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AIXD: AI-eXtended Design
AI-Augmented Architectural Design
Integrated 3D Printed Facade
XR-enabled Digital Twins
Think Earth SP7
Cadwork Connect
2024
AR Planning Software
2023
Robotic Plaster Spraying
Additively Manufactured Facade
Human-Machine Collaboration
2022
Timber Assembly with Distributed Architectural Robotics
Eggshell Benches
Eggshell
AR Timber Assemblies
CantiBox
Autonomous Dry Stone
RIBB3D
Data Driven Acoustic Design
2021
Mesh Mould Prefabrication
Architectural Design with Conditional Autoencoders
Data Science Enabled Acoustic Design
2020
Thin Folded Concrete Structures
FrameForm
Adaptive Detailing
Deep Timber
Robotic Fabrication Simulation for Spatial Structures
Jammed Architectural Structures
RobotSculptor
2019
Digital Ceramics
2018
On-site Robotic Construction
Mesh Mould Metal
Smart Dynamic Casting and Prefabrication
Spatial Timber Assemblies
Robotic Lightweight Structures
2017
Mesh Mould und In situ Fabricator
Complex Timber Structures
2016
Spatial Wire Cutting
Robotic Integral Attachment
Mobile Robotic Tiling
2015
Software Environments
Aerial Construction
Smart Dynamic Casting
Topologie-Optimierung
2014
Mesh Mould
Acoustic Bricks
2013
TailorCrete
2012
BrickDesign
Echord
2010
FlexBrick
2009
Additive Fabrikation
2008
Raumakustik


Cadwork Connect, 2025
In this project, we are developing “Cadwork Connect”, the first software plugin capable of transferring native data models between the architectural CAD platforms Revit and Archicad and the timber-engineering software cadwork 3D – in both directions. This eliminates the need for complex exchange workflows based on 2D paper drawings or Imports and Exports.

Using a semantic description of the geometries, no conversion into intermediary exchange formats is required. You simply select the geometry elements in your CAD environment and push the data directly to cadwork 3D. The timber engineer receives the native data elements ('Hüllkörper') in their cadwork 3D environment.

The plugin integrates seamlessly into both the Revit and Archicad environments. Any changes to wall, floor, window, and roof elements can be pushed from the architectural model and pulled by the timber engineers. Building element types are transferred together with their layer build-ups, which can be edited and synchronized from either side.

To ensure maximum usability and applicability, our team conducted a thorough examination of current workflows used by timber planners at multiple timber companies (e.g., ERNE AG Holzbau, S. Müller Holzbau AG, Abt Holzbau AG) and architecture offices (Penzel Valier AG, konzeptS AG and EM2N AG), as well as leading BIM planning companies (B3 AG, LTplus AG, Speckle AEC Systems Ltd.).

The software architecture consists of several independent packages: COMPAS cadwork, the cadwork 3D API (cwapi3d), and COMPAS_PB.


Credits:
Gramazio Kohler Research, ETH Zürich

Mitarbeiter: Gramazio Kohler Research, ETH Zurich
Prof. Fabio Gramazio, Prof. Matthias Kohler, Matthias Helmreich (Project lead), Karine Osipova-Häuselmann (Software Engineer), Chen Wei-Ting (Software Engineer), Chen Kasirer (Software Engineer), Gonzalo Casas (Software Engineer), Oliver Bucklin

Industry Partner: Cadwork Holz AG, ERNE AG Holzbau

In collaboration with: Abt Holzbau AG, Penzel Valier AG, konzeptS AG, S. Müller Holzbau AG, EM2N AG, B3 AG, LTplus AG, Speckle AEC Systems Ltd.

Funding: Innosuisse (project nr. 121.369 IP-ENG)

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Gramazio Kohler Research
Professur für Architektur und Digitale Fabrikation
ETH Zürich HIB E 43
Stefano-Franscini Platz 1 / CH-8093 Zürich

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