--- license: apache-2.0 base_model: - Qwen/Qwen2-VL-2B-Instruct --- # Requirements This is compatible with any onnx runtime. # Running this model **Javascript** See https://huggingface.co/spaces/pdufour/Qwen2-VL-2B-Instruct-ONNX-Q4-F16 for a demo. **Python** Download the following script ./infer.py and then run like so: python3 infer.py Qwen/Qwen2-VL-2B-Instruct 'path-to/Qwen2-VL-2B-Instruct-onnx/onnx' ``` import os import sys import time import torch import numpy as np import requests import onnxruntime as ort from PIL import Image from io import BytesIO from transformers import Qwen2VLForConditionalGeneration, AutoTokenizer # Command line arguments model_path = sys.argv[1] onnx_path = sys.argv[2] # Initialize model and tokenizer model = Qwen2VLForConditionalGeneration.from_pretrained( model_path, torch_dtype=torch.float32, device_map='mps' ) tokenizer = AutoTokenizer.from_pretrained(model_path) # Model configuration max_length = 1024 num_attention_heads = model.config.num_attention_heads num_key_value_heads = model.config.num_key_value_heads head_dim = model.config.hidden_size // num_attention_heads num_layers = model.config.num_hidden_layers # Setup ONNX sessions session_options = ort.SessionOptions() session_options.graph_optimization_level = ort.GraphOptimizationLevel.ORT_ENABLE_ALL # Model paths and sessions models = ['A', 'B', 'C', 'D', 'E'] model_paths = {m: os.path.join(onnx_path, f'QwenVL_{m}_q4f16.onnx') for m in models} sessions = {m: ort.InferenceSession(path, sess_options=session_options) for m, path in model_paths.items()} # Input/output names inputs = { 'A': sessions['A'].get_inputs()[0].name, 'B': [sessions['B'].get_inputs()[i].name for i in range(2)], 'C': sessions['C'].get_inputs()[0].name, 'D': [inp.name for inp in sessions['D'].get_inputs()], 'E': [inp.name for inp in sessions['E'].get_inputs()] } outputs = { 'A': sessions['A'].get_outputs()[0].name, 'B': sessions['B'].get_outputs()[0].name, 'C': sessions['C'].get_outputs()[0].name, 'D': [out.name for out in sessions['D'].get_outputs()], 'E': [out.name for out in sessions['E'].get_outputs()] } # Process image image_url = 'https://huggingface.co/datasets/huggingface/documentation-images/resolve/main/transformers/tasks/car.jpg' image = Image.open(BytesIO(requests.get(image_url).content)).resize((960, 960)).convert('RGB') image_array = np.expand_dims(np.transpose(np.array(image).astype(np.float32), (2, 0, 1)), axis=0) / 255. # Prepare inputs prompt = "Describe this image." formatted_prompt = f"\n<|im_start|>user\n<|vision_start|><|vision_end|>{prompt}<|im_end|>\n<|im_start|>assistant\n" input_ids = tokenizer(formatted_prompt, return_tensors='pt')['input_ids'] input_lengths = np.array([input_ids.shape[1]], dtype=np.int64) tokens = np.zeros(max_length, dtype=np.int32) tokens[:input_ids.shape[1]] = input_ids[0, :] position = np.zeros(1, dtype=np.int64) # Initialize caches key_cache = np.zeros((num_layers, num_key_value_heads, max_length, head_dim), dtype=np.float16) value_cache = key_cache.copy() # Process initial inputs hidden_states = sessions['B'].run( [outputs['B']], {inputs['B'][0]: tokens, inputs['B'][1]: input_lengths} )[0] batch_size = np.array(0, dtype=np.int32) batch_size, = sessions['C'].run([outputs['C']], {inputs['C']: batch_size}) # Process image features image_features = sessions['A'].run([outputs['A']], {inputs['A']: image_array})[0] total_ids = 100 # 10 * 10 from original factors input_lengths += total_ids remaining_tokens = np.array(max_length - input_lengths[0] - total_ids, dtype=np.int32) tokens_to_stop = np.array(input_lengths[0] - 5, dtype=np.int32) hidden_states, batch_size = sessions['D'].run( outputs['D'], dict(zip(inputs['D'], [hidden_states, image_features, input_lengths, tokens_to_stop, remaining_tokens])) ) # Generate tokens start_time = time.time() for i in range(12): # MAX_ITERATIONS token, key_cache, value_cache = sessions['E'].run( outputs['E'], dict(zip(inputs['E'], [hidden_states, np.array([-65504. if i==0 else 0.], dtype=np.float16), key_cache, value_cache, position, input_lengths, batch_size, np.array([1-total_ids+10 if i==0 else position[0]+1], dtype=np.float16)])) ) if token in [151643, 151645]: # End tokens break if i < 1: position += input_lengths[0] input_lengths[0] = 1 else: position += 1 tokens[0] = token hidden_states = sessions['B'].run( [outputs['B']], {inputs['B'][0]: tokens, inputs['B'][1]: input_lengths} )[0] print(tokenizer.decode(token), end='', flush=True) print(f"\nTotal time: {time.time() - start_time:.2f}s") ``` # Technical Information: - [EXPORT.md](EXPORT.md)