TensorPrimitives.Min Method
Definition
Important
Some information relates to prerelease product that may be substantially modified before it’s released. Microsoft makes no warranties, express or implied, with respect to the information provided here.
Overloads
Min(ReadOnlySpan<Single>) |
Searches for the smallest single-precision floating-point number in the specified tensor. |
Min(ReadOnlySpan<Single>, ReadOnlySpan<Single>, Span<Single>) |
Computes the element-wise minimum of the single-precision floating-point numbers in the specified tensors. |
Min<T>(ReadOnlySpan<T>, T, Span<T>) |
Computes the element-wise minimum of the numbers in the specified tensors. |
Min<T>(ReadOnlySpan<T>) |
Searches for the smallest number in the specified tensor. |
Min<T>(ReadOnlySpan<T>, ReadOnlySpan<T>, Span<T>) |
Computes the element-wise minimum of the numbers in the specified tensors. |
Min(ReadOnlySpan<Single>)
- Source:
- TensorPrimitives.cs
- Source:
- TensorPrimitives.Single.cs
- Source:
- TensorPrimitives.Single.cs
Searches for the smallest single-precision floating-point number in the specified tensor.
public:
static float Min(ReadOnlySpan<float> x);
public static float Min (ReadOnlySpan<float> x);
static member Min : ReadOnlySpan<single> -> single
Public Shared Function Min (x As ReadOnlySpan(Of Single)) As Single
Parameters
The tensor, represented as a span.
Returns
The minimum element in x
.
Exceptions
Length of x
must be greater than zero.
Remarks
The determination of the minimum element matches the IEEE 754:2019 `minimum` function. If any value is equal to NaN is present, the first is returned. Negative 0 is considered smaller than positive 0.
This method may call into the underlying C runtime or employ instructions specific to the current architecture. Exact results may differ between different operating systems or architectures.
Applies to
Min(ReadOnlySpan<Single>, ReadOnlySpan<Single>, Span<Single>)
- Source:
- TensorPrimitives.cs
- Source:
- TensorPrimitives.Single.cs
- Source:
- TensorPrimitives.Single.cs
Computes the element-wise minimum of the single-precision floating-point numbers in the specified tensors.
public:
static void Min(ReadOnlySpan<float> x, ReadOnlySpan<float> y, Span<float> destination);
public static void Min (ReadOnlySpan<float> x, ReadOnlySpan<float> y, Span<float> destination);
static member Min : ReadOnlySpan<single> * ReadOnlySpan<single> * Span<single> -> unit
Public Shared Sub Min (x As ReadOnlySpan(Of Single), y As ReadOnlySpan(Of Single), destination As Span(Of Single))
Parameters
The first tensor, represented as a span.
The second tensor, represented as a span.
Exceptions
y
and destination
reference overlapping memory locations and do not begin at the same location.
Remarks
This method effectively computes
.destination
[i] = MathF.Max(x
[i], y
[i])
The determination of the maximum element matches the IEEE 754:2019 `maximum` function. If either value is equal to NaN, that value is stored as the result. Positive 0 is considered greater than negative 0.
This method may call into the underlying C runtime or employ instructions specific to the current architecture. Exact results may differ between different operating systems or architectures.
Applies to
Min<T>(ReadOnlySpan<T>, T, Span<T>)
- Source:
- TensorPrimitives.Min.cs
- Source:
- TensorPrimitives.Min.cs
Computes the element-wise minimum of the numbers in the specified tensors.
public:
generic <typename T>
where T : System::Numerics::INumber<T> static void Min(ReadOnlySpan<T> x, T y, Span<T> destination);
public static void Min<T> (ReadOnlySpan<T> x, T y, Span<T> destination) where T : System.Numerics.INumber<T>;
static member Min : ReadOnlySpan<'T (requires 'T :> System.Numerics.INumber<'T>)> * 'T * Span<'T (requires 'T :> System.Numerics.INumber<'T>)> -> unit (requires 'T :> System.Numerics.INumber<'T>)
Public Shared Sub Min(Of T As INumber(Of T)) (x As ReadOnlySpan(Of T), y As T, destination As Span(Of T))
Type Parameters
- T
Parameters
The first tensor, represented as a span.
- y
- T
The second tensor, represented as a scalar.
- destination
- Span<T>
The destination tensor, represented as a span.
Exceptions
x
and destination
reference overlapping memory locations and do not begin at the same location.
Remarks
This method effectively computes
.destination
[i] = T
.Max(x
[i], y
)
The determination of the maximum element matches the IEEE 754:2019 `maximum` function. If either value is equal to NaN, that value is stored as the result. Positive 0 is considered greater than negative 0.
This method may call into the underlying C runtime or employ instructions specific to the current architecture. Exact results may differ between different operating systems or architectures.
Applies to
Min<T>(ReadOnlySpan<T>)
- Source:
- TensorPrimitives.Min.cs
- Source:
- TensorPrimitives.Min.cs
Searches for the smallest number in the specified tensor.
public:
generic <typename T>
where T : System::Numerics::INumber<T> static T Min(ReadOnlySpan<T> x);
public static T Min<T> (ReadOnlySpan<T> x) where T : System.Numerics.INumber<T>;
static member Min : ReadOnlySpan<'T (requires 'T :> System.Numerics.INumber<'T>)> -> 'T (requires 'T :> System.Numerics.INumber<'T>)
Public Shared Function Min(Of T As INumber(Of T)) (x As ReadOnlySpan(Of T)) As T
Type Parameters
- T
Parameters
The tensor, represented as a span.
Returns
The minimum element in x
.
Exceptions
Length of x
must be greater than zero.
Remarks
The determination of the minimum element matches the IEEE 754:2019 `minimum` function. If any value is equal to NaN is present, the first is returned. Negative 0 is considered smaller than positive 0.
This method may call into the underlying C runtime or employ instructions specific to the current architecture. Exact results may differ between different operating systems or architectures.
Applies to
Min<T>(ReadOnlySpan<T>, ReadOnlySpan<T>, Span<T>)
- Source:
- TensorPrimitives.Min.cs
- Source:
- TensorPrimitives.Min.cs
Computes the element-wise minimum of the numbers in the specified tensors.
public:
generic <typename T>
where T : System::Numerics::INumber<T> static void Min(ReadOnlySpan<T> x, ReadOnlySpan<T> y, Span<T> destination);
public static void Min<T> (ReadOnlySpan<T> x, ReadOnlySpan<T> y, Span<T> destination) where T : System.Numerics.INumber<T>;
static member Min : ReadOnlySpan<'T (requires 'T :> System.Numerics.INumber<'T>)> * ReadOnlySpan<'T (requires 'T :> System.Numerics.INumber<'T>)> * Span<'T (requires 'T :> System.Numerics.INumber<'T>)> -> unit (requires 'T :> System.Numerics.INumber<'T>)
Public Shared Sub Min(Of T As INumber(Of T)) (x As ReadOnlySpan(Of T), y As ReadOnlySpan(Of T), destination As Span(Of T))
Type Parameters
- T
Parameters
The first tensor, represented as a span.
The second tensor, represented as a span.
- destination
- Span<T>
The destination tensor, represented as a span.
Exceptions
y
and destination
reference overlapping memory locations and do not begin at the same location.
Remarks
This method effectively computes
.destination
[i] = T
.Max(x
[i], y
[i])
The determination of the maximum element matches the IEEE 754:2019 `maximum` function. If either value is equal to NaN, that value is stored as the result. Positive 0 is considered greater than negative 0.
This method may call into the underlying C runtime or employ instructions specific to the current architecture. Exact results may differ between different operating systems or architectures.
Applies to
.NET