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Simulation- and data-driven design without the bottlenecks

Variable geometry, automation, and optimization in one platform.

All core design functionalities in one platform

Flexible parametric geometry modeling

CAESES provides a powerful parametric modeling environment built for simulation-driven design. Based on flexible NURBS geometry, it enables stable, highly adaptable models that support automated design studies, optimization, and data-driven workflows – even for complex freeform shapes.

Efficient parameterization 

CAESES enables intelligent parameterization of even highly complex, freeform geometries. Instead of relying on large numbers of variables, models are defined using a minimal set of meaningful, descriptive parameters – making them easier to control, understand, and optimize.

Robust geometry variation 

Models remain stable and reliable under extensive variation. Geometry regenerates consistently without failures or defects, allowing you to run large-scale design studies and optimization processes with confidence.

Fully customizable modeling

There are no predefined templates or black-box models. Every aspect of the model and its parametric logic can be tailored to your specific requirements, giving you full control over how geometry is defined and behaves.

Integrated constraint handling

Geometrical constraints – such as manufacturing or packaging requirements – can be embedded directly into the model. This ensures that all generated design variants remain feasible and reduces the need for manual rework.

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Simulation-ready by design

CAESES generates clean, watertight geometry that is ready for automated meshing and simulation. Persistent patch identifiers, customizable surface names, and per-patch triangulation settings are preserved throughout geometry variation, while integrated healing, snapping, and repair tools ensure robust exports – even for imported CAD models.

This enables one-time simulation preprocessing that remains valid for all generated design variants, significantly reducing manual effort and ensuring reliable automated analysis and optimization.

Shape deformation and morphing

Alternatively to fully-parametric modeling, CAESES provides deformation and morphing tools for imported data, such as NURBS geometries or surface meshes. The methods include Free-Form Deformation (FFD) using control boxes and Radial Basis Function (RBF) morphing based on translation vectors or couples of source and target geometries.

This enables rapid design exploration and optimization of existing geometries, significantly reducing modeling effort while maintaining compatibility with automated workflows.

Powerful scripting

With feature programming, CAESES includes a powerful scripting environment that enables users to automate modeling tasks, create custom functions or exports, and extend software functionality to match specific engineering workflows. In addition, CAESES can run in batch mode fully controlled by externally generated scripts.

This provides maximum flexibility for implementing company-specific processes, reducing manual effort, and integrating CAESES into complex simulation-driven development processes.

Custom templates

CAESES provides the generation of custom templates that wrap parametric models, workflows, and simulation setups into a simplified user interface tailored to a specific application. These templates can be accessed by users without expertise in using CAESES through web-based interfaces and executed offline or online.

This enables simulation-driven design capabilities to be deployed across teams, standardizes engineering workflows, and makes advanced automation accessible to both experts and occasional users.

Why CAESES

Stable geometry

In parametric engineering workflows, geometry needs to remain consistent while inputs change. Ensuring robustness across design variations is a key requirement for reliable simulation and automated evaluation.

Less parameters

As geometries become more complex, the number of parameters required to describe them can increase significantly. Structuring models in a meaningful way helps keep them manageable and focused on the actual design intent.

Automated workflows

Typical CAE processes involve time-consuming steps, including geometry preparation, meshing, and simulation setup. Bringing these steps into an automated workflow supports smoother transitions and reduces manual coordination effort.

Usable design results

Optimization generates a wide range of solutions, which still need to align with practical constraints such as manufacturing, and integration requirements. Considering constraints throughout the process ensures downstream usability of the results.

Fast automated iterations

Design exploration benefits from rapid iteration cycles, where models can be updated and evaluated repeatedly with minimal friction. Reducing manual intervention helps maintain momentum throughout the analysis process.

Design insights

Understanding relationships between design parameters and performance is not always straightforward. Thorough exploration and structured analysis support clearer interpretation and more informed design decisions.

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FAQs

Is CAESES a CAD system?

CAESES includes powerful geometry modeling capabilities, but it is not a traditional CAD system focused on manufacturing drawings or production design. Instead, it is developed for parametric geometry generation, simulation-ready modeling, Design Space Exploration (DSE), and automated optimization workflows.

Why would I need an additional CAD system?

The advantages of early-stage Design Space Exploration (DSE) are well recognized within the fast-ship design community. By evaluating design variations in the process, DSE can significantly influence both fundamental design and business decisions, and enhance the effectiveness of later simulations that rely on resource-intensive, higher-order methods.