zcy
/
openEMS
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity

MT-Operator: now using multithreading for Calc_EC 

Calc_PEC & Excitation should be next

Signed-off-by: Thorsten Liebig <thorsten.liebig@gmx.de>
pull/1/head
Thorsten Liebig 2010-06-05 11:50:13 +02:00
parent f0141f6c7e
commit b4c98632bf
3 changed files with 133 additions and 4 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

105
FDTD/operator_multithread.cpp
View File

@ -18,10 +18,11 @@
#include "operator_multithread.h" #include "operator_multithread.h"
#include "engine_multithread.h" #include "engine_multithread.h"
Operator_Multithread* Operator_Multithread::New() Operator_Multithread* Operator_Multithread::New(unsigned int numThreads)
{ {
cout << "Create FDTD operator (compressed SSE + multi-threading)" << endl; cout << "Create FDTD operator (compressed SSE + multi-threading)" << endl;
Operator_Multithread* op = new Operator_Multithread(); Operator_Multithread* op = new Operator_Multithread();
op->setNumThreads(numThreads);
op->Init(); op->Init();
return op; return op;
} }
@ -30,12 +31,112 @@ Operator_Multithread::~Operator_Multithread()
{ {
} }
void Operator_Multithread::setNumThreads( unsigned int numThreads )
{
m_numThreads = numThreads;
}
Engine* Operator_Multithread::CreateEngine() const Engine* Operator_Multithread::CreateEngine() const
{ {
Engine_Multithread* e = Engine_Multithread::New(this); Engine_Multithread* e = Engine_Multithread::New(this,m_numThreads);
return e; return e;
} }
Operator_Multithread::Operator_Multithread() Operator_Multithread::Operator_Multithread()
{ {
m_CalcEC_Start=NULL;
m_CalcEC_Stop=NULL;
} }
void Operator_Multithread::Init()
{
Operator_SSE_Compressed::Init();
m_CalcEC_Start=NULL;
m_CalcEC_Stop=NULL;
}
void Operator_Multithread::Reset()
{
Operator_SSE_Compressed::Reset();
m_thread_group.join_all();
delete m_CalcEC_Start;m_CalcEC_Start=NULL;
delete m_CalcEC_Stop;m_CalcEC_Stop=NULL;
}
int Operator_Multithread::CalcECOperator()
{
if (m_numThreads == 0)
m_numThreads = boost::thread::hardware_concurrency();
cout << "Multithreading operator using " << m_numThreads << " threads." << std::endl;
m_thread_group.join_all();
delete m_CalcEC_Start;m_CalcEC_Start = new boost::barrier(m_numThreads+1); // numThread workers + 1 controller
delete m_CalcEC_Stop;m_CalcEC_Stop = new boost::barrier(m_numThreads+1); // numThread workers + 1 controller
unsigned int linesPerThread = round((float)numLines[0] / (float)m_numThreads);
for (unsigned int n=0; n<m_numThreads; n++)
{
unsigned int start = n * linesPerThread;
unsigned int stop = (n+1) * linesPerThread - 1;
if (n == m_numThreads-1) // last thread
stop = numLines[0]-1;
boost::thread *t = new boost::thread( Operator_Thread(this,start,stop,n) );
m_thread_group.add_thread( t );
}
return Operator_SSE_Compressed::CalcECOperator();
}
bool Operator_Multithread::Calc_EC()
{
if (CSX==NULL) {cerr << "CartOperator::Calc_EC: CSX not given or invalid!!!" << endl; return false;}
MainOp->SetPos(0,0,0);
m_CalcEC_Start->wait();
m_CalcEC_Stop->wait();
return true;
}
Operator_Thread::Operator_Thread( Operator_Multithread* ptr, unsigned int start, unsigned int stop, unsigned int threadID )
{
m_start=start;
m_stop=stop;
m_threadID=threadID;
m_OpPtr = ptr;
}
void Operator_Thread::operator()()
{
//************** calculate EC (Calc_EC) ***********************//
m_OpPtr->m_CalcEC_Start->wait();
unsigned int ipos;
unsigned int pos[3];
double inEC[4];
for (int n=0;n<3;++n)
{
for (pos[0]=m_start;pos[0]<=m_stop;++pos[0])
{
for (pos[1]=0;pos[1]<m_OpPtr->numLines[1];++pos[1])
{
for (pos[2]=0;pos[2]<m_OpPtr->numLines[2];++pos[2])
{
m_OpPtr->Calc_ECPos(n,pos,inEC);
ipos = m_OpPtr->MainOp->GetPos(pos[0],pos[1],pos[2]);
m_OpPtr->EC_C[n][ipos]=inEC[0];
m_OpPtr->EC_G[n][ipos]=inEC[1];
m_OpPtr->EC_L[n][ipos]=inEC[2];
m_OpPtr->EC_R[n][ipos]=inEC[3];
}
}
}
}
m_OpPtr->m_CalcEC_Stop->wait();
}

30
FDTD/operator_multithread.h
View File

@ -20,17 +20,45 @@
#include "operator_sse_compressed.h" #include "operator_sse_compressed.h"
#include <boost/thread.hpp>
class Operator_Multithread : public Operator_SSE_Compressed class Operator_Multithread : public Operator_SSE_Compressed
{ {
friend class Operator_Thread;
public: public:
//! Create a new operator //! Create a new operator
static Operator_Multithread* New(); static Operator_Multithread* New(unsigned int numThreads = 0);
virtual ~Operator_Multithread(); virtual ~Operator_Multithread();
virtual int CalcECOperator();
virtual void setNumThreads( unsigned int numThreads );
virtual Engine* CreateEngine() const; virtual Engine* CreateEngine() const;
protected: protected:
Operator_Multithread(); Operator_Multithread();
virtual void Init();
virtual void Reset();
virtual bool Calc_EC(); //this method is using multi-threading
boost::barrier* m_CalcEC_Start;
boost::barrier* m_CalcEC_Stop;
boost::thread_group m_thread_group;
unsigned int m_numThreads; // number of worker threads
}; };
class Operator_Thread
{
public:
Operator_Thread( Operator_Multithread* ptr, unsigned int start, unsigned int stop, unsigned int threadID );
void operator()();
protected:
unsigned int m_start, m_stop, m_threadID;
Operator_Multithread *m_OpPtr;
};
#endif // OPERATOR_MULTITHREAD_H #endif // OPERATOR_MULTITHREAD_H

2
openems.cpp
View File

@ -236,7 +236,7 @@ int openEMS::SetupFDTD(const char* file)
} }
else if (m_engine == EngineType_Multithreaded) else if (m_engine == EngineType_Multithreaded)
{ {
FDTD_Op = Operator_Multithread::New(); FDTD_Op = Operator_Multithread::New(m_engine_numThreads);
} }
else else
{ {