Actual source code: ex8.c

  1: static char help[] = "Time-dependent PDE in 2d for calculating joint PDF. \n";
  2: /*
  3:    p_t = -x_t*p_x -y_t*p_y + f(t)*p_yy
  4:    xmin < x < xmax, ymin < y < ymax;

  6:    Boundary conditions:
  7:    Zero dirichlet in y using ghosted values
  8:    Periodic in x

 10:    Note that x_t and y_t in the above are given functions of x and y; they are not derivatives of x and y.
 11:    x_t = (y - ws)
 12:    y_t = (ws/2H)*(Pm - Pmax*sin(x) - D*(w - ws))

 14:    In this example, we can see the effect of a fault, that zeroes the electrical power output
 15:    Pmax*sin(x), on the PDF. The fault on/off times can be controlled by options -tf and -tcl respectively.

 17: */

 19: #include <petscdm.h>
 20: #include <petscdmda.h>
 21: #include <petscts.h>

 23: /*
 24:    User-defined data structures and routines
 25: */
 26: typedef struct {
 27:   PetscScalar    ws;           /* Synchronous speed */
 28:   PetscScalar    H;            /* Inertia constant */
 29:   PetscScalar    D;            /* Damping constant */
 30:   PetscScalar    Pmax, Pmax_s; /* Maximum power output of generator */
 31:   PetscScalar    PM_min;       /* Mean mechanical power input */
 32:   PetscScalar    lambda;       /* correlation time */
 33:   PetscScalar    q;            /* noise strength */
 34:   PetscScalar    mux;          /* Initial average angle */
 35:   PetscScalar    sigmax;       /* Standard deviation of initial angle */
 36:   PetscScalar    muy;          /* Average speed */
 37:   PetscScalar    sigmay;       /* standard deviation of initial speed */
 38:   PetscScalar    rho;          /* Cross-correlation coefficient */
 39:   PetscScalar    xmin;         /* left boundary of angle */
 40:   PetscScalar    xmax;         /* right boundary of angle */
 41:   PetscScalar    ymin;         /* bottom boundary of speed */
 42:   PetscScalar    ymax;         /* top boundary of speed */
 43:   PetscScalar    dx;           /* x step size */
 44:   PetscScalar    dy;           /* y step size */
 45:   PetscScalar    disper_coe;   /* Dispersion coefficient */
 46:   DM             da;
 47:   PetscInt       st_width; /* Stencil width */
 48:   DMBoundaryType bx;       /* x boundary type */
 49:   DMBoundaryType by;       /* y boundary type */
 50:   PetscReal      tf, tcl;  /* Fault incidence and clearing times */
 51: } AppCtx;

 53: PetscErrorCode Parameter_settings(AppCtx *);
 54: PetscErrorCode ini_bou(Vec, AppCtx *);
 55: PetscErrorCode IFunction(TS, PetscReal, Vec, Vec, Vec, void *);
 56: PetscErrorCode IJacobian(TS, PetscReal, Vec, Vec, PetscReal, Mat, Mat, void *);
 57: PetscErrorCode PostStep(TS);

 59: int main(int argc, char **argv)
 60: {
 61:   Vec         x;    /* Solution vector */
 62:   TS          ts;   /* Time-stepping context */
 63:   AppCtx      user; /* Application context */
 64:   PetscViewer viewer;

 66:   PetscFunctionBeginUser;
 67:   PetscCall(PetscInitialize(&argc, &argv, "petscopt_ex8", help));

 69:   /* Get physics and time parameters */
 70:   PetscCall(Parameter_settings(&user));
 71:   /* Create a 2D DA with dof = 1 */
 72:   PetscCall(DMDACreate2d(PETSC_COMM_WORLD, user.bx, user.by, DMDA_STENCIL_STAR, 4, 4, PETSC_DECIDE, PETSC_DECIDE, 1, user.st_width, NULL, NULL, &user.da));
 73:   PetscCall(DMSetFromOptions(user.da));
 74:   PetscCall(DMSetUp(user.da));
 75:   /* Set x and y coordinates */
 76:   PetscCall(DMDASetUniformCoordinates(user.da, user.xmin, user.xmax, user.ymin, user.ymax, 0, 0));
 77:   PetscCall(DMDASetCoordinateName(user.da, 0, "X - the angle"));
 78:   PetscCall(DMDASetCoordinateName(user.da, 1, "Y - the speed"));

