本文整理汇总了Python中tensorflow.unsorted_segment_sum函数的典型用法代码示例。如果您正苦于以下问题:Python unsorted_segment_sum函数的具体用法?Python unsorted_segment_sum怎么用?Python unsorted_segment_sum使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了unsorted_segment_sum函数的20个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的Python代码示例。
示例1: _full_batch_training_op
def _full_batch_training_op(self, inputs, cluster_idx_list, cluster_centers):
"""Creates an op for training for full batch case.
Args:
inputs: list of input Tensors.
cluster_idx_list: A vector (or list of vectors). Each element in the
vector corresponds to an input row in 'inp' and specifies the cluster id
corresponding to the input.
cluster_centers: Tensor Ref of cluster centers.
Returns:
An op for doing an update of mini-batch k-means.
"""
cluster_sums = []
cluster_counts = []
epsilon = tf.constant(1e-6, dtype=inputs[0].dtype)
for inp, cluster_idx in zip(inputs, cluster_idx_list):
with ops.colocate_with(inp):
cluster_sums.append(tf.unsorted_segment_sum(inp,
cluster_idx,
self._num_clusters))
cluster_counts.append(tf.unsorted_segment_sum(
tf.reshape(tf.ones(tf.reshape(tf.shape(inp)[0], [-1])), [-1, 1]),
cluster_idx,
self._num_clusters))
with ops.colocate_with(cluster_centers):
new_clusters_centers = tf.add_n(cluster_sums) / (
tf.cast(tf.add_n(cluster_counts), cluster_sums[0].dtype) + epsilon)
if self._clusters_l2_normalized():
new_clusters_centers = tf.nn.l2_normalize(new_clusters_centers, dim=1)
return tf.assign(cluster_centers, new_clusters_centers)
开发者ID:2020zyc,项目名称:tensorflow,代码行数:31,代码来源:clustering_ops.py
示例2: data_group_avg
def data_group_avg(group_ids, data):
# Sum each group
sum_total = tf.unsorted_segment_sum(data, group_ids, 3)
# Count each group
num_total = tf.unsorted_segment_sum(tf.ones_like(data), group_ids, 3)
# Calculate average
avg_by_group = sum_total/num_total
return(avg_by_group)
开发者ID:Bluebear171,项目名称:tensorflow_cookbook,代码行数:8,代码来源:03_k_means.py
示例3: get_eval
def get_eval(logits, labels):
with tf.variable_scope('loss2') as scope:
logits = tf.reshape(logits, [-1, 21], name='logits2d')
labels = tf.reshape(labels, [-1], name='labels1d')
y_sotfmax = tf.nn.softmax(logits, name='softmax1d')
predictions = tf.argmax(y_sotfmax, 1)
correct_pred = tf.to_float(tf.equal(labels, predictions))
ones = tf.ones_like(labels)
eval_count = tf.to_float(tf.unsorted_segment_sum(ones, labels, 21))
eval_correct = tf.to_float(tf.unsorted_segment_sum(correct_pred, labels, 21))
return eval_count, eval_correct
开发者ID:dmancevo,项目名称:semantic_segmentation,代码行数:11,代码来源:sem_segm.py
示例4: kMeansTF
def kMeansTF(data, center, nMaxIter, th): # data: nDim x nData, center: nDim x nCenter
"""Clustering data using the kMeans method implemented with tensorflow.
:param data: 2D matrix as data input with dimensions: nDim x nData.
:type data: numpy array.
:param center: 2D matrix with initial cluster centers with dimensions: nDim x nCenter.
:type center: numpy array.
:param nMaxIter: Maximum number of iterations.
:type nMaxIter: int.
:param th: Threshold applied to RMS error between prior and current cluster centers.
:type th: float.
:return 2D matrix with computed cluster centers with dimensions> nDim x nCenter.
