forked from PulseFocusPlatform/PulseFocusPlatform
0cab1d8282
|
||
|---|---|---|
| .. | ||
| README(2).md | ||
| README.md | ||
| README_cn.md | ||
| ppyolo.yml | ||
| ppyolo_2x.yml | ||
| ppyolo_2x_bs12.yml | ||
| ppyolo_mobilenet_v3_large.yml | ||
| ppyolo_mobilenet_v3_small.yml | ||
| ppyolo_r18vd.yml | ||
| ppyolo_reader(2).yml | ||
| ppyolo_reader.yml | ||
| ppyolo_roadsign_kunlun.yml | ||
| ppyolo_test(2).yml | ||
| ppyolo_test.yml | ||
| ppyolo_tiny(2).yml | ||
| ppyolo_tiny.yml | ||
| ppyolo_voc.yml | ||
| ppyolov2_r50vd_dcn.yml | ||
| ppyolov2_r101vd_dcn.yml | ||
| ppyolov2_reader.yml | ||
README.md
English | 简体中文
PP-YOLO
Table of Contents
Introduction
PP-YOLO is a optimized model based on YOLOv3 in PaddleDetection,whose performance(mAP on COCO) and inference spped are better than YOLOv4,PaddlePaddle 1.8.4(available on pip now) or Daily Version is required to run this PP-YOLO。
PP-YOLO reached mmAP(IoU=0.5:0.95) as 45.9% on COCO test-dev2017 dataset, and inference speed of FP32 on single V100 is 72.9 FPS, inference speed of FP16 with TensorRT on single V100 is 155.6 FPS.
PP-YOLO improved performance and speed of YOLOv3 with following methods:
- Better backbone: ResNet50vd-DCN
- Larger training batch size: 8 GPUs and mini-batch size as 24 on each GPU
- Drop Block
- Exponential Moving Average
- IoU Loss
- Grid Sensitive
- Matrix NMS
- CoordConv
- Spatial Pyramid Pooling
- Better ImageNet pretrain weights
Model Zoo
PP-YOLO
| Model | GPU number | images/GPU | backbone | input shape | Box APval | Box APtest | V100 FP32(FPS) | V100 TensorRT FP16(FPS) | download | config |
|---|---|---|---|---|---|---|---|---|---|---|
| YOLOv4(AlexyAB) | - | - | CSPDarknet | 608 | - | 43.5 | 62 | 105.5 | model | config |
| YOLOv4(AlexyAB) | - | - | CSPDarknet | 512 | - | 43.0 | 83 | 138.4 | model | config |
| YOLOv4(AlexyAB) | - | - | CSPDarknet | 416 | - | 41.2 | 96 | 164.0 | model | config |
| YOLOv4(AlexyAB) | - | - | CSPDarknet | 320 | - | 38.0 | 123 | 199.0 | model | config |
| PP-YOLO | 8 | 24 | ResNet50vd | 608 | 44.8 | 45.2 | 72.9 | 155.6 | model | config |
| PP-YOLO | 8 | 24 | ResNet50vd | 512 | 43.9 | 44.4 | 89.9 | 188.4 | model | config |
| PP-YOLO | 8 | 24 | ResNet50vd | 416 | 42.1 | 42.5 | 109.1 | 215.4 | model | config |
| PP-YOLO | 8 | 24 | ResNet50vd | 320 | 38.9 | 39.3 | 132.2 | 242.2 | model | config |
| PP-YOLO_2x | 8 | 24 | ResNet50vd | 608 | 45.3 | 45.9 | 72.9 | 155.6 | model | config |
| PP-YOLO_2x | 8 | 24 | ResNet50vd | 512 | 44.4 | 45.0 | 89.9 | 188.4 | model | config |
| PP-YOLO_2x | 8 | 24 | ResNet50vd | 416 | 42.7 | 43.2 | 109.1 | 215.4 | model | config |
| PP-YOLO_2x | 8 | 24 | ResNet50vd | 320 | 39.5 | 40.1 | 132.2 | 242.2 | model | config |
| PP-YOLO | 4 | 32 | ResNet18vd | 512 | 29.3 | 29.5 | 357.1 | 657.9 | model | config |
| PP-YOLO | 4 | 32 | ResNet18vd | 416 | 28.6 | 28.9 | 409.8 | 719.4 | model | config |
| PP-YOLO | 4 | 32 | ResNet18vd | 320 | 26.2 | 26.4 | 480.7 | 763.4 | model | config |
| PP-YOLOv2 | 8 | 12 | ResNet50vd | 640 | 49.1 | 49.5 | 68.9 | 106.5 | model | config |
| PP-YOLOv2 | 8 | 12 | ResNet101vd | 640 | 49.7 | 50.3 | 49.5 | 87.0 | model | config |
Notes:
- PP-YOLO is trained on COCO train2017 dataset and evaluated on val2017 & test-dev2017 dataset,Box APtest is evaluation results of
mAP(IoU=0.5:0.95). - PP-YOLO used 8 GPUs for training and mini-batch size as 24 on each GPU, if GPU number and mini-batch size is changed, learning rate and iteration times should be adjusted according FAQ.
