:orphan: # PetscDeviceContextFork Create a set of dependent child contexts from a parent context ## Synopsis ``` #include PetscErrorCode PetscDeviceContextFork(PetscDeviceContext dctx, PetscInt n, PetscDeviceContext **dsub) ``` Not Collective, Asynchronous ## Input Parameters - ***dctx -*** The parent `PetscDeviceContext` - ***n -*** The number of children to create ## Output Parameter - ***dsub -*** The created child context(s) ## Notes Behaves identically to `PetscDeviceContextForkWithStreamType()` except that the prescribed `PetscStreamType` is taken from `dctx`. In effect this routine is shorthand for: ```none PetscStreamType stype; PetscDeviceContextGetStreamType(dctx, &stype); PetscDeviceContextForkWithStreamType(dctx, stype, ...); ``` ## Asynchronous API Notes This routine is explicitly marked as exhibiting asynchronous behavior. Asynchronous behavior implies that routines launching operations on (or associated with) a `PetscDeviceContext` may return to the caller before the operation has completed. Sequential Consistency: Operations using the _same_ `PetscDeviceContext` which access objects or memory regions are ordered per the language specification. Operations using _separate_ `PetscDeviceContext`s which access the _same_ object or memory region are strongly write-ordered. That is, the following operations: - `write-write` - `write-read` - `read-write` are strongly ordered. Formally: _Given an operation `A-B` (e.g. `A` = `write`, `B` = `read`) on an object or memory region `M` such that `A` "happens-before" `B`, where `A` uses `PetscDeviceContext` `X` and `B` uses `PetscDeviceContext` `Y`, then `B` shall not begin before `A` completes. This implies that any side-effects resulting from `A` are also observed by `B`._ Note the omission of `read-read`; there is no implied ordering between separate `PetscDeviceContext`s for consecutive reads. Operations using _separate_ `PetscDeviceContext`s which access _separate_ objects or memory regions may execute in an arbitrary order and offer no guarantee of sequential consistency. Memory Consistency: If this routine modifies the participating object(s) then -- unless otherwise stated -- the contents of any externally held references to internal data structures should be considered to be in an undefined state. A well-defined state can only be restored by re-acquiring these references through the appropriate API or by calling `PetscDeviceContextSynchronize()`. Unless otherwise stated, exceptions to this rule are: - References returned by the routine itself. If a routine returns a pointer, the value of the top-most pointer is guaranteed to always be valid. For example, given a routine which asynchronously allocates memory and returns a pointer to the memory, the value of said pointer is immediately valid but dereferencing the pointer may not be. - References to structures. If a routine returns a `PetscFoo`, or array thereof then the objects themselves are always valid (though their member variables `PetscFoo->data` may not be). ## See Also `PetscDeviceContextForkWithStreamType()`, `PetscDeviceContextJoin()`, `PetscDeviceContextSynchronize()`, `PetscDeviceContextQueryIdle()` ## Level beginner ## Location src/sys/objects/device/interface/dcontext.cxx --- [Edit on GitLab](https://gitlab.com/petsc/petsc/-/edit/release/src/sys/objects/device/interface/dcontext.cxx) [Index of all Sys routines](index.md) [Table of Contents for all manual pages](/manualpages/index.md) [Index of all manual pages](/manualpages/singleindex.md)