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	# Model documentation & parameters

	Algorithm Version: Which model version to use.

	Property goals: One or multiple properties that will be optimized.

	Protein target: An AAS of a protein target used for conditioning. Leave blank unless you use `affinity` as a `property goal`.

	Decoding temperature: The temperature parameter in the SMILES/SELFIES decoder. Higher values lead to more explorative choices, smaller values culminate in mode collapse.

	Maximal sequence length: The maximal number of SMILES tokens in the generated molecule.

	Number of samples: How many samples should be generated (between 1 and 50).

	Limit: Hypercube limits in the latent space.

	Number of steps: Number of steps for a GP optmization round. The longer the slower. Has to be at least `Number of initial points`.

	Number of initial points: Number of initial points evaluated. The longer the slower.

	Number of optimization rounds: Maximum number of optimization rounds.

	Sampling variance: Variance of the Gaussian noise applied during sampling from the optimal point.

	Samples for evaluation: Number of samples averaged for each minimization function evaluation.

	Max. sampling steps: Maximum number of sampling steps in an optmization round.

	Seed: The random seed used for initialization.



	# Model card -- PaccMannGP

	Model Details: [PaccMann<sup>GP</sup>](https://github.com/PaccMann/paccmann_gp) is a language-based Variational Autoencoder that is coupled with a GaussianProcess for controlled sampling. This model systematically explores the latent space of a trained molecular VAE.

	Developers: Jannis Born, Matteo Manica and colleagues from IBM Research.

	Distributors: Original authors' code wrapped and distributed by GT4SD Team (2023) from IBM Research.

	Model date: Published in 2022.

	Model version: A molecular VAE trained on 1.5M molecules from ChEMBL.

	Model type: A language-based molecular generative model that can be explored with Gaussian Processes to generate molecules with desired properties.

	Information about training algorithms, parameters, fairness constraints or other applied approaches, and features:
	Described in the [original paper](https://pubs.acs.org/doi/10.1021/acs.jcim.1c00889).

	Paper or other resource for more information:
	[Active Site Sequence Representations of Human Kinases Outperform Full Sequence Representations for Affinity Prediction and Inhibitor Generation: 3D Effects in a 1D Model (2022; Journal of Chemical Information & Modeling)](https://pubs.acs.org/doi/10.1021/acs.jcim.1c00889).

	License: MIT

	Where to send questions or comments about the model: Open an issue on [GT4SD repository](https://github.com/GT4SD/gt4sd-core).

	Intended Use. Use cases that were envisioned during development: Chemical research, in particular drug discovery.

	Primary intended uses/users: Researchers and computational chemists using the model for model comparison or research exploration purposes.

	Out-of-scope use cases: Production-level inference, producing molecules with harmful properties.

	Factors: Not applicable.

	Metrics: High reward on generating molecules with desired properties.

	Datasets: ChEMBL.

	Ethical Considerations: Unclear, please consult with original authors in case of questions.

	Caveats and Recommendations: Unclear, please consult with original authors in case of questions.

	Model card prototype inspired by [Mitchell et al. (2019)](https://dl.acm.org/doi/abs/10.1145/3287560.3287596?casa_token=XD4eHiE2cRUAAAAA:NL11gMa1hGPOUKTAbtXnbVQBDBbjxwcjGECF_i-WC_3g1aBgU1Hbz_f2b4kI_m1in-w__1ztGeHnwHs)

	## Citation
	```bib
	@article{born2022active,
	author = {Born, Jannis and Huynh, Tien and Stroobants, Astrid and Cornell, Wendy D. and Manica, Matteo},
	title = {Active Site Sequence Representations of Human Kinases Outperform Full Sequence Representations for Affinity Prediction and Inhibitor Generation: 3D Effects in a 1D Model},
	journal = {Journal of Chemical Information and Modeling},
	volume = {62},
	number = {2},
	pages = {240-257},
	year = {2022},
	doi = {10.1021/acs.jcim.1c00889},
	note ={PMID: 34905358},
	URL = {https://doi.org/10.1021/acs.jcim.1c00889}
	}
	```

	# Model documentation & parameters

	Algorithm Version: Which model version to use.

