Visible to Intel only — GUID: GUID-6DEAFDEA-3DAF-4EEE-8067-DEDDA5A56E5D
Visible to Intel only — GUID: GUID-6DEAFDEA-3DAF-4EEE-8067-DEDDA5A56E5D
OpenMP* Directives
This is a summary of the OpenMP* directives supported in the Intel® Fortran Compiler. For detailed information about the OpenMP API, see the OpenMP Application Program Interface Version 5.1 specification, which is available from the OpenMP web site.
In the directive lists below, an OpenMP directive is qualified with the word Directive when the name of the directive is also used for one or more elements besides the directive. For example: FLUSH refers to a directive, a statement, and a subroutine.
PARALLEL Directive
Use this directive to form a team of threads and execute those threads in parallel.
Directive |
Description |
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Defines a parallel region. |
TASKING Directives
Use these directives for deferring execution.
Directive |
Description |
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Defines a task region. |
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Specifies that the iterations of one or more associated DO loops should be executed using OpenMP tasks. The iterations are distributed across tasks that are created by the construct and scheduled to be executed in parallel by the current team. |
WORKSHARING Directives
Use these directives to share work among a team of threads.
Directive |
Description |
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Identifies an iterative worksharing construct in which the iterations of the associated loop should be divided among threads in a team. |
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LOOP Directive (ifx) |
Specifies that the iterations of the associated DO loops can execute in any order or concurrently. This feature is only available for ifx. |
Specifies that the enclosed SECTION directives define blocks of code to be divided among threads in a team. Each section is executed once by a thread in the team. |
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SCOPE (ifx) |
Specifies a block of code to be executed by all threads of the team. This feature is only available for ifx. |
Specifies that a block of code is to be executed by only one thread in the team. |
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Divides the work of executing a block of statements or constructs into separate units. It also distributes the work of executing the units to threads of the team so each unit is only executed once. |
SYNCHRONIZATION Directives
Use these directives to synchronize between threads.
Directive |
Description |
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Ensures that a specific memory location is updated atomically; this prevents the possibility of multiple, simultaneous reading and writing of threads. |
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Synchronizes all the threads in a team. It causes each thread to wait until all of the other threads in the team have reached the barrier. |
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Restricts access to a block of code to only one thread at a time. |
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Identifies synchronization points at which the threads in a team must provide a consistent view of memory. |
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Specifies a structured block that is executed by a subset of the threads of the current team. This feature is only available for ifx. |
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MASTER (deprecated, see MASKED) |
Specifies a block of code to be executed by the primary thread of the team. |
Specifies a block of code that the threads in a team must execute in the natural order of the loop iterations. |
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Specifies a wait for the completion of all child tasks of the current task and all of their descendant tasks. |
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Specifies a wait on the completion of child tasks generated since the beginning of the current task. |
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Specifies that the current task can be suspended at this point in favor of execution of a different task. |
Data Environment Directives
Use these directives to affect the data environment.
Directive |
Description |
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DECLARE MAPPER (ifx) |
Declares a user-defined data mapper for derived types and variables that can subsequently be used in MAP clauses. DECLARE MAPPER is a pure directive, so it can appear in a Fortran PURE procedure. This feature is only available for ifx. |
DEPOBJ (ifx) |
Initializes, updates, or uninitializes an OpenMP depend object. This feature is only available for ifx. |
GROUPPRIVATE (ifx) |
Specifies that a variable is replicated once per group of threads participating in a parallel region. This feature is only available for ifx. |
PREFETCH (ifx) |
Suggests to the compiler to preload data into cache. Preloading data in cache minimizes the effects of memory latency. PREFETCH is a pure directive, so it can appear in a Fortran PURE procedure. This is an Intel® language extension. This feature is only available for ifx. |
Specifies named common blocks to be private (local) to each thread; they are global within the thread. |
Offload Target Control Directives
Use these directives to control execution on one or more offload targets.
