解释import tensorflow as tf from im_dataset import train_image, train_label, test_image, test_label from AlexNet8 import AlexNet8 from baseline import baseline from InceptionNet import Inception10 from Resnet18 import ResNet18 import os import matplotlib.pyplot as plt import argparse import numpy as np parse = argparse.ArgumentParser(description="CVAE model for generation of metamaterial") hyperparameter_set = parse.add_argument_group(title='HyperParameter Setting') dim_set = parse.add_argument_group(title='Dim setting') hyperparameter_set.add_argument("--num_epochs",type=int,default=200,help="Number of train epochs") hyperparameter_set.add_argument("--learning_rate",type=float,default=4e-3,help="learning rate") hyperparameter_set.add_argument("--image_size",type=int,default=16*16,help="vector size of image") hyperparameter_set.add_argument("--batch_size",type=int,default=16,help="batch size of database") dim_set.add_argument("--z_dim",type=int,default=20,help="dim of latent variable") dim_set.add_argument("--feature_dim",type=int,default=32,help="dim of feature vector") dim_set.add_argument("--phase_curve_dim",type=int,default=41,help="dim of phase curve vector") dim_set.add_argument("--image_dim",type=int,default=16,help="image size: [image_dim,image_dim,1]") args = parse.parse_args() def preprocess(x, y): x = tf.io.read_file(x) x = tf.image.decode_png(x, channels=1) x = tf.cast(x,dtype=tf.float32) /255. x1 = tf.concat([x, x], 0) x2 = tf.concat([x1, x1], 1) x = x - 0.5 y = tf.convert_to_tensor(y) y = tf.cast(y,dtype=tf.float32) return x2, y train_db = tf.data.Dataset.from_tensor_slices((train_image, train_label)) train_db = train_db.shuffle(100).map(preprocess).batch(args.batch_size) test_db = tf.data.Dataset.from_tensor_slices((test_image, test_label)) test_db = test_db.map(preprocess).batch(args.batch_size) model = ResNet18([2, 2, 2, 2]) model.build(input_shape=(args.batch_size, 32, 32, 1)) model.compile(optimizer = tf.keras.optimizers.Adam(lr = 1e-3), loss = tf.keras.losses.MSE, metrics = ['MSE']) checkpoint_save_path = "./checkpoint/InceptionNet_im_3/checkpoint.ckpt" if os.path.exists(checkpoint_save_path+'.index'): print('------------------load the model---------------------') model.load_weights(checkpoint_save_path) cp_callback = tf.keras.callbacks.ModelCheckpoint(filepath=checkpoint_save_path,save_weights_only=True,save_best_only=True) history = model.fit(train_db, epochs=500, validation_data=test_db, validation_freq=1, callbacks=[cp_callback]) model.summary() acc = history.history['loss'] val_acc = history.history['val_loss'] plt.plot(acc, label='Training MSE') plt.plot(val_acc, label='Validation MSE') plt.title('Training and Validation MSE') plt.legend() plt.show()

Read_MNIST_DataSet.rar_MNIST_MNIST image_matlab读取mnist_mnist 图片

读取MNIST数据集中图像数据文件和图像标签文件并转化成BMP图片和txt格式的标签数据。本程序简单易用，注释清楚。直接运行代码，选择相应文件即可输出BMP图片或txt文件。

TensorFlow-Examples-master.rar_TensorFlow for Unet_tensorflow_te

在TensorFlow中实现Unet，首先需要导入必要的库，如tf.keras.layers用于创建神经网络层，tf.data用于数据预处理和批处理，tf.keras.Model用于定义模型结构，以及tf.train用于训练模型。在构建模型时，开发者...

mport socket from collections import OrderedDict import numpy as np import tensorflow as tf import utils.io.image import utils.io.landmark import utils.io.text import utils.np_image import utils.sitk_image import utils.sitk_np from dataset import Dataset from datasets.pyro_dataset import PyroClientDataset from network import Unet from spine_localization_postprocessing import bb, bb_iou from tensorflow.keras.mixed_precision import experimental as mixed_precision from tensorflow_train_v2.dataset.dataset_iterator import DatasetIterator from tensorflow_train_v2.train_loop import MainLoopBase from tensorflow_train_v2.utils.data_format import get_batch_channel_image_size from tensorflow_train_v2.utils.loss_metric_logger import LossMetricLogger from tensorflow_train_v2.utils.output_folder_handler import OutputFolderHandler from tqdm import tqdm

