batch很好理解,就是batch size。注意在一个epoch中最后一个batch大小可能小于等于batch size
dataset.repeat就是俗称epoch,但在tf中与dataset.shuffle的使用顺序可能会导致个epoch的混合
dataset.shuffle就是说维持一个buffer size 大小的 shuffle buffer,图中所需的每个样本从shuffle buffer中获取,取得一个样本后,就从源数据集中加入一个样本到shuffle buffer中。
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import os os.environ[ 'CUDA_VISIBLE_DEVICES' ] = "" import numpy as np import tensorflow as tf np.random.seed( 0 ) x = np.random.sample(( 11 , 2 )) # make a dataset from a numpy array print (x) print () dataset = tf.data.Dataset.from_tensor_slices(x) dataset = dataset.shuffle( 3 ) dataset = dataset.batch( 4 ) dataset = dataset.repeat( 2 ) # create the iterator iter = dataset.make_one_shot_iterator() el = iter .get_next() with tf.Session() as sess: print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) |
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#源数据集 [[ 0.5488135 0.71518937 ] [ 0.60276338 0.54488318 ] [ 0.4236548 0.64589411 ] [ 0.43758721 0.891773 ] [ 0.96366276 0.38344152 ] [ 0.79172504 0.52889492 ] [ 0.56804456 0.92559664 ] [ 0.07103606 0.0871293 ] [ 0.0202184 0.83261985 ] [ 0.77815675 0.87001215 ] [ 0.97861834 0.79915856 ]] # 通过shuffle batch后取得的样本 [[ 0.4236548 0.64589411 ] [ 0.60276338 0.54488318 ] [ 0.43758721 0.891773 ] [ 0.5488135 0.71518937 ]] [[ 0.96366276 0.38344152 ] [ 0.56804456 0.92559664 ] [ 0.0202184 0.83261985 ] [ 0.79172504 0.52889492 ]] [[ 0.07103606 0.0871293 ] [ 0.97861834 0.79915856 ] [ 0.77815675 0.87001215 ]] #最后一个batch样本个数为3 [[ 0.60276338 0.54488318 ] [ 0.5488135 0.71518937 ] [ 0.43758721 0.891773 ] [ 0.79172504 0.52889492 ]] [[ 0.4236548 0.64589411 ] [ 0.56804456 0.92559664 ] [ 0.0202184 0.83261985 ] [ 0.07103606 0.0871293 ]] [[ 0.77815675 0.87001215 ] [ 0.96366276 0.38344152 ] [ 0.97861834 0.79915856 ]] #最后一个batch样本个数为3 |
1、按照shuffle中设置的buffer size,首先从源数据集取得三个样本:
shuffle buffer:
[ 0.5488135 0.71518937]
[ 0.60276338 0.54488318]
[ 0.4236548 0.64589411]
2、从buffer中取一个样本到batch中得:
shuffle buffer:
[ 0.5488135 0.71518937]
[ 0.60276338 0.54488318]
batch:
[ 0.4236548 0.64589411]
3、shuffle buffer不足三个样本,从源数据集提取一个样本:
shuffle buffer:
[ 0.5488135 0.71518937]
[ 0.60276338 0.54488318]
[ 0.43758721 0.891773 ]
4、从buffer中取一个样本到batch中得:
shuffle buffer:
[ 0.5488135 0.71518937]
[ 0.43758721 0.891773 ]
batch:
[ 0.4236548 0.64589411]
[ 0.60276338 0.54488318]
5、如此反复。这就意味中如果shuffle 的buffer size=1,数据集不打乱。如果shuffle 的buffer size=数据集样本数量,随机打乱整个数据集
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import os os.environ[ 'CUDA_VISIBLE_DEVICES' ] = "" import numpy as np import tensorflow as tf np.random.seed( 0 ) x = np.random.sample(( 11 , 2 )) # make a dataset from a numpy array print (x) print () dataset = tf.data.Dataset.from_tensor_slices(x) dataset = dataset.shuffle( 1 ) dataset = dataset.batch( 4 ) dataset = dataset.repeat( 2 ) # create the iterator iter = dataset.make_one_shot_iterator() el = iter .get_next() with tf.Session() as sess: print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) [[ 0.5488135 0.71518937 ] [ 0.60276338 0.54488318 ] [ 0.4236548 0.64589411 ] [ 0.43758721 0.891773 ] [ 0.96366276 0.38344152 ] [ 0.79172504 0.52889492 ] [ 0.56804456 0.92559664 ] [ 0.07103606 0.0871293 ] [ 0.0202184 0.83261985 ] [ 0.77815675 0.87001215 ] [ 0.97861834 0.79915856 ]] [[ 0.5488135 0.71518937 ] [ 0.60276338 0.54488318 ] [ 0.4236548 0.64589411 ] [ 0.43758721 0.891773 ]] [[ 0.96366276 0.38344152 ] [ 0.79172504 0.52889492 ] [ 0.56804456 0.92559664 ] [ 0.07103606 0.0871293 ]] [[ 0.0202184 0.83261985 ] [ 0.77815675 0.87001215 ] [ 0.97861834 0.79915856 ]] [[ 0.5488135 0.71518937 ] [ 0.60276338 0.54488318 ] [ 0.4236548 0.64589411 ] [ 0.43758721 0.891773 ]] [[ 0.96366276 0.38344152 ] [ 0.79172504 0.52889492 ] [ 0.56804456 0.92559664 ] [ 0.07103606 0.0871293 ]] [[ 0.0202184 0.83261985 ] [ 0.77815675 0.87001215 ] [ 0.97861834 0.79915856 ]] |