 80:   /* Get global vector x from DM  */
 81:   PetscCall(DMCreateGlobalVector(user.da, &x));

 83:   PetscCall(ini_bou(x, &user));
 84:   PetscCall(PetscViewerBinaryOpen(PETSC_COMM_WORLD, "ini_x", FILE_MODE_WRITE, &viewer));
 85:   PetscCall(VecView(x, viewer));
 86:   PetscCall(PetscViewerDestroy(&viewer));

 88:   PetscCall(TSCreate(PETSC_COMM_WORLD, &ts));
 89:   PetscCall(TSSetDM(ts, user.da));
 90:   PetscCall(TSSetProblemType(ts, TS_NONLINEAR));
 91:   PetscCall(TSSetType(ts, TSARKIMEX));
 92:   PetscCall(TSSetIFunction(ts, NULL, IFunction, &user));
 93:   /*  PetscCall(TSSetIJacobian(ts,NULL,NULL,IJacobian,&user)); */
 94:   PetscCall(TSSetApplicationContext(ts, &user));
 95:   PetscCall(TSSetTimeStep(ts, .005));
 96:   PetscCall(TSSetFromOptions(ts));
 97:   PetscCall(TSSetPostStep(ts, PostStep));
 98:   PetscCall(TSSolve(ts, x));

100:   PetscCall(PetscViewerBinaryOpen(PETSC_COMM_WORLD, "fin_x", FILE_MODE_WRITE, &viewer));
101:   PetscCall(VecView(x, viewer));
102:   PetscCall(PetscViewerDestroy(&viewer));

104:   PetscCall(VecDestroy(&x));
105:   PetscCall(DMDestroy(&user.da));
106:   PetscCall(TSDestroy(&ts));
107:   PetscCall(PetscFinalize());
108:   return 0;
109: }

111: PetscErrorCode PostStep(TS ts)
112: {
113:   Vec         X;
114:   AppCtx     *user;
115:   PetscReal   t;
116:   PetscScalar asum;

118:   PetscFunctionBegin;
119:   PetscCall(TSGetApplicationContext(ts, &user));
120:   PetscCall(TSGetTime(ts, &t));
121:   PetscCall(TSGetSolution(ts, &X));
122:   /*
123:   if (t >= .2) {
124:     PetscCall(TSGetSolution(ts,&X));
125:     PetscCall(VecView(X,PETSC_VIEWER_BINARY_WORLD));
126:     exit(0);
127:      results in initial conditions after fault in binaryoutput
128:   }*/

130:   if ((t > user->tf) && (t < user->tcl)) user->Pmax = 0.0; /* A short-circuit that drives the electrical power output (Pmax*sin(delta)) to zero */
131:   else user->Pmax = user->Pmax_s;

133:   PetscCall(VecSum(X, &asum));
134:   PetscCall(PetscPrintf(PETSC_COMM_WORLD, "sum(p) at t = %f = %f\n", (double)t, (double)asum));
135:   PetscFunctionReturn(PETSC_SUCCESS);
136: }

138: PetscErrorCode ini_bou(Vec X, AppCtx *user)
139: {
140:   DM            cda;
141:   DMDACoor2d  **coors;
142:   PetscScalar **p;
143:   Vec           gc;
144:   PetscInt      M, N, Ir, J;
145:   PetscMPIInt   rank;

147:   PetscFunctionBeginUser;
148:   PetscCallMPI(MPI_Comm_rank(PETSC_COMM_WORLD, &rank));
149:   PetscCall(DMDAGetInfo(user->da, NULL, &M, &N, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL));
150:   user->dx = (user->xmax - user->xmin) / (M - 1);
151:   user->dy = (user->ymax - user->ymin) / (N - 1);
152:   PetscCall(DMGetCoordinateDM(user->da, &cda));
153:   PetscCall(DMGetCoordinates(user->da, &gc));
154:   PetscCall(DMDAVecGetArrayRead(cda, gc, &coors));
155:   PetscCall(DMDAVecGetArray(user->da, X, &p));

