update to console output
parent
ea31ec1d7a
commit
abc705767f
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@ -92,7 +92,8 @@ unsigned int Operator::GetNyquistNum(double fmax)
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{
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if (dT==0) return 1;
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double T0 = 1/fmax;
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return floor(T0/2/dT);
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m_nyquistTS = floor(T0/2/dT);
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return m_nyquistTS;
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}
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bool Operator::SnapToMesh(double* dcoord, unsigned int* uicoord, bool lower)
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@ -207,29 +208,35 @@ struct Operator::Grid_Path Operator::FindPath(double start[], double stop[])
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double Operator::GetNumberCells()
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{
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if (numLines)
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return (numLines[0]-1)*(numLines[1]-1)*(numLines[2]-1);
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return (numLines[0])*(numLines[1])*(numLines[2]); //it's more like number of nodes???
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return 0;
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}
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void Operator::ShowSize()
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void Operator::ShowStat()
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{
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unsigned int OpSize = 12*numLines[0]*numLines[1]*numLines[2]*sizeof(FDTD_FLOAT);
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unsigned int FieldSize = 6*numLines[0]*numLines[1]*numLines[2]*sizeof(FDTD_FLOAT);
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double MBdiff = 1024*1024;
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cout << "---- Stat: FDTD Operator ----" << endl;
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cout << "Dimensions : " << numLines[0] << "x" << numLines[1] << "x" << numLines[2] << " = " << numLines[0]*numLines[1]*numLines[2] << " Cells (" << numLines[0]*numLines[1]*numLines[2]/1e6 << " MCells)" << endl;
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cout << "Size of Operator : " << OpSize << " Byte (" << (double)OpSize/MBdiff << " MB) " << endl;
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cout << "Size of Field-Data: " << FieldSize << " Byte (" << (double)FieldSize/MBdiff << " MB) " << endl;
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cout << "-----------------------------" << endl;
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cout << "------- Stat: FDTD Operator -------" << endl;
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cout << "Dimensions : " << numLines[0] << "x" << numLines[1] << "x" << numLines[2] << " = " << numLines[0]*numLines[1]*numLines[2] << " Cells (" << numLines[0]*numLines[1]*numLines[2]/1e6 << " MCells)" << endl;
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cout << "Size of Operator : " << OpSize << " Byte (" << (double)OpSize/MBdiff << " MB) " << endl;
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cout << "Size of Field-Data : " << FieldSize << " Byte (" << (double)FieldSize/MBdiff << " MB) " << endl;
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cout << "-----------------------------------" << endl;
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cout << "Timestep (s) : " << dT << endl;
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cout << "Nyquist criteria (TS) : " << m_nyquistTS << endl;
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cout << "Nyquist criteria (s) : " << m_nyquistTS*dt << endl;
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cout << "Excitation Length (TS) : " << ExciteLength << endl;
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cout << "Excitation Length (s) : " << ExciteLength*dT << endl;
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cout << "-----------------------------------" << endl;
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}
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bool Operator::CalcGaussianPulsExcitation(double f0, double fc)
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unsigned int Operator::CalcGaussianPulsExcitation(double f0, double fc)
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{
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if (dT==0) return false;
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if (dT==0) return 0;
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ExciteLength = (unsigned int)(2.0 * 9.0/(2.0*PI*fc) / dT);
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cerr << "Operator::CalcGaussianPulsExcitation: Length of the excite signal: " << ExciteLength << " timesteps" << endl;
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// cerr << "Operator::CalcGaussianPulsExcitation: Length of the excite signal: " << ExciteLength << " timesteps" << endl;
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delete[] ExciteSignal;
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ExciteSignal = new FDTD_FLOAT[ExciteLength+1];
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ExciteSignal[0]=0.0;
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@ -238,16 +245,16 @@ bool Operator::CalcGaussianPulsExcitation(double f0, double fc)
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ExciteSignal[n] = cos(2.0*PI*f0*(n*dT-9.0/(2.0*PI*fc)))*exp(-1*pow(2.0*PI*fc*n*dT/3.0-3,2));
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// cerr << ExciteSignal[n] << endl;
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}
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return true;
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return GetNyquistNum(f0+fc);
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}
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bool Operator::CalcSinusExcitation(double f0, int nTS)
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unsigned int Operator::CalcSinusExcitation(double f0, int nTS)
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{
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if (dT==0) return false;
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if (nTS<=0) return false;
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if (dT==0) return 0;
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if (nTS<=0) return 0;
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ExciteLength = (unsigned int)(nTS);
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cerr << "Operator::CalcSinusExcitation: Length of the excite signal: " << ExciteLength << " timesteps" << endl;
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// cerr << "Operator::CalcSinusExcitation: Length of the excite signal: " << ExciteLength << " timesteps" << endl;
