A package for binary and continuous, single and multi-material, truss and continuum, 2D and 3D topology optimization on unstructured meshes using automatic differentiation in Julia.
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Updated
Dec 16, 2024 - Julia
A package for binary and continuous, single and multi-material, truss and continuum, 2D and 3D topology optimization on unstructured meshes using automatic differentiation in Julia.
Auto-differentiable and hardware-accelerated force density method
Inverse design of 3D truss networks with automatic differentiation
Finite element tool to design steel wide-flange (WF) beams and create detailed output report using Latex
Design, analysis, and optimization of structural trusses
In this course we will take you from no programming experience to using our world class Structural Analysis and Design API.
Generative UAV models based on CadQuery
Rhino plugin for form finding of spatial networks of compression forces in equilibrium with vertical loads using two-dimensional, reciprocal form and force diagrams.
Excel VBA library for creating steel shape objects based on the AISC Steel Manual.
Auto-differentiable force density method
A JAVA/Processing sketch that implements the Force Density Method (FDM) and Dynamic Form-Finding (PSS: Particle-Spring Systems). Form finding, structural design and optimization of grid shells. Massachusetts Institute of Technology (MIT). 2015/2017.
Supplementary data for the paper constrained form-finding of tension-compression structures using automatic differentiation (CAD, 2022)
Tools from the ENPC and Build'in platform for Geometry and Structural Design.
Performance-based Design using Perform-3D
This repository contains a project that employs the Revit API for automated generation of diverse beam and column sizes in large-scale BIM projects, aiming to enhance efficiency, minimise errors, and ensure modelling consistency.
Design 3D structures out of beams & ropes and simulate their behavior under internal and external forces.
A JAVA/Processing sketch that implements a geometric solution to the generation of optimum Mitchell trusses. Structural design and optimization of frames (trusses). Massachusetts Institute of Technology (MIT). 2015/2017.
Compare Elementary Structural Calculations Across Various Programming Environments and Languages.
Structural analysis of plane frame, using various programming and scripting languages. Suitable for sheds, carports and verandahs, treated as series of plane frames.
Based on % PT Value & concreate grade it will calculate the shear strength, designed for structural designer
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