Computes the maximum along segments of a tensor.
tf.raw_ops.SegmentMaxV2(
data, segment_ids, num_segments, name=None
)
Read the section on segmentation for an explanation of segments.
Computes a tensor such that
\(output_i = \max_j(data_j)\) where max is over j such
that segment_ids[j] == i.
If the maximum is empty for a given segment ID i, it outputs the smallest
possible value for the specific numeric type,
output[i] = numeric_limits<T>::lowest().
The only difference with SegmentMax is the additional input num_segments.
This helps in evaluating the output shape in compile time.
num_segments should be consistent with segment_ids.
e.g. Max(segment_ids) should be equal to num_segments - 1 for a 1-d segment_ids
With inconsistent num_segments, the op still runs. only difference is,
the output takes the size of num_segments irrespective of size of segment_ids and data.
for num_segments less than expected output size, the last elements are ignored
for num_segments more than the expected output size, last elements are assigned
smallest possible value for the specific numeric type.
For example:
@tf.function(jit_compile=True)def test(c):return tf.raw_ops.SegmentMaxV2(data=c, segment_ids=tf.constant([0, 0, 1]), num_segments=2)c = tf.constant([[1,2,3,4], [4, 3, 2, 1], [5,6,7,8]])test(c).numpy()array([[4, 3, 3, 4],[5, 6, 7, 8]], dtype=int32)
Returns | |
|---|---|
A Tensor. Has the same type as data.
|