paper doi: 10.1109/TVCG.2023.3337642
video doi: 10.1109/TVCG.2023.3337642/mm1
Replicability Stamp form the Graphics Replicability Stamp Initiative :
http://www.replicabilitystamp.org#https-github-com-marcoschaefert-invado-setup
contains the installation instructions and additional data to complement the main InVADo repository
main repository of InVADo: https://github.com/MarcoSchaeferT/megamol-prolint-InVADo
- InVADo is available under the repository link above
- download the repo and run CMake to prepare InVADo for building
(see Requirements Building InVADo and Building InVADo) - running CMake will download the additional content of this repository
- additional content is automatically saved to: InVADo_MAIN_REPO\plugins\prolint\InVADo_setup
additional data includes:
- figures of functional groups (needed for web dashboard)
- small precalculated data set (for web part development or when running the web dashboard without InVADo desktop)
- small molecular docking pipeline
- InVADo config file
- graphics settings file
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operating system: windows 10 or 11
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GPU: NVIDIA
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CUDA (tested CUDA 11.6) https://developer.nvidia.com/cuda-11-6-0-download-archive
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Windows Subsystem for Linux (WSL) with Ubuntu https://learn.microsoft.com/en-us/windows/wsl/install
- (tested Ubuntu 22.04 LTS) https://www.microsoft.com/store/productId/9PN20MSR04DW?ocid=pdpshare
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CMake (tested 3.26) https://cmake.org/download/
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Visual Studio (tested version of 2022) https://visualstudio.microsoft.com/de/vs/
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node.js v16 (tested 16.20.1) https://nodejs.org/en/blog/release/v16.20.0
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Microsoft MPI (install both msmpisdk.msi; msmpisetup.exe) https://www.microsoft.com/en-us/download/details.aspx?id=105289
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Firefox (tested 116.0.1) https://www.mozilla.org/de/firefox/new/
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Python 3.10 (tested 3.10.11) https://www.python.org/downloads/release/python-31011/
- Add to Path
- use --> Customize Installation
- click 'Next'
- Precompile Standard Library
- Download debugging symbols
- Download debug binaries
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PLIP runs in the Windows Subsystem for Linux (WSL) that must be installed via the script: InVADo_MAIN_REPO\plugins\prolint\InVADo_setup\run_plip_install.cmd
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the rest of the needed programs is downloaded via CMake
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run CMake for MegaMol/InVADo (configure)
- set visual studio 2022
- set x64
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ignore warnings during the 'configure' process
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check/do the following boxes/steps:
- ENABLE_MPI
- set 'MPI_GUESS_LIBRARY_NAME' to 'MSMPI'
- ENABLE_CUDA
- BUILD_PROLINT_PLUGIN
- BUILD_PROTEIN_CUDA_PLUGIN
- configure again
- generate
- open project
- (may need to install .NET Framework 4.8.1 SDK)
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set the 'INSTALL' target of 'CMakePredefinedTargets' as the start project
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build and install it as "RELEASE" not "DEBUG"
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"DEBUG" is possible as well, but if the docking data set is not already preprocessed by InVADo as a RELEASE version it will fail to start as a DEBUG version
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the docking data set will be preprocessed one time with the first start of InVADo as RELEASE version
PATH = _InVADo_MAIN_REPO\plugins\prolint\InVADo_setup\
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the InVADo config file InVADoConfig.mmprj is located in the folder 'PATH/InVADo_config'
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in the InVADo config file, the path for the ligand list and the target protein file needs to be updated
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this can be done manually in the XML-based file or graphically as follows:
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- open InVADoConfig.mmprj with a text editor and change the path stored in 'value' to e.g.:
- <param name='pdbqtListFilename' value='C:\PATH\prepare_docking_data_scripts\results\results_list.txt' />
- <param name="pdbFilename" value="C:\PATH\prepare_docking_data_scripts\7nn9_autoDockTools.pdbqt" />
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the InVADo config can be adjusted with the configurator PATH/InVADo_config/MegaMolConf.exe
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drag InVADoConfig.mmprj and drop it onto MegaMolConf.exe
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an error message will appear -> click ok -> then the following window will be shown:
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click on the first fix button and navigate to _InVADo_MAIN_REPO/build/install/bin/ and select 'mmconsole.exe'
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then click on the fix button of 'Core and Plugin State'
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a new window appears -> there click the button 'Execute'
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after the plugin scan is finished click on 'Use this State file'
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a window appears where a path for saving the state file is already suggested -> use this suggested path and click 'Save'
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close the configurator
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again drag InVADoConfig.mmprj and drop it onto MegaMolConf.exe -> the following view will appear:
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update the paths for the ligand list and the target protein as follows:
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Module MultiPDBQTLoader1 Parameter: pdbqtListFilename: must be set to your path of a ligand PDBQT file list (*.txt)
==> please note: 'results' is created after the test docking (see Create a New Data Set)
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Module PDBLoader1: Parameter: pdbFilename: must be set to your path of a protein file (*.pdb)
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for easier development set 'INSTALL' target settings of the Visual Studio project as follows:
PATH = _InVADo_MAIN_REPO\plugins\prolint\InVADo_setup\prepare_docking_data_scripts
- the folder 'prepare_docking_data_scripts' contains a pipeline
- this is an exemplary, simple pipeline for processing a molecular docking
- a small example data set is included
- PATH/data/AAABMN.xaa.pdbqt (includes the ligands)
- PATH/7nn9_autoDockTools.pdbqt (is the target protein)
- running the script PATH\run_full_automated_docking.cmd automatically performs a molecular docking of the data above
- the docked data is then stored in the folder PATH/results
- the example ligands are from the ZINC database: https://zinc15.docking.org/
- the docking tool is AutoDock Vina: https://vina.scripps.edu/
- if own ligands are used they should follow the ZINC naming scheme
PATH = _InVADo_MAIN_REPO\plugins\prolint\InVADo_setup\
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InVADo can be started with mmconsole.exe
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mmconsole.exe is stored after building in "_InVADo_MAIN_REPO/build/install/bin/"
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example command for execution (program + config file): C:\Projects\InVADo\build\install\bin\mmconsole.exe -p "C:\PATH\InVADo_config\InVADoConfig.mmprj" -i Project_1 inst
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the first start can take a while because InVADo preprocesses the data (loading bars in the cmd window will indicate the progress)
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the processed data will be stored in [e.g.: PATH\prepare_docking_data_scripts\results\InVADo_tmpFiles]
PATH = _InVADo_MAIN_REPO\plugins\prolint\server\
- there is the possibility to run only the web part of InVADo without the 3D visualization
- it will use the provided test data set
- build the web app: run 'PATH\build_app.cmd'
- start the web app: run 'PATH\run_app.cmd'
PATH = _InVADo_MAIN_REPO\plugins\prolint\InVADo_setup\
- got to folder 'graphicSettings' located in PATH
- run setGraphics.cmd to set an Nvidia profile for InVADo
- if the build fails with: can not find _Py_wfopen() make sure Python 3.10 is installed and no other Python version is set for the Windows PATH variable