注意如果repeat在shuffle之前使用:
官方说repeat在shuffle之前使用能提高性能,但模糊了数据样本的epoch关系
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import os os.environ[ 'CUDA_VISIBLE_DEVICES' ] = "" import numpy as np import tensorflow as tf np.random.seed( 0 ) x = np.random.sample(( 11 , 2 )) # make a dataset from a numpy array print (x) print () dataset = tf.data.Dataset.from_tensor_slices(x) dataset = dataset.repeat( 2 ) dataset = dataset.shuffle( 11 ) dataset = dataset.batch( 4 ) # create the iterator iter = dataset.make_one_shot_iterator() el = iter .get_next() with tf.Session() as sess: print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) print (sess.run(el)) [[ 0.5488135 0.71518937 ] [ 0.60276338 0.54488318 ] [ 0.4236548 0.64589411 ] [ 0.43758721 0.891773 ] [ 0.96366276 0.38344152 ] [ 0.79172504 0.52889492 ] [ 0.56804456 0.92559664 ] [ 0.07103606 0.0871293 ] [ 0.0202184 0.83261985 ] [ 0.77815675 0.87001215 ] [ 0.97861834 0.79915856 ]] [[ 0.56804456 0.92559664 ] [ 0.5488135 0.71518937 ] [ 0.60276338 0.54488318 ] [ 0.07103606 0.0871293 ]] [[ 0.96366276 0.38344152 ] [ 0.43758721 0.891773 ] [ 0.43758721 0.891773 ] [ 0.77815675 0.87001215 ]] [[ 0.79172504 0.52889492 ] #出现相同样本出现在同一个batch中 [ 0.79172504 0.52889492 ] [ 0.60276338 0.54488318 ] [ 0.4236548 0.64589411 ]] [[ 0.07103606 0.0871293 ] [ 0.4236548 0.64589411 ] [ 0.96366276 0.38344152 ] [ 0.5488135 0.71518937 ]] [[ 0.97861834 0.79915856 ] [ 0.0202184 0.83261985 ] [ 0.77815675 0.87001215 ] [ 0.56804456 0.92559664 ]] [[ 0.0202184 0.83261985 ] [ 0.97861834 0.79915856 ]] #可以看到最后个batch为2,而前面都是4 |
使用案例:
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def input_fn(filenames, batch_size = 32 , num_epochs = 1 , perform_shuffle = False ): print ( 'Parsing' , filenames) def decode_libsvm(line): #columns = tf.decode_csv(value, record_defaults=CSV_COLUMN_DEFAULTS) #features = dict(zip(CSV_COLUMNS, columns)) #labels = features.pop(LABEL_COLUMN) columns = tf.string_split([line], ' ' ) labels = tf.string_to_number(columns.values[ 0 ], out_type = tf.float32) splits = tf.string_split(columns.values[ 1 :], ':' ) id_vals = tf.reshape(splits.values,splits.dense_shape) feat_ids, feat_vals = tf.split(id_vals,num_or_size_splits = 2 ,axis = 1 ) feat_ids = tf.string_to_number(feat_ids, out_type = tf.int32) feat_vals = tf.string_to_number(feat_vals, out_type = tf.float32) #feat_ids = tf.reshape(feat_ids,shape=[-1,FLAGS.field_size]) #for i in range(splits.dense_shape.eval()[0]): # feat_ids.append(tf.string_to_number(splits.values[2*i], out_type=tf.int32)) # feat_vals.append(tf.string_to_number(splits.values[2*i+1])) #return tf.reshape(feat_ids,shape=[-1,field_size]), tf.reshape(feat_vals,shape=[-1,field_size]), labels return { "feat_ids" : feat_ids, "feat_vals" : feat_vals}, labels # Extract lines from input files using the Dataset API, can pass one filename or filename list dataset = tf.data.TextLineDataset(filenames). map (decode_libsvm, num_parallel_calls = 10 ).prefetch( 500000 ) # multi-thread pre-process then prefetch # Randomizes input using a window of 256 elements (read into memory) if perform_shuffle: dataset = dataset.shuffle(buffer_size = 256 ) # epochs from blending together. dataset = dataset.repeat(num_epochs) dataset = dataset.batch(batch_size) # Batch size to use #return dataset.make_one_shot_iterator() iterator = dataset.make_one_shot_iterator() batch_features, batch_labels = iterator.get_next() #return tf.reshape(batch_ids,shape=[-1,field_size]), tf.reshape(batch_vals,shape=[-1,field_size]), batch_labels return batch_features, batch_labels |
到此这篇关于浅谈tensorflow中dataset.shuffle和dataset.batch dataset.repeat注意点的文章就介绍到这了,更多相关tensorflow中dataset.shuffle和dataset.batch dataset.repeat内容请搜索服务器之家以前的文章或继续浏览下面的相关文章希望大家以后多多支持服务器之家!
原文链接:https://blog.csdn.net/qq_16234613/article/details/81703228