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psblas3/cuda/z_cusparse_mod.F90

314 lines
10 KiB
Fortran

! Parallel Sparse BLAS GPU plugin
! (C) Copyright 2013
!
! Salvatore Filippone
! Alessandro Fanfarillo
!
! Redistribution and use in source and binary forms, with or without
! modification, are permitted provided that the following conditions
! are met:
! 1. Redistributions of source code must retain the above copyright
! notice, this list of conditions and the following disclaimer.
! 2. Redistributions in binary form must reproduce the above copyright
! notice, this list of conditions, and the following disclaimer in the
! documentation and/or other materials provided with the distribution.
! 3. The name of the PSBLAS group or the names of its contributors may
! not be used to endorse or promote products derived from this
! software without specific written permission.
!
! THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
! ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
! TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
! PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE PSBLAS GROUP OR ITS CONTRIBUTORS
! BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
! CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
! SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
! INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
! CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
! ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
! POSSIBILITY OF SUCH DAMAGE.
!
module z_cusparse_mod
use base_cusparse_mod
type, bind(c) :: z_Cmat
type(c_ptr) :: Mat = c_null_ptr
end type z_Cmat
#if CUDA_SHORT_VERSION <= 10
type, bind(c) :: z_Hmat
type(c_ptr) :: Mat = c_null_ptr
end type z_Hmat
#endif
interface CSRGDeviceFree
function z_CSRGDeviceFree(Mat) &
& bind(c,name="z_CSRGDeviceFree") result(res)
use iso_c_binding
import z_Cmat
type(z_Cmat) :: Mat
integer(c_int) :: res
end function z_CSRGDeviceFree
end interface
interface CSRGDeviceSetMatType
function z_CSRGDeviceSetMatType(Mat,type) &
& bind(c,name="z_CSRGDeviceSetMatType") result(res)
use iso_c_binding
import z_Cmat
type(z_Cmat) :: Mat
integer(c_int),value :: type
integer(c_int) :: res
end function z_CSRGDeviceSetMatType
end interface
interface CSRGDeviceSetMatFillMode
function z_CSRGDeviceSetMatFillMode(Mat,type) &
& bind(c,name="z_CSRGDeviceSetMatFillMode") result(res)
use iso_c_binding
import z_Cmat
type(z_Cmat) :: Mat
integer(c_int),value :: type
integer(c_int) :: res
end function z_CSRGDeviceSetMatFillMode
end interface
interface CSRGDeviceSetMatDiagType
function z_CSRGDeviceSetMatDiagType(Mat,type) &
& bind(c,name="z_CSRGDeviceSetMatDiagType") result(res)
use iso_c_binding
import z_Cmat
type(z_Cmat) :: Mat
integer(c_int),value :: type
integer(c_int) :: res
end function z_CSRGDeviceSetMatDiagType
end interface
interface CSRGDeviceSetMatIndexBase
function z_CSRGDeviceSetMatIndexBase(Mat,type) &
& bind(c,name="z_CSRGDeviceSetMatIndexBase") result(res)
use iso_c_binding
import z_Cmat
type(z_Cmat) :: Mat
integer(c_int),value :: type
integer(c_int) :: res
end function z_CSRGDeviceSetMatIndexBase
end interface
#if CUDA_SHORT_VERSION <= 10
interface CSRGDeviceCsrsmAnalysis
function z_CSRGDeviceCsrsmAnalysis(Mat) &
& bind(c,name="z_CSRGDeviceCsrsmAnalysis") result(res)
use iso_c_binding
import z_Cmat
type(z_Cmat) :: Mat
integer(c_int) :: res
end function z_CSRGDeviceCsrsmAnalysis
end interface
#else
interface CSRGIsNullSvBuffer
function z_CSRGIsNullSvBuffer(Mat) &
& bind(c,name="z_CSRGIsNullSvBuffer") result(res)
use iso_c_binding
import z_Cmat
type(z_Cmat) :: Mat
integer(c_int) :: res
end function z_CSRGIsNullSvBuffer
end interface
#endif
interface CSRGDeviceAlloc
function z_CSRGDeviceAlloc(Mat,nr,nc,nz) &
& bind(c,name="z_CSRGDeviceAlloc") result(res)
use iso_c_binding
import z_Cmat
type(z_Cmat) :: Mat
integer(c_int), value :: nr, nc, nz
integer(c_int) :: res
end function z_CSRGDeviceAlloc
end interface
interface CSRGDeviceGetParms
function z_CSRGDeviceGetParms(Mat,nr,nc,nz) &
& bind(c,name="z_CSRGDeviceGetParms") result(res)
use iso_c_binding
import z_Cmat
type(z_Cmat) :: Mat
integer(c_int) :: nr, nc, nz
integer(c_int) :: res
end function z_CSRGDeviceGetParms
end interface
interface spsvCSRGDevice
function z_spsvCSRGDevice(Mat,alpha,x,beta,y) &