Directive |
Description |
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DECLARE TARGET (ifx) |
Specifies named routines and variables that are created or mapped to a device. DECLARE TARGET is a pure directive, so it can appear in a Fortran PURE procedure. This feature is only available for ifx. |
DECLARE VARIANT (ifx) |
Identifies a variant of a base procedure and specifies the context in which this variant is used. DECLARE VARIANT is a pure directive, so it can appear in a Fortran PURE procedure. This feature is only available for ifx. |
DISPATCH (ifx) |
Determines if a procedure variant is called for a given subroutine or function call. This feature is only available for ifx. |
Specifies that loop iterations will be distributed among the primary threads of all thread teams in a league created by a teams construct. |
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INTEROP (ifx) |
Identifies a foreign runtime context and identifies runtime characteristics of that context, enabling interoperability with it. This feature is only available for ifx. |
REQUIRES (ifx) |
Lists the features that an implementation must support so that the program compiles and runs correctly. This feature is only available for ifx. |
TARGET Directive (ifx) |
Creates a device data environment and executes the construct on that device. This feature is only available for ifx. |
TARGET DATA (ifx) |
Maps variables to a device data environment for the extent of the region. This feature is only available for ifx. |
TARGET ENTER DATA (ifx) |
Specifies that variables are mapped to a device data environment. This feature is only available for ifx. |
TARGET EXIT DATA (ifx) |
Specifies that variables are unmapped from a device data environment. This feature is only available for ifx. |
TEAMS (ifx) |
Creates a league of thread teams inside a target region to execute a structured block in the primary thread of each team. This feature is only available for ifx. |
TARGET UPDATE (ifx) |
Makes the list items in the device data environment consistent with their corresponding original list items. This feature is only available for ifx. |
Vectorization Directives
Use these directives to control execution on vector hardware.
Directive |
Description |
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Specifies a scan computation that updates each list item in each iteration of an enclosing SIMD loop nest. |
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Transforms the loop into a loop that will be executed concurrently using SIMD instructions. SIMD is a pure directive, so it can appear in a Fortran PURE procedure. |
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Generates a SIMD procedure. DECLARE SIMD is a pure directive, so it can appear in a Fortran PURE procedure. |
Loop Transformation Directives
Use these directives to transform or restructure loops.
Directive |
Description |
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TILE (ifx) |
Tiles (or blocks) one or more loops in a loop nest. TILE is a pure directive, so it can appear in a Fortran PURE procedure. This feature is only available for ifx. |
UNROLL (ifx) |
Partially or fully unrolls a DO loop. UNROLL is a pure directive, so it can appear in a Fortran PURE procedure. This feature is only available for ifx. |
Cancellation Constructs
Directive |
Description |
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Requests cancellation of the innermost enclosing region of the construct specified, and causes the encountering task to proceed to the end of the cancelled construct. |
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Defines a point at which implicit or explicit tasks check to see if cancellation has been requested for the innermost enclosing region of the type specified. |
Memory Space Allocation Directives
Use these declarative directives to allocate memory space.
Directive |
Description |
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ALLOCATE (ifx) |
Specifies memory allocators to use for object allocation and deallocation. This feature is only available for ifx. |
ALLOCATORS (ifx) |
Specifies memory allocators to be used to allocate variables in the associated Fortran ALLOCATE statement and to use in their deallocation. This feature is only available for ifx. |
Reduction Directive
Use this directive to declare a user-defined reduction operation.
Directive |
Description |
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Defines a user-defined reduction and associates a reduction identifier with the operation. DECLARE REDUCTION is a pure directive, so it can appear in a Fortran PURE procedure. |
Utility and Informational Directives
Use these directives to get utility or informational data.
Utility directives provide information that aids code readability, and may facilitate interactions with the implementation. Utility directives are informational, unless an AT clause specifies EXECUTION, which makes the directive executable.
Informational directives provide implementation information about properties of the code, which may aid in optimization.
Directive |
Description |
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ASSUMES (ifx) |
States assumptions about the program unit in which it appears, and all code that can be reached by code in that program unit. Assumptions may aid compiler optimization. ASSUMES is a pure directive, so it can appear in a Fortran PURE procedure. This feature is only available for ifx. |
ERROR (ifx) |
Causes a compile or runtime message to be displayed; it may terminate compilation of the current program unit, or initiate program termination during runtime. This feature is only available for ifx. The directive is pure only if COMPILATION is specified for the AT clause, or the AT clause does not appear. Pure directives can appear in Fortran PURE procedures. |
NOTHING (ifx) |
Provides documentary clarity in conditionally compiled code or conditional OpenMP* code. It has no effect on the semantics or execution of the program. NOTHING is a pure directive, so it can appear in a Fortran PURE procedure. This feature is only available for ifx. |
Combined and Composite Directives
Use these directives as shortcuts for multiple directives in sequence. A combined construct is a shortcut for specifying one construct immediately nested inside another construct. A combined construct is semantically identical to that of explicitly specifying the first construct containing one instance of the second construct and no other statements.
A composite construct is composed of two constructs but does not have identical semantics to specifying one of the constructs immediately nested inside the other. A composite construct either adds semantics not included in the constructs from which it is composed or the nesting of the one construct inside the other is not conforming.
