Using PGI Accelerator compilers, programmers can accelerate applications on x64+accelerator platforms by adding OpenACC compiler directives to existing high-level standard-compliant Fortran, C and C++ programs and then recompiling with appropriate compiler options.
Sample Fortran matrix multiplication loop, tagged to be compiled for an accelerator.
!$acc kernels do k = 1,n1 do i = 1,n3 c(i,k) = 0.0 do j = 1,n2 c(i,k) = c(i,k) + a(i,j) * b(j,k) enddo enddo enddo !$acc end kernels
Until now, developers targeting HPC accelerators have had to rely on language extensions to their programs. x64+accelerators programmers have been required to program at a detailed level including a need to understand and specify data usage information and manually construct sequences of calls to manage all movement of data between the x64 host and the accelerator.
The PGI Accelerator compilers automatically analyze whole program structure and data, split portions of the application between the x64 host CPU and the accelerator device as specified by a standard set of user directives, and define and generate an optimized mapping of loops to automatically use the parallel cores, hardware threading capabilities and SIMD vector capabilities of modern accelerators. In addition to directives and pragmas that specify regions of code or functions to be accelerated, other directives give the programmer fine-grained control over the mapping of loops, allocation of memory, and optimization for the accelerator memory hierarchy. The PGI Accelerator compilers generate unified object files and executables that manage all movement of data to and from the accelerator while leveraging all existing host-side utilities—linker, librarians, makefiles—and require no changes to the existing standard HPC Linux/x64 programming environment.
Please also see the PGI Accelerator Programming user forum for additional questions and answers.
Q Which programming languages do the PGI Accelerator compilers support?
A PGI supports accelerators from within the PGFORTRAN Fortran 2003, PGCC® ANSI C99 and PGC++® gnu-compatible C++ compilers.
Q On which operating systems do PGI Accelerator compilers run?
A PGI Accelerator compilers run on 64-bit and 32-bit Linux, Windows and OS X. Radeon is unsupport on OS X.
Q Which accelerators can be targeted by PGI Accelerator compilers?
A PGI Accelerator compilers target all NVIDIA Tesla GPU accelerators with compute capability 2.0 or higher. In addition, they support the following accelerators from AMD:
Q Do I need to install any 3rd party software?
A To use NVIDIA CUDA-enable GPUs, you must first install the CUDA driver for your system. To use AMD Radeon GPUs, you must first install the Radeon driver for your system. All other necessary 3rd party software is included in the PGI installation packages.
Q Does the compiler support IEEE standard-floating point arithmetic?
A The accelerators available today support most of the IEEE floating-point standard. However, they do not support all the rounding modes, and some operations, notably square root, exponential, logarithm, and other transcendental functions, may not deliver full precision results. This is a hardware limitation that compilers cannot overcome.
Q Do PGI Accelerator compilers support double-precision?
Q Can I call a CUDA kernel function from my PGI compiled code?
A PGI is working on the design of a feature to allow you to call kernel functions written in CUDA or PTX or other languages directly from your C or Fortran program. We will announce this feature when it is available.
Q Does the compiler support two or more accelerators in the same program?
A As with CUDA, you can use two or more GPUs by using multiple threads, where each thread attaches to a different GPU and runs its kernels on that GPU. The current release does not include support to automatically control two or more GPUs from the same accelerator region.
Q Will PGI be dropping supporting for the PGI Accelerator directive syntax?
A PGI has no plans to drop support for PGI Accelerator syntax.
Q Can I run my program on a machine that doesn't have an accelerator on it?
A Yes. PGI Accelerator compilers can generate PGI Unified Binary technology executables that work in the presence or absence of an accelerator.
Q Do I have to rebuild my application for each different model accelerator?
A The accelerator code generated uses the same technology that is used for graphics applications and games; that is, the program uses a portable intermediate format which is then dynamically translated and re-optimized at run time by the drivers supplied by the vendor for the particular model of GPU in your machine. This preserves your investment by allowing your programs to continue to work even when you upgrade your accelerator, or use your program on a machine with a different model.
Q Can I use function or procedure calls in my GPU code?
A PGI 2014 includes support for procedure calls (the OpenACC routine directive) on NVIDIA GPUs. Support on AMD Radeon is planned for a future release.
Q In what timeframe will PGI be including OpenMP TR1 support?
A We do not believe OpenMP TR1 can be efficiently supported on target accelerators such as NVIDIA, AMD or other GPUs. The OpenMP accelerator subcommittee is working to modify the proposed TR1 directives and model to broaden its applicability. We hope this will be successful. PGI will continue to aggressively support OpenMP directives in our products, but we have no plans to add the OpenMP accelerator extensions until they are accepted into the OpenMP standard and only if they can be implemented efficiently across the broad range of HPC accelerator targets.
Q When will you support <my favorite feature> in your compiler?
A Some features cannot be supported due to limitations of the hardware. Other features are not being supported because they would not deliver satisfactory performance. Still other features are planned for future implementation. Your feedback can affect our priorities.
Q Which OpenACC features are supported in which release?
A PGI 2010 and later releases include the PGI Accelerator Fortran and C99 compilers supporting x64+NVIDIA systems running under Linux, OS X and Windows. PGI introduced support for OpenACC directives with Release 2012 version 12.6 of the PGI Accelerator compilers and support for C++ was added with Release 2013. OpenACC support for AMD accelerators was added with Release 2014.
Following is a list of OpenACC 1.0 features and the PGI version they were added.
|!$acc kernels||12.3||!$acc declare||12.3|
|present()||12.6||openacc.h C hdr file||12.3|
|present_or_copy()||12.6||openacc_lib.h Ftn hdr file||12.3|
|create()||12.3||acc_malloc() for C||12.3|
|present()||12.3||acc_free() for C||12.3|
|deviceptr() in C||12.3||Environment variables:|
|deviceptr() in Ftn||14.1||ACC_DEVICE_TYPE||12.3|
|within kernels region||acc_copyout||12.6|
|within parallel region||acc_ispresent||12.6|
|Kernels clauses||!$acc routine||14.1|
|Parallel clauses||bind name()||14.7|
|Loops clauses||#pragma atomic||14.4|
Q How much does it cost?
A License pricing for the PGI Accelerator compilers can be found in the pricing section. If you are a PGI licensee with a current PGI Subsciption, you may upgrade your license in accordance with PGI's standard product upgrade policy.
Q How can I try it?
A To try out the PGI Accelerator compilers, follow these three steps:
Please contact PGI Sales for exchange, upgrade or subscription renewal information.