Command-line arguments

We’ll take doc/howto/cluster/src/word2vec as an example to introduce distributed training using PaddlePaddle v2 API.

Starting parameter server

Type the below command to start a parameter server which will wait for trainers to connect:

$ paddle pserver --port=7164 --ports_num=1 --ports_num_for_sparse=1 --num_gradient_servers=1

If you wish to run parameter servers in background, and save a log file, you can type:

$ stdbuf -oL /usr/bin/nohup paddle pserver --port=7164 --ports_num=1 --ports_num_for_sparse=1 --num_gradient_servers=1 &> pserver.log

Parameter Description

  • port: required, default 7164, port which parameter server will listen on. If ports_num greater than 1, parameter server will listen on multiple ports for more network throughput.
  • ports_num: required, default 1, total number of ports will listen on.
  • ports_num_for_sparse: required, default 0, number of ports which serves sparse parameter update.
  • num_gradient_servers: required, default 1, total number of gradient servers.

Starting trainer

Type the command below to start the trainer(name the file whatever you want, like “train.py”)

$ python train.py

Trainers’ network need to be connected with parameter servers’ network to finish the job. Trainers need to know port and IPs to locate parameter servers. You can pass arguments to trainers through environment variables or pass to paddle.init() function. Arguments passed to the paddle.init() function will overwrite environment variables.

Use environment viriables:

export PADDLE_INIT_USE_GPU=False
export PADDLE_INIT_TRAINER_COUNT=1
export PADDLE_INIT_PORT=7164
export PADDLE_INIT_PORTS_NUM=1
export PADDLE_INIT_PORTS_NUM_FOR_SPARSE=1
export PADDLE_INIT_NUM_GRADIENT_SERVERS=1
export PADDLE_INIT_TRAINER_ID=0
export PADDLE_INIT_PSERVERS=127.0.0.1
python train.py

Pass arguments:

paddle.init(
        use_gpu=False,
        trainer_count=1,
        port=7164,
        ports_num=1,
        ports_num_for_sparse=1,
        num_gradient_servers=1,
        trainer_id=0,
        pservers="127.0.0.1")

Parameter Description

  • use_gpu: optional, default False, set to “True” to enable GPU training.
  • trainer_count: required, default 1, number of threads in current trainer.
  • port: required, default 7164, port to connect to parameter server.
  • ports_num: required, default 1, number of ports for communication.
  • ports_num_for_sparse: required, default 0, number of ports for sparse type caculation.
  • num_gradient_servers: required, default 1, number of trainers in current job.
  • trainer_id: required, default 0, ID for every trainer, start from 0.
  • pservers: required, default 127.0.0.1, list of IPs of parameter servers, separated by ”,”.

Prepare Training Dataset

Here’s some example code prepare.py, it will download public imikolov dataset and split it into multiple files according to job parallelism(trainers count). Modify SPLIT_COUNT at the begining of prepare.py to change the count of output files.

In the real world, we often use MapReduce job’s output as training data, so there will be lots of files. You can use mod to assign training file to trainers:

import os
train_list = []
flist = os.listdir("/train_data/")
for f in flist:
  suffix = int(f.split("-")[1])
  if suffix % TRAINER_COUNT == TRAINER_ID:
    train_list.append(f)

Example code prepare.py will split training data and testing data into 3 files with digital suffix like -00000, -00001 and-00002:

train.txt
train.txt-00000
train.txt-00001
train.txt-00002
test.txt
test.txt-00000
test.txt-00001
test.txt-00002

When job started, every trainer needs to get it’s own part of data. In some distributed systems a storage service will be provided, so the date under that path can be accessed by all the trainer nodes. Without the storage service, you must copy the training data to each trainer node.

Different training jobs may have different data format and reader() function, developers may need to write different data prepare scripts and reader() functions for their job.

Prepare Training program

We’ll create a workspace directory on each node, storing your training program, dependencies, mounted or downloaded dataset directory.

Your workspace may looks like:

.
|-- my_lib.py
|-- word_dict.pickle
|-- train.py
|-- train_data_dir/
|   |-- train.txt-00000
|   |-- train.txt-00001
|   |-- train.txt-00002
`-- test_data_dir/
    |-- test.txt-00000
    |-- test.txt-00001
    `-- test.txt-00002
  • my_lib.py: user defined libraries, like PIL libs. This is optional.

  • word_dict.pickle: dict file for training word embeding.

  • train.py: training program. Sample code: api_train_v2_cluster.py. NOTE: You may need to modify the head part of train.py when using different cluster platform to retrive configuration environment variables:

    cluster_train_file = "./train_data_dir/train/train.txt"
    cluster_test_file = "./test_data_dir/test/test.txt"
    node_id = os.getenv("OMPI_COMM_WORLD_RANK")
    if not node_id:
        raise EnvironmentError("must provied OMPI_COMM_WORLD_RANK")
    
  • train_data_dir: containing training data. Mount from storage service or copy trainning data to here.

  • test_data_dir: containing testing data.