SwirlX
SwirlX
NVIDIA Inception Program
SwirlXProduct

Heat, moved with precision — for the age of compute.

Our goals, the Vortex product line, and the industries it serves — the whole SwirlX story in one place.

2Vortex platforms
3Materials
250kW+Per rack
Our goals

Three barriers. One geometry.

Every SwirlX program advances the same three goals — swipe through them.

The science

2× the heat. Half the volume.

SwirlX replaces flat plates with an AI-designed, 3D-printed swirl geometry — more heat moved through dramatically less hardware.

How it works

Designed by AI. Printed in 3D. Proven in the lab.

01

AI-designed geometry

Generative optimization searches millions of lattice geometries for maximum heat transfer per unit of pumping power.

02

3D-printed lattice

Additive manufacturing realizes swirl structures that are impossible to stamp or braze in conventional plate exchangers.

03

Experimentally validated

Every geometry is benchmarked on instrumented test rigs against conventional plate HEX at matched duty.

Performance

Measured against conventional plate HEX.

0×
Thermal density
0×
Surface area / volume
0%
Less installed volume
0%
Less pumping power
Head-to-head

SwirlX 3D vs. conventional.

Thermal density
2× the heat
SwirlX 3D
Conventional
Surface area / volume
10× the area
SwirlX 3D
Conventional
Installed volume
46% less
SwirlX 3D
Conventional
Pumping power
30% less
SwirlX 3D
Conventional
Specifications

At a glance

Representative figures for SwirlX 3D vs. conventional plate heat exchangers at matched heat duty.

Thermal density2× plate HEX
Surface area / volume10× plate HEX
Installed volume−46% (same duty)
Pumping power−30%
Geometry3D-printed swirl lattice
MaterialsAluminum · Stainless · Copper
Target rack power250 kW+
ValidationExperimental, matched-duty
The Vortex line

Two products. One swirl core.

Vortex M0 and Vortex M1 share the AI-designed 3D geometry — pick the platform, then the material.

Photo available on request
Flagship platform

Vortex M0

The first SwirlX heat exchanger built on the 3D swirl core — engineered for high heat flux in a compact, manifold-ready footprint. Detailed specifications are being finalized.

Full spec sheet coming soon
Applications

One geometry, every industry.

From 250kW+ AI racks to mass-critical aerospace — swipe through the sectors.

Get in touch

Find the right SwirlX for your facility.

Tell us your rack power, footprint and heat-rejection setup — we'll recommend the platform and material.