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MPIT works with split grid now

This commit is contained in:
paboyle 2017-10-02 23:14:56 +01:00
parent 5625b47c7d
commit d54807b8c0
5 changed files with 100 additions and 120 deletions

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@ -96,6 +96,105 @@ void CartesianCommunicator::GlobalSumVector(ComplexD *c,int N)
GlobalSumVector((double *)c,2*N); GlobalSumVector((double *)c,2*N);
} }
#if defined( GRID_COMMS_MPI) || defined (GRID_COMMS_MPIT)
CartesianCommunicator::CartesianCommunicator(const std::vector<int> &processors,const CartesianCommunicator &parent)
{
_ndimension = processors.size();
assert(_ndimension = parent._ndimension);
//////////////////////////////////////////////////////////////////////////////////////////////////////
// split the communicator
//////////////////////////////////////////////////////////////////////////////////////////////////////
int Nparent;
MPI_Comm_size(parent.communicator,&Nparent);
int childsize=1;
for(int d=0;d<processors.size();d++) {
childsize *= processors[d];
}
int Nchild = Nparent/childsize;
assert (childsize * Nchild == Nparent);
int prank; MPI_Comm_rank(parent.communicator,&prank);
int crank = prank % childsize;
int ccomm = prank / childsize;
MPI_Comm comm_split;
if ( Nchild > 1 ) {
std::cout << GridLogMessage<<"Child communicator of "<< std::hex << parent.communicator << std::dec<<std::endl;
std::cout << GridLogMessage<<" parent grid["<< parent._ndimension<<"] ";
for(int d=0;d<parent._processors.size();d++) std::cout << parent._processors[d] << " ";
std::cout<<std::endl;
std::cout << GridLogMessage<<" child grid["<< _ndimension <<"] ";
for(int d=0;d<processors.size();d++) std::cout << processors[d] << " ";
std::cout<<std::endl;
int ierr= MPI_Comm_split(parent.communicator, ccomm,crank,&comm_split);
assert(ierr==0);
//////////////////////////////////////////////////////////////////////////////////////////////////////
// Declare victory
//////////////////////////////////////////////////////////////////////////////////////////////////////
std::cout << GridLogMessage<<"Divided communicator "<< parent._Nprocessors<<" into "
<<Nchild <<" communicators with " << childsize << " ranks"<<std::endl;
} else {
comm_split=parent.communicator;
// std::cout << "Passed parental communicator to a new communicator" <<std::endl;
}
//////////////////////////////////////////////////////////////////////////////////////////////////////
// Set up from the new split communicator
//////////////////////////////////////////////////////////////////////////////////////////////////////
InitFromMPICommunicator(processors,comm_split);
}
//////////////////////////////////////////////////////////////////////////////////////////////////////
// Take an MPI_Comm and self assemble
//////////////////////////////////////////////////////////////////////////////////////////////////////
void CartesianCommunicator::InitFromMPICommunicator(const std::vector<int> &processors, MPI_Comm communicator_base)
{
// if ( communicator_base != communicator_world ) {
// std::cout << "Cartesian communicator created with a non-world communicator"<<std::endl;
// }
_ndimension = processors.size();
_processor_coor.resize(_ndimension);
/////////////////////////////////
// Count the requested nodes
/////////////////////////////////
_Nprocessors=1;
_processors = processors;
for(int i=0;i<_ndimension;i++){
_Nprocessors*=_processors[i];
}
std::vector<int> periodic(_ndimension,1);
MPI_Cart_create(communicator_base, _ndimension,&_processors[0],&periodic[0],1,&communicator);
MPI_Comm_rank(communicator,&_processor);
MPI_Cart_coords(communicator,_processor,_ndimension,&_processor_coor[0]);
int Size;
MPI_Comm_size(communicator,&Size);
#ifdef GRID_COMMS_MPIT
communicator_halo.resize (2*_ndimension);
for(int i=0;i<_ndimension*2;i++){
MPI_Comm_dup(communicator,&communicator_halo[i]);
}
#endif
assert(Size==_Nprocessors);
}
CartesianCommunicator::CartesianCommunicator(const std::vector<int> &processors)
{
InitFromMPICommunicator(processors,communicator_world);
}
#endif
#if !defined( GRID_COMMS_MPI3) #if !defined( GRID_COMMS_MPI3)
int CartesianCommunicator::NodeCount(void) { return ProcessorCount();}; int CartesianCommunicator::NodeCount(void) { return ProcessorCount();};