Directive |
Description |
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Specifies a loop that can be executed in parallel by multiple threads that are members of multiple teams. |
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Specifies a loop that will be executed in parallel by multiple threads that are members of multiple teams. It will be executed concurrently using SIMD instructions. |
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Specifies a loop that will be distributed across the primary threads of the teams region. It will be executed concurrently using SIMD instructions |
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Specifies a loop that can be executed concurrently using SIMD instructions. |
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Provides an abbreviated way to specify a TASKLOOP construct inside a MASKED construct. This feature is only available for ifx. |
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Provides an abbreviated way to specify a TASKLOOP SIMD construct inside a MASKED construct. This feature is only available for ifx. |
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Deprecated; provides an abbreviated way to specify a TASKLOOP construct inside a MASTER construct. This feature is only available for ifx. |
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Deprecated; provides an abbreviated way to specify a TASKLOOP SIMD construct inside a MASTER construct. This feature is only available for ifx. |
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Provides an abbreviated way to specify a parallel region containing a single DO directive. |
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Specifies a loop that can be executed concurrently using SIMD instructions. It provides a shortcut for specifying a PARALLEL construct containing one SIMD loop construct and no other statement. |
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Provides an abbreviated way to specify a parallel region containing a single LOOP construct. This feature is only available for ifx. |
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Provides an abbreviated way to specify a MASKED construct inside a PARALLEL construct. This feature is only available for ifx. |
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Provides an abbreviated way to specify a MASKED TASKLOOP construct inside a PARALLEL construct. This feature is only available for ifx. |
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Provides an abbreviated way to specify a MASKED TASKLOOP SIMD construct inside a PARALLEL construct. This feature is only available for ifx. |
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Deprecated; provides an abbreviated way to specify a MASTER construct inside a PARALLEL construct. This feature is only available for ifx. |
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Deprecated; provides an abbreviated way to specify a MASTER TASKLOOP construct inside a PARALLEL construct. This feature is only available for ifx. |
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Deprecated; provides an abbreviated way to specify a MASTER TASKLOOP SIMD construct inside a PARALLEL construct. This feature is only available for ifx. |
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Provides an abbreviated way to specify a parallel region containing a single SECTIONS directive. The semantics are identical to explicitly specifying a PARALLEL directive immediately followed by a SECTIONS directive. |
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Provides an abbreviated way to specify a parallel region containing a single WORKSHARE directive. |
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Creates a device data environment in a parallel region and executes the construct on that device. |
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Provides an abbreviated way to specify a TARGET construct that contains a PARALLEL DO construct and no other statement between them. |
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Specifies a TARGET construct that contains a PARALLEL DO SIMD construct and no other statement between them. |
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Provides an abbreviated way to specify a TARGET region that contains a single PARALLEL LOOP construct and no other statements. This feature is only available for ifx. |
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Specifies a TARGET construct that contains a SIMD construct and no other statement between them. |
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Creates a device data environment and executes the construct on the same device. It also creates a league of thread teams with the primary thread in each team executing the structured block |
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Creates a device data environment and then executes the construct on that device. It also specifies that loop iterations will be distributed among the primary threads of all thread teams in a league created by a TEAMS construct. |
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Creates a device data environment and then executes the construct on that device. It also specifies a loop that can be executed in parallel by multiple threads that are members of multiple teams created by a TEAMS construct. |
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Creates a device data environment and then executes the construct on that device. It also specifies a loop that can be executed in parallel by multiple threads that are members of multiple teams created by a TEAMS construct. The loop will be distributed across the teams, which will be executed concurrently using SIMD instructions. |
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Creates a device data environment and then executes the construct on that device. It also specifies that loop iterations will be distributed among the primary threads of all thread teams in a league created by a teams construct. It will be executed concurrently using SIMD instructions. |
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Provides an abbreviated way to specify a TARGET region that contains a single TEAMS LOOP construct with no other statements. This feature is only available for ifx. |
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Specifies a loop that can be executed concurrently using SIMD instructions and that those iterations will also be executed in parallel using OpenMP tasks. |
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Creates a league of thread teams to execute the structured block in the primary thread of each team. It also specifies that loop iterations will be distributed among the primary threads of all thread teams in a league created by a TEAMS construct. |
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Creates a league of thread teams and specifies that the associated loop can be executed in parallel by multiple threads that are members of multiple teams. |
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Creates a league of thread teams to execute a structured block in the primary thread of each team. It also specifies a loop that can be executed in parallel by multiple threads that are members of multiple teams. The loop will be distributed across the primary threads of the teams region, which will be executed concurrently using SIMD instructions. |
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Creates a league of thread teams to execute the structured block in the primary thread of each team. It also specifies a loop that will be distributed across the primary threads of the teams. |
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Provides an abbreviated way to specify a TEAMS region that contains a single LOOP construct with no other statements. This feature is only available for ifx. |
Footnotes:
1 This directive specifies a composite construct.