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.
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
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

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


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.
Better heat transfer, more
design freedom.
Innovate your heat sink with generative design.