- PP-YOLO inference speed is tesed on single Tesla V100 with batch size as 1, CUDA 10.2, CUDNN 7.5.1, TensorRT 5.1.2.2 in TensorRT mode.
- PP-YOLO FP32 inference speed testing uses inference model exported by
tools/export_model.pyand benchmarked by runningdepoly/python/infer.pywith--run_benchmark. All testing results do not contains the time cost of data reading and post-processing(NMS), which is same as YOLOv4(AlexyAB) in testing method. - TensorRT FP16 inference speed testing exclude the time cost of bounding-box decoding(
yolo_box) part comparing with FP32 testing above, which means that data reading, bounding-box decoding and post-processing(NMS) is excluded(test method same as YOLOv4(AlexyAB) too) - YOLOv4(AlexyAB) performance and inference speed is copy from single Tesla V100 testing results in YOLOv4 github repo, Tesla V100 TensorRT FP16 inference speed is testing with tkDNN configuration and TensorRT 5.1.2.2 on single Tesla V100 based on AlexyAB/darknet repo.
- Download and configuration of YOLOv4(AlexyAB) is reproduced model of YOLOv4 in PaddleDetection, whose evaluation performance is same as YOLOv4(AlexyAB), and finetune training is supported in PaddleDetection currently, reproducing by training from backbone pretrain weights is on working, see PaddleDetection YOLOv4 for details.
- PP-YOLO trained with
batch_size=24in each GPU with memory as 32G, configuation yaml withbatch_size=12which can be trained on GPU with memory as 16G is provided asppyolo_2x_bs12.yml, training withbatch_size=12reachedmAP(IoU=0.5:0.95) = 45.1%on COCO val2017 dataset, download weights by ppyolo_2x_bs12 model
PP-YOLO for mobile
| Model | GPU number | images/GPU | Model Size | input shape | Box APval | Box AP50val | Kirin 990 1xCore(FPS) | download | inference model download | config |
|---|---|---|---|---|---|---|---|---|---|---|
| PP-YOLO_MobileNetV3_large | 4 | 32 | 18MB | 320 | 23.2 | 42.6 | 15.6 | model | model | config |
| PP-YOLO_MobileNetV3_small | 4 | 32 | 11MB | 320 | 17.2 | 33.8 | 28.6 | model | model | config |
Notes:
- PP-YOLO_MobileNetV3 is trained on COCO train2017 datast and evaluated on val2017 dataset,Box APval is evaluation results of
mAP(IoU=0.5:0.95), Box APval is evaluation results ofmAP(IoU=0.5). - PP-YOLO_MobileNetV3 used 4 GPUs for training and mini-batch size as 32 on each GPU, if GPU number and mini-batch size is changed, learning rate and iteration times should be adjusted according FAQ.
- PP-YOLO_MobileNetV3 inference speed is tested on Kirin 990 with 1 thread.
