warp.mul#
- warp.mul( ) Vector[Any, Scalar]
Kernel
Differentiable
Multiply two values.
Scale a vector by a scalar.
- warp.mul( ) Vector[Any, Scalar]
Kernel
Differentiable
Multiply two values.
Scale a vector by a scalar.
- warp.mul( ) Quaternion[Float]
Kernel
Differentiable
Multiply two values.
Scale a quaternion by a scalar.
- warp.mul( ) Quaternion[Float]
Kernel
Differentiable
Multiply two values.
Scale a quaternion by a scalar.
- warp.mul( ) Quaternion[Float]
Kernel
Differentiable
Multiply two values.
Compute the Hamilton product of two quaternions.
- warp.mul( ) Matrix[Any, Any, Scalar]
Kernel
Differentiable
Multiply two values.
Scale a matrix by a scalar.
- warp.mul( ) Matrix[Any, Any, Scalar]
Kernel
Differentiable
Multiply two values.
Scale a matrix by a scalar.
- warp.mul( ) Vector[Any, Scalar]
Kernel
Differentiable
Multiply two values.
Compute a matrix-vector product.
- warp.mul( ) Vector[Any, Scalar]
Kernel
Differentiable
Multiply two values.
Compute a row-vector-by-matrix product.
- warp.mul( ) Matrix[Any, Any, Scalar]
Kernel
Differentiable
Multiply two values.
Compute a matrix-matrix product.
- warp.mul( ) Transformation[Float]
Kernel
Differentiable
Multiply two values.
Compose transformations (apply
bthena).
- warp.mul( ) Transformation[Float]
Kernel
Differentiable
Multiply two values.
Scale a transformation by a scalar.
The result has an unnormalized quaternion.
- warp.mul( ) Transformation[Float]
Kernel
Differentiable
Multiply two values.
Scale a transformation by a scalar.
The result has an unnormalized quaternion.
- warp.mul( ) Tile[Any, tuple[int, ...]]
Kernel
Differentiable
Multiply two values.
Scale each element of a tile by a scalar.
If the tile’s element type is not scalar, the constant must be a scalar type and vice versa. Underlying scalar types must match. Result dtype follows standard scalar multiplication rules.
- warp.mul( ) Tile[Any, tuple[int, ...]]
Kernel
Differentiable
Multiply two values.
Scale each element of a tile by a scalar.
If the tile’s element type is not scalar, the constant must be a scalar type and vice versa. Underlying scalar types must match. Result dtype follows standard scalar multiplication rules.