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min
min[dtype: DType, input_fn: def[width: Int, rank: Int](IndexList[rank]) capturing -> SIMD[dtype, width], output_fn: def[width: Int, rank: Int](IndexList[rank], SIMD[dtype, width]) capturing -> None, /, single_thread_blocking_override: Bool = False, target: StringSlice[StaticConstantOrigin] = StringSlice("cpu")](input_shape: IndexList, reduce_dim: Int, context: DeviceContextPtr = DeviceContextPtr())
Computes the min across the input and output shape.
This performs the min computation on the domain specified by input_shape,
loading the inputs using the input_fn. The results are stored using
the output_fn.
Parameters:
- dtype (
DType): The dtype of the input and output. - input_fn (
def[width: Int, rank: Int](IndexList[rank]) capturing -> SIMD[dtype, width]): The function to load the input. - output_fn (
def[width: Int, rank: Int](IndexList[rank], SIMD[dtype, width]) capturing -> None): The function to store the output. - single_thread_blocking_override (
Bool): If True, then the operation is run synchronously using a single thread. - target (
StringSlice[StaticConstantOrigin]): The target to run on.
Args:
- input_shape (
IndexList): The input shape. - reduce_dim (
Int): The axis to perform the min on. - context (
DeviceContextPtr): The pointer to DeviceContext.
Raises:
If the operation fails.
min[dtype: DType](src: Span[Scalar[dtype]]) -> Scalar[dtype]
Computes the min element in a buffer.
Parameters:
- dtype (
DType): The dtype of the input.
Args:
- src (
Span[Scalar[dtype]]): The buffer.
Returns:
Scalar[dtype]: The minimum of the buffer elements.
Raises:
If the operation fails.