Accelerate innovation. 

Generate optimal, manufacturable heat sink designs through the cloud.

Generative design introduces freedom, adaptability, and accessibility to the heat sink design process. Generative design can be viewed as an umbrella term, comprised of algorithm driven software assisted design, incorporating methods like topology optimization and shape optimization. With generative design, the role of designers and engineers is to frame the problem and define the goals, which the software interprets, and then uses to guide its way towards an optimal design option.

In generative heat sink design, island like structures supplant tubes and fins, freeing the flow through a complex network of precisely positioned and sized channels, offering more cooling potential.

 

Benefits

Minimize

Weight
Temperature
Pressure loss
Thermal resistance
Thermal deformation

Maximize

Temperature uniformity
Heat flux
Power

Discover optimal cooling

Design custom cooling components with up to 30% better performance through generative design.

Optimize thermal and flow

Optimize the topology of 2D and 3D cooling components with great adaptability.

Increase durability

Increase the lifespan of your heat sink.

Eliminate thermal hotspots

Ensure the cooling channels are optimized and adapted to your heat source(s).

Manufacture your design

Benefit from an extensive list of subtractive and additive manufacturing techniques.

Design with speed

Gain access to AI, resulting in a fast, automated design process.






Classic CFD, Disruptive Technology


Unlike pure parametric or shape optimization, generative design through topology optimization is extremely adaptable.
Just one small change to your boundary conditions will result in a completely different, yet optimal design topology.

No initial design needed, no limit on complexity, no design bias. Maintain your workflow, better your heat sink.

 

Features

Native CAD file export

Easily incorporate your optimized design into your existing workflow.

Input multiple constraints

Push the limits of your design optimization with multiple constraints.

Cloud based platform

Run physics-based simulation workflows on the cloud to get timely results.

Accurate meshing

Our software utilizes highly refined meshing for accurate results.

Extensive material library

Possess an extensive library of heat sink materials, with each altering the design outcome.

Gradient based algorithms

Our software is powered by gradient based algorithms, resulting in optimal design outcomes.

Artificial intelligence

Coupled with supercomputing power, AI enables design optimization speed.

Optimize for multiple goals

Optimize for low pressure drop in tandem with low temperature, among many others.

Extensive manufacturing library

Optimize for different manufacturing techniques, including subtractive ones.

See how we submit design cases to our AI in our X in depth series

See our software in action  


Once you input the boundary conditions, constraints, and optimization goals into our generative design software, the automated design process begins.

In our X in Depth YouTube video series, we showcase how to input those parameters for various design cases.
Watch video


Ready for manufacturing


During the case setup process, you can input the manufacturing constraints to ensure that your heat sink or cold plate is designed for producibility. We support both additive and subtractive techniques, including die casting, 3D printing, CNC milling, sheet metal, and more.
Our designs are fully manufacturable using a many standard and experimental techniques.
Our designs are used in cases where cooling is absolutely critical, like in e-motors, EV batteries, power electrics, etc.


High energy dense tech requires high performance cooling


With generative design, you can push the boundaries to cool high power density applications, such as e-motors, EV batteries, power electronics, electron microscopes (SEM), lasers, LEDs, central processing units, semiconductors, and more.
Generative thermal design for liquid cooling

Liquid Cooling
Generative thermal design for air cooling

Air Cooling
Generative thermal design for conduction cooling

Conduction
Generative thermal design for natural convection cooling

Natural Convection

Request a demo

Better heat transfer, more
design freedom.

Innovate your heat sink with generative design.
ABOUT DIABATIX
Founded in 2016, Diabatix is a Belgian company that specializes in generative thermal design. Through the potent combination of AI and generative design, our software is capable of designing, analyzing, and optimizing cooling components with extreme speed and efficiency. With a focus on heat transfer, the thermal designs generated from our software are made to cool the high powered tech of today and tomorrow.
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