ScatterUpdate#
Versioned name: ScatterUpdate-3
Category: Data movement
Short description: ScatterUpdate creates a copy of the first input tensor with updated elements specified with second and third input tensors.
Detailed description: ScatterUpdate creates a copy of the first input tensor with updated elements in positions specified with indices
input
and values specified with updates
tensor starting from the dimension with index axis
. For the data
tensor of shape \([d_0,\;d_1,\;\dots,\;d_n]\), indices
tensor of shape \([i_0,\;i_1,\;\dots,\;i_k]\) and updates
tensor of shape \([d_0,\;d_1,\;\dots,\;d_{axis - 1},\;i_0,\;i_1,\;\dots,\;i_k,\;d_{axis + 1},\;\dots, d_n]\) the operation computes for each m, n, ..., p
of the indices
tensor indices:
where first \(\dots\) in the data
corresponds to \([d_0,\;\dots,\;d_{axis - 1}]\) dimensions, last \(\dots\) in the data
corresponds to the rank(data) - (axis + 1)
dimensions.
Several examples for case when axis = 0:
indices
is a \(0\) D tensor: \(data[indices,\;\dots] = updates[\dots]\)indices
is a \(1\) D tensor (\(\forall_{i}\)): \(data[indices[i],\;\dots] = updates[i,\;\dots]\)indices
is a \(N\) D tensor (\(\forall_{i,\;\dots,\;j}\)): \(data[indices[i],\;\dots,\;j],\;\dots] = updates[i,\;\dots,\;j,\;\dots]\)
Attributes: ScatterUpdate does not have attributes.
Inputs:
1:
data
tensor of arbitrary rankr
and type T_NUMERIC. Required.2:
indices
tensor with indices of type T_IND. All index values are expected to be within bounds[0, s - 1]
along the axis of sizes
. If multiple indices point to the same output location, the order of updating the values is undefined. If an index points to a non-existing output tensor element or is negative, then an exception is raised. Required.3:
updates
tensor of type T_NUMERIC and rank equal torank(indices) + rank(data) - 1
Required.4:
axis
tensor with scalar or 1D tensor with one element of type T_AXIS specifying axis for scatter. The value can be in the range[ -r, r - 1]
, wherer
is the rank ofdata
. Required.
Outputs:
1: tensor with shape equal to
data
tensor of the type T_NUMERIC.
Types
T_NUMERIC: any numeric type.
T_IND: any supported integer types.
T_AXIS: any supported integer types.
Examples
Example 1
<layer ... type="ScatterUpdate">
<input>
<port id="0"> <!-- data -->
<dim>1000</dim>
<dim>256</dim>
<dim>10</dim>
<dim>15</dim>
</port>
<port id="1"> <!-- indices -->
<dim>125</dim>
<dim>20</dim>
</port>
<port id="2"> <!-- updates -->
<dim>1000</dim>
<dim>125</dim>
<dim>20</dim>
<dim>10</dim>
<dim>15</dim>
</port>
<port id="3"> <!-- axis -->
<dim>1</dim> <!-- value [1] -->
</port>
</input>
<output>
<port id="4" precision="FP32"> <!-- output -->
<dim>1000</dim>
<dim>256</dim>
<dim>10</dim>
<dim>15</dim>
</port>
</output>
</layer>
Example 2
<layer ... type="ScatterUpdate">
<input>
<port id="0"> <!-- data -->
<dim>3</dim> <!-- {{-1.0f, 1.0f, -1.0f, 3.0f, 4.0f}, -->
<dim>5</dim> <!-- {-1.0f, 6.0f, -1.0f, 8.0f, 9.0f}, -->
</port> <!-- {-1.0f, 11.0f, 1.0f, 13.0f, 14.0f}} -->
<port id="1"> <!-- indices -->
<dim>2</dim> <!-- {0, 2} -->
</port>
<port id="2"> <!-- updates -->
<dim>3</dim> <!-- {1.0f, 1.0f} -->
<dim>2</dim> <!-- {1.0f, 1.0f} -->
</port> <!-- {1.0f, 2.0f} -->
<port id="3"> <!-- axis -->
<dim>1</dim> <!-- {1} -->
</port>
</input>
<output>
<port id="4"> <!-- output -->
<dim>3</dim> <!-- {{1.0f, 1.0f, 1.0f, 3.0f, 4.0f}, -->
<dim>5</dim> <!-- {1.0f, 6.0f, 1.0f, 8.0f, 9.0f}, -->
</port> <!-- {1.0f, 11.0f, 2.0f, 13.0f, 14.0f}} -->
</output>
</layer>