这段代码看起来是一个Python脚本，导入了一些需要的模块和库，包括socket、collections、numpy、tensorflow等。它还引用了一些自定义的模块和类，如utils.io、dataset、network等。代码中还使用了一些函数和类，如...

from datasets.pyro_dataset import PyroClientDataset from network import Unet from spine_localization_postprocessing import bb, bb_iou from tensorflow.keras.mixed_precision import experimental as mixed_precision from tensorflow_train_v2.dataset.dataset_iterator import DatasetIterator from tensorflow_train_v2.train_loop import MainLoopBase from tensorflow_train_v2.utils.data_format import get_batch_channel_image_size from tensorflow_train_v2.utils.loss_metric_logger import LossMetricLogger from tensorflow_train_v2.utils.output_folder_handler import OutputFolderHandler from tqdm import tqdm

它还使用了一些来自TensorFlow的模块和函数，如DatasetIterator、MainLoopBase、LossMetricLogger等。代码中还使用了tqdm库来显示进度条。这段代码的具体功能和用途可能需要查看其他部分的代码才能确定。

import nest_asyncio nest_asyncio.apply() import collections import numpy as np import tensorflow as tf import tensorflow_federated as tff np.random.seed(0) tff.federated_computation(lambda: 'Hello, World!')() emnist_train, emnist_test = tff.simulation.datasets.emnist.load_data(cache_dir = '/home/cqx/PycharmProjects/cache/fed_emnist_digitsonly') example_dataset = emnist_train.create_tf_dataset_for_client( emnist_train.client_ids[0]) example_element = next(iter(example_dataset)) example_element['label'].numpy()当把数据集换成本地fashion_mnist时，代码该如何修改

from tensorflow.keras.datasets import fashion_mnist 2. 加载fashion_mnist数据集 (x_train, y_train), (x_test, y_test) = fashion_mnist.load_data() 3. 将数据集转换为TFF格式 def ...

解释一下这段代码：import tensorflow as tf from im_dataset import train_image, train_label, test_image, test_label from Resnet18 import ResNet18 import os import matplotlib.pyplot as plt import argparse import numpy as np train_db = tf.data.Dataset.from_tensor_slices((train_image, train_label)) test_db = tf.data.Dataset.from_tensor_slices((test_image, test_label)) model = ResNet18([2, 2, 2, 2]) model.build(input_shape=(128, 32, 32, 1)) model.compile(optimizer = tf.keras.optimizers.Adam(lr = 1e-3), loss = tf.keras.losses.MSE, metrics = ['MSE']) checkpoint_save_path = "./checkpoint/InceptionNet_im_3/checkpoint.ckpt" if os.path.exists(checkpoint_save_path+'.index'): print('------------------load the model---------------------') model.load_weights(checkpoint_save_path) cp_callback = tf.keras.callbacks.ModelCheckpoint(filepath=checkpoint_save_path,save_weights_only=True,save_best_only=True) history = model.fit(train_db, epochs=500,batch_size=128, validation_data=test_db, validation_freq=1, callbacks=[cp_callback]) model.summary() acc = history.history['loss'] val_acc = history.history['val_loss'] plt.plot(acc, label='Training MSE') plt.plot(val_acc, label='Validation MSE') plt.title('Training and Validation MSE') plt.legend() plt.show()

首先通过导入 TensorFlow 和相关模块，加载训练和测试数据。之后，使用 ResNet18 模型构建一个神经网络，并编译模型，设置优化器和损失函数。接着，判断是否存在已经保存的模型，如果存在则加载模型。接下来，定义一...

