169 Works

AgMIP Explorer

Rob Campbell
Explore AgMIP data and create plots and downloads

AgMIP Explorer

Rob Campbell
Explore AgMIP data and create plots and downloads

Purdue ME 581-Numerical Methods in Engineering Using Jupyter Notebooks

Martin Hunt, Marisol Koslowski, Peter Kolis, Meredith Meyer, Akshay Dandekar & Camilo Duarte-Cordon
Jupyter notebooks with an introduction to python and examples for Numerical Methods in Engineering.

PhysiBoSSa Simulation with ECM

Marco Ruscone, Vincent Noel, Laurence Calzone, Gaelle Letort & Arnau Montagud
Agent based multicellular simulation with extracellular matrix interaction

Souffle: Virus Capsid Assembly Lab

, JCS Kadupitiya & Vikram Jadhao
Simulate assembly of flexible capsomeres into virus capsids and oligomers

Purdue ME 581-Numerical Methods in Engineering Using Jupyter Notebooks

Martin Hunt, Marisol Koslowski & Peter Kolis
Jupyter notebooks with an introduction to python and examples for Numerical Methods in Engineering.

VEDA: Virtual Environment for Dynamic AFM

Daniel Kiracofe, John Melcher, Arvind Raman, Sudharsan Balasubramaniam, Steven Johnson & Shuiqing Hu
A suite of dynamic AFM simulators for air/liquid/vacuum on soft or hard samples.

PhysiCell: liver tissue mechanobiology

Yafei Wang, Randy Heiland & Paul Macklin
An ABM simulating the liver tissue mechanobiology on cancer metastatic seeding with PhysiCell

A virion infected-cell response tissue simulator

Yafei Wang, Randy Heiland & Paul Macklin
Simulate infected cell response to virus with PhysiCell

WHiTe (Wood-High-Temperature) Compact Models

Neal Wood
This package provides a set of 4H silicon carbide high-temperature integrated device compact models, written in industry standard Verilog-A; currently included are a resistor and a junction field-effect transistor.

PhysiCell model for COVID19

Randy Heiland & Paul Macklin
Prototype 2-D multicellular simulation of COVID19.

SEM Image Processing Tool

Joshua Schiller, Matthew Robertson, Kristina Miller, Kevin Cruse, Kevin Liu, Darren Adams, Benjamin Galewsky & Elif Ertekin
Analysis and feature detection in SEM images of Graphene.

Nanoparticle Shape Lab

JCS Kadupitiya, Nicholas Brunk & Vikram Jadhao
Simulates the low-energy shapes of nanocontainers over a wide range of solution conditions

Jupyter Notebook

Steven Clark
Starts the Jupyter notebook server using the latest installed release of anaconda.

Nanosphere Electrostatics Lab

JCS Kadupitiya, Nicholas Brunk, Sohile Ali, Geoffrey Fox & Vikram Jadhao
The Nanosphere Electrostatics Lab empowers users to simulate the self-assembly of ions near a spherically shaped nanoparticle, and extract the effective electrostatic properties.

PhysiCell cancer-immune model

Paul Macklin & Randy Heiland
PhysiCell model of immune cells attacking a heterogeneous tumor

Ions in Nanoconfinement

JCS Kadupitiya, Nasim Anousheh, Suresh Marru, Geoffrey Fox & Vikram Jadhao
The Ions in Nanoconfinement app empowers users to simulate ions confined between material surfaces that are nanometers apart, and extract the associated ionic structure.

Bound States Calculation Lab

Dragica Vasileska, Gerhard Klimeck & Xufeng Wang
Calculates bound states for square, parabolic, triangular and V-shaped potential energy profile

romdegradation: Physics-based, Reduced Order Degradation Model of Lithium-ion Batteries

Aniruddha Jana, Surya Ayalasomayajula & Edwin Garcia
Physics-based, Reduced Order Degradation Model of Lithium-ion Batteries

PhysiCell model for COVID19

Randy Heiland, Yafei Wang & Paul Macklin
Prototype 2-D multicellular simulation of COVID19.

romdegradation: Physics-based, Reduced Order Degradation Model of Lithium-ion Batteries

Aniruddha Jana, Surya Ayalasomayajula & Edwin Garcia
Physics-based, Reduced Order Degradation Model of Lithium-ion Batteries

Graphene Raman Fitting Tool

Matthew Robertson, Darren Adams & Elif Ertekin
Analyze Raman spectra from graphene

QDOT Jupyter Test

Martin Hunt
a test and demo of the qdot tool ported to Jupyter

MOOSE Simulation Environment

Steven Clark, Larry Aagesen & Daniel Schwen
Idaho National Laboratory's MOOSE (Multiphysics Object Oriented Simulation Environment)

Ions in Nanoconfinement

JCS Kadupitiya, Nasim Anousheh, Suresh Marru, Geoffrey Fox & Vikram Jadhao
The Ions in Nanoconfinement app empowers users to simulate ions confined between material surfaces that are nanometers apart, and extract the associated ionic structure.

Registration Year

  • 2020
    169

Resource Types

  • Software
    169