diff --git a/configs/deeplabv3p_mobilenetv3_large_cityscapes.yaml b/configs/deeplabv3p_mobilenetv3_large_cityscapes.yaml new file mode 100644 index 0000000000000000000000000000000000000000..c21da5d7bb0315672f6853e7e6df9f9fcb57fe6b --- /dev/null +++ b/configs/deeplabv3p_mobilenetv3_large_cityscapes.yaml @@ -0,0 +1,57 @@ +EVAL_CROP_SIZE: (2049, 1025) # (width, height), for unpadding rangescaling and stepscaling +TRAIN_CROP_SIZE: (769, 769) # (width, height), for unpadding rangescaling and stepscaling +AUG: + AUG_METHOD: "stepscaling" # choice unpadding rangescaling and stepscaling + MAX_SCALE_FACTOR: 2.0 # for stepscaling + MIN_SCALE_FACTOR: 0.5 # for stepscaling + SCALE_STEP_SIZE: 0.25 # for stepscaling + MIRROR: True +BATCH_SIZE: 32 +DATASET: + DATA_DIR: "./dataset/cityscapes/" + IMAGE_TYPE: "rgb" # choice rgb or rgba + NUM_CLASSES: 19 + TEST_FILE_LIST: "dataset/cityscapes/val.list" + TRAIN_FILE_LIST: "dataset/cityscapes/train.list" + VAL_FILE_LIST: "dataset/cityscapes/val.list" + IGNORE_INDEX: 255 + SEPARATOR: " " +FREEZE: + MODEL_FILENAME: "model" + PARAMS_FILENAME: "params" +MODEL: + DEFAULT_NORM_TYPE: "bn" + MODEL_NAME: "deeplabv3p" + DEEPLAB: + BACKBONE: "mobilenetv3_large" + ASPP_WITH_SEP_CONV: True + DECODER_USE_SEP_CONV: True + ENCODER_WITH_ASPP: True + ENABLE_DECODER: True + OUTPUT_STRIDE: 32 + BACKBONE_LR_MULT_LIST: [0.15,0.35,0.65,0.85,1] + ENCODER: + POOLING_STRIDE: (4, 5) + POOLING_CROP_SIZE: (769, 769) + ASPP_WITH_SE: True + SE_USE_QSIGMOID: True + ASPP_CONVS_FILTERS: 128 + ASPP_WITH_CONCAT_PROJECTION: False + ADD_IMAGE_LEVEL_FEATURE: False + DECODER: + USE_SUM_MERGE: True + CONV_FILTERS: 19 + OUTPUT_IS_LOGITS: True + +TRAIN: + PRETRAINED_MODEL_DIR: u"pretrained_model/mobilenetv3-1-0_large_bn_imagenet" + MODEL_SAVE_DIR: "saved_model/deeplabv3p_mobilenetv3_large_cityscapes" + SNAPSHOT_EPOCH: 1 + SYNC_BATCH_NORM: True +TEST: + TEST_MODEL: "saved_model/deeplabv3p_mobilenetv3_large_cityscapes/final" +SOLVER: + LR: 0.2 + LR_POLICY: "poly" + OPTIMIZER: "sgd" + NUM_EPOCHS: 850 diff --git a/pdseg/models/backbone/mobilenet_v3.py b/pdseg/models/backbone/mobilenet_v3.py new file mode 100644 index 0000000000000000000000000000000000000000..e0a6a8df3c4b279d6da8a0a746ef4422258df090 --- /dev/null +++ b/pdseg/models/backbone/mobilenet_v3.py @@ -0,0 +1,363 @@ +# copyright (c) 2020 PaddlePaddle Authors. All Rights Reserve. +# +# Licensed under the Apache License, Version 2.0 (the "License"); +# you may not use this file except in compliance with the License. +# You may obtain a copy of the License at +# +# http://www.apache.org/licenses/LICENSE-2.0 +# +# Unless required by applicable law or agreed to in writing, software +# distributed under the License is distributed on an "AS IS" BASIS, +# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +# See the License for the specific language governing permissions and +# limitations under the License. + +from __future__ import absolute_import +from __future__ import division +from __future__ import print_function + +import paddle.fluid as fluid +from paddle.fluid.param_attr import ParamAttr + +__all__ = [ + 'MobileNetV3', 'MobileNetV3_small_x0_35', 'MobileNetV3_small_x0_5', + 'MobileNetV3_small_x0_75', 'MobileNetV3_small_x1_0', + 'MobileNetV3_small_x1_25', 