Actual source code: gun.c

slepc-3.11.2 2019-07-30
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  1: /*
  2:    - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
  3:    SLEPc - Scalable Library for Eigenvalue Problem Computations
  4:    Copyright (c) 2002-2019, Universitat Politecnica de Valencia, Spain

  6:    This file is part of SLEPc.
  7:    SLEPc is distributed under a 2-clause BSD license (see LICENSE).
  8:    - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
  9: */
 10: /*
 11:    This example implements one of the problems found at
 12:        NLEVP: A Collection of Nonlinear Eigenvalue Problems,
 13:        The University of Manchester.
 14:    The details of the collection can be found at:
 15:        [1] T. Betcke et al., "NLEVP: A Collection of Nonlinear Eigenvalue
 16:            Problems", ACM Trans. Math. Software 39(2), Article 7, 2013.

 18:    The gun problem arises from model of a radio-frequency gun cavity, with
 19:    the complex nonlinear function
 20:    T(lambda) = K-lambda*M+i*lambda^(1/2)*W1+i*(lambda-108.8774^2)^(1/2)*W2

 22:    Data files can be downloaded from http://slepc.upv.es/datafiles
 23: */

 25: static char help[] = "Radio-frequency gun cavity.\n\n"
 26:   "The command line options are:\n"
 27:   "-K <filename1> -M <filename2> -W1 <filename3> -W2 <filename4>, where filename1,..,filename4 are files containing the matrices in PETSc binary form defining the GUN problem.\n\n";

 29: #include <slepcnep.h>

 31: #define NMAT 4
 32: #define SIGMA 108.8774

 34: int main(int argc,char **argv)
 35: {
 37:   Mat            A[NMAT];         /* problem matrices */
 38:   FN             f[NMAT];         /* functions to define the nonlinear operator */
 39:   FN             ff[2];           /* auxiliary functions to define the nonlinear operator */
 40:   NEP            nep;             /* nonlinear eigensolver context */
 41:   PetscBool      terse,flg;
 42:   const char*    string[NMAT]={"-K","-M","-W1","-W2"};
 43:   char           filename[PETSC_MAX_PATH_LEN];
 44:   PetscScalar    numer[2],sigma;
 45:   PetscInt       i;
 46:   PetscViewer    viewer;

 48:   SlepcInitialize(&argc,&argv,(char*)0,help);if (ierr) return ierr;

 50:   PetscPrintf(PETSC_COMM_WORLD,"GUN problem\n\n");
 51: #if !defined(PETSC_USE_COMPLEX)
 52:   SETERRQ(PETSC_COMM_WORLD,1,"This example requires complex scalars!");
 53: #endif

 55:   /* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
 56:                        Load the problem matrices
 57:      - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */

 59:   for (i=0;i<NMAT;i++) {
 60:     PetscOptionsGetString(NULL,NULL,string[i],filename,PETSC_MAX_PATH_LEN,&flg);
 61:     if (!flg) SETERRQ1(PETSC_COMM_WORLD,1,"Must indicate a filename with the %s option",string[i]);
 62:     PetscViewerBinaryOpen(PETSC_COMM_WORLD,filename,FILE_MODE_READ,&viewer);
 63:     MatCreate(PETSC_COMM_WORLD,&A[i]);
 64:     MatSetFromOptions(A[i]);
 65:     MatLoad(A[i],viewer);
 66:     PetscViewerDestroy(&viewer);
 67:   }

 69:   /* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
 70:                        Create the problem functions
 71:      - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */

 73:   /* f1=1 */
 74:   FNCreate(PETSC_COMM_WORLD,&f[0]);
 75:   FNSetType(f[0],FNRATIONAL);
 76:   numer[0] = 1.0;
 77:   FNRationalSetNumerator(f[0],1,numer);

 79:   /* f2=-lambda */
 80:   FNCreate(PETSC_COMM_WORLD,&f[1]);
 81:   FNSetType(f[1],FNRATIONAL);
 82:   numer[0] = -1.0; numer[1] = 0.0;
 83:   FNRationalSetNumerator(f[1],2,numer);

 85:   /* f3=i*sqrt(lambda) */
 86:   FNCreate(PETSC_COMM_WORLD,&f[2]);
 87:   FNSetType(f[2],FNSQRT);
 88:   FNSetScale(f[2],1.0,PETSC_i);

 90:   /* f4=i*sqrt(lambda-sigma^2) */
 91:   sigma = SIGMA*SIGMA;
 92:   FNCreate(PETSC_COMM_WORLD,&ff[0]);
 93:   FNSetType(ff[0],FNSQRT);
 94:   FNCreate(PETSC_COMM_WORLD,&ff[1]);
 95:   FNSetType(ff[1],FNRATIONAL);
 96:   numer[0] = 1.0; numer[1] = -sigma;
 97:   FNRationalSetNumerator(ff[1],2,numer);
 98:   FNCreate(PETSC_COMM_WORLD,&f[3]);
 99:   FNSetType(f[3],FNCOMBINE);
100:   FNCombineSetChildren(f[3],FN_COMBINE_COMPOSE,ff[1],ff[0]);
101:   FNSetScale(f[3],1.0,PETSC_i);

103:   /* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
104:                 Create the eigensolver and solve the problem
105:      - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */

107:   NEPCreate(PETSC_COMM_WORLD,&nep);
108:   NEPSetSplitOperator(nep,4,A,f,DIFFERENT_NONZERO_PATTERN);
109:   NEPSetFromOptions(nep);

111:   NEPSolve(nep);

113:   /* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
114:                     Display solution and clean up
115:      - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */

117:   /* show detailed info unless -terse option is given by user */
118:   PetscOptionsHasName(NULL,NULL,"-terse",&terse);
119:   if (terse) {
120:     NEPErrorView(nep,NEP_ERROR_RELATIVE,NULL);
121:   } else {
122:     PetscViewerPushFormat(PETSC_VIEWER_STDOUT_WORLD,PETSC_VIEWER_ASCII_INFO_DETAIL);
123:     NEPReasonView(nep,PETSC_VIEWER_STDOUT_WORLD);
124:     NEPErrorView(nep,NEP_ERROR_RELATIVE,PETSC_VIEWER_STDOUT_WORLD);
125:     PetscViewerPopFormat(PETSC_VIEWER_STDOUT_WORLD);
126:   }
127:   NEPDestroy(&nep);
128:   for (i=0;i<NMAT;i++) {
129:     MatDestroy(&A[i]);
130:     FNDestroy(&f[i]);
131:   }
132:   for (i=0;i<2;i++) {
133:     FNDestroy(&ff[i]);
134:   }
135:   SlepcFinalize();
136:   return ierr;
137: }

139: /*TEST

141:    build:
142:       requires: complex

144:    test:
145:       suffix: 1
146:       args: -K ${DATAFILESPATH}/matrices/complex/gun_K.petsc -M ${DATAFILESPATH}/matrices/complex/gun_M.petsc -W1 ${DATAFILESPATH}/matrices/complex/gun_W1.petsc -W2 ${DATAFILESPATH}/matrices/complex/gun_W2.petsc -nep_type nleigs -rg_type polygon -rg_polygon_vertices 12500-1i,120500-1i,120500+30000i,70000+30000i -nep_target 65000 -nep_nev 24 -terse
147:       requires: complex datafilespath
148:       timeoutfactor: 10

150: TEST*/