Slim PP-YOLO
| Model | GPU number | images/GPU | Prune Ratio | Teacher Model | Model Size | input shape | Box APval | Kirin 990 1xCore(FPS) | download | inference model download | config |
|---|---|---|---|---|---|---|---|---|---|---|---|
| PP-YOLO_MobileNetV3_small | 4 | 32 | 75% | PP-YOLO_MobileNetV3_large | 4.2MB | 320 | 16.2 | 39.8 | model | model | config |
- Slim PP-YOLO is trained by slim traing method from Distill pruned model,distill training pruned PP-YOLO_MobileNetV3_small model with PP-YOLO_MobileNetV3_large model as the teacher model
- Pruning detectiom head of PP-YOLO model with ratio as 75%, while the arguments are
--pruned_params="yolo_block.0.2.conv.weights,yolo_block.0.tip.conv.weights,yolo_block.1.2.conv.weights,yolo_block.1.tip.conv.weights" --pruned_ratios="0.75,0.75,0.75,0.75" - For Slim PP-YOLO training, evaluation, inference and model exporting, please see Distill pruned model
PP-YOLO tiny
| Model | GPU number | images/GPU | Model Size | Post Quant Model Size | input shape | Box APval | Kirin 990 4xCore(FPS) | download | config | config | post quant model |
|---|---|---|---|---|---|---|---|---|---|---|---|
| PP-YOLO tiny | 8 | 32 | 4.2MB | 1.3M | 320 | 20.6 | 92.3 | model | config | inference model | |
| PP-YOLO tiny | 8 | 32 | 4.2MB | 1.3M | 416 | 22.7 | 65.4 | model | config | inference model |
Notes:
- PP-YOLO-tiny is trained on COCO train2017 datast and evaluated on val2017 dataset,Box APval is evaluation results of
mAP(IoU=0.5:0.95), Box APval is evaluation results ofmAP(IoU=0.5). - PP-YOLO-tiny used 8 GPUs for training and mini-batch size as 32 on each GPU, if GPU number and mini-batch size is changed, learning rate and iteration times should be adjusted according FAQ.
- PP-YOLO-tiny inference speed is tested on Kirin 990 with 4 threads by arm8
- we alse provide PP-YOLO-tiny post quant inference model, which can compress model to 1.3MB with nearly no inference on inference speed and performance
PP-YOLO on Pascal VOC
PP-YOLO trained on Pascal VOC dataset as follows:
| Model | GPU number | images/GPU | backbone | input shape | Box AP50val | download | config |
|---|---|---|---|---|---|---|---|
| PP-YOLO | 8 | 12 | ResNet50vd | 608 | 84.9 | model | config |
| PP-YOLO | 8 | 12 | ResNet50vd | 416 | 84.3 | model | config |
| PP-YOLO | 8 | 12 | ResNet50vd | 320 | 82.2 | model | config |
Getting Start
1. Training
Training PP-YOLO on 8 GPUs with following command(all commands should be run under PaddleDetection root directory as default), use --eval to enable alternate evaluation during training.
CUDA_VISIBLE_DEVICES=0,1,2,3,4,5,6,7 python tools/train.py -c configs/ppyolo/ppyolo.yml --eval
optional: Run tools/anchor_cluster.py to get anchors suitable for your dataset, and modify the anchor setting in configs/ppyolo/ppyolo.yml.
python tools/anchor_cluster.py -c configs/ppyolo/ppyolo.yml -n 9 -s 608 -m v2 -i 1000
2. Evaluation
Evaluating PP-YOLO on COCO val2017 dataset in single GPU with following commands:
# use weights released in PaddleDetection model zoo
CUDA_VISIBLE_DEVICES=0 python tools/eval.py -c configs/ppyolo/ppyolo.yml -o weights=https://paddlemodels.bj.bcebos.com/object_detection/ppyolo.pdparams
# use saved checkpoint in training
CUDA_VISIBLE_DEVICES=0 python tools/eval.py -c configs/ppyolo/ppyolo.yml -o weights=output/ppyolo/best_model
For evaluation on COCO test-dev2017 dataset, configs/ppyolo/ppyolo_test.yml should be used, please download COCO test-dev2017 dataset from COCO dataset download and decompress to pathes configured by EvalReader.dataset in configs/ppyolo/ppyolo_test.yml and run evaluation by following command:
# use weights released in PaddleDetection model zoo
CUDA_VISIBLE_DEVICES=0 python tools/eval.py -c configs/ppyolo/ppyolo_test.yml -o weights=https://paddlemodels.bj.bcebos.com/object_detection/ppyolo.pdparams
# use saved checkpoint in training
CUDA_VISIBLE_DEVICES=0 python tools/eval.py -c configs/ppyolo/ppyolo_test.yml -o weights=output/ppyolo/best_model
Evaluation results will be saved in bbox.json, compress it into a zip package and upload to COCO dataset evaluation to evaluate.
