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QCaml/Parallel_mpi/Parallel.mli

172 lines
5.1 KiB
OCaml

(** Module for handling distributed parallelism *)
val size : int
(** Number of distributed processes. *)
val rank : Mpi.rank
(** Rank of the current distributed processe. *)
val master : bool
(** True if [rank = 0]. *)
val barrier : unit -> unit
(** Wait for all processes to reach this point. *)
val broadcast : 'a lazy_t -> 'a
(** Broadcasts data to all processes. *)
val broadcast_int : int -> int
(** Broadcasts an [int] to all processes. *)
val broadcast_float : float -> float
(** Broadcasts a [float] to all processes. *)
val broadcast_int_array : int array -> int array
(** Broadcasts an [int array] to all processes. *)
val broadcast_float_array : float array -> float array
(** Broadcasts a [float array] to all processes. *)
val broadcast_vec : Lacaml.D.vec -> Lacaml.D.vec
(** Broadcasts a Lacaml vector to all processes. *)
(** {5 Intra-node operations} *)
module Node : sig
(** This module contains parallel primitives among processes
within the same compute node.
*)
val name : string
(** Name of the current host *)
val comm : Mpi.communicator
(** MPI Communicator containing the processes of the current node *)
val rank : Mpi.rank
(** Rank of the current process in the node *)
val master : bool
(** If true, master process of the node *)
val broadcast : 'a lazy_t -> 'a
(** Broadcasts data to all the processes of the current node. *)
val barrier : unit -> unit
(** Wait for all processes among the node to reach this point. *)
end
(** {5 Inter-node operations} *)
module InterNode : sig
val comm : Mpi.communicator
(** MPI Communicator among the master processes of the each node *)
val rank : Mpi.rank
(** Rank of the current process in the inter-node communicator *)
val master : bool
(** If true, master process of the inter-node communicator *)
val broadcast : 'a lazy_t -> 'a
(** Broadcasts data to all the processes of the inter-node communicator. *)
val barrier : unit -> unit
(** Wait for all processes among the node to reach this point. *)
end
(** {5 Vector operations} *)
module Vec : sig
type t = private
{
global_first : int ; (* Lower index in the global array *)
global_last : int ; (* Higher index in the global array *)
local_first : int ; (* Lower index in the local array *)
local_last : int ; (* Higher index in the local array *)
data : Lacaml.D.vec ; (* Lacaml vector containing the data *)
}
val pp : Format.formatter -> t -> unit
(** {6 Creation/conversion of vectors} *)
val create : int -> t
(** [create n] @return a distributed vector with [n] rows (not initialized). *)
val make : int -> float -> t
(** [make n x] @return a distributed vector with [n] rows initialized with value [x]. *)
val make0 : int -> t
(** [make0 n x] @return a distributed vector with [n] rows initialized with the zero
element. *)
val init : int -> (int -> float) -> t
(** [init n f] @return a distributed vector containing [n] elements, where
each element at position [i] is initialized by the result of calling [f i]. *)
val of_array : float array -> t
(** [of_array ar] @return a distributed vector initialized from array [ar]. *)
val to_array : t -> float array
(** [to_array v] @return an array initialized from vector [v]. *)
val of_vec : Lacaml.D.vec -> t
(** [of_vec vec] @return a distributed vector initialized from Lacaml vector [vec]. *)
val to_vec : t -> Lacaml.D.vec
(** [to_vec v] @return a Lacaml vector initialized from vector [v]. *)
(** {6 Accessors } *)
val dim : t -> int
(** [dim v] @return the dimension of the vector [v]. *)
val global_first : t -> int
(** [global_first v] @return the index of the first element of [v]. *)
val global_last : t -> int
(** [global_last v] @return the index of the last element of [v]. *)
val local_first : t -> int
(** [local_first v] @return the index of the first element of the local piece of [v]. *)
val global_last : t -> int
(** [local_last v] @return the index of the last element of the local piece of [v]. *)
val data : t -> Lacaml.D.vec
(** [data v] @return the local Lacaml vector in which the piece of the vector [v] is stored. *)
end
(*
module Mat : sig
type t =
{
global_first_row : int ; (* Lower row index in the global array *)
global_last_row : int ; (* Higher row index in the global array *)
global_first_col : int ; (* Lower column index in the global array *)
global_last_col : int ; (* Higher column index in the global array *)
local_first_row : int ; (* Lower row index in the local array *)
local_last_row : int ; (* Higher row index in the local array *)
local_first_col : int ; (* Lower column index in the local array *)
local_last_col : int ; (* Higher column index in the local array *)
data : Lacaml.D.mat ; (* Lacaml matrix containing the data *)
}
end
val gemm : Mat.t -> Mat.t -> Mat.t
(* Distributed matrix-matrix product. The result is a distributed matrix. *)
*)
val dot : Vec.t -> Vec.t-> float
(* Dot product between distributed vectors. *)