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@ -157,8 +157,7 @@ class CartesianCommunicator {
CartesianCommunicator(const std::vector<int> &pdimensions_in); CartesianCommunicator(const std::vector<int> &pdimensions_in);
private: private:
#if defined (GRID_COMMS_MPI) #if defined (GRID_COMMS_MPI) || defined (GRID_COMMS_MPIT)
//|| defined (GRID_COMMS_MPI3)
//////////////////////////////////////////////// ////////////////////////////////////////////////
// Private initialise from an MPI communicator // Private initialise from an MPI communicator
// Can use after an MPI_Comm_split, but hidden from user so private // Can use after an MPI_Comm_split, but hidden from user so private

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@ -52,95 +52,6 @@ void CartesianCommunicator::Init(int *argc, char ***argv) {
MPI_Comm_dup (MPI_COMM_WORLD,&communicator_world); MPI_Comm_dup (MPI_COMM_WORLD,&communicator_world);
ShmInitGeneric(); ShmInitGeneric();
} }
CartesianCommunicator::CartesianCommunicator(const std::vector<int> &processors)
{
InitFromMPICommunicator(processors,communicator_world);
// std::cout << "Passed communicator world to a new communicator" <<communicator<<std::endl;
}
CartesianCommunicator::CartesianCommunicator(const std::vector<int> &processors,const CartesianCommunicator &parent)
{
_ndimension = processors.size();
assert(_ndimension = parent._ndimension);
//////////////////////////////////////////////////////////////////////////////////////////////////////
// split the communicator
//////////////////////////////////////////////////////////////////////////////////////////////////////
int Nparent;
MPI_Comm_size(parent.communicator,&Nparent);
int childsize=1;
for(int d=0;d<processors.size();d++) {
childsize *= processors[d];
}
int Nchild = Nparent/childsize;
assert (childsize * Nchild == Nparent);
int prank; MPI_Comm_rank(parent.communicator,&prank);
int crank = prank % childsize;
int ccomm = prank / childsize;
MPI_Comm comm_split;
if ( Nchild > 1 ) {
std::cout << GridLogMessage<<"Child communicator of "<< std::hex << parent.communicator << std::dec<<std::endl;
std::cout << GridLogMessage<<" parent grid["<< parent._ndimension<<"] ";
for(int d=0;d<parent._processors.size();d++) std::cout << parent._processors[d] << " ";
std::cout<<std::endl;
std::cout << GridLogMessage<<" child grid["<< _ndimension <<"] ";
for(int d=0;d<processors.size();d++) std::cout << processors[d] << " ";
std::cout<<std::endl;
int ierr= MPI_Comm_split(parent.communicator, ccomm,crank,&comm_split);
assert(ierr==0);
//////////////////////////////////////////////////////////////////////////////////////////////////////
// Declare victory
//////////////////////////////////////////////////////////////////////////////////////////////////////
std::cout << GridLogMessage<<"Divided communicator "<< parent._Nprocessors<<" into "
<<Nchild <<" communicators with " << childsize << " ranks"<<std::endl;
} else {
comm_split=parent.communicator;
// std::cout << "Passed parental communicator to a new communicator" <<std::endl;
}
//////////////////////////////////////////////////////////////////////////////////////////////////////
// Set up from the new split communicator
//////////////////////////////////////////////////////////////////////////////////////////////////////
InitFromMPICommunicator(processors,comm_split);
}
//////////////////////////////////////////////////////////////////////////////////////////////////////
// Take an MPI_Comm and self assemble
//////////////////////////////////////////////////////////////////////////////////////////////////////
void CartesianCommunicator::InitFromMPICommunicator(const std::vector<int> &processors, MPI_Comm communicator_base)
{
// if ( communicator_base != communicator_world ) {
// std::cout << "Cartesian communicator created with a non-world communicator"<<std::endl;
// }
_ndimension = processors.size();
_processor_coor.resize(_ndimension);
/////////////////////////////////
// Count the requested nodes
/////////////////////////////////
_Nprocessors=1;
_processors = processors;
for(int i=0;i<_ndimension;i++){
_Nprocessors*=_processors[i];
}
std::vector<int> periodic(_ndimension,1);
MPI_Cart_create(communicator_base, _ndimension,&_processors[0],&periodic[0],1,&communicator);
MPI_Comm_rank(communicator,&_processor);
MPI_Cart_coords(communicator,_processor,_ndimension,&_processor_coor[0]);
int Size;
MPI_Comm_size(communicator,&Size);
assert(Size==_Nprocessors);
}
void CartesianCommunicator::GlobalSum(uint32_t &u){ void CartesianCommunicator::GlobalSum(uint32_t &u){
int ierr=MPI_Allreduce(MPI_IN_PLACE,&u,1,MPI_UINT32_T,MPI_SUM,communicator); int ierr=MPI_Allreduce(MPI_IN_PLACE,&u,1,MPI_UINT32_T,MPI_SUM,communicator);
assert(ierr==0); assert(ierr==0);

