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| # YOLOv5 π by Ultralytics, GPL-3.0 license | |
| """ | |
| Auto-batch utils | |
| """ | |
| from copy import deepcopy | |
| import numpy as np | |
| import torch | |
| from torch.cuda import amp | |
| from pdf_toolbox.lib.dia_yolov5.utils.general import LOGGER, colorstr | |
| from pdf_toolbox.lib.dia_yolov5.utils.torch_utils import profile | |
| def check_train_batch_size(model, imgsz=640): | |
| # Check YOLOv5 training batch size | |
| with amp.autocast(): | |
| return autobatch(deepcopy(model).train(), imgsz) # compute optimal batch size | |
| def autobatch(model, imgsz=640, fraction=0.9, batch_size=16): | |
| # Automatically estimate best batch size to use `fraction` of available CUDA memory | |
| # Usage: | |
| # import torch | |
| # from utils.autobatch import autobatch | |
| # model = torch.hub.load('ultralytics/yolov5', 'yolov5s', autoshape=False) | |
| # print(autobatch(model)) | |
| prefix = colorstr('AutoBatch: ') | |
| LOGGER.info(f'{prefix}Computing optimal batch size for --imgsz {imgsz}') | |
| device = next(model.parameters()).device # get model device | |
| if device.type == 'cpu': | |
| LOGGER.info(f'{prefix}CUDA not detected, using default CPU batch-size {batch_size}') | |
| return batch_size | |
| d = str(device).upper() # 'CUDA:0' | |
| properties = torch.cuda.get_device_properties(device) # device properties | |
| t = properties.total_memory / 1024 ** 3 # (GiB) | |
| r = torch.cuda.memory_reserved(device) / 1024 ** 3 # (GiB) | |
| a = torch.cuda.memory_allocated(device) / 1024 ** 3 # (GiB) | |
| f = t - (r + a) # free inside reserved | |
| LOGGER.info(f'{prefix}{d} ({properties.name}) {t:.2f}G total, {r:.2f}G reserved, {a:.2f}G allocated, {f:.2f}G free') | |
| batch_sizes = [1, 2, 4, 8, 16] | |
| try: | |
| img = [torch.zeros(b, 3, imgsz, imgsz) for b in batch_sizes] | |
| y = profile(img, model, n=3, device=device) | |
| except Exception as e: | |
| LOGGER.warning(f'{prefix}{e}') | |
| y = [x[2] for x in y if x] # memory [2] | |
| batch_sizes = batch_sizes[:len(y)] | |
| p = np.polyfit(batch_sizes, y, deg=1) # first degree polynomial fit | |
| b = int((f * fraction - p[1]) / p[0]) # y intercept (optimal batch size) | |
| LOGGER.info(f'{prefix}Using batch-size {b} for {d} {t * fraction:.2f}G/{t:.2f}G ({fraction * 100:.0f}%)') | |
| return b | |