"""
nData = data.shape[1]
nCenter = center.shape[1]
center = tf.Variable(center)
# Replicate data to have the dimensions: nDim x nData x nCenter
rData = tf.tile(tf.expand_dims(data,-1),[1, 1, nCenter]) # replicate for nCenter
rCenter = tf.transpose(tf.tile(tf.expand_dims(center,-1),[1, 1, nData]),perm=[0, 2, 1]) # replicate for nData
# Get the cluster center of minimum distance for each data point.
ssq = tf.reduce_sum(tf.square(rData - rCenter), 0, keep_dims=True) # over nDim
index = tf.squeeze(tf.argmin(ssq, 2)) # min index over nCenter and remove leading dimension
# Compute the new cluster centers based on the closest data points.
newSum = tf.unsorted_segment_sum(tf.transpose(data,[1,0]), index, nCenter)
count = tf.unsorted_segment_sum(tf.transpose(tf.ones_like(data),[1,0]), index, nCenter)
newCenter = tf.transpose(newSum / count,[1,0])
# Compute the differences between the new and old cluster centers and threshold them.
rms = tf.reduce_sum(tf.sqrt(tf.reduce_sum((center-newCenter)*(center-newCenter), 0)), 0)
changeCenter = rms > th
# Update the cluster centers if they have changed by more than the threshold value.
with tf.control_dependencies([changeCenter]):
doUpdates = center.assign(newCenter)
# Initialize the tensor variables.
init = tf.initialize_all_variables()
sess = tf.Session()
sess.run(init)
# As long as there are enough changes in the cluster centers and we have not reached the maximum number of
# iterations, repeat the steps from above.
changed = True
iter = 0
while changed and iter < nMaxIter:
iter += 1
[changed, _] = sess.run([changeCenter, doUpdates])
return sess.run(center)
开发者ID:kbrems,项目名称:opveclib,代码行数:52,代码来源:clustering.py
示例5: adloss
def adloss(self,x,xt,y,global_step):
with tf.variable_scope('reuse_inference') as scope:
scope.reuse_variables()
self.inference(x,training=True)
source_feature=self.feature
scope.reuse_variables()
self.inference(xt,training=True)
target_feature=self.feature
target_pred=self.output
with tf.variable_scope('reuse') as scope:
source_logits,_=D(source_feature)
scope.reuse_variables()
target_logits,_=D(target_feature)
self.source_feature=source_feature
self.target_feature=target_feature
self.concat_feature=tf.concat([source_feature,target_feature],0)
source_result=tf.argmax(y,1)
target_result=tf.argmax(target_pred,1)
ones=tf.ones_like(source_feature)
current_source_count=tf.unsorted_segment_sum(ones,source_result,self.num_classes)
current_target_count=tf.unsorted_segment_sum(ones,target_result,self.num_classes)
current_positive_source_count=tf.maximum(current_source_count,tf.ones_like(current_source_count))
current_positive_target_count=tf.maximum(current_target_count,tf.ones_like(current_target_count))
current_source_centroid=tf.divide(tf.unsorted_segment_sum(data=source_feature,segment_ids=source_result,num_segments=self.num_classes),current_positive_source_count)
current_target_centroid=tf.divide(tf.unsorted_segment_sum(data=target_feature,segment_ids=target_result,num_segments=self.num_classes),current_positive_target_count)
decay=tf.constant(0.3)
self.decay=decay
target_centroid=(decay)*current_target_centroid+(1.-decay)*self.target_moving_centroid
source_centroid=(decay)*current_source_centroid+(1.-decay)*self.source_moving_centroid
self.Semanticloss=protoloss(source_centroid,target_centroid)
tf.summary.scalar('semanticloss',self.Semanticloss)
D_real_loss=tf.reduce_mean(tf.nn.sigmoid_cross_entropy_with_logits(logits=target_logits,labels=tf.ones_like(target_logits)))
D_fake_loss=tf.reduce_mean(tf.nn.sigmoid_cross_entropy_with_logits(logits=source_logits,labels=tf.zeros_like(source_logits)))
self.D_loss=D_real_loss+D_fake_loss
self.G_loss=-self.D_loss
tf.summary.scalar('G_loss',self.G_loss)
tf.summary.scalar('JSD',self.G_loss/2+math.log(2))
self.G_loss=0.1*self.G_loss
self.D_loss=0.1*self.D_loss
return self.G_loss,self.D_loss,source_centroid,target_centroid
开发者ID:slowbull,项目名称:Moving-Semantic-Transfer-Network,代码行数:48,代码来源:mstnmodel.py
示例6: _grad_variance
def _grad_variance(self):
"""Estimate of gradient Variance.
Returns:
C_t ops.
