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We use distributed training with 4 GPUs by default.
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All pytorch-style pretrained backbones on ImageNet are train by ourselves, with the same procedure in the paper. Our ResNet style backbone are based on ResNetV1c variant, where the 7x7 conv in the input stem is replaced with three 3x3 convs.
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For the consistency across different hardwares, we report the GPU memory as the maximum value of
torch.cuda.max_memory_allocated()
for all 4 GPUs withtorch.backends.cudnn.benchmark=False
. Note that this value is usually less than whatnvidia-smi
shows. -
We report the inference time as the total time of network forwarding and post-processing, excluding the data loading time. Results are obtained with the script
tools/benchmark.py
which computes the average time on 200 images withtorch.backends.cudnn.benchmark=False
. -
There are two inference modes in this framework.
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slide
mode: Thetest_cfg
will be likedict(mode='slide', crop_size=(769, 769), stride=(513, 513))
.In this mode, multiple patches will be cropped from input image, passed into network individually. The crop size and stride between patches are specified by
crop_size
andstride
. The overlapping area will be merged by average -
whole
mode: Thetest_cfg
will be likedict(mode='whole')
.In this mode, the whole imaged will be passed into network directly.
By default, we use
slide
inference for 769x769 trained model,whole
inference for the rest. -
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For input size of 8x+1 (e.g. 769),
align_corner=True
is adopted as a traditional practice. Otherwise, for input size of 8x (e.g. 512, 1024),align_corner=False
is adopted.
Please refer to FCN for details.
Please refer to PSPNet for details.
Please refer to DeepLabV3 for details.
Please refer to PSANet for details.
Please refer to DeepLabV3+ for details.
Please refer to UPerNet for details.
Please refer to NonLocal Net for details.
Please refer to NonLocal Net for details.
Please refer to CCNet for details.
Please refer to DANet for details.
Please refer to HRNet for details.
Please refer to GCNet for details.
Please refer to ANN for details.
Please refer to OCRNet for details.
Please refer Mixed Precision (FP16) Training for details.
- 8 NVIDIA Tesla V100 (32G) GPUs
- Intel(R) Xeon(R) Gold 6148 CPU @ 2.40GHz
- Python 3.7
- PyTorch 1.5
- CUDA 10.1
- CUDNN 7.6.03
- NCCL 2.4.08
For fair comparison, we benchmark all implementations with ResNet-101V1c. The input size is fixed to 1024x512 with batch size 2.
The training speed is reported as followed, in terms of second per iter (s/iter). The lower, the better.
Implementation | PSPNet (s/iter) | DeepLabV3+ (s/iter) |
---|---|---|
MMSegmentation | 0.83 | 0.85 |
SegmenTron | 0.84 | 0.85 |
CASILVision | 1.15 | N/A |
vedaseg | 0.95 | 1.25 |
Note: The output stride of DeepLabV3+ is 8.