#!/usr/bin/env python import tensorflow as tf from tensorflow.keras.preprocessing.image import ImageDataGenerator from tensorflow.keras import layers import os import numpy as np # train_dir = './Dataset/' # validation_dir = './validation/' # num_class

这段代码是一个使用 TensorFlow 和 Keras 搭建图像分类模型的示例代码。其中，使用 ImageDataGenerator 对图像进行数据增强，创建了一个包含多个卷积层和全连接层的神经网络模型，并对模型进行编译和训练。 num_...

import tensorflow as tf from im_dataset import train_image, train_label, test_image, test_label from AlexNet8 import AlexNet8 from baseline import baseline from InceptionNet import Inception10 from Resnet18 import ResNet18 import os import matplotlib.pyplot as plt import argparse import numpy as np parse = argparse.ArgumentParser(description="CVAE model for generation of metamaterial") hyperparameter_set = parse.add_argument_group(title='HyperParameter Setting') dim_set = parse.add_argument_group(title='Dim setting') hyperparameter_set.add_argument("--num_epochs",type=int,default=200,help="Number of train epochs") hyperparameter_set.add_argument("--learning_rate",type=float,default=4e-3,help="learning rate") hyperparameter_set.add_argument("--image_size",type=int,default=16*16,help="vector size of image") hyperparameter_set.add_argument("--batch_size",type=int,default=16,help="batch size of database") dim_set.add_argument("--z_dim",type=int,default=20,help="dim of latent variable") dim_set.add_argument("--feature_dim",type=int,default=32,help="dim of feature vector") dim_set.add_argument("--phase_curve_dim",type=int,default=41,help="dim of phase curve vector") dim_set.add_argument("--image_dim",type=int,default=16,help="image size: [image_dim,image_dim,1]") args = parse.parse_args() def preprocess(x, y): x = tf.io.read_file(x) x = tf.image.decode_png(x, channels=1) x = tf.cast(x,dtype=tf.float32) /255. x1 = tf.concat([x, x], 0) x2 = tf.concat([x1, x1], 1) x = x - 0.5 y = tf.convert_to_tensor(y) y = tf.cast(y,dtype=tf.float32) return x2, y train_db = tf.data.Dataset.from_tensor_slices((train_image, train_label)) train_db = train_db.shuffle(100).map(preprocess).batch(args.batch_size) test_db = tf.data.Dataset.from_tensor_slices((test_image, test_label)) test_db = test_db.map(preprocess).batch(args.batch_size) model = ResNet18([2, 2, 2, 2]) model.build(input_shape=(args.batch_size, 32, 32, 1)) model.compile(optimizer = tf.keras.optimizers.Adam(lr = 1e-3), loss = tf.keras.losses.MSE, metrics = ['MSE']) checkpoint_save_path = "./checkpoint/InceptionNet_im_3/checkpoint.ckpt" if os.path.exists(checkpoint_save_path+'.index'): print('------------------load the model---------------------') model.load_weights(checkpoint_save_path) cp_callback = tf.keras.callbacks.ModelCheckpoint(filepath=checkpoint_save_path,save_weights_only=True,save_best_only=True) history = model.fit(train_db, epochs=500, validation_data=test_db, validation_freq=1, callbacks=[cp_callback]) model.summary() acc = history.history['loss'] val_acc = history.history['val_loss'] plt.plot(acc, label='Training MSE') plt.plot(val_acc, label='Validation MSE') plt.title('Training and Validation MSE') plt.legend() plt.show()

其中使用了 argparse 库来设置超参数，使用了 tf.data.Dataset 来进行数据处理和加载，使用了 tf.keras.callbacks.ModelCheckpoint 来保存模型的训练结果。同时还使用了 matplotlib.pyplot 库来绘制训练和验证的 MSE...