"""
grad_var_ops = []
tensor_to_avg = []
for t, g in zip(self._vars, self._grad):
if isinstance(g, tf.IndexedSlices):
tensor_to_avg.append(
tf.reshape(tf.unsorted_segment_sum(g.values,
g.indices,
g.dense_shape[0]),
shape=t.get_shape()))
else:
tensor_to_avg.append(g)
avg_op = self._moving_averager.apply(tensor_to_avg)
grad_var_ops.append(avg_op)
with tf.control_dependencies([avg_op]):
self._grad_avg = [self._moving_averager.average(val)
for val in tensor_to_avg]
self._grad_avg_squared = [tf.square(val) for val in self._grad_avg]
# Compute Variance
self._grad_var = tf.maximum(
tf.constant(1e-6, dtype=self._grad_norm_squared_avg.dtype),
self._grad_norm_squared_avg
- tf.add_n([tf.reduce_sum(val) for val in self._grad_avg_squared]))
if self._sparsity_debias:
self._grad_var *= self._sparsity_avg
return grad_var_ops # C_t
开发者ID:qixiuai,项目名称:tensor2tensor,代码行数:32,代码来源:yellowfin.py
示例7: testGradientMatchesSegmentSum
def testGradientMatchesSegmentSum(self):
# Strategy: compute the gradient for UnsortedSegmentSum and SegmentSum
# and compare the outputs, which should be identical.
# NB: for this test to work, indices must be valid for SegmentSum, namely
# it must be sorted, the indices must be contiguous, and num_segments
# must be max(indices) + 1.
indices = [0, 0, 1, 1, 1, 2, 3, 4, 5]
n = len(indices)
num_cols = 2
shape = [n, num_cols]
num_segments = max(indices) + 1
with self.test_session():
tf_x, np_x = self._input(shape, dtype=tf.float64)
# Results from UnsortedSegmentSum
unsorted_s = tf.unsorted_segment_sum(data=tf_x,
segment_ids=indices,
num_segments=num_segments)
unsorted_jacob_t, unsorted_jacob_n = gradient_checker.ComputeGradient(
tf_x, shape, unsorted_s, [num_segments, num_cols],
x_init_value=np_x.astype(np.double),
delta=1)
# Results from SegmentSum
sorted_s = tf.segment_sum(data=tf_x, segment_ids=indices)
sorted_jacob_t, sorted_jacob_n = gradient_checker.ComputeGradient(
tf_x, shape, sorted_s, [num_segments, num_cols],
x_init_value=np_x.astype(np.double),
delta=1)
self.assertAllClose(unsorted_jacob_t, sorted_jacob_t, rtol=1e-3, atol=1e-3)
self.assertAllClose(unsorted_jacob_n, sorted_jacob_n, rtol=1e-3, atol=1e-3)
开发者ID:adeelzaman,项目名称:tensorflow,代码行数:29,代码来源:segment_reduction_ops_test.py
示例8: EmbeddingLookupFeatures
def EmbeddingLookupFeatures(params, sparse_features, allow_weights):
"""Computes embeddings for each entry of sparse features sparse_features.
Args:
params: list of 2D tensors containing vector embeddings
sparse_features: 1D tensor of strings. Each entry is a string encoding of
dist_belief.SparseFeatures, and represents a variable length list of
feature ids, and optionally, corresponding weights values.
allow_weights: boolean to control whether the weights returned from the
SparseFeatures are used to multiply the embeddings.
Returns:
A tensor representing the combined embeddings for the sparse features.
For each entry s in sparse_features, the function looks up the embeddings
for each id and sums them into a single tensor weighing them by the
weight of each id. It returns a tensor with each entry of sparse_features
replaced by this combined embedding.
"""
if not isinstance(params, list):
params = [params]
# Lookup embeddings.
sparse_features = tf.convert_to_tensor(sparse_features)
indices, ids, weights = gen_parser_ops.unpack_sparse_features(sparse_features)
embeddings = tf.nn.embedding_lookup(params, ids)
if allow_weights:
# Multiply by weights, reshaping to allow broadcast.
broadcast_weights_shape = tf.concat(0, [tf.shape(weights), [1]])
embeddings *= tf.reshape(weights, broadcast_weights_shape)
