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hipfort: Fortran Interface For GPU Kernel Libraries

This repository contains the source and testing for hipfort.
This is a FORTRAN interface library for accessing GPU Kernels.

Known issues

  • hipSOLVER interfaces will only work for AMD GPUs.
  • We recommend gfortran version 7.5.0 or newer as we have observed problems with older versions.

Build and test hipfort from source

Install gfortran, git, cmake, and HIP, if not yet installed. Then build, install, and test hipfort from source with the commands below:

git clone https://github.com/ROCmSoftwarePlatform/hipfort
mkdir build ; cd build
cmake -DHIPFORT_INSTALL_DIR=/tmp/hipfort ..
make install
export PATH=/tmp/hipfort/bin:$PATH
cd ../test/f2003/vecadd
hipfc -v hip_implementation.cpp main.f03
./a.out

The above steps demonstrate the use of the hipfc utility. hipfc calls hipcc for non-Fortran files and then compiles the Fortran files and links to the object file created by hipcc.

Fortran interfaces

hipfort provides interfaces to the following HIP and ROCm libraries:

  • HIP: HIP runtime, hipBLAS, hipSPARSE, hipFFT, hipRAND, hipSOLVER
  • ROCm: rocBLAS, rocSPARSE, rocFFT, rocRAND, rocSOLVER

While the HIP interfaces and libraries allow to write portable code for both AMD and CUDA devices, the ROCm ones can only be used with AMD devices.

The available interfaces depend on the Fortran compiler that is used to compile the hipfort modules and libraries. As the interfaces make use of the iso_c_binding module, the minimum requirement is a Fortran compiler that supports the Fortran 2003 standard (f2003). These interfaces typically require to pass type(c_ptr) variables and the number of bytes to memory management (e.g. hipMalloc) and math library routines (e.g. hipblasDGEMM).

If your compiler understands the Fortran 2008 (f2008) code constructs that occur in hipfort's source and test files, additional interfaces are compiled into the hipfort modules and libraries. These directly take Fortran (array) variables and the number of elements instead of type(c_ptr) variables and the number of bytes, respectively. Therefore, they reduce the chance to introduce compile-time and runtime errors into your code and makes it easier to read too.

NOTE: If you plan to use the f2008 interfaces, we recommend gfortran version 7.5.0 or newer as we have observed problems with older versions.

Example

While you could write the following using the f2003 interfaces:

use iso_c_binding
use hipfort
integer     :: ierr        ! error code
real        :: a_h(5,6)    ! host array
type(c_ptr) :: a_d         ! device array pointer
!
ierr = hipMalloc(a_d,size(a_h)*4_c_size_t) ! real has 4 bytes
                                           ! append suffix '_c_size_t' to write '4' 
                                           ! as 'integer(c_size_t)'
ierr = hipMemcpy(a_d,c_loc(a_h),size(a_h)*4_c_size_t,hipMemcpyHostToDevice)

you could express the same with the f2008 interfaces as follows:

use hipfort
integer     :: ierr        ! error code
real        :: a_h(5,6)    ! host array
real,pointer :: a_d(:,:)   ! device array pointer
!
ierr = hipMalloc(a_d,shape(a_h))      ! or hipMalloc(a_d,[5,6]) or hipMalloc(a_d,5,6) or hipMalloc(a_d,mold=a_h)
ierr = hipMemcpy(a_d,a_h,size(a_h),hipMemcpyHostToDevice)

The f2008 interfaces also overload hipMalloc similar to the Fortran 2008 ALLOCATE intrinsic. So you could write the whole code as shown below:

integer     :: ierr        ! error code
real        :: a_h(5,6)    ! host array
real,pointer :: a_d(:,:)   ! device array pointer
!
ierr = hipMalloc(a_d,source=a_h)       ! take shape (incl. bounds) of a_h and perform a blocking copy to device

In addition to source, there is also dsource in case the source is a device array.

Supported HIP and ROCm API

The current batch of HIPFORT interfaces is derived from ROCm 4.5.0. The following tables list the supported API:

You may further find it convenient to directly use the search function on HIPFORT's documentation page to get information on the arguments of an interface

hipfc wrapper compiler and Makefile.hipfort

Aside from Fortran interfaces to the HIP and ROCm libraries, hipfort ships the hipfc wrapper compiler and a Makefile.hipfort that can be included into a project's build system. hipfc located in the bin/ subdirectory and Makefile.hipfort in share/hipfort of the repository. While both can be configured via a number of environment variables, hipfc also understands a greater number of command line options that you can print to screen via hipfc -h.

Among the environment variables, the most important are:

Variable Description Default
HIP_PLATFORM The platform to compile for (either 'amd' or 'nvidia') amd
ROCM_PATH Path to ROCm installation /opt/rocm
CUDA_PATH Path to CUDA installation /usr/local/cuda
HIPFORT_COMPILER Fortran compiler to be used gfortran

Examples and tests

The examples, which simultaneously serve as tests, are located in the f2003 and f2008 subdirectories of the repo's test/ folder. Both test collections implement the same tests but require that the used Fortran compiler supports at least the respective Fortran standard. There are further subcategories per hip* or roc* library that is tested.

Building a single test

NOTE: Only the hip* tests can be compiled for CUDA devices. The roc* tests cannot. NOTE: The make targets append the linker flags for AMD devices to the CFLAGS variable per default.

To compile for AMD devices you can simply call make in the test directories.

If you want to compile for CUDA devices, you need to build as follows:

make CFLAGS="--offload-arch=sm_70 <libs>"

where you must substitute <libs> by -lcublas, -lcusparse, ... as needed. Compilation typically boils down to calling hipfc as follows:

hipfc <CFLAGS> <test_name>.f03 -o <test_name>

The vecadd test is the exception as the additional HIP C++ source must be supplied too:

hipfc <CFLAGS> hip_implementation.cpp main.f03 -o main

Building and running all tests

You can build and run the whole test collection from the build/ folder (see Build and test hipfort from source) or from the test/ folder. The instructions are given below.

AMD devices

NOTE: Running all tests as below requires that all ROCm math libraries can be found at /opt/rocm. Specify a different ROCm location via the ROCM_PATH environment variable. NOTE: When using older ROCm versions, you might need to manually set the environment variable HIP_PLATFORM to hcc before running the tests.

cd build/
make all-tests-run

Alternatively:

cd test/
make run_all

CUDA devices

NOTE: Running all tests as below requires that CUDA can be found at /usr/local/cuda. Specify a different CUDA location via the CUDA_PATH environment variable or supply it to the CFLAGS variable by appending -cuda-path <path_to_cuda>. NOTE: Choose offload architecture value according to used device.

cd build/
make all-tests-run CFLAGS="--offload-arch=sm_70 -lcublas -lcusolver -lcufft"

Alternatively:

cd test/
make run_all CFLAGS="--offload-arch=sm_70 -lcublas -lcusolver -lcufft"

Copyright, License, and Disclaimer

Copyright (c) 2020-2022 Advanced Micro Devices, Inc. All rights reserved. [MITx11 License]

Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

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