Software

​The software tools developed by our team are available in our GitHub repository

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Tools for seismic design and regional-scale nonlinear analysis of reinforced concrete structures

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Interactive structural design of reinforced concrete buildings using Jupyter Notebooks (Python-based)

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Numerical workflows for creating structural models, and running regional simulations on high-performance parallel computing platforms (Python, MATLAB, Tcl, Bash)

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See accompanying publication for a description of the software tools: CCEER-22-01: Nonlinear Analysis of Near-Fault Structures Using Physics-Based Simulated Earthquake Ground Motions

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Nonlocal finite element tools for simulating damage in reinforced concrete structures​

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Beam-column finite element model implementation for mesh-objective simulation of damage limit states in reinforced concrete members (C++ development in OpenSees)

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Constitutive model implementation for mesh-objective simulation of the softening response of concrete in structural members (C++ development in OpenSees)

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