Awesome
ReinventCommunity (jupyter notebook tutorials for REINVENT 3.2)
This repository is a collection of useful jupyter notebooks, code snippets and example JSON files illustrating the use of Reinvent 3.2.
At the moment, the following notebooks are supported:
Complete_Use-Case_DRD2_Demo: a full-fledged use case using public data onDRD2, including use of predictive models and elucidating general considerationsCreate_Model_Demo: explanation on how to initialize a new model (prior / agent) forREINVENTwhich can be trained in a transfer learning setupData_Preparation: tutorial on how to prepare (clean, filter and standardize) data from a source such asChEMBLto be used for trainingModel_Building_Demo: shows how to train a predictive (QSAR) model to be used withREINVENTbased on the publicDRD2dataset (classification problem)Reinforcement_Learning_Demo: example reinforcement learning run with a selection of scoring function components to generate novel compounds with ever higher scores iterativelyReinforcement_Learning_Demo_Selectivity: example illustrating the use of the relatively complicatedselectivity_componentto optimize potency against a target while simultaneously pushing for a low potency against one or more off-targetsReinforcement_Learning_Demo_Tanimoto: very simple (only 1, easy-to-understand component) transfer learning exampleReinforcement_Learning_Exploitation_Demo: illustrates the exploitation scenario, where one is after solutions from a subspace in chemical space already well definedReinforcement_Learning_Exploration_Demo: illustrates the exploration scenario, where the aim is to generate a varied set of solutions to a less stringently defined problemReinforcement_Learning_Demo_DockStream: illustrates the use ofDockStreamin REINVENT, allowing the generative model to gradually optimize the docking score of proposed compounds. For more information onDockStream, please see theDockStreamrepository and the correspondingDockStreamCommunityrepository for tutorial notebooks onDockStreamas a standalone molecular docking tool.Reinforcement_Learning_Demo_Icolos: illustrates the use of Icolos in REINVENT using a docking scenario.Sampling_Demo: once an agent has been trained and is producing interesting results, it can be used to generate more compounds without actually changing it further - this is facilitated by thesampling modeScore_Transformations: as many components produce scores on an arbitrary scale, butREINVENTneeds to receive it normalized to be a number between 0 and 1 (with values close to 1 meaning "good"), score transformations have been implemented and can be used as shown in this tutorialScoring_Demo: in case a set of existing compound definitions (for example prior to starting a project) should be scored with a scoring function definition, thescoring modecan be usedTransfer_Learning_Demo: this tutorial illustrates thetransfer learningmode, which usually is used to "pre-train" an agent beforereinforcement learningin case no adequate naive prior is available or to focus an already existing agent furtherTransfer_Learning_Demo_Teachers_Forcing: same asTransfer_Learning_Demoabove, with explanation ofteachers forcingLib-INVENT_RL1_QSAR: Lib-INVENT example reinforcement learning run using a QSAR modelLib-INVENT_RL2_QSAR_RF: Lib-INVENT example reinforcement learning run using a random forest (RF) QSAR modelLib-INVENT_RL3_ROCS_RF: Lib-INVENT example reinforcement learning using OpenEye's ROCS 3D similarity (requires an OpenEye license)Link-INVENT_RL: Link-INVENT example reinforcement learningAutomated_Curriculum_Learning_demo: illustrates the automated curriculum learning running model. The example demonstrates how to set-up a curriculum to guide the REINVENT agent to sample a target molecular scaffold. This scenario represents a complex objective as the target scaffold is not present in the training set for the prior model