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delete[] ExciteSignal;
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ExciteSignal = new FDTD_FLOAT[ExciteLength+1];
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ExciteSignal[0]=0.0;
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@ -256,7 +263,7 @@ bool Operator::CalcSinusExcitation(double f0, int nTS)
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ExciteSignal[n] = sin(2.0*PI*f0*n*dT);
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// cerr << ExciteSignal[n] << endl;
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}
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return true;
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return GetNyquistNum(f0);
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}
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void Operator::DumpOperator2File(string filename)
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@ -37,10 +37,10 @@ public:
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virtual int CalcECOperator();
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//! Calculate an excitation with center of f0 and the half bandwidth fc
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virtual bool CalcGaussianPulsExcitation(double f0, double fc);
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//! Calculate a sinusoidal excitation with frequency f0 and a duration of nTS number of timesteps
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virtual bool CalcSinusExcitation(double f0, int nTS);
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//! Calculate an excitation with center of f0 and the half bandwidth fc \return number of Nyquist timesteps
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virtual unsigned int CalcGaussianPulsExcitation(double f0, double fc);
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//! Calculate a sinusoidal excitation with frequency f0 and a duration of nTS number of timesteps \return number of Nyquist timesteps
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virtual unsigned int CalcSinusExcitation(double f0, int nTS);
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virtual void ApplyElectricBC(bool* dirs); //applied by default to all boundaries
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virtual void ApplyMagneticBC(bool* dirs);
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@ -49,7 +49,7 @@ public:
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unsigned int GetNyquistNum(double fmax);
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double GetNumberCells();
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void ShowSize();
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void ShowStat();
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void DumpOperator2File(string filename);
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void DumpMaterial2File(string filename);
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@ -86,6 +86,7 @@ protected:
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//Calc timestep only internal use
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virtual double CalcTimestep();
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double dT; //FDTD timestep!
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unsigned int m_nyquistTS;
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//EC elements, internal only!
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bool Calc_EC();
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15
openems.cpp
15
openems.cpp
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@ -191,10 +191,11 @@ int openEMS::SetupFDTD(const char* file)
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if (FDTD_Op->SetGeometryCSX(&CSX)==false) return(-1);
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FDTD_Op->CalcECOperator();
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unsigned int Nyquist = 0;
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if (Excit_Type==0)
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{
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if (!FDTD_Op->CalcGaussianPulsExcitation(f0,fc))
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Nyquist = FDTD_Op->CalcGaussianPulsExcitation(f0,fc);
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if (!Nyquist)
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{
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cerr << "openEMS: excitation setup failed!!" << endl;
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exit(2);
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@ -202,7 +203,8 @@ int openEMS::SetupFDTD(const char* file)
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}
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else if (Excit_Type==1)
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{
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if (!FDTD_Op->CalcSinusExcitation(f0,NrTS))
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Nyquist = FDTD_Op->CalcSinusExcitation(f0,NrTS);
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if (!Nyquist)
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{
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cerr << "openEMS: excitation setup failed!!" << endl;
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exit(2);
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@ -225,13 +227,10 @@ int openEMS::SetupFDTD(const char* file)
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time_t OpDoneTime=time(NULL);
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FDTD_Op->ShowSize();
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FDTD_Op->ShowStat();
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FDTD_Op->ApplyMagneticBC(PMC);
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cout << "Nyquist number of timesteps: " << FDTD_Op->GetNyquistNum(f0+fc) << endl;
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unsigned int Nyquist = FDTD_Op->GetNyquistNum(f0+fc);
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cout << "Creation time for operator: " << difftime(OpDoneTime,startTime) << " s" << endl;
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//create FDTD engine
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@ -316,7 +315,7 @@ int openEMS::SetupFDTD(const char* file)
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void openEMS::RunFDTD()
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{
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cout << "Running FDTD engine... this may take a while... grab a coup of coffee?!?" << endl;
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cout << "Running FDTD engine... this may take a while... grab a cup of coffee?!?" << endl;
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timeval currTime;
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gettimeofday(&currTime,NULL);
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