'MobileNetV3_large_x0_35', + 'MobileNetV3_large_x0_5', 'MobileNetV3_large_x0_75', + 'MobileNetV3_large_x1_0', 'MobileNetV3_large_x1_25' +] + + +class MobileNetV3(): + def __init__(self, + scale=1.0, + model_name='small', + lr_mult_list=[1.0, 1.0, 1.0, 1.0, 1.0], + output_stride=None): + self.scale = scale + self.inplanes = 16 + + self.lr_mult_list = lr_mult_list + assert len(self.lr_mult_list) == 5, \ + "lr_mult_list length in MobileNetV3 must be 5 but got {}!!".format( + len(self.lr_mult_list)) + self.curr_stage = 0 + self.decode_point = None + self.end_point = None + + if model_name == "large": + self.cfg = [ + # k, exp, c, se, nl, s, + [3, 16, 16, False, 'relu', 1], + [3, 64, 24, False, 'relu', 2], + [3, 72, 24, False, 'relu', 1], + [5, 72, 40, True, 'relu', 2], + [5, 120, 40, True, 'relu', 1], + [5, 120, 40, True, 'relu', 1], + [3, 240, 80, False, 'hard_swish', 2], + [3, 200, 80, False, 'hard_swish', 1], + [3, 184, 80, False, 'hard_swish', 1], + [3, 184, 80, False, 'hard_swish', 1], + [3, 480, 112, True, 'hard_swish', 1], + [3, 672, 112, True, 'hard_swish', 1], + # The number of channels in the last 4 stages is reduced by a + # factor of 2 compared to the standard implementation. + [5, 336, 80, True, 'hard_swish', 2], + [5, 480, 80, True, 'hard_swish', 1], + [5, 480, 80, True, 'hard_swish', 1], + ] + self.cls_ch_squeeze = 480 + self.cls_ch_expand = 1280 + self.lr_interval = 3 + elif model_name == "small": + self.cfg = [ + # k, exp, c, se, nl, s, + [3, 16, 16, True, 'relu', 2], + [3, 72, 24, False, 'relu', 2], + [3, 88, 24, False, 'relu', 1], + [5, 96, 40, True, 'hard_swish', 2], + [5, 240, 40, True, 'hard_swish', 1], + [5, 240, 40, True, 'hard_swish', 1], + [5, 120, 48, True, 'hard_swish', 1], + [5, 144, 48, True, 'hard_swish', 1], + # The number of channels in the last 4 stages is reduced by a + # factor of 2 compared to the standard implementation. + [5, 144, 48, True, 'hard_swish', 2], + [5, 288, 48, True, 'hard_swish', 1], + [5, 288, 48, True, 'hard_swish', 1], + ] + self.cls_ch_squeeze = 288 + self.cls_ch_expand = 1280 + self.lr_interval = 2 + else: + raise NotImplementedError( + "mode[{}_model] is not implemented!".format(model_name)) + + self.modify_bottle_params(output_stride) + + def modify_bottle_params(self, output_stride=None): + if output_stride is not None and output_stride % 2 != 0: + raise Exception("output stride must to be even number") + if output_stride is None: + return + else: + stride = 2 + for i, _cfg in enumerate(self.cfg): + stride = stride * _cfg[-1] + if stride > output_stride: + s = 1 + self.cfg[i][-1] = s + + def net(self, input, class_dim=1000, end_points=None, decode_points=None): + scale = self.scale + inplanes = self.inplanes + cfg = self.cfg + cls_ch_squeeze = self.cls_ch_squeeze + cls_ch_expand = self.cls_ch_expand + + # conv1 + conv = self.conv_bn_layer( + input, + filter_size=3, + num_filters=self.make_divisible(inplanes * scale), + stride=2, + padding=1, + num_groups=1, + if_act=True, + act='hard_swish', + name='conv1') + + i = 0 + inplanes = self.make_divisible(inplanes * scale) + for layer_cfg in cfg: + conv = self.residual_unit( + input=conv, + num_in_filter=inplanes, + num_mid_filter=self.make_divisible(scale * layer_cfg[1]), + num_out_filter=self.make_divisible(scale * layer_cfg[2]), + act=layer_cfg[4], + stride=layer_cfg[5], + filter_size=layer_cfg[0], + use_se=layer_cfg[3], + name='conv' + str(i + 2)) + inplanes = self.make_divisible(scale * layer_cfg[2]) + i += 1 + self.curr_stage = i + + conv = self.conv_bn_layer( + input=conv, + filter_size=1, + num_filters=self.make_divisible(scale * cls_ch_squeeze), + stride=1, + padding=0, + num_groups=1, + if_act=True, + act='hard_swish', + name='conv_last') + + return conv, self.decode_point + + conv = fluid.layers.pool2d( + input=conv, pool_type='avg', global_pooling=True, use_cudnn=False) + conv = fluid.layers.conv2d( + input=conv, + num_filters=cls_ch_expand, + filter_size=1, + stride=1, + padding=0, + act=None, + param_attr=ParamAttr(name='last_1x1_conv_weights'), + bias_attr=False) + conv = fluid.layers.hard_swish(conv) + drop = fluid.layers.dropout(x=conv, dropout_prob=0.2) + out = fluid.layers.fc( + input=drop, + size=class_dim, + param_attr=ParamAttr(name='fc_weights'), + bias_attr=ParamAttr(name='fc_offset')) + return out + + def conv_bn_layer(self, + input, + filter_size, + num_filters, + stride, + padding, + num_groups=1, + if_act=True, + act=None, + name=None, + use_cudnn=True, + res_last_bn_init=False): + lr_idx = self.curr_stage // self.lr_interval + lr_idx = min(lr_idx, len(self.lr_mult_list) - 1) + lr_mult = self.lr_mult_list[lr_idx] + + conv = fluid.layers.conv2d( + input=input, + num_filters=num_filters, + filter_size=filter_size, + stride=stride, + padding=padding, + groups=num_groups, + act=None, + use_cudnn=use_cudnn, + param_attr=ParamAttr(name=name + '_weights', learning_rate=lr_mult), + bias_attr=False) + bn_name = name + '_bn' + bn = fluid.layers.batch_norm( + input=conv, + param_attr=ParamAttr( + name=bn_name + "_scale", + regularizer=fluid.regularizer.L2DecayRegularizer( + regularization_coeff=0.0)), + bias_attr=ParamAttr( + name=bn_name + "_offset", + regularizer=fluid.regularizer.L2DecayRegularizer( + regularization_coeff=0.0)), + moving_mean_name=bn_name + '_mean', + moving_variance_name=bn_name + '_variance') + if if_act: + if act == 'relu': + bn = fluid.layers.relu(bn) + elif act == 'hard_swish': + bn = fluid.layers.hard_swish(bn) + return bn + + def make_divisible(self, v, divisor=8, min_value=None): + if min_value is None: + min_value = divisor + new_v = max(min_value, int(v + divisor / 2) // divisor * divisor) + if new_v < 0.9 * v: + new_v += divisor + return new_v + + def se_block(self, input, num_out_filter, ratio=4, name=None): + lr_idx = self.curr_stage // self.lr_interval + lr_idx = min(lr_idx, len(self.lr_mult_list) - 1) + lr_mult = self.lr_mult_list[lr_idx] + + num_mid_filter = num_out_filter // ratio + pool = fluid.layers.pool2d( + input=input, pool_type='avg', global_pooling=True, use_cudnn=False) + conv1 = fluid.layers.conv2d( + input=pool, + filter_size=1, + num_filters=num_mid_filter, + act='relu', + param_attr=ParamAttr( + name=name + '_1_weights', learning_rate=lr_mult), + bias_attr=ParamAttr(name=name + '_1_offset', learning_rate=lr_mult)) + conv2 = fluid.layers.conv2d( + input=conv1, + filter_size=1, + num_filters=num_out_filter, + act='hard_sigmoid', + param_attr=ParamAttr( + name=name + '_2_weights', learning_rate=lr_mult), + bias_attr=ParamAttr(name=name + '_2_offset', learning_rate=lr_mult)) + scale = fluid.layers.elementwise_mul(x=input, y=conv2, axis=0) + return scale + + def residual_unit(self, + input, + num_in_filter, + num_mid_filter, + num_out_filter, + stride, + filter_size, + act=None, + use_se=False, + name=None): + + conv0 = self.conv_bn_layer( + input=input, + filter_size=1, + num_filters=num_mid_filter, + stride=1, + padding=0, + if_act=True, + act=act, + name=name + '_expand') + + conv1 = self.conv_bn_layer( + input=conv0, + filter_size=filter_size, + num_filters=num_mid_filter, + stride=stride, + padding=int((filter_size - 1) // 2), + if_act=True, + act=act, + num_groups=num_mid_filter, + use_cudnn=False, + name=name + '_depthwise') + + if self.curr_stage == 5: + self.decode_point = conv1 + if use_se: + conv1 = self.se_block( + input=conv1, num_out_filter=num_mid_filter, name=name + '_se') + + conv2 = self.conv_bn_layer( + input=conv1, + filter_size=1, + num_filters=num_out_filter, + stride=1, + padding=0, + if_act=False, + name=name + '_linear', + res_last_bn_init=True) + if num_in_filter != num_out_filter or stride != 1: + return conv2 + else: + return fluid.layers.elementwise_add(x=input, y=conv2, act=None) + + +def MobileNetV3_small_x0_35(): + model = MobileNetV3(model_name='small', scale=0.35) + return model + + +def MobileNetV3_small_x0_5(): + model = MobileNetV3(model_name='small', scale=0.5) + return model + + +def MobileNetV3_small_x0_75(): + model = MobileNetV3(model_name='small', scale=0.75) + return model + + +def MobileNetV3_small_x1_0(**args): + model = MobileNetV3(model_name='small', scale=1.0, **args) + return model + + +def MobileNetV3_small_x1_25(): + model = MobileNetV3(model_name='small', scale=1.25) + return model + + +def MobileNetV3_large_x0_35(): + model = MobileNetV3(model_name='large', scale=0.35) + return model + + +def MobileNetV3_large_x0_5(): + model = MobileNetV3(model_name='large', scale=0.5) + return model + + +def MobileNetV3_large_x0_75(): + model = MobileNetV3(model_name='large', scale=0.75) + return model + + +def MobileNetV3_large_x1_0(**args): + model = MobileNetV3(model_name='large', scale=1.0, **args) + return model + + +def MobileNetV3_large_x1_25(): + model = MobileNetV3(model_name='large', scale=1.25) + return model diff --git a/pdseg/models/libs/model_libs.py b/pdseg/models/libs/model_libs.py index dbd04dea9eaebcfcadc4c3a86c3bac6371d37479..ade921d75bf1f4e917cd393f4ea5f5f74eb02f62 100644 --- a/pdseg/models/libs/model_libs.py +++ b/pdseg/models/libs/model_libs.py @@ -109,6 +109,10 @@ def bn_relu(data): return fluid.layers.relu(bn(data)) +def qsigmoid(data): + return fluid.layers.relu6(data + 3) * 0.16667 + + def relu(data): return fluid.layers.relu(data) diff --git a/pdseg/models/modeling/deeplab.py b/pdseg/models/modeling/deeplab.py index 454a5c4700e6b68a1be177b735c1711dc69564cc..73ab9a2ae5d1ea39dbdd3c64372b8013a4edb2a8 100644 --- a/pdseg/models/modeling/deeplab.py +++ b/pdseg/models/modeling/deeplab.py @@ -21,10 +21,11 @@ import paddle import paddle.fluid as fluid from utils.config import cfg from models.libs.model_libs import scope, name_scope -from models.libs.model_libs import bn, bn_relu, relu +from models.libs.model_libs import bn, bn_relu, relu, qsigmoid from models.libs.model_libs import conv from models.libs.model_libs