import numpy as np import tensorflow_datasets as tfds import tensorflow as tf tfds.disable_progress_bar() import matplotlib.pyplot as plt def plot_graphs(history, metric): plt.plot(history.history[metric]) plt.plot(history.history['val_'+metric], '') plt.xlabel("Epochs") plt.ylabel(metric) plt.legend([metric, 'val_'+metric]) dataset, info = tfds.load('imdb_reviews', with_info=True, as_supervised=True) train_dataset, test_dataset = dataset['train'], dataset['test'] train_dataset.element_spec for example, label in train_dataset.take(1): print('text: ', example.numpy()) print('label: ', label.numpy()) BUFFER_SIZE = 10000 BATCH_SIZE = 64 train_dataset = train_dataset.shuffle(BUFFER_SIZE).batch(BATCH_SIZE).prefetch(tf.data.AUTOTUNE) test_dataset = test_dataset.batch(BATCH_SIZE).prefetch(tf.data.AUTOTUNE) for example, label in train_dataset.take(1): print('texts: ', example.numpy()[:3]) print() print('labels: ', label.numpy()[:3]) VOCAB_SIZE = 1000 encoder = tf.keras.layers.TextVectorization( max_tokens=VOCAB_SIZE) encoder.adapt(train_dataset.map(lambda text, label: text)) vocab = np.array(encoder.get_vocabulary()) vocab[:20] encoded_example = encoder(example)[:3].numpy() encoded_example for n in range(3): print("Original: ", example[n].numpy()) print("Round-trip: ", " ".join(vocab[encoded_example[n]])) print()解释一下这些代码。

import tensorflow as tf import matplotlib.pyplot as plt 2. 禁用进度条，以免在输出过程中出现过多的信息： tfds.disable_progress_bar() 3. 加载IMDB评论数据集并获取有关数据集的信息： ...

解释以下这段代码：import tensorflow as tf gpus =tf.config.experimental.list_physical_devices(device_type='GPU') tf.config.experimental.set_virtual_device_configuration(gpus[0],[tf.config.experimental.VirtualDeviceConfiguration(memory_limit=4096)]) #import scipy.io as sio import pickle import os,random import matplotlib.pyplot as plt #import scipy.stats from tensorflow import losses from tensorflow.keras import Model from tensorflow.keras import layers import matplotlib.pyplot as plt import tensorflow as tf import numpy as np #import scipy.io as sio #import scipy.stats import math import os import pdb from tensorflow import losses from model import ResNet18 from re_dataset_real import train_image1,train_label1,test_image1,test_label1,val_image1,val_label1 from re_dataset_imag import train_image2,train_label2,test_image2,test_label2,val_image2,val_label2 def phsical_loss(y_true, y_pred): y_true =tf.cast(y_true, y_pred.dtype) loss_real=tf.keras.losses.MSE(y_true[0],y_pred[0]) loss_img= tf.keras.losses.MSE(y_true[1],y_pred[1]) amp_ture=tf.pow(y_true[0],2)+tf.pow(y_true[1],2) amp_pred=tf.pow(y_pred[0],2)+tf.pow(y_pred[1],2) loss_amp=tf.keras.losses.MSE(amp_ture,amp_pred) return loss_real+loss_img+loss_amp#两个子模型各加一个完整约束 def angle_loss(y_true, y_pred): y_true = tf.cast(y_true, y_pred.dtype) img_ture=tf.atan2(y_true[1],y_true[0]) img_pred=tf.atan2(y_pred[1],y_pred[0]) return tf.keras.losses.MAE(img_ture,img_pred) def amp_loss(y_true, y_pred): y_true = tf.cast(y_true, y_pred.dtype) amp_ture=tf.pow(y_true[0],2)+tf.pow(y_true[1],2) amp_pred=tf.pow(y_pred[0],2)+tf.pow(y_pred[1],2) loss_phsical=tf.keras.losses.MSE(amp_ture,amp_pred) return loss_phsical model_in=tf.keras.Input((16,16,1)) model_real_out=ResNet18([2,2,2,2])(model_in) model_img_out=ResNet18([2,2,2,2])(model_in) model_all=tf.keras.Model(model_in,[model_real_out,model_img_out]) model_all.compile(loss=phsical_loss, optimizer=tf.keras.optimizers.Adam(tf.keras.optimizers.schedules.InverseTimeDecay( 0.001, decay_steps=250*25, decay_rate=1, staircase=False)), metrics=['mse']) checkpoint_save_path= "C:\\Users\\Root\\Desktop\\bysj\\model_all.ckpt" if os.path.exists(checkpoint_save_path + '.index'): print('------------------load model all---------------------') model_all.load_weights(checkpoint_save_path) cp_callback = tf.keras.callbacks.ModelCheckpoint(filepath=checkpoint_save_path, save_weights_only=True,save_best_only=True)

这段代码主要是实现了一个包含两个子模型的神经网络，其中每个子模型都是由 ResNet18 构成的。此外，还定义了三个损失函数 phsical_loss、angle_loss 和 amp_loss，分别用于计算物理约束、角度约束和幅度约束。...