# Sum embeddings by index.
return tf.unsorted_segment_sum(embeddings, indices, tf.size(sparse_features))
开发者ID:TrendonixNetwork,项目名称:ProjectCybonix,代码行数:32,代码来源:graph_builder.py
示例9: testBadIndices
def testBadIndices(self):
with self.test_session():
for bad in [[-1]], [[7]]:
unsorted = tf.unsorted_segment_sum([[17]], bad, num_segments=2)
with self.assertRaisesOpError(
r"segment_ids\[0,0\] = %d is out of range \[0, 2\)" % bad[0][0]):
unsorted.eval()
开发者ID:0-T-0,项目名称:tensorflow,代码行数:7,代码来源:segment_reduction_ops_test.py
示例10: testValues
def testValues(self):
dtypes = [tf.float32,
tf.float64,
tf.int64,
tf.int32,
tf.complex64,
tf.complex128]
indices_flat = np.array([0, 4, 0, 8, 3, 8, 4, 7, 7, 3])
num_segments = 12
for indices in indices_flat, indices_flat.reshape(5, 2):
shape = indices.shape + (2,)
for dtype in dtypes:
with self.test_session(use_gpu=False):
tf_x, np_x = self._input(shape, dtype=dtype)
np_ans = self._segmentReduce(indices,
np_x,
np.add,
op2=None,
num_out_rows=num_segments)
s = tf.unsorted_segment_sum(data=tf_x,
segment_ids=indices,
num_segments=num_segments)
tf_ans = s.eval()
self._assertAllClose(indices, np_ans, tf_ans)
self.assertShapeEqual(np_ans, s)
开发者ID:0ruben,项目名称:tensorflow,代码行数:25,代码来源:segment_reduction_ops_test.py
示例11: testBadIndices
def testBadIndices(self):
# Note: GPU kernel does not return the out-of-range error needed for this
# test, so this test is marked as cpu-only.
with self.test_session(use_gpu=False):
for bad in [[-1]], [[7]]:
unsorted = tf.unsorted_segment_sum([[17]], bad, num_segments=2)
with self.assertRaisesOpError(r"segment_ids\[0,0\] = %d is out of range \[0, 2\)" % bad[0][0]):
unsorted.eval()
开发者ID:paolodedios,项目名称:tensorflow,代码行数:8,代码来源:segment_reduction_ops_test.py
示例12: testEmptySecondDimension
def testEmptySecondDimension(self):
dtypes = [np.float32, np.float64, np.int64, np.int32, np.complex64, np.complex128]
with self.test_session(use_gpu=self.use_gpu):
for dtype in dtypes:
for itype in (np.int32, np.int64):
data = np.zeros((2, 0), dtype=dtype)
segment_ids = np.array([0, 1], dtype=itype)
unsorted = tf.unsorted_segment_sum(data, segment_ids, 2)
self.assertAllEqual(unsorted.eval(), np.zeros((2, 0), dtype=dtype))
开发者ID:paolodedios,项目名称:tensorflow,代码行数:9,代码来源:segment_reduction_ops_test.py
示例13: apply_factor
def apply_factor(tensor, *args, **kwargs):
scope = kwargs.pop("scope", "")
with tf.name_scope(scope):
n_args = len(args)
if n_args is 0:
tensor, output_size, error_symbol = tensor
return one_hot(tensor, output_size, scope=scope)
else:
tensor, args = slice_out_int_literals(tensor, list(args))
args, is_batched = make_batch_consistent(args)
tensor, output_size, error_symbol = tensor
# handle the case where all arguments were int literals
tensor_dim_sizes = [dim.value for dim in tensor.get_shape()]
if not tensor_dim_sizes:
return one_hot(tensor, output_size, scope=scope)
# Each arg is batch size x arg dim. Add dimensions to enable broadcasting.
for i, arg in enumerate(args):
for j in xrange(n_args):
if j == i: continue
args[i] = tf.expand_dims(args[i], j + 1)
# compute joint before tensor is applied
joint = 1
for arg in args:
joint = joint * arg
# prepare for unsorted_segment_sum
joint = tf.reshape(joint, (-1, np.prod(tensor_dim_sizes)))
joint = tf.transpose(joint, [1, 0]) # |tensor| x batch_size
if error_symbol is not None:
result = tf.unsorted_segment_sum(joint, tf.reshape(tensor, [-1]), output_size + 1)
# assume error bin is last bin
result = result[:output_size, :]
else:
result = tf.unsorted_segment_sum(joint, tf.reshape(tensor, [-1]), output_size)
result = tf.transpose(result, [1, 0])
if not is_batched: result = tf.squeeze(result)
return result
开发者ID:ml-lab,项目名称:TerpreT,代码行数:43,代码来源:terpret_tf_runtime.py
示例14: __init__
def __init__(self, requests, expert_capacity):
"""Create a TruncatingDispatcher.
Args:
requests: a boolean `Tensor` of shape `[batch, length, num_experts]`.
Alternatively, a float or int Tensor containing zeros and ones.
expert_capacity: a Scalar - maximum number of examples per expert per
batch element.