157:   /* Point mass at (mux,muy) */
158:   PetscCall(PetscPrintf(PETSC_COMM_WORLD, "Original user->mux = %f, user->muy = %f\n", (double)PetscRealPart(user->mux), (double)PetscRealPart(user->muy)));
159:   PetscCall(DMDAGetLogicalCoordinate(user->da, user->mux, user->muy, 0.0, &Ir, &J, NULL, &user->mux, &user->muy, NULL));
160:   user->PM_min = user->Pmax * PetscSinScalar(user->mux);
161:   PetscCall(
162:     PetscPrintf(PETSC_COMM_WORLD, "Corrected user->mux = %f, user->muy = %f user->PM_min = %f,user->dx = %f\n", (double)PetscRealPart(user->mux), (double)PetscRealPart(user->muy), (double)PetscRealPart(user->PM_min), (double)PetscRealPart(user->dx)));
163:   if (Ir > -1 && J > -1) p[J][Ir] = 1.0;

165:   PetscCall(DMDAVecRestoreArrayRead(cda, gc, &coors));
166:   PetscCall(DMDAVecRestoreArray(user->da, X, &p));
167:   PetscFunctionReturn(PETSC_SUCCESS);
168: }

170: /* First advection term */
171: PetscErrorCode adv1(PetscScalar **p, PetscScalar y, PetscInt i, PetscInt j, PetscInt M, PetscScalar *p1, AppCtx *user)
172: {
173:   PetscScalar f = (y - user->ws), fpos = PetscMax(f, 0), fneg = PetscMin(f, 0);

175:   PetscFunctionBegin;
176:   if (user->st_width == 1) {
177:     *p1 = fpos * (p[j][i] - p[j][i - 1]) / user->dx + fneg * (p[j][i + 1] - p[j][i]) / user->dx;
178:   } else if (user->st_width == 2) {
179:     *p1 = fpos * (3 * p[j][i] - 4 * p[j][i - 1] + p[j][i - 2]) / (2 * user->dx) + fneg * (-p[j][i + 2] + 4 * p[j][i + 1] - 3 * p[j][i]) / (2 * user->dx);
180:   } else if (user->st_width == 3) {
181:     *p1 = fpos * (2 * p[j][i + 1] + 3 * p[j][i] - 6 * p[j][i - 1] + p[j][i - 2]) / (6 * user->dx) + fneg * (-p[j][i + 2] + 6 * p[j][i + 1] - 3 * p[j][i] - 2 * p[j][i - 1]) / (6 * user->dx);
182:   }
183:   /* *p1 = f*(p[j][i+1] - p[j][i-1])/user->dx;*/
184:   PetscFunctionReturn(PETSC_SUCCESS);
185: }

187: /* Second advection term */
188: PetscErrorCode adv2(PetscScalar **p, PetscScalar x, PetscScalar y, PetscInt i, PetscInt j, PetscInt N, PetscScalar *p2, AppCtx *user)
189: {
190:   PetscScalar f, fpos, fneg;

192:   PetscFunctionBegin;
193:   f    = (user->ws / (2 * user->H)) * (user->PM_min - user->Pmax * PetscSinScalar(x) - user->D * (y - user->ws));
194:   fpos = PetscMax(f, 0);
195:   fneg = PetscMin(f, 0);
196:   if (user->st_width == 1) {
197:     *p2 = fpos * (p[j][i] - p[j - 1][i]) / user->dy + fneg * (p[j + 1][i] - p[j][i]) / user->dy;
198:   } else if (user->st_width == 2) {
199:     *p2 = fpos * (3 * p[j][i] - 4 * p[j - 1][i] + p[j - 2][i]) / (2 * user->dy) + fneg * (-p[j + 2][i] + 4 * p[j + 1][i] - 3 * p[j][i]) / (2 * user->dy);
200:   } else if (user->st_width == 3) {
201:     *p2 = fpos * (2 * p[j + 1][i] + 3 * p[j][i] - 6 * p[j - 1][i] + p[j - 2][i]) / (6 * user->dy) + fneg * (-p[j + 2][i] + 6 * p[j + 1][i] - 3 * p[j][i] - 2 * p[j - 1][i]) / (6 * user->dy);
202:   }

204:   /* *p2 = f*(p[j+1][i] - p[j-1][i])/user->dy;*/
205:   PetscFunctionReturn(PETSC_SUCCESS);
206: }

