Detectron2 model zoo's experimental settings and a few implementation details are different from Detectron.
The differences in implementation details are shared in Compatibility with Other Libraries.
The differences in model zoo's experimental settings include:
- Use scale augmentation during training. This improves AP with lower training cost.
- Use L1 loss instead of smooth L1 loss for simplicity. This sometimes improves box AP but may affect other AP.
- Use
POOLER_SAMPLING_RATIO=0
instead of 2. This does not significantly affect AP. - Use
ROIAlignV2
. This does not significantly affect AP.
In this directory, we provide a few configs that do not have the above changes. They mimic Detectron's behavior as close as possible, and provide a fair comparison of accuracy and speed against Detectron.
Name | lr sched |
train time (s/iter) |
inference time (s/im) |
train mem (GB) |
box AP |
mask AP |
kp. AP |
model id | download |
---|---|---|---|---|---|---|---|---|---|
Faster R-CNN | 1x | 0.219 | 0.038 | 3.1 | 36.9 | 137781054 | model | metrics | ||
Keypoint R-CNN | 1x | 0.313 | 0.071 | 5.0 | 53.1 | 64.2 | 137781195 | model | metrics | |
Mask R-CNN | 1x | 0.273 | 0.043 | 3.4 | 37.8 | 34.9 | 137781281 | model | metrics |
- Faster R-CNN: Detectron's AP is 36.7, similar to ours.
- Keypoint R-CNN: Detectron's AP is box 53.6, keypoint 64.2. Fixing a Detectron's bug lead to a drop in box AP, and can be compensated back by some parameter tuning.
- Mask R-CNN: Detectron's AP is box 37.7, mask 33.9. We're 1 AP better in mask AP, due to more correct implementation.
For speed comparison, see benchmarks.