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//
// This confidential and proprietary software may be used only as
// authorised by a licensing agreement from ARM Limited
// (C) COPYRIGHT 2020-2024 ARM Limited
// ALL RIGHTS RESERVED
// The entire notice above must be reproduced on all authorised
// copies and copies may only be made to the extent permitted
// by a licensing agreement from ARM Limited.
=== Elementwise Unary Operators
==== ABS
Elementwise absolute value operation
include::{generated}/operators/ABS.adoc[]
*Floating-point behavior:*
|===
|Input|-infinity|+infinity|-0|+0|NaN
|Output|+infinity|+infinity|+0|+0|NaN
|===
[source,c++]
----
include::{pseudocode}/operators/ABS.tosac[lines=10..-1]
----
==== BITWISE_NOT
Elementwise bitwise NOT of input tensor.
include::{generated}/operators/BITWISE_NOT.adoc[]
[source,c++]
----
include::{pseudocode}/operators/BITWISE_NOT.tosac[lines=10..-1]
----
==== CEIL
Elementwise ceiling operation
include::{generated}/operators/CEIL.adoc[]
*Floating-point behavior:*
|===
|Input|-infinity|+infinity|-0|+0|NaN
|Output|-infinity|+infinity|-0|+0|NaN
|===
[source,c++]
----
include::{pseudocode}/operators/CEIL.tosac[lines=10..-1]
----
==== CLZ
Elementwise count leading zeros operation
include::{generated}/operators/CLZ.adoc[]
[source,c++]
----
include::{pseudocode}/operators/CLZ.tosac[lines=10..-1]
----
==== EXP
Elementwise e to the x operation
include::{generated}/operators/EXP.adoc[]
*Floating-point behavior:*
|===
|Input|-infinity|+infinity|-0|+0|NaN
|Output|+0|+infinity|1|1|NaN
|===
[source,c++]
----
include::{pseudocode}/operators/EXP.tosac[lines=10..-1]
----
==== FLOOR
Elementwise floor operation
include::{generated}/operators/FLOOR.adoc[]
*Floating-point behavior:*
|===
|Input|-infinity|+infinity|-0|+0|NaN
|Output|-infinity|+infinity|-0|+0|NaN
|===
[source,c++]
----
include::{pseudocode}/operators/FLOOR.tosac[lines=10..-1]
----
==== LOG
Elementwise natural logarithm operation
include::{generated}/operators/LOG.adoc[]
*Floating-point behavior:*
|===
|Input|-infinity|+infinity|-0|+0|NaN
|Output|NaN|+infinity|-infinity|-infinity|NaN
|===
[source,c++]
----
include::{pseudocode}/operators/LOG.tosac[lines=10..-1]
----
==== LOGICAL_NOT
Elementwise logical NOT of input.
include::{generated}/operators/LOGICAL_NOT.adoc[]
[source,c++]
----
include::{pseudocode}/operators/LOGICAL_NOT.tosac[lines=10..-1]
----
==== NEGATE
Elementwise negation operation
include::{generated}/operators/NEGATE.adoc[]
*Floating-point behavior:*
|===
|Input|-infinity|+infinity|-0|+0|NaN
|Output|+infinity|-infinity|+0|-0|NaN
|===
[source,c++]
----
include::{pseudocode}/operators/NEGATE.tosac[lines=10..-1]
----
==== RECIPROCAL
Elementwise reciprocal operation. For integer operation, a TABLE should be used with the appropriate ranges.
include::{generated}/operators/RECIPROCAL.adoc[]
*Floating-point behavior:*
|===
|Input|-infinity|+infinity|-0|+0|NaN
|Output|-0|+0|-infinity|+infinity|NaN
|===
[source,c++]
----
include::{pseudocode}/operators/RECIPROCAL.tosac[lines=10..-1]
----
==== RSQRT
Elementwise reciprocal square root operation. For integer operation, a TABLE should be used with the appropriate ranges.
include::{generated}/operators/RSQRT.adoc[]
*Floating-point behavior:*
|===
|Input|-infinity|+infinity|-0|+0|NaN
|Output|NaN|+0|-infinity|+infinity|NaN
|===
[source,c++]
----
include::{pseudocode}/operators/RSQRT.tosac[lines=10..-1]
----
|