208: /* Diffusion term */
209: PetscErrorCode diffuse(PetscScalar **p, PetscInt i, PetscInt j, PetscReal t, PetscScalar *p_diff, AppCtx *user)
210: {
211:   PetscFunctionBeginUser;
212:   if (user->st_width == 1) {
213:     *p_diff = user->disper_coe * ((p[j - 1][i] - 2 * p[j][i] + p[j + 1][i]) / (user->dy * user->dy));
214:   } else if (user->st_width == 2) {
215:     *p_diff = user->disper_coe * ((-p[j - 2][i] + 16 * p[j - 1][i] - 30 * p[j][i] + 16 * p[j + 1][i] - p[j + 2][i]) / (12.0 * user->dy * user->dy));
216:   } else if (user->st_width == 3) {
217:     *p_diff = user->disper_coe * ((2 * p[j - 3][i] - 27 * p[j - 2][i] + 270 * p[j - 1][i] - 490 * p[j][i] + 270 * p[j + 1][i] - 27 * p[j + 2][i] + 2 * p[j + 3][i]) / (180.0 * user->dy * user->dy));
218:   }
219:   PetscFunctionReturn(PETSC_SUCCESS);
220: }

222: PetscErrorCode IFunction(TS ts, PetscReal t, Vec X, Vec Xdot, Vec F, void *ctx)
223: {
224:   AppCtx       *user = (AppCtx *)ctx;
225:   DM            cda;
226:   DMDACoor2d  **coors;
227:   PetscScalar **p, **f, **pdot;
228:   PetscInt      i, j;
229:   PetscInt      xs, ys, xm, ym, M, N;
230:   Vec           localX, gc, localXdot;
231:   PetscScalar   p_adv1 = 0.0, p_adv2 = 0.0, p_diff = 0;
232:   PetscScalar   diffuse1, gamma;

234:   PetscFunctionBeginUser;
235:   PetscCall(DMDAGetInfo(user->da, NULL, &M, &N, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL));
236:   PetscCall(DMGetCoordinateDM(user->da, &cda));
237:   PetscCall(DMDAGetCorners(cda, &xs, &ys, 0, &xm, &ym, 0));

239:   PetscCall(DMGetLocalVector(user->da, &localX));
240:   PetscCall(DMGetLocalVector(user->da, &localXdot));

242:   PetscCall(DMGlobalToLocalBegin(user->da, X, INSERT_VALUES, localX));
243:   PetscCall(DMGlobalToLocalEnd(user->da, X, INSERT_VALUES, localX));
244:   PetscCall(DMGlobalToLocalBegin(user->da, Xdot, INSERT_VALUES, localXdot));
245:   PetscCall(DMGlobalToLocalEnd(user->da, Xdot, INSERT_VALUES, localXdot));

247:   PetscCall(DMGetCoordinatesLocal(user->da, &gc));

249:   PetscCall(DMDAVecGetArrayRead(cda, gc, &coors));
250:   PetscCall(DMDAVecGetArrayRead(user->da, localX, &p));
251:   PetscCall(DMDAVecGetArrayRead(user->da, localXdot, &pdot));
252:   PetscCall(DMDAVecGetArray(user->da, F, &f));

254:   gamma            = user->D * user->ws / (2 * user->H);
255:   diffuse1         = user->lambda * user->lambda * user->q / (user->lambda * gamma + 1) * (1.0 - PetscExpScalar(-t * (gamma + 1.0) / user->lambda));
256:   user->disper_coe = user->ws * user->ws / (4 * user->H * user->H) * diffuse1;

258:   for (i = xs; i < xs + xm; i++) {
259:     for (j = ys; j < ys + ym; j++) {
260:       PetscCall(adv1(p, coors[j][i].y, i, j, M, &p_adv1, user));
261:       PetscCall(adv2(p, coors[j][i].x, coors[j][i].y, i, j, N, &p_adv2, user));
262:       PetscCall(diffuse(p, i, j, t, &p_diff, user));
263:       f[j][i] = -p_adv1 - p_adv2 + p_diff - pdot[j][i];
264:     }
265:   }
266:   PetscCall(DMDAVecRestoreArrayRead(user->da, localX, &p));
267:   PetscCall(DMDAVecRestoreArrayRead(user->da, localX, &pdot));
268:   PetscCall(DMRestoreLocalVector(user->da, &localX));
269:   PetscCall(DMRestoreLocalVector(user->da, &localXdot));
270:   PetscCall(DMDAVecRestoreArray(user->da, F, &f));
271:   PetscCall(DMDAVecRestoreArrayRead(cda, gc, &coors));
272:   PetscFunctionReturn(PETSC_SUCCESS);
273: }

