# DistilBERT Quantized Model for LinkedIn Post Sentiment Analysis This repository hosts a quantized version of the DistilBERT model, fine-tuned for LinkedIn post sentiment analysis tasks. The model has been optimized for efficient deployment while maintaining high accuracy, making it suitable for resource-constrained environments. ## Model Details - **Model Architecture:** DistilBERT Base Uncased - **Task:** LinkedIn Post Sentiment Analysis - **Dataset:** Stanford Sentiment Treebank v2 (SST2) - **Quantization:** Float16 - **Fine-tuning Framework:** Hugging Face Transformers ## Usage ### Installation ```sh pip install transformers torch ``` ### Loading the Model ```python from transformers import DistilBertForSequenceClassification, DistilBertTokenizer import torch # Load quantized model quantized_model_path = "/kaggle/working/distilbert_finetuned_fp16" quantized_model = DistilBertForSequenceClassification.from_pretrained(quantized_model_path) quantized_model.eval() # Set to evaluation mode quantized_model.half() # Convert model to FP16 # Load tokenizer tokenizer = DistilBertTokenizer.from_pretrained("distilbert-base-uncased") # Define a test sentence test_sentence = "This update has received great engagement!" # Tokenize input inputs = tokenizer(test_sentence, return_tensors="pt", padding=True, truncation=True, max_length=128) # Ensure input tensors are in correct dtype inputs["input_ids"] = inputs["input_ids"].long() # Convert to long type inputs["attention_mask"] = inputs["attention_mask"].long() # Convert to long type # Make prediction with torch.no_grad(): outputs = quantized_model(**inputs) # Get predicted class predicted_class = torch.argmax(outputs.logits, dim=1).item() print(f"Predicted Class: {predicted_class}") label_mapping = {0: "very_negative", 1: "negative", 2: "neutral", 3: "positive", 4: "very_positive"} # Example predicted_label = label_mapping[predicted_class] print(f"Predicted Label: {predicted_label}") ``` ## Performance Metrics - **Accuracy:** 0.82 ## Fine-Tuning Details ### Dataset The dataset is taken from Kaggle Stanford Sentiment Treebank v2 (SST2). ### Training - Number of epochs: 3 - Batch size: 8 - Evaluation strategy: epoch - Learning rate: 2e-5 ### Quantization Post-training quantization was applied using PyTorch's built-in quantization framework to reduce the model size and improve inference efficiency. ## Repository Structure ``` . ├── model/ # Contains the quantized model files ├── tokenizer_config/ # Tokenizer configuration and vocabulary files ├── model.safensors/ # Fine Tuned Model ├── README.md # Model documentation ``` ## Limitations - The model may not generalize well to domains outside the fine-tuning dataset. - Quantization may result in minor accuracy degradation compared to full-precision models. ## Contributing Contributions are welcome! Feel free to open an issue or submit a pull request if you have suggestions or improvements.