NOTE: configs/ppyolo/ppyolo_test.yml is only used for evaluation on COCO test-dev2017 dataset, could not be used for training or COCO val2017 dataset evaluating.
3. Inference
Inference images in single GPU with following commands, use --infer_img to inference a single image and --infer_dir to inference all images in the directory.
# inference single image
CUDA_VISIBLE_DEVICES=0 python tools/infer.py -c configs/ppyolo/ppyolo.yml -o weights=https://paddlemodels.bj.bcebos.com/object_detection/ppyolo.pdparams --infer_img=demo/000000014439_640x640.jpg
# inference all images in the directory
CUDA_VISIBLE_DEVICES=0 python tools/infer.py -c configs/ppyolo/ppyolo.yml -o weights=https://paddlemodels.bj.bcebos.com/object_detection/ppyolo.pdparams --infer_dir=demo
4. Inferece deployment and benchmark
For inference deployment or benchmard, model exported with tools/export_model.py should be used and perform inference with Paddle inference library with following commands:
# export model, model will be save in output/ppyolo as default
python tools/export_model.py -c configs/ppyolo/ppyolo.yml -o weights=https://paddlemodels.bj.bcebos.com/object_detection/ppyolo.pdparams
# inference with Paddle Inference library
CUDA_VISIBLE_DEVICES=0 python deploy/python/infer.py --model_dir=output/ppyolo --image_file=demo/000000014439_640x640.jpg --use_gpu=True
Benchmark testing for PP-YOLO uses model without data reading and post-processing(NMS), export model with --exclude_nms to prunce NMS for benchmark testing from mode with following commands:
# export model, --exclude_nms to prune NMS part, model will be save in output/ppyolo as default
python tools/export_model.py -c configs/ppyolo/ppyolo.yml -o weights=https://paddlemodels.bj.bcebos.com/object_detection/ppyolo.pdparams --exclude_nms
# FP32 benchmark
CUDA_VISIBLE_DEVICES=0 python deploy/python/infer.py --model_dir=output/ppyolo --image_file=demo/000000014439_640x640.jpg --use_gpu=True --run_benchmark=True
# TensorRT FP16 benchmark
CUDA_VISIBLE_DEVICES=0 python deploy/python/infer.py --model_dir=output/ppyolo --image_file=demo/000000014439_640x640.jpg --use_gpu=True --run_benchmark=True --run_mode=trt_fp16
Future work
- more PP-YOLO tiny model
- PP-YOLO model with more backbones
Appendix
Optimizing method and ablation experiments of PP-YOLO compared with YOLOv3.
| NO. | Model | Box APval | Box APtest | Params(M) | FLOPs(G) | V100 FP32 FPS |
|---|---|---|---|---|---|---|
| A | YOLOv3-DarkNet53 | 38.9 | - | 59.13 | 65.52 | 58.2 |
| B | YOLOv3-ResNet50vd-DCN | 39.1 | - | 43.89 | 44.71 | 79.2 |
| C | B + LB + EMA + DropBlock | 41.4 | - | 43.89 | 44.71 | 79.2 |
| D | C + IoU Loss | 41.9 | - | 43.89 | 44.71 | 79.2 |
| E | D + IoU Aware | 42.5 | - | 43.90 | 44.71 | 74.9 |
| F | E + Grid Sensitive | 42.8 | - | 43.90 | 44.71 | 74.8 |
| G | F + Matrix NMS | 43.5 | - | 43.90 | 44.71 | 74.8 |
| H | G + CoordConv | 44.0 | - | 43.93 | 44.76 | 74.1 |
| I | H + SPP | 44.3 | 45.2 | 44.93 | 45.12 | 72.9 |
| J | I + Better ImageNet Pretrain | 44.8 | 45.2 | 44.93 | 45.12 | 72.9 |
| K | J + 2x Scheduler | 45.3 | 45.9 | 44.93 | 45.12 | 72.9 |
Notes:
- Performance and inference spedd are measure with input shape as 608
- All models are trained on COCO train2017 datast and evaluated on val2017 & test-dev2017 dataset,
Box APis evaluation results asmAP(IoU=0.5:0.95). - Inference speed is tested on single Tesla V100 with batch size as 1 following test method and environment configuration in benchmark above.
- YOLOv3-DarkNet53 with mAP as 38.9 is optimized YOLOv3 model in PaddleDetection,see Model Zoo for details.