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Segmentation realize Deeperlab only segmentation part

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sherrygp/Deeperlab-pytorch

 
 

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Deeperlab

This project aims at providing a fast, modular reference implementation for semantic segmentation models using PyTorch.

demo image

Highlights

  • Distributed Training: >60% Thank you ycszen, from his struct faster than the multi-thread parallel method(nn.DataParallel), we use the multi-processing parallel method.
  • Multi-GPU training and inference: support different manners of inference.
  • Provides pre-trained models and implement different semantic segmentation models.

Prerequisites

  • PyTorch 1.0
    • pip3 install torch torchvision
  • Easydict
    • pip3 install easydict
  • Apex
  • Ninja
    • sudo apt-get install ninja-build
  • tqdm
    • pip3 install tqdm

Pretrain Model

Model Zoo

Supported Model

Performance and Benchmarks

SS:Single Scale MSF:Multi-scale + Flip

PASCAL VOC 2012(SBD and Never SBD)

because I only realize the segmentation part,I tested its results on voc

Methods Backbone TrainSet EvalSet Mean IoU(SS) Mean IoU(MSF) Model
deeperlab(ours+SBD) R101_v1c train_aug val 79.71 80.26 BaiduYun / GoogleDrive
deeperlab(ours) R101_v1c train_aug val 73.28 74.11 BaiduYun / GoogleDrive

To Do

  • Detection part

Link

we must build the env for training

make link
make others

soft link to data,pretrain,log,logger

Training

  1. create the config file of dataset:train.txt, val.txt, test.txt
    file structure:(split with tab)
    path-of-the-image   path-of-the-groundtruth
  2. modify the config.py according to your requirements
  3. train a network:

Distributed Training

We use the official torch.distributed.launch in order to launch multi-gpu training. This utility function from PyTorch spawns as many Python processes as the number of GPUs we want to use, and each Python process will only use a single GPU.

For each experiment, you can just run this script:

export NGPUS=8
python -m torch.distributed.launch --nproc_per_node=$NGPUS train.py

Non-distributed Training

The above performance are all conducted based on the non-distributed training. For each experiment, you can just run this script:

bash train.sh

In train.sh, the argument of d means the GPU you want to use.

Inference

In the evaluator, we have implemented the multi-gpu inference base on the multi-process. In the inference phase, the function will spawns as many Python processes as the number of GPUs we want to use, and each Python process will handle a subset of the whole evaluation dataset on a single GPU.

  1. evaluate a trained network on the validation set:
    bash eval.sh
  2. input arguments in shell:
    usage: -e epoch_idx -d device_idx -c save_csv [--verbose ] 
    [--show_image] [--save_path Pred_Save_Path]

Segmentation-torch

if you are interested my algorithm, you can see my realized segmentation tool(dfn,deeperlab,deeplabv3 plus and so on):

Be Care for

because my device is 1080, we can't use 7*7 conv in two 4096 channel due to out of memory. so if you use it. you can change it in model/deeperlab.py

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  • Python 86.1%
  • C++ 7.4%
  • Cuda 6.0%
  • Other 0.5%