! 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 psb_s_vectordev_mod use psb_base_vectordev_mod interface registerMapped function registerMappedFloat(buf,d_p,n,dummy) & & result(res) bind(c,name='registerMappedFloat') use iso_c_binding integer(c_int) :: res type(c_ptr), value :: buf type(c_ptr) :: d_p integer(c_int),value :: n real(c_float), value :: dummy end function registerMappedFloat end interface interface writeMultiVecDevice function writeMultiVecDeviceFloat(deviceVec,hostVec) & & result(res) bind(c,name='writeMultiVecDeviceFloat') use iso_c_binding integer(c_int) :: res type(c_ptr), value :: deviceVec real(c_float) :: hostVec(*) end function writeMultiVecDeviceFloat function writeMultiVecDeviceFloatR2(deviceVec,hostVec,ld) & & result(res) bind(c,name='writeMultiVecDeviceFloatR2') use iso_c_binding integer(c_int) :: res type(c_ptr), value :: deviceVec integer(c_int), value :: ld real(c_float) :: hostVec(ld,*) end function writeMultiVecDeviceFloatR2 end interface interface readMultiVecDevice function readMultiVecDeviceFloat(deviceVec,hostVec) & & result(res) bind(c,name='readMultiVecDeviceFloat') use iso_c_binding integer(c_int) :: res type(c_ptr), value :: deviceVec real(c_float) :: hostVec(*) end function readMultiVecDeviceFloat function readMultiVecDeviceFloatR2(deviceVec,hostVec,ld) & & result(res) bind(c,name='readMultiVecDeviceFloatR2') use iso_c_binding integer(c_int) :: res type(c_ptr), value :: deviceVec integer(c_int), value :: ld real(c_float) :: hostVec(ld,*) end function readMultiVecDeviceFloatR2 end interface interface allocateFloat function allocateFloat(didx,n) & & result(res) bind(c,name='allocateFloat') use iso_c_binding type(c_ptr) :: didx integer(c_int),value :: n integer(c_int) :: res end function allocateFloat function allocateMultiFloat(didx,m,n) & & result(res) bind(c,name='allocateMultiFloat') use iso_c_binding type(c_ptr) :: didx integer(c_int),value :: m,n integer(c_int) :: res end function allocateMultiFloat end interface interface writeFloat function writeFloat(didx,hidx,n) & & result(res) bind(c,name='writeFloat') use iso_c_binding integer(c_int) :: res type(c_ptr), value :: didx real(c_float) :: hidx(*) integer(c_int),value :: n end function writeFloat function writeFloatFirst(first,didx,hidx,n,IndexBase) & & result(res) bind(c,name='writeFloatFirst') use iso_c_binding integer(c_int) :: res type(c_ptr), value :: didx real(c_float) :: hidx(*) integer(c_int),value :: n, first, IndexBase end function writeFloatFirst function writeMultiFloat(didx,hidx,m,n) & & result(res) bind(c,name='writeMultiFloat') use iso_c_binding integer(c_int) :: res type(c_ptr), value :: didx real(c_float) :: hidx(m,*) integer(c_int),value :: m,n end function writeMultiFloat end interface interface readFloat function readFloat(didx,hidx,n) & & result(res) bind(c,name='readFloat') use iso_c_binding integer(c_int) :: res type(c_ptr), value :: didx real(c_float) :: hidx(*) integer(c_int),value :: n end function readFloat function readFloatFirst(first,didx,hidx,n,IndexBase) & & result(res) bind(c,name='readFloatFirst') use iso_c_binding integer(c_int) :: res type(c_ptr), value :: didx real(c_float) :: hidx(*) integer(c_int),value :: n, first, IndexBase end function readFloatFirst function readMultiFloat(didx,hidx,m,n) & & result(res) bind(c,name='readMultiFloat') use iso_c_binding integer(c_int) :: res type(c_ptr), value :: didx real(c_float) :: hidx(m,*) integer(c_int),value :: m,n end function readMultiFloat end interface interface subroutine freeFloat(didx) & & bind(c,name='freeFloat') use iso_c_binding type(c_ptr), value :: didx end subroutine freeFloat end interface interface