Returns:
a TruncatingDispatcher
"""
self._requests = tf.to_float(requests)
self._expert_capacity = expert_capacity
expert_capacity_f = tf.to_float(expert_capacity)
self._batch, self._length, self._num_experts = tf.unstack(
tf.shape(self._requests), num=3)
# [batch, length, num_experts]
position_in_expert = tf.cumsum(self._requests, axis=1, exclusive=True)
# [batch, length, num_experts]
self._gates = self._requests * tf.to_float(
tf.less(position_in_expert, expert_capacity_f))
batch_index = tf.reshape(
tf.to_float(tf.range(self._batch)), [self._batch, 1, 1])
length_index = tf.reshape(
tf.to_float(tf.range(self._length)), [1, self._length, 1])
expert_index = tf.reshape(
tf.to_float(tf.range(self._num_experts)), [1, 1, self._num_experts])
# position in a Tensor with shape [batch * num_experts * expert_capacity]
flat_position = (
position_in_expert +
batch_index * (tf.to_float(self._num_experts) * expert_capacity_f) +
expert_index * expert_capacity_f)
# Tensor of shape [batch * num_experts * expert_capacity].
# each element is an integer in [0, length)
self._indices = tf.unsorted_segment_sum(
data=tf.reshape((length_index + 1.0) * self._gates, [-1]),
segment_ids=tf.to_int32(tf.reshape(flat_position, [-1])),
num_segments=self._batch * self._num_experts * expert_capacity)
self._indices = tf.reshape(
self._indices,
[self._batch, self._num_experts, expert_capacity])
# Tensors of shape [batch, num_experts, expert_capacity].
# each element is 0.0 or 1.0
self._nonpadding = tf.minimum(self._indices, 1.0)
# each element is an integer in [0, length)
self._indices = tf.nn.relu(self._indices - 1.0)
# self._flat_indices is [batch, num_experts, expert_capacity], with values
# in [0, batch * length)
self._flat_indices = tf.to_int32(
self._indices +
(tf.reshape(tf.to_float(tf.range(self._batch)), [-1, 1, 1])
* tf.to_float(self._length)))
self._indices = tf.to_int32(self._indices)
开发者ID:AranKomat,项目名称:tensor2tensor,代码行数:55,代码来源:expert_utils.py
示例15: MoG_validation
def MoG_validation(K):
MoG_valid = mog.MoG("data2D.npy")
_, X_data, mu, _, sigma_2, log_pi, pi_np = MoG_valid.cluster(K, D, B, 1.0/3.0)
# _, X_data, mu, _, sigma_2, log_pi, pi_np = MoG_valid.cluster(K, D, B)
loss_valid = MoG_valid.cal_loss(MoG_valid.validation.astype(np.float32), mu, D, log_pi, sigma_2)
min_idx = MoG_valid.cal_min_idx(X_data, mu, np.sqrt(sigma_2), pi_np, D)
data = tf.ones(shape = [B,])
division = tf.unsorted_segment_sum(data, min_idx, K, name=None)
data_valid = tf.ones(shape = [(B - (1 - 1/3) * B), ])
min_idx_valid = MoG_valid.cal_min_idx(MoG_valid.validation.astype(np.float32), mu, np.sqrt(sigma_2), pi_np, D)
division_valid = tf.unsorted_segment_sum(data_valid, min_idx_valid, K, name = None)
with tf.Session():
print 'loss_validation:', loss_valid.eval()
print 'Total Proportion:', division.eval()/10000
plot.plot_cluster(min_idx.eval(), X_data, mu, K)
plot.plot_valid_cluster(min_idx_valid.eval(), MoG_valid.validation, mu, K)
开发者ID:cxxichen,项目名称:Machine-Learning,代码行数:21,代码来源:MoG_validation.py
示例16: testGradient
def testGradient(self):
num_cols = 2
indices_flat = np.array([0, 4, 0, 8, 3, 8, 4, 7, 7, 3])
num_segments = max(indices_flat) + 3
for indices in indices_flat, indices_flat.reshape(5, 2):
shape = indices.shape + (num_cols,)
with self.test_session(use_gpu=self.use_gpu):
tf_x, np_x = self._input(shape, dtype=tf.float64)
s = tf.unsorted_segment_sum(data=tf_x, segment_ids=indices, num_segments=num_segments)
jacob_t, jacob_n = tf.test.compute_gradient(
tf_x, shape, s, [num_segments, num_cols], x_init_value=np_x.astype(np.double), delta=1
)
self.assertAllClose(jacob_t, jacob_n, rtol=1e-3, atol=1e-3)
开发者ID:paolodedios,项目名称:tensorflow,代码行数:13,代码来源:segment_reduction_ops_test.py
示例17: k_comparison
def k_comparison(K):
D = 2
B = 10000
KM = km.k_mean("data2D.npy")
_, segment_ids, X_data, mu= KM.cluster(K, D, B)
data = tf.ones(shape = [B,])
division = tf.unsorted_segment_sum(data, segment_ids, K, name=None)
with tf.Session():
print "K =",K,":",division.eval()/10000
plot.plot_cluster(segment_ids, X_data, mu, K)
开发者ID:haoyues,项目名称:ML_HWs,代码行数:14,代码来源:k_comparison.py
示例18: model
def model(x, segmentinds, keep_prob, batchsize, neuronList, activationType,
fplength, mask, name, dxdxik, tilederiv,element):
"""Generates a multilayer neural network with variable number
of neurons, so that we have a template for each atom's NN."""
