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Self-brewed Caffe: add batch normalization (BN) and multiple GPUs parallel computation.

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This is my own development branch. It merges the mpi-parallel and the batch-normalization branches, and adds some other things such as the python script (tools/show_log.py) to plot the training curves.

Below are the README merged from the mpi-parallel and batch-normalization branches.

MPI Parallel

This branch provides data parallelization for Caffe based on MPI.

Installation

  • Install openmpi with apt-get, or pacman, or yum, etc.
  • Uncomment the MPI parallel block in the Makefile.config and set the MPI_INCLUDE and MPI_LIB correspondingly.
  • make clean && make -j

Usage

You don't need to change your prototxt. Just provide the GPU ids in the -gpu option (separated by commas). For example:

mpirun -n 2 build/tools/caffe train \
  -solver examples/mnist/lenet_solver.prototxt \
  -gpu 0,1

Batch Normalization

This branch provides implementation of Batch Normalization (BN). Most of the codes are adpated from Chenglong Chen's caffe-windows.

Usage

Just add a BN layer before each activation function. The configuration of a BN layer looks like:

layer {
  name: "conv1_bn"
  type: "BN"
  bottom: "conv1"
  top: "conv1_bn"
  param {
    lr_mult: 1
    decay_mult: 0
  }
  param {
    lr_mult: 1
    decay_mult: 0
  }
  bn_param {
    slope_filler {
      type: "constant"
      value: 1
    }
    bias_filler {
      type: "constant"
      value: 0
    }
  }
}

We also implement a simple version of local data shuffling in the data layer. It's recommended to set shuffle_pool_size: 10 in data_param of the training data layer.

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Self-brewed Caffe: add batch normalization (BN) and multiple GPUs parallel computation.

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