package owl-base

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Vectorised functions
val empty : int array -> Symbol.Shape.Type.arr

TODO

val zeros : int array -> Symbol.Shape.Type.arr

TODO

val ones : int array -> Symbol.Shape.Type.arr

TODO

val eye : int -> Symbol.Shape.Type.arr

TODO

val create : int array -> Symbol.Shape.Type.elt -> Symbol.Shape.Type.arr

TODO

val sequential : ?a:Symbol.Shape.Type.elt -> ?step:Symbol.Shape.Type.elt -> int array -> Symbol.Shape.Type.arr

TODO

TODO

val gaussian : ?mu:Symbol.Shape.Type.elt -> ?sigma:Symbol.Shape.Type.elt -> int array -> Symbol.Shape.Type.arr

TODO

val bernoulli : ?p:Symbol.Shape.Type.elt -> int array -> Symbol.Shape.Type.arr

TODO

val init : int array -> (int -> Symbol.Shape.Type.elt) -> Symbol.Shape.Type.arr

TODO

val init_nd : int array -> (int array -> Symbol.Shape.Type.elt) -> Symbol.Shape.Type.arr

TODO

val shape : Symbol.Shape.Type.arr -> int array

TODO

val numel : Symbol.Shape.Type.arr -> int

TODO

TODO

val set : Symbol.Shape.Type.arr -> int array -> Symbol.Shape.Type.elt -> unit

TODO

val get_slice : int list list -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val set_slice : int list list -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> unit

TODO

val copy_ : out:'a -> 'b -> 'c

TODO

val reset : Symbol.Shape.Type.arr -> unit

TODO

val reshape : Symbol.Shape.Type.arr -> int array -> Symbol.Shape.Type.arr

TODO

val tile : Symbol.Shape.Type.arr -> int array -> Symbol.Shape.Type.arr

TODO

val repeat : Symbol.Shape.Type.arr -> int array -> Symbol.Shape.Type.arr

TODO

TODO

val expand : ?hi:bool -> Symbol.Shape.Type.arr -> int -> Symbol.Shape.Type.arr

TODO

val squeeze : ?axis:int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val concatenate : ?axis:int -> Symbol.Shape.Type.arr array -> Symbol.Shape.Type.arr

TODO

val split : ?axis:int -> 'a -> 'b -> 'c

TODO

val draw : ?axis:int -> Symbol.Shape.Type.arr -> int -> Symbol.Shape.Type.arr * 'a array

TODO

TODO

``delay f x`` returns ``f x``. It allows to use a function that is not tracked by the computation graph and delay its evaluation. The output must have the same shape as the input.

``delay_array out_shape f x`` works in the same way as ``delay`` but is applied on an array of ndarrays. Needs the shape of the output as an argument.

val lazy_print : ?max_row:int -> ?max_col:int -> ?header:bool -> ?fmt:(Symbol.Shape.Type.Device.A.elt -> string) -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

``lazy_print x`` prints the output of ``x`` when it is evaluated. Is implemented as an identity node. For information about the optional parameters, refer to the ``print`` function of the ``Ndarray`` module.

val print : ?max_row:'a -> ?max_col:'b -> ?header:'c -> ?fmt:'d -> 'e -> unit

TODO

TODO

TODO

TODO

val sum_reduce : ?axis:int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

TODO

val transpose_conv1d : ?padding:Owl_types.padding -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> int array -> Symbol.Shape.Type.arr

TODO

val transpose_conv2d : ?padding:Owl_types.padding -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> int array -> Symbol.Shape.Type.arr

TODO

val transpose_conv3d : ?padding:Owl_types.padding -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> int array -> Symbol.Shape.Type.arr

TODO

val dilated_conv1d : ?padding:Owl_types.padding -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr

TODO

val dilated_conv2d : ?padding:Owl_types.padding -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr

TODO

val dilated_conv3d : ?padding:Owl_types.padding -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr

TODO

val max_pool1d : ?padding:Owl_types.padding -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr

TODO

val max_pool2d : ?padding:Owl_types.padding -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr

TODO

val max_pool3d : ?padding:Owl_types.padding -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr

TODO

val avg_pool1d : ?padding:Owl_types.padding -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr

TODO

val avg_pool2d : ?padding:Owl_types.padding -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr

TODO

val avg_pool3d : ?padding:Owl_types.padding -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr

TODO

val upsampling2d : Symbol.Shape.Type.arr -> int array -> Symbol.Shape.Type.arr

TODO

TODO

TODO

TODO

TODO

TODO

TODO

val transpose_conv1d_backward_input : Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val transpose_conv1d_backward_kernel : Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val transpose_conv2d_backward_input : Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val transpose_conv2d_backward_kernel : Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val transpose_conv3d_backward_input : Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val transpose_conv3d_backward_kernel : Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val dilated_conv1d_backward_input : Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val dilated_conv1d_backward_kernel : Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val dilated_conv2d_backward_input : Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val dilated_conv2d_backward_kernel : Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val dilated_conv3d_backward_input : Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val dilated_conv3d_backward_kernel : Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val max_pool1d_backward : Owl_types.padding -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val max_pool2d_backward : Owl_types.padding -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val max_pool3d_backward : Owl_types.padding -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val avg_pool1d_backward : Owl_types.padding -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val avg_pool2d_backward : Owl_types.padding -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val avg_pool3d_backward : Owl_types.padding -> Symbol.Shape.Type.arr -> int array -> int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val upsampling2d_backward : Symbol.Shape.Type.arr -> int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val row_num : Symbol.Shape.Type.arr -> int

TODO

val col_num : Symbol.Shape.Type.arr -> int

TODO

val rows : Symbol.Shape.Type.arr -> int array -> Symbol.Shape.Type.arr

TODO

val copy_row_to : Symbol.Shape.Type.arr -> 'a -> 'b -> unit

TODO

val copy_col_to : Symbol.Shape.Type.arr -> 'a -> 'b -> unit

TODO

val chol : ?upper:bool -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val discrete_lyapunov : ?solver:[ `default | `bilinear | `direct ] -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val linsolve : ?trans:bool -> ?typ:[ `n | `u | `l ] -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

TODO

TODO

TODO

TODO

val transpose : ?axis:int array -> Symbol.Shape.Type.arr -> Symbol.Shape.Type.arr

TODO

val to_rows : Symbol.Shape.Type.arr -> 'a array

TODO

TODO

val to_cols : Symbol.Shape.Type.arr -> 'a array

TODO

TODO

val of_array : Symbol.Shape.Type.elt array -> int array -> Symbol.Shape.Type.arr

TODO

val of_arrays : Symbol.Shape.Type.elt array array -> Symbol.Shape.Type.arr

TODO

val to_arrays : Symbol.Shape.Type.arr -> Symbol.Shape.Type.elt array array

TODO

Scalar functions
module Scalar : sig ... end
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