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main_linear.py
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main_linear.py
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import h5py
import matplotlib.pyplot as plt
import numpy as np
import argparse
import importlib
import random
import os
import tensorflow.compat.v1 as tf
tf.disable_v2_behavior()
from flearn.utils.plot_utils import *
from flearn.utils.model_utils import read_data
import matplotlib
matplotlib.use('Agg')
# GLOBAL PARAMETERS
OPTIMIZERS = ['fedavg', 'fedprox', 'fedsgd', 'fedfedl']
DATASETS = ['nist', 'mnist', 'fashion_mnist', 'linear_synthetic'] # NIST is EMNIST in the paper
MODEL_PARAMS = {
'sent140.bag_dnn': (2,), # num_classes
'sent140.stacked_lstm': (25, 2, 100), # seq_len, num_classes, num_hidden
# seq_len, num_classes, num_hidden
'sent140.stacked_lstm_no_embeddings': (25, 2, 100),
# num_classes, should be changed to 62 when using EMNIST
'nist.mclr': (62,),
'nist.cnn': (62,),
'mnist.mclr': (10,), # num_classes
'mnist.cnn': (10,), # num_classes
'fashion_mnist.mclr': (10,),
'fashion_mnist.cnn': (10,),
'linear_synthetic.linear': (1,), # seq_len, emb_dim, num_hidden
'synthetic.mclr': (10, ) # num_classes
}
def read_options(num_users=5, loc_ep=10, Numb_Glob_Iters=100, lamb=0, learning_rate=0.01,hyper_learning_rate= 0.01, alg='fedprox', weight=True, batch_size=0, times = 10, rho = 0, dataset="mnist"):
''' Parse command line arguments or load defaults '''
parser = argparse.ArgumentParser()
parser.add_argument('--optimizer',
help='name of optimizer;',
type=str,
choices=OPTIMIZERS,
default=alg) # fedavg, fedprox
parser.add_argument('--dataset',
help='name of dataset;',
type=str,
choices=DATASETS,
default=dataset)
parser.add_argument('--model',
help='name of model;',
type=str,
default='linear.py') # 'stacked_lstm.py'
parser.add_argument('--num_rounds',
help='number of rounds to simulate;',
type=int,
default=Numb_Glob_Iters)
parser.add_argument('--eval_every',
help='evaluate every ____ rounds;',
type=int,
default=1)
parser.add_argument('--clients_per_round',
help='number of clients trained per round;',
type=int,
default=num_users)
parser.add_argument('--batch_size',
help='batch size when clients train on data;',
type=int,
default=batch_size
) # 0 is full dataset
parser.add_argument('--num_epochs',
help='number of epochs when clients train on data;',
type=int,
default=loc_ep)
parser.add_argument('--learning_rate',
help='learning rate for inner solver;',
type=float,
default=learning_rate) # 0.003
parser.add_argument('--hyper_learning_rate',
help='learning rate for inner solver;',
type=float,
default=hyper_learning_rate) # 0.001
parser.add_argument('--mu',
help='constant for prox;',
type=float,
default=0.) # 0.01
parser.add_argument('--seed',
help='seed for randomness;',
type=int,
default=0)
parser.add_argument('--weight',
help='enable weight value;',
type=int,
default=weight)
parser.add_argument('--lamb',
help='Penalty value for proximal term;',
type=int,
default=lamb)
parser.add_argument('--times',
help='Number of running time;',
type=int,
default=times)
parser.add_argument('--rho',
help='Condition number only for synthetic data;',
type=int,
default=rho)
try:
parsed = vars(parser.parse_args())
except IOError as msg:
parser.error(str(msg))
# Set seeds
random.seed(1 + parsed['seed'])
