# LWM: Large Wireless Model This repository contains the implementation of **LWM** (Large Wireless Model), a pre-trained model for processing and extracting features from wireless communication datasets, specifically DeepMIMO. The instructions below will help you load DeepMIMO data, use the LWM model and weights, tokenize DeepMIMO scenario data, and generate either raw channels or the inferred LWM CLS or channel embeddings. ## How to Use ### Step-by-Step Guide 1. **Clone the Repository** Clone the Hugging Face repository to your local machine using the following code: ```python import subprocess import os import sys import importlib.util import torch # Hugging Face public repository URL repo_url = "https://huggingface.co/sadjadalikhani/LWM" # Directory where the repo will be cloned clone_dir = "./LWM" # Step 1: Clone the repository if it hasn't been cloned already if not os.path.exists(clone_dir): print(f"Cloning repository from {repo_url} into {clone_dir}...") result = subprocess.run(["git", "clone", repo_url, clone_dir], capture_output=True, text=True) if result.returncode != 0: print(f"Error cloning repository: {result.stderr}") sys.exit(1) # Exit on failure print(f"Repository cloned successfully into {clone_dir}") else: print(f"Repository already cloned into {clone_dir}") # Step 2: Add the cloned directory to Python path sys.path.append(clone_dir) # Step 3: Dynamic module import and function exposure def import_functions_from_file(module_name, file_path): try: spec = importlib.util.spec_from_file_location(module_name, file_path) module = importlib.util.module_from_spec(spec) spec.loader.exec_module(module) # Extract functions from the module and make them globally accessible for function_name in dir(module): if callable(getattr(module, function_name)) and not function_name.startswith("__"): globals()[function_name] = getattr(module, function_name) return module except FileNotFoundError: print(f"Error: {file_path} not found!") sys.exit(1) # Step 4: Import necessary functions import_functions_from_file("lwm_model", os.path.join(clone_dir, "lwm_model.py")) import_functions_from_file("inference", os.path.join(clone_dir, "inference.py")) import_functions_from_file("load_data", os.path.join(clone_dir, "load_data.py")) import_functions_from_file("input_preprocess", os.path.join(clone_dir, "input_preprocess.py")) print("All required functions imported successfully.") ``` 2. **Load the LWM Model** After cloning the repository, you can load the LWM model with the following code: ```python # Step 5: Load the LWM model (with flexibility for the device) device = 'cuda' if torch.cuda.is_available() else 'cpu' print(f"Loading the LWM model on {device}...") model = LWM.from_pretrained(device=device) ``` 3. **Load the DeepMIMO Dataset** Load the DeepMIMO dataset with this code: ```python # Step 6: Load dataset (direct call, no module prefix) print("Loading DeepMIMO dataset...") deepmimo_data = load_DeepMIMO_data() ``` 4. **Tokenize the DeepMIMO Dataset** Tokenize the loaded dataset. You can choose the scenario indices to select specific scenarios from DeepMIMO: ```python # Step 7: Tokenize the dataset (direct call, no module prefix) scenario_idxs = torch.arange(1) # Adjust the number of scenarios you want print("Tokenizing the dataset...") preprocessed_chs = tokenizer(deepmimo_data, scenario_idxs, gen_raw=True) ``` 5. **Generate the Dataset for Inference** Choose the type of data you want to generate from the tokenized dataset, such as `cls_emb`, `channel_emb`, or `raw`: ```python # Step 8: Generate the dataset for inference (direct call, no module prefix) input_type = ['cls_emb', 'channel_emb', 'raw'][1] # Modify input type as needed dataset = dataset_gen(preprocessed_chs, input_type, model) ``` 6. **Print Results** Finally, you can print the results and check the shape of the generated dataset: ```python # Step 9: Print results print(f"Dataset generated with shape: {dataset.shape}") print("Inference completed successfully.") ``` --- ### Requirements - Python 3.x - PyTorch - Git Ensure you have the necessary libraries installed before running the script.