from fusion.scheduling import Network
from fusion.scheduling import InputLayer, ConvLayer, FCLayer, PoolingLayer, ConcatLayer
from fusion.scheduling.batch_size import get_batch_size
"""
GoogLeNet
ILSVRC 2014
"""
batch_size = get_batch_size()
NN = Network('GoogLeNet')
NN.set_input_layer(InputLayer(3, 224, nimg=batch_size))
NN.add('conv1', ConvLayer(3, 64, 112, 7, 2, nimg=batch_size))
NN.add('pool1', PoolingLayer(64, 56, 3, strd=2, nimg=batch_size))
# Norm layer is ignored.
NN.add('conv2_3x3_reduce', ConvLayer(64, 64, 56, 1, nimg=batch_size))
NN.add('conv2_3x3', ConvLayer(64, 192, 56, 3, nimg=batch_size))
# Norm layer is ignored.
NN.add('pool2', PoolingLayer(192, 28, 3, strd=2, nimg=batch_size))
def add_inception(network, incp_id, sfmap, nfmaps_in, nfmaps_1, nfmaps_3r,
nfmaps_3, nfmaps_5r, nfmaps_5, nfmaps_pool, prevs):
''' Add an inception module to the network. '''
pfx = 'inception_{}_'.format(incp_id)
# 1x1 branch.
network.add(pfx + '1x1',
ConvLayer(nfmaps_in, nfmaps_1, sfmap, 1, nimg=batch_size),
from fusion.scheduling import Network
from fusion.scheduling import InputLayer, ConvLayer, FCLayer, PoolingLayer, EltwiseLayer
from fusion.scheduling.batch_size import get_batch_size
"""
ResNet-50
He, Zhang, Ren, and Sun, 2015
"""
batch_size = get_batch_size()
NN = Network('ResNet50')
NN.set_input_layer(InputLayer(3, 224, nimg=batch_size))
NN.add('conv1', ConvLayer(3, 64, 112, 7, 2, nimg=batch_size))
NN.add('pool1', PoolingLayer(64, 56, 3, 2, nimg=batch_size))
RES_PREV = 'pool1'
for i in range(3):
NN.add('conv2_{}_a'.format(i), ConvLayer(64 if i == 0 else 256, 64, 56, 1, nimg=batch_size))
NN.add('conv2_{}_b'.format(i), ConvLayer(64, 64, 56, 3, nimg=batch_size))
NN.add('conv2_{}_c'.format(i), ConvLayer(64, 256, 56, 1, nimg=batch_size))
# With residual shortcut.
if i == 0:
NN.add('conv2_br', ConvLayer(64, 256, 56, 1, nimg=batch_size), prevs=(RES_PREV,))
RES_PREV = 'conv2_br'
NN.add('conv2_{}_res'.format(i), EltwiseLayer(256, 56, 2, nimg=batch_size),
prevs=(RES_PREV, 'conv2_{}_c'.format(i)))
RES_PREV = 'conv2_{}_res'.format(i)
from fusion.scheduling import Network
from fusion.scheduling import InputLayer, ConvLayer, FCLayer, PoolingLayer, ConcatLayer
from fusion.scheduling.batch_size import get_batch_size
"""
SqueezeNet
Forrest N. Iandola, Song Han, ect., 2016
"""
batch_size = get_batch_size()
NN = Network('SqueezeNet')
NN.set_input_layer(InputLayer(3, 227, nimg=batch_size))
NN.add('conv1', ConvLayer(3, 96, 111, 7, 2, nimg=batch_size))
NN.add('pool1', PoolingLayer(96, 55, 3, strd=2, nimg=batch_size))
def add_fire(network, incp_id, sfmap, nfmaps_in, nfmaps_s1, nfmaps_e1,
nfmaps_e3, nfmaps_c):
''' Add an inception module to the network. '''
pfx = 'fire{}_'.format(incp_id)
# squeeze1x1
network.add(pfx + 'squeeze1x1',
ConvLayer(nfmaps_in, nfmaps_s1, sfmap, 1, nimg=batch_size))
# expand1x1
prevs = pfx + 'squeeze1x1'
network.add(pfx + 'expand1x1',
ConvLayer(nfmaps_s1, nfmaps_e1, sfmap, 1, nimg=batch_size),
prevs=prevs)
# expand3x3
from fusion.scheduling import Network
from fusion.scheduling import InputLayer, ConvLayer, FCLayer, PoolingLayer, DWConvLayer
from fusion.scheduling.batch_size import get_batch_size
"""
MobileNet
Andrew G. Howard, Menglong Zhu, Bo Chen, ect., 2017
"""
batch_size = get_batch_size()
NN = Network('MobileNet')
NN.set_input_layer(InputLayer(3, 224, nimg=batch_size))