请将此代码修改为tensorflow2.7，cuda11.2版本的代码 import tensorflow as tf from tensorflow import keras from tensorflow.keras.datasets import mnist from tensorflow.keras.models import Sequential from tensorflow.keras.layers import Conv2D, MaxPooling2D, Flatten, Dense, ReLU from tensorflow.keras.utils import to_categorical # 加载MNIST数据集 (x_train, y_train), (x_test, y_test) = mnist.load_data() # 数据预处理 x_train = x_train.astype("float32") / 255.0 x_test = x_test.astype("float32") / 255.0 x_train = tf.expand_dims(x_train, axis=3) x_test = tf.expand_dims(x_test, axis=3) y_train = to_categorical(y_train, num_classes=10) y_test = to_categorical(y_test, num_classes=10) # 构建LeNet-5模型 model = Sequential([ Conv2D(6, kernel_size=3, strides=1), MaxPooling2D(pool_size=2, strides=2), ReLU(), Conv2D(16, kernel_size=3, strides=1), MaxPooling2D(pool_size=2, strides=2), ReLU(), Flatten(), Dense(units=120, activation='relu'), Dense(units=84, activation='relu'), Dense(units=10, activation='softmax') ]) # 编译模型 model.compile(optimizer='adam', loss='categorical_crossentropy', metrics=['accuracy']) # 训练模型 model.fit(x_train, y_train, batch_size=128, epochs=30, validation_data=(x_test, y_test)) # 在测试集上输出精度 test_loss, test_acc = model.evaluate(x_test, y_test) print('Test accuracy:', test_acc)

import tensorflow as tf from tensorflow import keras from tensorflow.keras.datasets import mnist from tensorflow.keras.models import Sequential from tensorflow.keras.layers import Conv2D, MaxPooling2D...

example_dataset = emnist_train.create_tf_dataset_for_client( emnist_train.client_ids[0]) example_element = next(iter(example_dataset)) example_element['label'].numpy()假如使用本地的fashionmnist数据集，该代码应该如何修改来保持相同功能

dataset = tf.data.Dataset.from_tensor_slices({ 'pixels': x_train.reshape(-1, 28 * 28), 'label': y_train }) dataset = dataset.batch(batch_size=32) # 调用数据集的例子，以获取标签 example_element = ...

将client_dataset = emnist_train.create_tf_dataset_for_client( emnist_train.client_ids[i])改写为以fashion_mnist为数据集的代码

import tensorflow as tf from tensorflow import keras from tensorflow_federated import datasets fashion_mnist_train, fashion_mnist_test = datasets.tffashion_mnist.load_data() def get_fashion_mnist_...

example_dataset = emnist_train.create_tf_dataset_for_client( emnist_train.client_ids[0])如何将该段代码修改为使用本地的fashion_mnist数据

import tensorflow_federated as tff from tensorflow import keras fashion_mnist = keras.datasets.fashion_mnist (train_images, train_labels), (test_images, test_labels) = fashion_mnist.load_data() def ...

client_dataset = emnist_train.create_tf_dataset_for_client( emnist_train.client_ids[i])如果数据集为本地的fashion_mnist，该如何修改代码

import tensorflow as tf from tensorflow.keras.datasets import fashion_mnist (train_images, train_labels), (test_images, test_labels) = fashion_mnist.load_data() fashion_train = tf.data.Dataset.from_...

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example_dataset = emnist_train.create_tf_dataset_for_client( emnist_train.client_ids[0]) example_element = next(iter(example_dataset)) example_element['label'].numpy()假如使用本地的fashionmnist数据集，该代码应该如何修改来保持相同功能

将client_dataset = emnist_train.create_tf_dataset_for_client( emnist_train.client_ids[i])改写为以fashion_mnist为数据集的代码

example_dataset = emnist_train.create_tf_dataset_for_client( emnist_train.client_ids[0])如何将该段代码修改为使用本地的fashion_mnist数据

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