tf.linalg.matrix_transpose
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Transposes last two dimensions of tensor a
.
tf.linalg.matrix_transpose( a, name='matrix_transpose', conjugate=False )
For example:
x = tf.constant([[1, 2, 3], [4, 5, 6]]) tf.linalg.matrix_transpose(x) # [[1, 4], # [2, 5], # [3, 6]] x = tf.constant([[1 + 1j, 2 + 2j, 3 + 3j], [4 + 4j, 5 + 5j, 6 + 6j]]) tf.linalg.matrix_transpose(x, conjugate=True) # [[1 - 1j, 4 - 4j], # [2 - 2j, 5 - 5j], # [3 - 3j, 6 - 6j]] # Matrix with two batch dimensions. # x.shape is [1, 2, 3, 4] # tf.linalg.matrix_transpose(x) is shape [1, 2, 4, 3]
Note that tf.matmul
provides kwargs allowing for transpose of arguments. This is done with minimal cost, and is preferable to using this function. E.g.
# Good! Transpose is taken at minimal additional cost. tf.matmul(matrix, b, transpose_b=True) # Inefficient! tf.matmul(matrix, tf.linalg.matrix_transpose(b))
Args | |
---|---|
a | A Tensor with rank >= 2 . |
name | A name for the operation (optional). |
conjugate | Optional bool. Setting it to True is mathematically equivalent to tf.math.conj(tf.linalg.matrix_transpose(input)). |
Returns | |
---|---|
A transposed batch matrix Tensor . |
Raises | |
---|---|
ValueError | If a is determined statically to have rank < 2 . |
Numpy Compatibility
In numpy
transposes are memory-efficient constant time operations as they simply return a new view of the same data with adjusted strides
.
TensorFlow does not support strides, linalg.matrix_transpose
returns a new tensor with the items permuted.
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Licensed under the Creative Commons Attribution License 3.0.
Code samples licensed under the Apache 2.0 License.
https://www.tensorflow.org/versions/r1.15/api_docs/python/tf/linalg/matrix_transpose