NN.add('conv1', ConvLayer(3, 32, 112, 3, 2, nimg=batch_size))
NN.add('conv2_1_dw', DWConvLayer(32, 112, 3, 1, nimg=batch_size))
NN.add('conv2_1_pw', ConvLayer(32, 64, 112, 1, 1, nimg=batch_size))
NN.add('conv2_2_dw', DWConvLayer(64, 56, 3, 2, nimg=batch_size))
NN.add('conv2_2_pw', ConvLayer(64, 128, 56, 1, 1, nimg=batch_size))
NN.add('conv3_1_dw', DWConvLayer(128, 56, 3, 1, nimg=batch_size))
NN.add('conv3_1_pw', ConvLayer(128, 128, 56, 1, 1, nimg=batch_size))
NN.add('conv3_2_dw', DWConvLayer(128, 28, 3, 2, nimg=batch_size))
NN.add('conv3_2_pw', ConvLayer(128, 256, 28, 1, 1, nimg=batch_size))
NN.add('conv4_1_dw', DWConvLayer(256, 28, 3, 1, nimg=batch_size))
NN.add('conv4_1_pw', ConvLayer(256, 256, 28, 1, 1, nimg=batch_size))
NN.add('conv4_2_dw', DWConvLayer(256, 14, 3, 2, nimg=batch_size))
from fusion.scheduling import Network
from fusion.scheduling import InputLayer, ConvLayer, FCLayer, PoolingLayer
from fusion.scheduling.batch_size import get_batch_size
"""
VGGNet-16
Simonyan and Zisserman, 2014
"""
batch_size = get_batch_size()
NN = Network('VGG')
NN.set_input_layer(InputLayer(3, 224, nimg=batch_size))
NN.add('conv1', ConvLayer(3, 64, 224, 3, nimg=batch_size))
NN.add('conv2', ConvLayer(64, 64, 224, 3, nimg=batch_size))
NN.add('pool1', PoolingLayer(64, 112, 2, nimg=batch_size))
NN.add('conv3', ConvLayer(64, 128, 112, 3, nimg=batch_size))
NN.add('conv4', ConvLayer(128, 128, 112, 3, nimg=batch_size))
NN.add('pool2', PoolingLayer(128, 56, 2, nimg=batch_size))
NN.add('conv5', ConvLayer(128, 256, 56, 3, nimg=batch_size))
NN.add('conv6', ConvLayer(256, 256, 56, 3, nimg=batch_size))
NN.add('conv7', ConvLayer(256, 256, 56, 3, nimg=batch_size))
NN.add('pool3', PoolingLayer(256, 28, 2, nimg=batch_size))
NN.add('conv8', ConvLayer(256, 512, 28, 3, nimg=batch_size))
NN.add('conv9', ConvLayer(512, 512, 28, 3, nimg=batch_size))
NN.add('conv10', ConvLayer(512, 512, 28, 3, nimg=batch_size))
NN.add('pool4', PoolingLayer(512, 14, 2, nimg=batch_size))
# NN.add('conv3_a', ConvLayer(256, 192, 13, 3, nimg=batch_size), prevs=('conv2_concat',))
# NN.add('conv3_b', ConvLayer(256, 192, 13, 3, nimg=batch_size), prevs=('conv2_concat',))
# NN.add('conv4_a', ConvLayer(192, 192, 13, 3, nimg=batch_size), prevs=('conv3_a',))
# NN.add('conv4_b', ConvLayer(192, 192, 13, 3, nimg=batch_size), prevs=('conv3_b',))
# NN.add('conv5_a', ConvLayer(192, 128, 13, 3, nimg=batch_size), prevs=('conv4_a',))
# NN.add('conv5_b', ConvLayer(192, 128, 13, 3, nimg=batch_size), prevs=('conv4_b',))
# NN.add('pool3_a', PoolingLayer(128, 6, 3, strd=2, nimg=batch_size), prevs=('conv5_a',))
# NN.add('pool3_b', PoolingLayer(128, 6, 3, strd=2, nimg=batch_size), prevs=('conv5_b',))
# NN.add('conv5_concat', ConcatLayer(256, 6, nimg=batch_size), prevs=('pool3_a', 'pool3_b'))
# NN.add('fc1', FCLayer(256, 4096, 6, nimg=batch_size), prevs=('conv5_concat',))
# NN.add('fc2', FCLayer(4096, 4096, nimg=batch_size))
# NN.add('fc3', FCLayer(4096, 1000, nimg=batch_size))
NN = Network('AlexNet')
NN.set_input_layer(InputLayer(3, 227, nimg=batch_size))
NN.add('conv1_a',
ConvLayer(3, 48, 55, 11, 4, nimg=batch_size),
prevs=(NN.INPUT_LAYER_KEY, ))
NN.add('conv1_b',
ConvLayer(3, 48, 55, 11, 4, nimg=batch_size),
prevs=(NN.INPUT_LAYER_KEY, ))
NN.add('pool1_a',
PoolingLayer(48, 27, 3, strd=2, nimg=batch_size),
prevs=('conv1_a', ))
NN.add('pool1_b',
PoolingLayer(48, 27, 3, strd=2, nimg=batch_size),
prevs=('conv1_b', ))