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Mojo function

max

max(src: Buffer[type, size, address_space=address_space, origin=origin]) -> SIMD[$0, 1]

Computes the max element in a buffer.

Args:

  • src (Buffer[type, size, address_space=address_space, origin=origin]): The buffer.

Returns:

The maximum of the buffer elements.

max[reduce_axis: Int](src: NDBuffer[type, rank, shape, strides, alignment=alignment, address_space=address_space, exclusive=exclusive], dst: NDBuffer[type, rank, shape])

Computes the max across reduce_axis of an NDBuffer.

Parameters:

  • reduce_axis (Int): The axis to reduce across.

Args:

  • src (NDBuffer[type, rank, shape, strides, alignment=alignment, address_space=address_space, exclusive=exclusive]): The input buffer.
  • dst (NDBuffer[type, rank, shape]): The output buffer.

max[: origin.set, : origin.set, //, type: DType, input_fn: fn[Int, Int](IndexList[$1]) capturing -> SIMD[$1|2, $0], output_fn: fn[Int, Int](IndexList[$1], SIMD[$1|2, $0]) capturing -> None, /, single_thread_blocking_override: Bool = 0, target: StringLiteral = "cpu"](input_shape: IndexList[size], reduce_dim: Int, context: MojoCallContextPtr = MojoCallContextPtr())

Computes the max across the input and output shape.

This performs the max computation on the domain specified by input_shape, loading the inputs using the input_fn. The results are stored using the output_fn.

Parameters:

  • type (DType): The type of the input and output.
  • input_fn (fn[Int, Int](IndexList[$1]) capturing -> SIMD[$1|2, $0]): The function to load the input.
  • output_fn (fn[Int, Int](IndexList[$1], SIMD[$1|2, $0]) 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 (StringLiteral): The target to run on.

Args:

  • input_shape (IndexList[size]): The input shape.
  • reduce_dim (Int): The axis to perform the max on.
  • context (MojoCallContextPtr): The pointer to DeviceContext.