setScalDevice function setScalMultiVecDeviceFloat(val, first, last, & & indexBase, deviceVecX) result(res) & & bind(c,name='setscalMultiVecDeviceFloat') use iso_c_binding integer(c_int) :: res integer(c_int), value :: first,last,indexbase real(c_float), value :: val type(c_ptr), value :: deviceVecX end function setScalMultiVecDeviceFloat end interface interface function geinsMultiVecDeviceFloat(n,deviceVecIrl,deviceVecVal,& & dupl,indexbase,deviceVecX) & & result(res) bind(c,name='geinsMultiVecDeviceFloat') use iso_c_binding integer(c_int) :: res integer(c_int), value :: n, dupl,indexbase type(c_ptr), value :: deviceVecIrl, deviceVecVal, deviceVecX end function geinsMultiVecDeviceFloat end interface ! New gather functions interface function igathMultiVecDeviceFloat(deviceVec, vectorId, n, first, idx, & & hfirst, hostVec, indexBase) & & result(res) bind(c,name='igathMultiVecDeviceFloat') use iso_c_binding integer(c_int) :: res type(c_ptr), value :: deviceVec integer(c_int),value:: vectorId integer(c_int),value:: first, n, hfirst type(c_ptr),value :: idx type(c_ptr),value :: hostVec integer(c_int),value:: indexBase end function igathMultiVecDeviceFloat end interface interface function igathMultiVecDeviceFloatVecIdx(deviceVec, vectorId, n, first, idx, & & hfirst, hostVec, indexBase) & & result(res) bind(c,name='igathMultiVecDeviceFloatVecIdx') use iso_c_binding integer(c_int) :: res type(c_ptr), value :: deviceVec integer(c_int),value:: vectorId integer(c_int),value:: first, n, hfirst type(c_ptr),value :: idx type(c_ptr),value :: hostVec integer(c_int),value:: indexBase end function igathMultiVecDeviceFloatVecIdx end interface interface function iscatMultiVecDeviceFloat(deviceVec, vectorId, & & first, n, idx, hfirst, hostVec, indexBase, beta) & & result(res) bind(c,name='iscatMultiVecDeviceFloat') use iso_c_binding integer(c_int) :: res type(c_ptr), value :: deviceVec integer(c_int),value :: vectorId integer(c_int),value :: first, n, hfirst type(c_ptr), value :: idx type(c_ptr), value :: hostVec integer(c_int),value :: indexBase real(c_float),value :: beta end function iscatMultiVecDeviceFloat end interface interface function iscatMultiVecDeviceFloatVecIdx(deviceVec, vectorId, & & first, n, idx, hfirst, hostVec, indexBase, beta) & & result(res) bind(c,name='iscatMultiVecDeviceFloatVecIdx') use iso_c_binding integer(c_int) :: res type(c_ptr), value :: deviceVec integer(c_int),value :: vectorId integer(c_int),value :: first, n, hfirst type(c_ptr), value :: idx type(c_ptr), value :: hostVec integer(c_int),value :: indexBase real(c_float),value :: beta end function iscatMultiVecDeviceFloatVecIdx end interface interface scalMultiVecDevice function scalMultiVecDeviceFloat(alpha,deviceVecA) & & result(val) bind(c,name='scalMultiVecDeviceFloat') use iso_c_binding integer(c_int) :: res real(c_float), value :: alpha type(c_ptr), value :: deviceVecA end function scalMultiVecDeviceFloat end interface interface dotMultiVecDevice function dotMultiVecDeviceFloat(res, n,deviceVecA,deviceVecB) & & result(val) bind(c,name='dotMultiVecDeviceFloat') use iso_c_binding integer(c_int) :: val integer(c_int), value :: n real(c_float) :: res type(c_ptr), value :: deviceVecA, deviceVecB end function dotMultiVecDeviceFloat end interface interface nrm2MultiVecDevice function nrm2MultiVecDeviceFloat(res,n,deviceVecA) & & result(val) bind(c,name='nrm2MultiVecDeviceFloat') use iso_c_binding integer(c_int) :: val integer(c_int), value :: n real(c_float) :: res type(c_ptr), value :: deviceVecA end function nrm2MultiVecDeviceFloat end interface interface amaxMultiVecDevice function