np.random.seed(12 + parsed['seed'])
tf.set_random_seed(123 + parsed['seed'])
# load selected model
# all synthetic datasets use the same model
if parsed['dataset'].startswith("synthetic"):
model_path = '%s.%s.%s.%s' % (
'flearn', 'models', 'synthetic', parsed['model'])
else:
model_path = '%s.%s.%s.%s' % (
'flearn', 'models', parsed['dataset'], parsed['model'])
# mod = importlib.import_module(model_path)
import flearn.models.linear_synthetic.linear as linear
mod = linear
learner = getattr(mod, 'Model')
# load selected trainer
opt_path = 'flearn.trainers.%s' % parsed['optimizer']
mod = importlib.import_module(opt_path)
optimizer = getattr(mod, 'Server')
# add selected model parameter
parsed['model_params'] = MODEL_PARAMS['.'.join(
model_path.split('.')[2:-1])]
# parsed['model_params'] = MODEL_PARAMS['mnist.mclr']
# print and return
maxLen = max([len(ii) for ii in parsed.keys()])
fmtString = '\t%' + str(maxLen) + 's : %s'
print('Arguments:')
for keyPair in sorted(parsed.items()):
print(fmtString % keyPair)
return parsed, learner, optimizer
def main(num_users=5, loc_ep=10, Numb_Glob_Iters=100, lamb=0, learning_rate=0.01, hyper_learning_rate= 0.01, alg='fedprox', weight=True, batch_size=0, times =10, rho = 0, dataset="mnist"):
# suppress tf warnings
tf.logging.set_verbosity(tf.logging.WARN)
# parse command line arguments
options, learner, optimizer = read_options(
num_users, loc_ep, Numb_Glob_Iters, lamb, learning_rate,hyper_learning_rate, alg, weight, batch_size, times, rho, dataset)
# read data
train_path = os.path.join('data', options['dataset'], 'data', 'train')
test_path = os.path.join('data', options['dataset'], 'data', 'test')
dataset = read_data(train_path, test_path)
# call appropriate trainer
for i in range(times):
# Set seeds
random.seed(1 + i)
np.random.seed(12 + i)
tf.set_random_seed(123 + i)
print('......time for runing......',i)
t = optimizer(options, learner, dataset)
t.train(i)
average_data(num_users=num_users, loc_ep1=loc_ep, Numb_Glob_Iters=Numb_Glob_Iters, lamb=lamb, learning_rate=learning_rate, hyper_learning_rate = hyper_learning_rate, algorithms=alg, batch_size=batch_size, dataset=dataset, rho = rho, times = times)
if __name__ == '__main__':
algorithms_list = ["fedfedl","fedfedl","fedfedl","fedfedl","fedfedl","fedfedl","fedfedl","fedfedl","fedfedl","fedfedl","fedfedl","fedfedl"] #fedfedl
rho = [1.4, 1.4, 1.4, 1.4, 2 ,2 , 2, 2, 5, 5, 5, 5]
lamb_value = [0, 0, 0, 0, 0, 0, 0, 0 , 0, 0, 0 ,0]
learning_rate = [0.01,0.01,0.01,0.01, 0.01,0.01,0.01,0.01, 0.01,0.01,0.01,0.01]
hyper_learning_rate = [0.1,0.3,0.5,0.7, 0.1,0.3,0.5,0.7, 0.1,0.3,0.5,0.7]
local_ep = [20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20]
batch_size = [0,0,0,0 ,0,0,0,0, 0,0,0,0]
DATA_SET = "linear_synthetic"
number_users = 10
#for i in range(len(algorithms_list)):
# main(num_users=number_users, loc_ep=local_ep[i], Numb_Glob_Iters=200, lamb=lamb_value[i],
# learning_rate=learning_rate[i],hyper_learning_rate=hyper_learning_rate[i], alg=algorithms_list[i], batch_size=batch_size[i], rho = rho[i], dataset=DATA_SET)
plot_summary_linear(num_users=number_users, loc_ep1=local_ep, Numb_Glob_Iters=200, lamb=lamb_value,
learning_rate=learning_rate, hyper_learning_rate = hyper_learning_rate, algorithms_list=algorithms_list, batch_size=batch_size, rho = rho, dataset=DATA_SET)
print("-- FINISH -- :",)