# Abs#

## Abs - 13#

Version

• name: Abs (GitHub)

• domain: main

• since_version: 13

• function: False

• support_level: SupportType.COMMON

• shape inference: True

This version of the operator has been available since version 13.

Summary

Absolute takes one input data (Tensor<T>) and produces one output data (Tensor<T>) where the absolute is, y = abs(x), is applied to the tensor elementwise.

Inputs

• X (heterogeneous) - T: Input tensor

Outputs

• Y (heterogeneous) - T: Output tensor

Type Constraints

• T in ( tensor(bfloat16), tensor(double), tensor(float), tensor(float16), tensor(int16), tensor(int32), tensor(int64), tensor(int8), tensor(uint16), tensor(uint32), tensor(uint64), tensor(uint8) ): Constrain input and output types to all numeric tensors.

Examples

default

```node = onnx.helper.make_node(
"Abs",
inputs=["x"],
outputs=["y"],
)
x = np.random.randn(3, 4, 5).astype(np.float32)
y = abs(x)

expect(node, inputs=[x], outputs=[y], name="test_abs")
```

Differences

 `0` `0` `Absolute takes one input data (Tensor) and produces one output data` `Absolute takes one input data (Tensor) and produces one output data` `1` `1` `(Tensor) where the absolute is, y = abs(x), is applied to` `(Tensor) where the absolute is, y = abs(x), is applied to` `2` `2` `the tensor elementwise.` `the tensor elementwise.` `3` `3` `4` `4` `**Inputs**` `**Inputs**` `5` `5` `6` `6` `* **X** (heterogeneous) - **T**:` `* **X** (heterogeneous) - **T**:` `7` `7` ` Input tensor` ` Input tensor` `8` `8` `9` `9` `**Outputs**` `**Outputs**` `10` `10` `11` `11` `* **Y** (heterogeneous) - **T**:` `* **Y** (heterogeneous) - **T**:` `12` `12` ` Output tensor` ` Output tensor` `13` `13` `14` `14` `**Type Constraints**` `**Type Constraints**` `15` `15` `16` `16` `* **T** in (` `* **T** in (` `17` ` tensor(bfloat16),` `17` `18` ` tensor(double),` ` tensor(double),` `18` `19` ` tensor(float),` ` tensor(float),` `19` `20` ` tensor(float16),` ` tensor(float16),` `20` `21` ` tensor(int16),` ` tensor(int16),` `21` `22` ` tensor(int32),` ` tensor(int32),` `22` `23` ` tensor(int64),` ` tensor(int64),` `23` `24` ` tensor(int8),` ` tensor(int8),` `24` `25` ` tensor(uint16),` ` tensor(uint16),` `25` `26` ` tensor(uint32),` ` tensor(uint32),` `26` `27` ` tensor(uint64),` ` tensor(uint64),` `27` `28` ` tensor(uint8)` ` tensor(uint8)` `28` `29` ` ):` ` ):` `29` `30` ` Constrain input and output types to all numeric tensors.` ` Constrain input and output types to all numeric tensors.`

## Abs - 6#

Version

• name: Abs (GitHub)

• domain: main

• since_version: 6

• function: False

• support_level: SupportType.COMMON

• shape inference: True

This version of the operator has been available since version 6.

Summary

Absolute takes one input data (Tensor<T>) and produces one output data (Tensor<T>) where the absolute is, y = abs(x), is applied to the tensor elementwise.

Inputs

• X (heterogeneous) - T: Input tensor

Outputs

• Y (heterogeneous) - T: Output tensor

Type Constraints

• T in ( tensor(double), tensor(float), tensor(float16), tensor(int16), tensor(int32), tensor(int64), tensor(int8), tensor(uint16), tensor(uint32), tensor(uint64), tensor(uint8) ): Constrain input and output types to all numeric tensors.

Differences

 `0` `0` `Absolute takes one input data (Tensor) and produces one output data` `Absolute takes one input data (Tensor) and produces one output data` `1` `1` `(Tensor) where the absolute is, y = abs(x), is applied to` `(Tensor) where the absolute is, y = abs(x), is applied to` `2` `2` `the tensor elementwise.` `the tensor elementwise.` `3` `3` `4` `**Attributes**` `5` `6` `* **consumed_inputs**:` `7` ` legacy optimization attribute.` `8` `9` `4` `**Inputs**` `**Inputs**` `10` `5` `11` `6` `* **X** (heterogeneous) - **T**:` `* **X** (heterogeneous) - **T**:` `12` `7` ` Input tensor` ` Input tensor` `13` `8` `14` `9` `**Outputs**` `**Outputs**` `15` `10` `16` `11` `* **Y** (heterogeneous) - **T**:` `* **Y** (heterogeneous) - **T**:` `17` `12` ` Output tensor` ` Output tensor` `18` `13` `19` `14` `**Type Constraints**` `**Type Constraints**` `20` `15` `21` `16` `* **T** in (` `* **T** in (` `22` `17` ` tensor(double),` ` tensor(double),` `23` `18` ` tensor(float),` ` tensor(float),` `24` `19` ` tensor(float16)` ` tensor(float16),` `20` ` tensor(int16),` `21` ` tensor(int32),` `22` ` tensor(int64),` `23` ` tensor(int8),` `24` ` tensor(uint16),` `25` ` tensor(uint32),` `26` ` tensor(uint64),` `27` ` tensor(uint8)` `25` `28` ` ):` ` ):` `26` `29` ` Constrain input and output types to float tensors.` ` Constrain input and output types to all numeric tensors.`

## Abs - 1#

Version

• name: Abs (GitHub)

• domain: main

• since_version: 1

• function: False

• support_level: SupportType.COMMON

• shape inference: False

This version of the operator has been available since version 1.

Summary

Absolute takes one input data (Tensor<T>) and produces one output data (Tensor<T>) where the absolute is, y = abs(x), is applied to the tensor elementwise.

Attributes

• consumed_inputs: legacy optimization attribute.

Inputs

• X (heterogeneous) - T: Input tensor

Outputs

• Y (heterogeneous) - T: Output tensor

Type Constraints

• T in ( tensor(double), tensor(float), tensor(float16) ): Constrain input and output types to float tensors.