amaxMultiVecDeviceFloat(res,n,deviceVecA) & & result(val) bind(c,name='amaxMultiVecDeviceFloat') use iso_c_binding integer(c_int) :: val integer(c_int), value :: n real(c_float) :: res type(c_ptr), value :: deviceVecA end function amaxMultiVecDeviceFloat end interface interface asumMultiVecDevice function asumMultiVecDeviceFloat(res,n,deviceVecA) & & result(val) bind(c,name='asumMultiVecDeviceFloat') use iso_c_binding integer(c_int) :: val integer(c_int), value :: n real(c_float) :: res type(c_ptr), value :: deviceVecA end function asumMultiVecDeviceFloat end interface interface axpbyMultiVecDevice function axpbyMultiVecDeviceFloat(n,alpha,deviceVecA,beta,deviceVecB) & & result(res) bind(c,name='axpbyMultiVecDeviceFloat') use iso_c_binding integer(c_int) :: res integer(c_int), value :: n real(c_float), value :: alpha, beta type(c_ptr), value :: deviceVecA, deviceVecB end function axpbyMultiVecDeviceFloat end interface interface abgdxyzMultiVecDevice function abgdxyzMultiVecDeviceFloat(n,alpha,beta,gamma,delta,deviceVecX,& & deviceVecY,deviceVecZ) & & result(res) bind(c,name='abgdxyzMultiVecDeviceFloat') use iso_c_binding integer(c_int) :: res integer(c_int), value :: n real(c_float), value :: alpha, beta,gamma,delta type(c_ptr), value :: deviceVecX, deviceVecY, deviceVecZ end function abgdxyzMultiVecDeviceFloat end interface interface xyzwMultiVecDevice function xyzwMultiVecDeviceFloat(n,a,b,c,d,e,f,deviceVecX,& & deviceVecY,deviceVecZ,deviceVecW) & & result(res) bind(c,name='xyzwMultiVecDeviceFloat') use iso_c_binding integer(c_int) :: res integer(c_int), value :: n real(c_float), value :: a,b,c,d,e,f type(c_ptr), value :: deviceVecX, deviceVecY, deviceVecZ, deviceVecW end function xyzwMultiVecDeviceFloat end interface interface axyMultiVecDevice function axyMultiVecDeviceFloat(n,alpha,deviceVecA,deviceVecB) & & result(res) bind(c,name='axyMultiVecDeviceFloat') use iso_c_binding integer(c_int) :: res integer(c_int), value :: n real(c_float), value :: alpha type(c_ptr), value :: deviceVecA, deviceVecB end function axyMultiVecDeviceFloat end interface interface axybzMultiVecDevice function axybzMultiVecDeviceFloat(n,alpha,deviceVecA,deviceVecB,beta,deviceVecZ) & & result(res) bind(c,name='axybzMultiVecDeviceFloat') use iso_c_binding integer(c_int) :: res integer(c_int), value :: n real(c_float), value :: alpha, beta type(c_ptr), value :: deviceVecA, deviceVecB,deviceVecZ end function axybzMultiVecDeviceFloat end interface interface absMultiVecDevice function absMultiVecDeviceFloat(n,alpha,deviceVecA) & & result(res) bind(c,name='absMultiVecDeviceFloat') use iso_c_binding integer(c_int) :: res integer(c_int), value :: n real(c_float), value :: alpha type(c_ptr), value :: deviceVecA end function absMultiVecDeviceFloat function absMultiVecDeviceFloat2(n,alpha,deviceVecA,deviceVecB) & & result(res) bind(c,name='absMultiVecDeviceFloat2') use iso_c_binding integer(c_int) :: res integer(c_int), value :: n real(c_float), value :: alpha type(c_ptr), value :: deviceVecA, deviceVecB end function absMultiVecDeviceFloat2 end interface interface inner_register module procedure inner_registerFloat end interface interface inner_unregister module procedure inner_unregisterFloat end interface contains function inner_registerFloat(buffer,dval) result(res) real(c_float), allocatable, target :: buffer(:) type(c_ptr) :: dval integer(c_int) :: res real(c_float) :: dummy res = registerMapped(c_loc(buffer),dval,size(buffer), dummy) end function inner_registerFloat subroutine inner_unregisterFloat(buffer) real(c_float), allocatable, target :: buffer(:) call unregisterMapped(c_loc(buffer)) end subroutine inner_unregisterFloat end module psb_s_vectordev_mod