	Property goals: One or multiple properties that will be optimized.

	Protein target: An AAS of a protein target used for conditioning. Leave blank unless you use `affinity` as a `property goal`.

	Decoding temperature: The temperature parameter in the SMILES/SELFIES decoder. Higher values lead to more explorative choices, smaller values culminate in mode collapse.

	Maximal sequence length: The maximal number of SMILES tokens in the generated molecule.

	Number of samples: How many samples should be generated (between 1 and 50).

	Limit: Hypercube limits in the latent space.

	Number of steps: Number of steps for a GP optmization round. The longer the slower. Has to be at least `Number of initial points`.

	Number of initial points: Number of initial points evaluated. The longer the slower.

	Number of optimization rounds: Maximum number of optimization rounds.

	Sampling variance: Variance of the Gaussian noise applied during sampling from the optimal point.

	Samples for evaluation: Number of samples averaged for each minimization function evaluation.

	Max. sampling steps: Maximum number of sampling steps in an optmization round.

	Seed: The random seed used for initialization.



	# Model card -- PaccMannGP

	Model Details: [PaccMann<sup>GP</sup>](https://github.com/PaccMann/paccmann_gp) is a language-based Variational Autoencoder that is coupled with a GaussianProcess for controlled sampling. This model systematically explores the latent space of a trained molecular VAE.

	Developers: Jannis Born, Matteo Manica and colleagues from IBM Research.

	Distributors: Original authors' code wrapped and distributed by GT4SD Team (2023) from IBM Research.

	Model date: Published in 2022.

	Model version: A molecular VAE trained on 1.5M molecules from ChEMBL.

	Model type: A language-based molecular generative model that can be explored with Gaussian Processes to generate molecules with desired properties.

	Information about training algorithms, parameters, fairness constraints or other applied approaches, and features:
	Described in the [original paper](https://pubs.acs.org/doi/10.1021/acs.jcim.1c00889).

	Paper or other resource for more information:
	[Active Site Sequence Representations of Human Kinases Outperform Full Sequence Representations for Affinity Prediction and Inhibitor Generation: 3D Effects in a 1D Model (2022; Journal of Chemical Information & Modeling)](https://pubs.acs.org/doi/10.1021/acs.jcim.1c00889).

	License: MIT

	Where to send questions or comments about the model: Open an issue on [GT4SD repository](https://github.com/GT4SD/gt4sd-core).

	Intended Use. Use cases that were envisioned during development: Chemical research, in particular drug discovery.

	Primary intended uses/users: Researchers and computational chemists using the model for model comparison or research exploration purposes.

	Out-of-scope use cases: Production-level inference, producing molecules with harmful properties.

	Factors: Not applicable.

	Metrics: High reward on generating molecules with desired properties.

	Datasets: ChEMBL.

	Ethical Considerations: Unclear, please consult with original authors in case of questions.

	Caveats and Recommendations: Unclear, please consult with original authors in case of questions.

	Model card prototype inspired by [Mitchell et al. (2019)](https://dl.acm.org/doi/abs/10.1145/3287560.3287596?casa_token=XD4eHiE2cRUAAAAA:NL11gMa1hGPOUKTAbtXnbVQBDBbjxwcjGECF_i-WC_3g1aBgU1Hbz_f2b4kI_m1in-w__1ztGeHnwHs)

	## Citation
	```bib
	@article{born2022active,
	author = {Born, Jannis and Huynh, Tien and Stroobants, Astrid and Cornell, Wendy D. and Manica, Matteo},
	title = {Active Site Sequence Representations of Human Kinases Outperform Full Sequence Representations for Affinity Prediction and Inhibitor Generation: 3D Effects in a 1D Model},
	journal = {Journal of Chemical Information and Modeling},
	volume = {62},
	number = {2},
	pages = {240-257},
	year = {2022},
	doi = {10.1021/acs.jcim.1c00889},
	note ={PMID: 34905358},
	URL = {https://doi.org/10.1021/acs.jcim.1c00889}
	}
	```