AIO-500

500 kW

SINGLE 40HQ · ~15 t

One container. Power core, generator, and battery, all inside.

The only three-in-one SKU in the lineup. Built for edge sites where a second container isn't an option — remote islands, mountain passes, temporary deployments, or customers who simply want the fewest possible boxes on the ground. Above 500 kW, the 40HQ payload limit (26 t) makes three-in-one physically impossible — DP + GS must split.

+ BESS storage · MV switchgear · Network container · External fuel-tank · Liquid-cooling skid · PV + MPPT

Like IKEA furniture: standard parts, flexible combinations, globally manufactured, locally serviced.

ON-SITE DEPLOYMENT

From empty land to IT-ready in 6 days.

Standardized industrial quick-connectors compress on-site assembly from months to days. Crane in. Plug in. Power on.

DAY 1

Crane positioning ~8 HOURS

DAY 2

Power connections ~2 HOURS · POWERLOCK + MV

DAY 3

Cooling water connections ~3 HOURS · STÄUBLI QRC

DAY 4

Network connections ~3 HOURS · LC FIBER + BMS

DAY 5

System commissioning ~8 HOURS

DAY 6

IT load on FIRST WORKLOADS

POWERLOCK 660A

5 min

Mechanical low-voltage connection. Industry standard for power and broadcast.

STÄUBLI QRC

10 min

Per pair. The de-facto standard for datacenter liquid cooling.

LC DUPLEX FIBER

5 min

Per pair. Standard data uplink and management network.

6 days vs. 6–12 months.

~30× FASTER ON-SITE ASSEMBLY

BUILT FOR

Four customers. One product line.

From a single edge node to a Hyperscale cluster, the same modular SKUs cover the full range. Pick the configuration that matches your scale.

▸ 01 / AI STARTUPS

AI startups racing the GPU clock

500 kW – 2 MW

"Our GPUs already shipped. The datacenter is still being built. We're burning $50K a day in idle hardware."

Recommended: Compact / Standard

▸ 02 / ENTERPRISE

Enterprise private AI nodes

200 kW – 1 MW

"Tight budget, edge deployment, no datacenter on site. We need turnkey, not a construction project."

Recommended: Edge Mini / Compact

▸ 03 / TRAINING CLUSTERS

Large AI training clusters

4 MW – 10 MW

"High density, scalable, modular. We add capacity by adding containers, not by rebuilding."

Recommended: Mega / Hyperscale

▸ 04 / MINING → AI

Crypto mines transitioning to AI

2 MW – 20 MW

"We have the power infrastructure already. We just need to upgrade the compute to liquid-cooled AI."

Recommended: Standard / Mega + BESS

Ready to skip the 18-month build?

Talk to engineering → Get a quote

Engineering response within 24 hours · Quotes in 5 days