Model Card for mikemayuare/SELFY-BPE-BBBP
This model is fine-tuned on the BBBP (Blood-Brain Barrier Penetration) dataset and is designed to classify chemical compounds based on their ability to penetrate the blood-brain barrier. The input to the model is in the SELFIES (Self-referencing Embedded Strings) molecular representation format. The model uses the BPE (Byte Pair Encoding) tokenizer for tokenizing the input. The model is intended for sequence classification tasks and should be loaded with the AutoModelForSequenceClassification
class. Both the model and tokenizer can be loaded using the from_pretrained
method from the Hugging Face Transformers library.
Model Details
Model Description
This is a 🤗 transformers model fine-tuned on the BBBP dataset. It classifies chemical compounds as either penetrating or non-penetrating the blood-brain barrier. The model takes SELFIES molecular representations as input and uses the BPE (Byte Pair Encoding) Tokenizer for tokenization. Both the model and the tokenizer can be loaded using the from_pretrained
method from Hugging Face.
- Developed by: Miguelangel Leon
- Funded by: This work was supported by national funds through FCT (Fundação para a Ciência e a Tecnologia), under the project - UIDB/04152/2020 (DOI:10.54499/UIDB/04152/2020) - Centro de Investigação em Gestão de Informação (MagIC)/NOVA IMS).
- Model type: Sequence Classification
- Language(s) (NLP): Not applicable (SELFIES molecular representation)
- License: MIT
- Finetuned from model: mikemayuare/SELFYBPE
Model Sources
- Paper : Pending
Uses
Direct Use
This model can be used directly for binary classification of chemical compounds to predict whether they penetrate the blood-brain barrier. The inputs must be formatted as SELFIES strings.
Downstream Use
This model can be further fine-tuned for other chemical classification tasks, particularly those that use molecular representations in SELFIES format.
Out-of-Scope Use
This model is not designed for tasks outside of chemical compound classification or tasks unrelated to molecular data (e.g., NLP).
Bias, Risks, and Limitations
As this model is fine-tuned on the BBBP dataset, it may not generalize well to compounds outside the dataset’s chemical space. Additionally, it is not suited for use in applications outside of chemical compound classification tasks.
Recommendations
Users should be cautious when applying this model to new chemical datasets that differ significantly from the BBBP dataset. Thorough evaluation on the target dataset is recommended before deployment.
How to Get Started with the Model
To use the model for classification, it must be loaded with the AutoModelForSequenceClassification
class from 🤗 transformers, and the tokenizer with the AutoTokenizer
class from the same library. The inputs must be formatted as SELFIES strings.
You can load the BPE tokenizer and the model with the following steps:
from transformers import AutoTokenizer, AutoModelForSequenceClassification
# Load the tokenizer
tokenizer = AutoTokenizer.from_pretrained("mikemayuare/SELFY-BPE-BBBP")
# Load the model
model = AutoModelForSequenceClassification.from_pretrained("mikemayuare/SELFY-BPE-BBBP")
- Downloads last month
- 8
Model tree for mikemayuare/SELFY-BPE-BBBP
Base model
mikemayuare/SELFYBPE