Visible to Intel only — GUID: GUID-1F4EB4A2-CF56-4014-AA42-5E1F9493EAE8
Visible to Intel only — GUID: GUID-1F4EB4A2-CF56-4014-AA42-5E1F9493EAE8
Use Asynchronous I/O
For external files, you can specify that I/O should be asynchronous. This specification will allow other statements to execute while an I/O statement is executing.
To execute a program that uses asynchronous I/O on Linux* systems, you must explicitly include one of the following compiler options when you compile and link your program:
-threads
-reentrancy threaded
-qopenmp
On Windows* systems, no extra options are needed to execute a program that uses asynchronous I/O.
Use the ASYNCHRONOUS Specifier
Asynchronous I/O is supported for all READ and WRITE operations to external files. However, if you specify asynchronous I/O, you cannot use variable format expressions in formatted I/O operations.
To allow asynchronous I/O for a file, first specify ASYNCHRONOUS='YES' in its OPEN statement, then do the same for each READ or WRITE statement that you want to execute in this manner.
Execution of an asynchronous I/O statement initiates a "pending" I/O operation, which can be terminated in the following ways:
By an explicit WAIT (initno) statement, which performs a wait operation for the specified pending asynchronous data transfer operation
By a CLOSE statement for the file
By a file-positioning statement such as REWIND or BACKSPACE
By an INQUIRE statement for the file
Use the WAIT statement to ensure that the objects used in the asynchronous data transfer statements are not prematurely deallocated. This action is especially important for local stack objects and allocatable objects that may be deallocated before completion of the pending operation. If you do not specify the wait operation, the program may terminate with an access violation error. The following example shows use of the WAIT statement:
module mod
real, allocatable :: X(:)
end module mod
subroutine sbr()
use mod
integer :: Y(500)
!X and Y initialization
allocate (X(500))
call foo1(X, Y)
!asynchronous writing
open(1, asynchronous='yes')
write(1, asynchronous='yes') X, Y
!some computation
call foo2()
!wait operation
wait(1)
!X deallocation
deallocate(X)
!stack allocated object Y will be deallocated when the routine returns
end subroutine sbr
You can use the INQUIRE statement with the keyword of ASYNCHRONOUS (ASYNCHRONOUS=specifier) to determine whether asynchronous I/O is allowed. If it is allowed, a value of YES is returned.
Additionally, you can use the INQUIRE statement with the keyword of PENDING (PENDING= specifier) to determine whether previously pending asynchronous data transfers are complete.
If an ID= specifier appears and the specified data transfer operation is complete, the variable specified by PENDING is assigned the value False and the INQUIRE statement performs a wait operation for the specified data transfer.
If the ID= specifier is omitted and all previously pending data transfer operations for the specified unit are complete, the variable specified by PENDING is assigned the value False and the INQUIRE statement performs wait operations for all previously pending data transfers for the specified unit.
Otherwise, the variable specified by PENDING is assigned the value True and no wait operations are performed. Previously pending data transfers remain pending.
Use the ASYNCHRONOUS Attribute
A data attribute called ASYNCHRONOUS specifies that a variable may be subject to asynchronous input/output. Assigning this attribute to a variable allows certain optimizations to occur.