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@ -53,33 +53,6 @@ void CartesianCommunicator::Init(int *argc, char ***argv) {
ShmInitGeneric(); ShmInitGeneric();
} }
CartesianCommunicator::CartesianCommunicator(const std::vector<int> &processors)
{
_ndimension = processors.size();
std::vector<int> periodic(_ndimension,1);
_Nprocessors=1;
_processors = processors;
_processor_coor.resize(_ndimension);
MPI_Cart_create(communicator_world, _ndimension,&_processors[0],&periodic[0],1,&communicator);
MPI_Comm_rank(communicator,&_processor);
MPI_Cart_coords(communicator,_processor,_ndimension,&_processor_coor[0]);
for(int i=0;i<_ndimension;i++){
_Nprocessors*=_processors[i];
}
communicator_halo.resize (2*_ndimension);
for(int i=0;i<_ndimension*2;i++){
MPI_Comm_dup(communicator,&communicator_halo[i]);
}
int Size;
MPI_Comm_size(communicator,&Size);
assert(Size==_Nprocessors);
}
void CartesianCommunicator::GlobalSum(uint32_t &u){ void CartesianCommunicator::GlobalSum(uint32_t &u){
int ierr=MPI_Allreduce(MPI_IN_PLACE,&u,1,MPI_UINT32_T,MPI_SUM,communicator); int ierr=MPI_Allreduce(MPI_IN_PLACE,&u,1,MPI_UINT32_T,MPI_SUM,communicator);
assert(ierr==0); assert(ierr==0);

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@ -77,7 +77,6 @@ void CayleyFermion5D<Impl>::DminusDag(const FermionField &psi, FermionField &chi
} }
} }
template<class Impl> void CayleyFermion5D<Impl>::CayleyReport(void) template<class Impl> void CayleyFermion5D<Impl>::CayleyReport(void)
{ {
this->Report(); this->Report();
@ -119,7 +118,6 @@ template<class Impl> void CayleyFermion5D<Impl>::CayleyZeroCounters(void)
MooeeInvTime=0; MooeeInvTime=0;
} }
template<class Impl> template<class Impl>
void CayleyFermion5D<Impl>::M5D (const FermionField &psi, FermionField &chi) void CayleyFermion5D<Impl>::M5D (const FermionField &psi, FermionField &chi)
{ {