nNeurons = neuronList[0]
# Pass the input tensors through the first soft-plus layer
W_fc = weight_variable([fplength, nNeurons], name=name+element)
b_fc = bias_variable([nNeurons], name=name)
h_fc = activationType(tf.matmul(x, W_fc) + b_fc)
#h_fc = tf.nn.dropout(activationType(tf.matmul(x, W_fc) + b_fc),keep_prob)
if len(neuronList) > 1:
for i in range(1, len(neuronList)):
nNeurons = neuronList[i]
nNeuronsOld = neuronList[i - 1]
W_fc = weight_variable([nNeuronsOld, nNeurons], name=name)
b_fc = bias_variable([nNeurons], name=name)
h_fc = tf.nn.dropout(activationType(
tf.matmul(h_fc, W_fc) + b_fc), keep_prob)
W_fc_out = weight_variable([neuronList[-1], 1], name=name)
b_fc_out = bias_variable([1], name=name)
y_out = tf.matmul(h_fc, W_fc_out) + b_fc_out
# Sum the predicted energy for each molecule
reducedSum = tf.unsorted_segment_sum(y_out, segmentinds, batchsize)
dEjdgj = tf.gradients(y_out, x)[0]
dEjdgj1 = tf.expand_dims(dEjdgj, 1)
dEjdgj2 = tf.expand_dims(dEjdgj1, 1)
dEjdgjtile = tf.tile(dEjdgj2, tilederiv)
dEdxik = tf.mul(dxdxik, dEjdgjtile)
dEdxikReduce = tf.reduce_sum(dEdxik, 3)
dEdxik_reduced = tf.unsorted_segment_sum(
dEdxikReduce, segmentinds, batchsize)
return tf.mul(reducedSum, mask), dEdxik_reduced
开发者ID:AkshayTharval,项目名称:Atomistic-Machine-Learning-Potentials,代码行数:37,代码来源:tfAmpNN.py
示例19: _rowwise_unsorted_segment_sum
def _rowwise_unsorted_segment_sum(values, indices, n):
"""UnsortedSegmentSum on each row.
Args:
values: a `Tensor` with shape `[batch_size, k]`.
indices: an integer `Tensor` with shape `[batch_size, k]`.
n: an integer.
Returns:
A `Tensor` with the same type as `values` and shape `[batch_size, n]`.
"""
batch, k = tf.unstack(tf.shape(indices), num=2)
indices_flat = tf.reshape(indices, [-1]) + tf.div(tf.range(batch * k), k) * n
ret_flat = tf.unsorted_segment_sum(
tf.reshape(values, [-1]), indices_flat, batch * n)
return tf.reshape(ret_flat, [batch, n])
开发者ID:AranKomat,项目名称:tensor2tensor,代码行数:15,代码来源:expert_utils.py
示例20: accumulate_sparse_gradients
def accumulate_sparse_gradients(grad):
"""Accumulates repeated indices of a sparse gradient update.
Args:
grad: a tf.IndexedSlices gradient
Returns:
grad_indices: unique indices
grad_values: gradient values corresponding to the indices
"""
grad_indices, grad_segments = tf.unique(grad.indices)
grad_values = tf.unsorted_segment_sum(grad.values, grad_segments,
tf.shape(grad_indices)[0])
return grad_indices, grad_values
开发者ID:ALISCIFP,项目名称:models,代码行数:15,代码来源:utils.py
注:本文中的tensorflow.unsorted_segment_sum函数示例由纯净天空整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。 |
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