& bind(c,name="z_spsvCSRGDevice") result(res)
use iso_c_binding
import z_Cmat
type(z_Cmat) :: Mat
type(c_ptr), value :: x
type(c_ptr), value :: y
complex(c_double_complex), value :: alpha,beta
integer(c_int) :: res
end function z_spsvCSRGDevice
end interface
interface spmvCSRGDevice
function z_spmvCSRGDevice(Mat,alpha,x,beta,y) &
& bind(c,name="z_spmvCSRGDevice") result(res)
use iso_c_binding
import z_Cmat
type(z_Cmat) :: Mat
type(c_ptr), value :: x
type(c_ptr), value :: y
complex(c_double_complex), value :: alpha,beta
integer(c_int) :: res
end function z_spmvCSRGDevice
end interface
interface CSRGHost2Device
function z_CSRGHost2Device(Mat,m,n,nz,irp,ja,val) &
& bind(c,name="z_CSRGHost2Device") result(res)
use iso_c_binding
import z_Cmat
type(z_Cmat) :: Mat
integer(c_int), value :: m,n,nz
integer(c_int) :: irp(*), ja(*)
complex(c_double_complex) :: val(*)
integer(c_int) :: res
end function z_CSRGHost2Device
end interface
interface CSRGDevice2Host
function z_CSRGDevice2Host(Mat,m,n,nz,irp,ja,val) &
& bind(c,name="z_CSRGDevice2Host") result(res)
use iso_c_binding
import z_Cmat
type(z_Cmat) :: Mat
integer(c_int), value :: m,n,nz
integer(c_int) :: irp(*), ja(*)
complex(c_double_complex) :: val(*)
integer(c_int) :: res
end function z_CSRGDevice2Host
end interface
#if CUDA_SHORT_VERSION <= 10
interface HYBGDeviceAlloc
function z_HYBGDeviceAlloc(Mat,nr,nc,nz) &
& bind(c,name="z_HYBGDeviceAlloc") result(res)
use iso_c_binding
import z_hmat
type(z_Hmat) :: Mat
integer(c_int), value :: nr, nc, nz
integer(c_int) :: res
end function z_HYBGDeviceAlloc
end interface
interface HYBGDeviceFree
function z_HYBGDeviceFree(Mat) &
& bind(c,name="z_HYBGDeviceFree") result(res)
use iso_c_binding
import z_Hmat
type(z_Hmat) :: Mat
integer(c_int) :: res
end function z_HYBGDeviceFree
end interface
interface HYBGDeviceSetMatType
function z_HYBGDeviceSetMatType(Mat,type) &
& bind(c,name="z_HYBGDeviceSetMatType") result(res)
use iso_c_binding
import z_Hmat
type(z_Hmat) :: Mat
integer(c_int),value :: type
integer(c_int) :: res
end function z_HYBGDeviceSetMatType
end interface
interface HYBGDeviceSetMatFillMode
function z_HYBGDeviceSetMatFillMode(Mat,type) &
& bind(c,name="z_HYBGDeviceSetMatFillMode") result(res)
use iso_c_binding
import z_Hmat
type(z_Hmat) :: Mat
integer(c_int),value :: type
integer(c_int) :: res
end function z_HYBGDeviceSetMatFillMode
end interface
interface HYBGDeviceSetMatDiagType
function z_HYBGDeviceSetMatDiagType(Mat,type) &
& bind(c,name="z_HYBGDeviceSetMatDiagType") result(res)
use iso_c_binding
import z_Hmat
type(z_Hmat) :: Mat
integer(c_int),value :: type
integer(c_int) :: res
end function z_HYBGDeviceSetMatDiagType
end interface
interface HYBGDeviceSetMatIndexBase
function z_HYBGDeviceSetMatIndexBase(Mat,type) &
& bind(c,name="z_HYBGDeviceSetMatIndexBase") result(res)
use iso_c_binding
import z_Hmat
type(z_Hmat) :: Mat
integer(c_int),value :: type
integer(c_int) :: res
end function z_HYBGDeviceSetMatIndexBase
end interface
interface HYBGDeviceHybsmAnalysis
function z_HYBGDeviceHybsmAnalysis(Mat) &
& bind(c,name="z_HYBGDeviceHybsmAnalysis") result(res)
use iso_c_binding
import z_Hmat
type(z_Hmat) :: Mat
integer(c_int) :: res
end function z_HYBGDeviceHybsmAnalysis
end interface
interface spsvHYBGDevice
function z_spsvHYBGDevice(Mat,alpha,x,beta,y) &
& bind(c,name="z_spsvHYBGDevice") result(res)
use iso_c_binding
import z_Hmat
type(z_Hmat) :: Mat
type(c_ptr), value :: x
type(c_ptr), value :: y
complex(c_double_complex), value :: alpha,beta
integer(c_int) :: res
end function z_spsvHYBGDevice
end interface
interface spmvHYBGDevice
function z_spmvHYBGDevice(Mat,alpha,x,beta,y) &
& bind(c,name="z_spmvHYBGDevice") result(res)
use iso_c_binding
import z_Hmat
type(z_Hmat) :: Mat
type(c_ptr), value :: x
type(c_ptr), value :: y
complex(c_double_complex), value :: alpha,beta
integer(c_int) :: res
end function z_spmvHYBGDevice
end interface
interface HYBGHost2Device
function z_HYBGHost2Device(Mat,m,n,nz,irp,ja,val) &
& bind(c,name="z_HYBGHost2Device") result(res)
use iso_c_binding
import z_Hmat
type(z_Hmat) :: Mat
integer(c_int), value :: m,n,nz
integer(c_int) :: irp(*), ja(*)
complex(c_double_complex) :: val(*)
integer(c_int) :: res
end function z_HYBGHost2Device
end interface
#endif
end module z_cusparse_mod