import separate_conv -from models.backbone.mobilenet_v2 import MobileNetV2 as mobilenet_backbone +from models.backbone.mobilenet_v2 import MobileNetV2 as mobilenet_v2_backbone +from models.backbone.mobilenet_v3 import MobileNetV3 as mobilenet_v3_backbone from models.backbone.xception import Xception as xception_backbone from models.backbone.resnet_vd import ResNet as resnet_vd_backbone @@ -35,22 +36,42 @@ def encoder(input): # OUTPUT_STRIDE: 下采样倍数,8或16,决定aspp_ratios大小 # aspp_ratios:ASPP模块空洞卷积的采样率 - if cfg.MODEL.DEEPLAB.OUTPUT_STRIDE == 16: - aspp_ratios = [6, 12, 18] - elif cfg.MODEL.DEEPLAB.OUTPUT_STRIDE == 8: - aspp_ratios = [12, 24, 36] + if not cfg.MODEL.DEEPLAB.ENCODER.ASPP_RATIOS: + if cfg.MODEL.DEEPLAB.OUTPUT_STRIDE == 16: + aspp_ratios = [6, 12, 18] + elif cfg.MODEL.DEEPLAB.OUTPUT_STRIDE == 8: + aspp_ratios = [12, 24, 36] + else: + aspp_ratios = [] else: - raise Exception("deeplab only support stride 8 or 16") + aspp_ratios = cfg.MODEL.DEEPLAB.ENCODER.ASPP_RATIOS param_attr = fluid.ParamAttr( name=name_scope + 'weights', regularizer=None, initializer=fluid.initializer.TruncatedNormal(loc=0.0, scale=0.06)) + + concat_logits = [] with scope('encoder'): - channel = 256 + channel = cfg.MODEL.DEEPLAB.ENCODER.ASPP_CONVS_FILTERS with scope("image_pool"): - image_avg = fluid.layers.reduce_mean(input, [2, 3], keep_dim=True) - image_avg = bn_relu( + if not cfg.MODEL.DEEPLAB.ENCODER.POOLING_CROP_SIZE: + image_avg = fluid.layers.reduce_mean( + input, [2, 3], keep_dim=True) + else: + pool_w = int((cfg.MODEL.DEEPLAB.ENCODER.POOLING_CROP_SIZE[0] - + 1.0) / cfg.MODEL.DEEPLAB.OUTPUT_STRIDE + 1.0) + pool_h = int((cfg.MODEL.DEEPLAB.ENCODER.POOLING_CROP_SIZE[1] - + 1.0) / cfg.MODEL.DEEPLAB.OUTPUT_STRIDE + 1.0) + image_avg = fluid.layers.pool2d( + input, + pool_size=(pool_h, pool_w), + pool_stride=cfg.MODEL.DEEPLAB.ENCODER.POOLING_STRIDE, + pool_type='avg', + pool_padding='VALID') + + act = qsigmoid if cfg.MODEL.DEEPLAB.ENCODER.SE_USE_QSIGMOID else bn_relu + image_avg = act( conv( image_avg, channel, @@ -60,6 +81,8 @@ def encoder(input): padding=0, param_attr=param_attr)) image_avg = fluid.layers.resize_bilinear(image_avg, input.shape[2:]) + if cfg.MODEL.DEEPLAB.ENCODER.ADD_IMAGE_LEVEL_FEATURE: + concat_logits.append(image_avg) with scope("aspp0"): aspp0 = bn_relu( @@ -71,62 +94,154 @@ def encoder(input): groups=1, padding=0, param_attr=param_attr)) - with scope("aspp1"): - if cfg.MODEL.DEEPLAB.ASPP_WITH_SEP_CONV: - aspp1 = separate_conv( - input, channel, 1, 3, dilation=aspp_ratios[0], act=relu) - else: - aspp1 = bn_relu( - conv( - input, - channel, - stride=1, - filter_size=3, - dilation=aspp_ratios[0], - padding=aspp_ratios[0], - param_attr=param_attr)) - with scope("aspp2"): - if cfg.MODEL.DEEPLAB.ASPP_WITH_SEP_CONV: - aspp2 = separate_conv( - input, channel, 1, 3, dilation=aspp_ratios[1], act=relu) - else: - aspp2 = bn_relu( - conv( - input, - channel, - stride=1, - filter_size=3, - dilation=aspp_ratios[1], - padding=aspp_ratios[1], - param_attr=param_attr)) - with scope("aspp3"): - if cfg.MODEL.DEEPLAB.ASPP_WITH_SEP_CONV: - aspp3 = separate_conv( - input, channel, 1, 3, dilation=aspp_ratios[2], act=relu) - else: - aspp3 = bn_relu( + concat_logits.append(aspp0) + + if aspp_ratios: + with scope("aspp1"): + if