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THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. ! ! //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// ! module SELF_Tensor_3D use SELF_Constants use SELF_Tensor_3D_t use SELF_GPU use SELF_GPUBLAS use iso_c_binding use iso_fortran_env implicit none type,extends(Tensor3D_t),public :: Tensor3D character(3) :: backend = "gpu" type(c_ptr) :: blas_handle type(c_ptr) :: interior_gpu type(c_ptr) :: boundary_gpu type(c_ptr) :: extBoundary_gpu contains procedure,public :: Init => Init_Tensor3D procedure,public :: Free => Free_Tensor3D procedure,public :: UpdateHost => UpdateHost_Tensor3D procedure,public :: UpdateDevice => UpdateDevice_Tensor3D endtype Tensor3D contains subroutine Init_Tensor3D(this,interp,nVar,nElem) implicit none class(Tensor3D),intent(out) :: this type(Lagrange),target,intent(in) :: interp integer,intent(in) :: nVar integer,intent(in) :: nElem ! local integer :: i this%interp => interp this%nVar = nVar this%nElem = nElem this%N = interp%N this%M = interp%M allocate(this%interior(1:interp%N+1,1:interp%N+1,1:interp%N+1,1:nelem,1:nvar,1:3,1:3), & this%boundary(1:interp%N+1,1:interp%N+1,1:6,1:nelem,1:nvar,1:3,1:3), & this%extBoundary(1:interp%N+1,1:interp%N+1,1:6,1:nelem,1:nvar,1:3,1:3)) allocate(this%meta(1:nVar)) allocate(this%eqn(1:9*nVar)) this%interior = 0.0_prec this%boundary = 0.0_prec this%extBoundary = 0.0_prec ! Initialize equation parser ! This is done to prevent segmentation faults that arise ! when building with amdflang that are traced back to ! feqparse_functions.f90 : finalize routine ! When the equation parser is not initialized, the ! functions are not allocated, which I think are the ! source of the segfault - joe@fluidnumerics.com do i = 1,4*nvar this%eqn(i) = EquationParser('f=0',(/'x','y','z','t'/)) enddo call gpuCheck(hipMalloc(this%interior_gpu,sizeof(this%interior))) call gpuCheck(hipMalloc(this%boundary_gpu,sizeof(this%boundary))) call gpuCheck(hipMalloc(this%extBoundary_gpu,sizeof(this%extBoundary))) call hipblasCheck(hipblasCreate(this%blas_handle)) call this%UpdateDevice() endsubroutine Init_Tensor3D subroutine Free_Tensor3D(this) implicit none class(Tensor3D),intent(inout) :: this this%interp => null() this%nVar = 0 this%nElem = 0 deallocate(this%interior) deallocate(this%boundary) deallocate(this%extBoundary) deallocate(this%meta) deallocate(this%eqn) call gpuCheck(hipFree(this%interior_gpu)) call gpuCheck(hipFree(this%boundary_gpu)) call gpuCheck(hipFree(this%extBoundary_gpu)) call hipblasCheck(hipblasDestroy(this%blas_handle)) endsubroutine Free_Tensor3D subroutine UpdateHost_Tensor3D(this) implicit none class(Tensor3D),intent(inout) :: this call gpuCheck(hipMemcpy(c_loc(this%interior),this%interior_gpu,sizeof(this%interior),hipMemcpyDeviceToHost)) call gpuCheck(hipMemcpy(c_loc(this%boundary),this%boundary_gpu,sizeof(this%boundary),hipMemcpyDeviceToHost)) call gpuCheck(hipMemcpy(c_loc(this%extboundary),this%extboundary_gpu,sizeof(this%extboundary),hipMemcpyDeviceToHost)) endsubroutine UpdateHost_Tensor3D subroutine UpdateDevice_Tensor3D(this) implicit none class(Tensor3D),intent(inout) :: this call gpuCheck(hipMemcpy(this%interior_gpu,c_loc(this%interior),sizeof(this%interior),hipMemcpyHostToDevice)) call gpuCheck(hipMemcpy(this%boundary_gpu,c_loc(this%boundary),sizeof(this%boundary),hipMemcpyHostToDevice)) call gpuCheck(hipMemcpy(this%extboundary_gpu,c_loc(this%extboundary),sizeof(this%extboundary),hipMemcpyHostToDevice)) endsubroutine UpdateDevice_Tensor3D endmodule SELF_Tensor_3D