Develop Parallel Programs Easily and More Control to Developers
SC24, Atlanta, Georgia – November 14, 2024 – The OpenMP Architecture Review Board (ARB) is pleased to announce Version 6.0 of the OpenMP API Specification, a major upgrade of the OpenMP language. This new version opens up parallel programming to new applications, makes it easier to develop parallel programs, and gives more fine grain control to the developer. The OpenMP API is used in a range of fields including physics, automotive and aeronautical simulations, biotech (including drug design), automation, robotics and financial analysis. It covers the entire hardware spectrum from embedded and accelerator devices to multicore systems with shared-memory.
Improvements in usability and fine grain control
Parallel programs are now easier to write through simplified task programming, finer management of allocatable variables, and simplified writing of synchronous data transfers and loop transformations with more fine grain control of the memory to developers. The range of applications where OpenMP can be used has been greatly extended with better support for Fortran array syntax, and the latest versions of C and C++. Iterative applications, applications that use dynamic memory management, and applications that use task programming will also benefit from the new enhancements.
“OpenMP 6.0 includes several significant new features,” said Bronis R. de Supinski, the Chair of the OpenMP Language Committee. “In particular, the improvements to OpenMP tasking support will impact a large number of users, as OpenMP tasking is pervasive, with a key role in OpenMP device constructs as well as for programs that use tasking constructs on a host device.”
Standard development
Version 6.0 of the OpenMP specification was jointly developed by the OpenMP ARB, a group of major computer hardware and software vendors, as well as users throughout the OpenMP community. In addition to several minor improvements, the updated specification includes the following major additions:
- Simplification of task programming:
- Support for task execution by free-agent threads, which are threads that are not assigned to any team that is executing a parallel region;
- Enabling the recording of task graphs for efficient replay;
- Addition of transparent tasks that expand the set of tasks between which dependencies may be specified.
- Enhanced device support:
- Added support for array syntax applications: The workdistribute directive divides the execution of array notation into separate units of work, enhancing device support for Fortran;
- Enhanced control of memory allocations and accessibility, which makes it easier to manage allocatable variables;
- Expanded support for default data environment attributes;
- Easier writing of asynchronous data transfers by adding structured asynchronous data mapping regions;
- Better control of memory by extended mapping of data to devices;
- Added functionality to have per team memory on a device with the groupprivate directive
- Easier programming of loop transformations: Simplifying the use of loop fusion, reversal and interchange.
- Support for induction: Support to parallelize basic arithmetic operations and user-defined operations in loops that follow well-defined patterns.
- Support for parallelization of the latest C, C++ & Fortran language standards:
- Full support for C23, including C attribute syntax, Fortran 2023 and C++23;
- The introduction of new C/C++ attributes.
- Greater user control of storage resources and memory spaces:
- Addition of new memory traits for greater control of memory allocation;
- Provision of new API routines to define and to query memory spaces;
- Removal of Deprecated features: Features that were deprecated in versions 5.0, 5.1, and 5.2 have been removed.
“OpenMP 6.0 is a significant achievement that demonstrates the industry-wide collaboration and the hard work and dedication within the OpenMP community”, says Michael Klemm, CEO of the OpenMP ARB. “We strive to deliver high-level parallelism that is portable across three widely-implemented common general purpose languages. OpenMP API version 6.0 will help programmers write highly efficient parallel software for heterogeneous systems.”
Implementations
Implementers have already added parts of the OpenMP 6.0 specification in their products. Intel has added groupprivateand a feature enabling interoperability with libraries that may or may not use OpenMP offloading in the current release (2024.2). GNU has features including full support for C23, C++23 and Fortran 2023 available in GCC 14, the current release of GCC. In addition, vendors’ debugging and performance tools are being extended with OpenMP 6.0 features. More information can be found on the Resources tab of the OpenMP website, where you can also find links for OpenMP benchmarks and OpenMP research projects.
Education
The OpenMP YouTube channel is a great place to find educational videos about OpenMP, from entry-level to advanced, including information about the new features. OpenMP workshops where courses on OpenMP 6.0 are offered are the International Workshop on OpenMP (IWOMP), and the UK OpenMP Users’ Group. Of course, once OpenMP 6.0 implementations are widely available, the basic OpenMP courses given at universities and other venues will be updated. Finally, several books about OpenMP provide detailed lessons on the language and many OpenMP examples are available on the OpenMP website.
About OpenMP
The OpenMP ARB’s mission is to standardize directive-based multi-language high-level parallelism that is performant, productive and portable. Jointly defined by major computer hardware and software vendors, the OpenMP API is a portable, scalable model that gives parallel programmers a simple and flexible interface for developing parallel applications for platforms ranging from embedded systems and accelerator devices to multicore systems and shared-memory systems. The OpenMP ARB owns the OpenMP brand, oversees the OpenMP specification and produces and approves new versions of the specification. Further information can be found at http://www.openmp.org/.
Contacts
OpenMP Architecture Review Board
Matthijs van Waveren
[email protected]