cfg.MODEL.DEEPLAB.ASPP_WITH_SEP_CONV: + aspp1 = separate_conv( + input, channel, 1, 3, dilation=aspp_ratios[0], act=relu) + else: + aspp1 = bn_relu( + conv( + input, + channel, + stride=1, + filter_size=3, + dilation=aspp_ratios[0], + padding=aspp_ratios[0], + param_attr=param_attr)) + concat_logits.append(aspp1) + with scope("aspp2"): + if cfg.MODEL.DEEPLAB.ASPP_WITH_SEP_CONV: + aspp2 = separate_conv( + input, channel, 1, 3, dilation=aspp_ratios[1], act=relu) + else: + aspp2 = bn_relu( + conv( + input, + channel, + stride=1, + filter_size=3, + dilation=aspp_ratios[1], + padding=aspp_ratios[1], + param_attr=param_attr)) + concat_logits.append(aspp2) + with scope("aspp3"): + if cfg.MODEL.DEEPLAB.ASPP_WITH_SEP_CONV: + aspp3 = separate_conv( + input, channel, 1, 3, dilation=aspp_ratios[2], act=relu) + else: + aspp3 = bn_relu( + conv( + input, + channel, + stride=1, + filter_size=3, + dilation=aspp_ratios[2], + padding=aspp_ratios[2], + param_attr=param_attr)) + concat_logits.append(aspp3) + + with scope("concat"): + data = fluid.layers.concat(concat_logits, axis=1) + if cfg.MODEL.DEEPLAB.ENCODER.ASPP_WITH_CONCAT_PROJECTION: + data = bn_relu( conv( - input, + data, channel, - stride=1, - filter_size=3, - dilation=aspp_ratios[2], - padding=aspp_ratios[2], + 1, + 1, + groups=1, + padding=0, param_attr=param_attr)) - with scope("concat"): - data = fluid.layers.concat([image_avg, aspp0, aspp1, aspp2, aspp3], - axis=1) - data = bn_relu( + data = fluid.layers.dropout(data, 0.9) + + if cfg.MODEL.DEEPLAB.ENCODER.ASPP_WITH_SE: + data = data * image_avg + return data + + +def _decoder_with_sum_merge(encode_data, decode_shortcut, param_attr): + encode_data = fluid.layers.resize_bilinear(encode_data, + decode_shortcut.shape[2:]) + encode_data = conv( + encode_data, + cfg.MODEL.DEEPLAB.DECODER.CONV_FILTERS, + 1, + 1, + groups=1, + padding=0, + param_attr=param_attr) + + with scope('merge'): + decode_shortcut = conv( + decode_shortcut, + cfg.MODEL.DEEPLAB.DECODER.CONV_FILTERS, + 1, + 1, + groups=1, + padding=0, + param_attr=param_attr) + + return encode_data + decode_shortcut + + +def _decoder_with_concat(encode_data, decode_shortcut, param_attr): + with scope('concat'): + decode_shortcut = bn_relu( + conv( + decode_shortcut, + 48, + 1, + 1, + groups=1, + padding=0, + param_attr=param_attr)) + + encode_data = fluid.layers.resize_bilinear(encode_data, + decode_shortcut.shape[2:]) + encode_data = fluid.layers.concat([encode_data, decode_shortcut], + axis=1) + if cfg.MODEL.DEEPLAB.DECODER_USE_SEP_CONV: + with scope("separable_conv1"): + encode_data = separate_conv( + encode_data, + cfg.MODEL.DEEPLAB.DECODER.CONV_FILTERS, + 1, + 3, + dilation=1, + act=relu) + with scope("separable_conv2"): + encode_data = separate_conv( + encode_data, + cfg.MODEL.DEEPLAB.DECODER.CONV_FILTERS, + 1, + 3, + dilation=1, + act=relu) + else: + with scope("decoder_conv1"): + encode_data = bn_relu( conv( - data, - channel, - 1, - 1, - groups=1, - padding=0, + encode_data, + cfg.MODEL.DEEPLAB.DECODER.CONV_FILTERS, + stride=1, + filter_size=3, + dilation=1, + padding=1, param_attr=param_attr)) - data = fluid.layers.dropout(data, 0.9) - return data + with scope("decoder_conv2"): + encode_data = bn_relu( + conv( + encode_data, + cfg.MODEL.DEEPLAB.DECODER.CONV_FILTERS, + stride=1, + filter_size=3, + dilation=1, + padding=1, + param_attr=param_attr)) + return encode_data def decoder(encode_data, decode_shortcut): @@ -139,61 +254,49 @@ def decoder(encode_data, decode_shortcut): regularizer=None, initializer=fluid.initializer.TruncatedNormal(loc=0.0, scale=0.06)) with scope('decoder'): - with scope('concat'): - decode_shortcut = bn_relu( - conv( - decode_shortcut, - 48, - 1, - 1, - groups=1, - padding=0, - param_attr=param_attr)) + if cfg.MODEL.DEEPLAB.DECODER.USE_SUM_MERGE: + return _decoder_with_sum_merge(encode_data, decode_shortcut, + param_attr) - encode_data = fluid.layers.resize_bilinear( - encode_data, decode_shortcut.shape[2:]) - encode_data = fluid.layers.concat([encode_data, decode_shortcut], - axis=1) - if cfg.MODEL.DEEPLAB.DECODER_USE_SEP_CONV: - with scope("separable_conv1"): - encode_data = separate_conv( - encode_data, 256, 1, 3, dilation=1, act=relu) - with scope("separable_conv2"): - encode_data = separate_conv( - encode_data, 256, 1, 3, dilation=1, act=relu) - else: - with scope("decoder_conv1"): - encode_data = bn_relu( - conv( - encode_data, - 256, - stride=1, - filter_size=3, - dilation=1, - padding=1, - param_attr=param_attr)) - with scope("decoder_conv2"): - encode_data = bn_relu( - conv( - encode_data, - 256, - stride=1, - filter_size=3, - dilation=1, - padding=1, - param_attr=param_attr)) - return encode_data + return _decoder_with_concat(encode_data, decode_shortcut, param_attr) + + +def mobilenet(input): + if 'v3' in cfg.MODEL.DEEPLAB.BACKBONE: + model_name = 'large' if 'large' in cfg.MODEL.DEEPLAB.BACKBONE else 'small' + return _mobilenetv3(input, model_name) + return _mobilenetv2(input) -def mobilenetv2(input): +def _mobilenetv3(input, model_name='large'): + # Backbone: mobilenetv3结构配置 + # DEPTH_MULTIPLIER: mobilenetv3的scale设置,默认1.0 + # OUTPUT_STRIDE:下采样倍数 + scale = cfg.MODEL.DEEPLAB.DEPTH_MULTIPLIER + output_stride = cfg.MODEL.DEEPLAB.OUTPUT_STRIDE + lr_mult_shortcut = cfg.MODEL.DEEPLAB.BACKBONE_LR_MULT_LIST + model = mobilenet_v3_backbone( + scale=scale, + output_stride=output_stride, + model_name=model_name, + lr_mult_list=lr_mult_shortcut) + data, decode_shortcut = model.net(input) + return data, decode_shortcut + + +def _mobilenetv2(input): # Backbone: mobilenetv2结构配置 # DEPTH_MULTIPLIER: mobilenetv2的scale设置,默认1.0 # OUTPUT_STRIDE:下采样倍数 # end_points: mobilenetv2的block数 # decode_point: 从mobilenetv2中引出分支所在block数, 作为decoder输入 + if cfg.MODEL.DEEPLAB.BACKBONE_LR_MULT_LIST is not None: + print( + 'mobilenetv2 backbone do not support BACKBONE_LR_MULT_LIST setting') + scale = cfg.MODEL.DEEPLAB.DEPTH_MULTIPLIER output_stride = cfg.MODEL.DEEPLAB.OUTPUT_STRIDE - model = mobilenet_backbone(scale=scale, output_stride=output_stride) + model = mobilenet_v2_backbone(scale=scale, output_stride=output_stride) end_points = 18 decode_point = 4 data, decode_shortcuts = model.net( @@ -270,11 +373,7 @@ def deeplabv3p(img, num_classes): 'xception backbone do not support BACKBONE_LR_MULT_LIST setting' ) elif 'mobilenet' in cfg.MODEL.DEEPLAB.BACKBONE: - data, decode_shortcut = mobilenetv2(img) - if cfg.MODEL.DEEPLAB.BACKBONE_LR_MULT_LIST is not None: - print( - 'mobilenetv2 backbone do not support BACKBONE_LR_MULT_LIST setting' - ) + data, decode_shortcut = mobilenet(img) elif 'resnet' in cfg.MODEL.DEEPLAB.BACKBONE: data, decode_shortcut = resnet_vd(img) else: @@ -294,16 +393,20 @@ def deeplabv3p(img, num_classes): regularizer=fluid.regularizer.L2DecayRegularizer( regularization_coeff=0.0), initializer=fluid.initializer.TruncatedNormal(loc=0.0, scale=0.01)) - with scope('logit'): - with fluid.name_scope('last_conv'): - logit = conv( - data, - num_classes, - 1, - stride=1, - padding=0, - bias_attr=True, - param_attr=param_attr) - logit = fluid.layers.resize_bilinear(logit, img.shape[2:]) + if not cfg.MODEL.DEEPLAB.DECODER.OUTPUT_IS_LOGITS: + with scope('logit'): + with fluid.name_scope('last_conv'): + logit = conv( + data, + num_classes, + 1, + stride=1, + padding=0, + bias_attr=True, + param_attr=param_attr) + else: + logit = data + + logit = fluid.layers.resize_bilinear(logit, img.shape[2:]) return logit diff --git a/pdseg/utils/config.py b/pdseg/utils/config.py index 9989630a20b0aeda3e0545c0e350a039add9751b..8c1bccc1354ea978129634fe535218ea80ffc510 100644 --- a/pdseg/utils/config.py +++ b/pdseg/utils/config.py @@ -198,17 +198,28 @@ cfg.MODEL.SCALE_LOSS = "DYNAMIC" cfg.MODEL.DEEPLAB.BACKBONE = "xception_65" # DeepLab output stride cfg.MODEL.DEEPLAB.OUTPUT_STRIDE = 16 -# MobileNet v2 backbone scale 设置 +# MobileNet v2/v3 backbone scale 设置 cfg.MODEL.DEEPLAB.DEPTH_MULTIPLIER = 1.0 -# MobileNet v2 backbone scale 设置 +# DeepLab Encoder 设置 cfg.MODEL.DEEPLAB.ENCODER_WITH_ASPP = True -# MobileNet v2 backbone scale 设置 +cfg.MODEL.DEEPLAB.ENCODER.POOLING_STRIDE = [1, 1] +cfg.MODEL.DEEPLAB.ENCODER.POOLING_CROP_SIZE = None +cfg.MODEL.DEEPLAB.ENCODER.ASPP_WITH_SE = False +cfg.MODEL.DEEPLAB.ENCODER.SE_USE_QSIGMOID = False +cfg.MODEL.DEEPLAB.ENCODER.ASPP_CONVS_FILTERS = 256 +cfg.MODEL.DEEPLAB.ENCODER.ASPP_WITH_CONCAT_PROJECTION = True +cfg.MODEL.DEEPLAB.ENCODER.ADD_IMAGE_LEVEL_FEATURE = True +cfg.MODEL.DEEPLAB.ENCODER.ASPP_RATIOS = None +# DeepLab Decoder 设置 cfg.MODEL.DEEPLAB.ENABLE_DECODER = True +cfg.MODEL.DEEPLAB.DECODER.USE_SUM_MERGE = False +cfg.MODEL.DEEPLAB.DECODER.CONV_FILTERS = 256 +cfg.MODEL.DEEPLAB.DECODER.OUTPUT_IS_LOGITS = False # ASPP是否使用可分离卷积 cfg.MODEL.DEEPLAB.ASPP_WITH_SEP_CONV = True # 解码器是否使用可分离卷积 cfg.MODEL.DEEPLAB.DECODER_USE_SEP_CONV = True -# resnet_vd分阶段学习率 +# Backbone分阶段学习率 cfg.MODEL.DEEPLAB.BACKBONE_LR_MULT_LIST = None ########################## UNET模型配置 ####################################### diff --git a/pretrained_model/download_model.py b/pretrained_model/download_model.py index 6ac0346cf745f2e00f77e1fdc78a869fd3d73ede..17bbc7bdee8cfe9b0707dfaafa402cc65d9e0d6a 100644 --- a/pretrained_model/download_model.py +++ b/pretrained_model/download_model.py @@ -34,6 +34,10 @@ model_urls = { "https://paddle-imagenet-models-name.bj.bcebos.com/MobileNetV2_x0_5_pretrained.tar", "mobilenetv2-0-25_bn_imagenet": "https://paddle-imagenet-models-name.bj.bcebos.com/MobileNetV2_x0_25_pretrained.tar", + "mobilenetv3-1-0_large_bn_imagenet": + "https://paddle-imagenet-models-name.bj.bcebos.com/MobileNetV3_large_x1_0_ssld_pretrained.tar", + "mobilenetv3-1-0_small_bn_imagenet": + "https://paddle-imagenet-models-name.bj.bcebos.com/MobileNetV3_small_x1_0_ssld_pretrained.tar", "xception41_imagenet": "https://paddleseg.bj.bcebos.com/models/Xception41_pretrained.tgz", "xception65_imagenet":