275: PetscErrorCode IJacobian(TS ts, PetscReal t, Vec X, Vec Xdot, PetscReal a, Mat J, Mat Jpre, void *ctx)
276: {
277:   AppCtx      *user = (AppCtx *)ctx;
278:   DM           cda;
279:   DMDACoor2d **coors;
280:   PetscInt     i, j;
281:   PetscInt     xs, ys, xm, ym, M, N;
282:   Vec          gc;
283:   PetscScalar  val[5], xi, yi;
284:   MatStencil   row, col[5];
285:   PetscScalar  c1, c3, c5, c1pos, c1neg, c3pos, c3neg;

287:   PetscFunctionBeginUser;
288:   PetscCall(DMDAGetInfo(user->da, NULL, &M, &N, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL));
289:   PetscCall(DMGetCoordinateDM(user->da, &cda));
290:   PetscCall(DMDAGetCorners(cda, &xs, &ys, 0, &xm, &ym, 0));

292:   PetscCall(DMGetCoordinatesLocal(user->da, &gc));
293:   PetscCall(DMDAVecGetArrayRead(cda, gc, &coors));
294:   for (i = xs; i < xs + xm; i++) {
295:     for (j = ys; j < ys + ym; j++) {
296:       PetscInt nc = 0;
297:       xi          = coors[j][i].x;
298:       yi          = coors[j][i].y;
299:       row.i       = i;
300:       row.j       = j;
301:       c1          = (yi - user->ws) / user->dx;
302:       c1pos       = PetscMax(c1, 0);
303:       c1neg       = PetscMin(c1, 0);
304:       c3          = (user->ws / (2.0 * user->H)) * (user->PM_min - user->Pmax * PetscSinScalar(xi) - user->D * (yi - user->ws)) / user->dy;
305:       c3pos       = PetscMax(c3, 0);
306:       c3neg       = PetscMin(c3, 0);
307:       c5          = (PetscPowScalar((user->lambda * user->ws) / (2 * user->H), 2) * user->q * (1.0 - PetscExpScalar(-t / user->lambda))) / (user->dy * user->dy);
308:       col[nc].i   = i - 1;
309:       col[nc].j   = j;
310:       val[nc++]   = c1pos;
311:       col[nc].i   = i + 1;
312:       col[nc].j   = j;
313:       val[nc++]   = -c1neg;
314:       col[nc].i   = i;
315:       col[nc].j   = j - 1;
316:       val[nc++]   = c3pos + c5;
317:       col[nc].i   = i;
318:       col[nc].j   = j + 1;
319:       val[nc++]   = -c3neg + c5;
320:       col[nc].i   = i;
321:       col[nc].j   = j;
322:       val[nc++]   = -c1pos + c1neg - c3pos + c3neg - 2 * c5 - a;
323:       PetscCall(MatSetValuesStencil(Jpre, 1, &row, nc, col, val, INSERT_VALUES));
324:     }
325:   }
326:   PetscCall(DMDAVecRestoreArrayRead(cda, gc, &coors));

328:   PetscCall(MatAssemblyBegin(Jpre, MAT_FINAL_ASSEMBLY));
329:   PetscCall(MatAssemblyEnd(Jpre, MAT_FINAL_ASSEMBLY));
330:   if (J != Jpre) {
331:     PetscCall(MatAssemblyBegin(J, MAT_FINAL_ASSEMBLY));
332:     PetscCall(MatAssemblyEnd(J, MAT_FINAL_ASSEMBLY));
333:   }
334:   PetscFunctionReturn(PETSC_SUCCESS);
335: }

337: PetscErrorCode Parameter_settings(AppCtx *user)
338: {
339:   PetscBool flg;

341:   PetscFunctionBeginUser;
342:   /* Set default parameters */
343:   user->ws   = 1.0;
344:   user->H    = 5.0;
345:   user->D    = 0.0;
346:   user->Pmax = user->Pmax_s = 2.1;
347:   user->PM_min              = 1.0;
348:   user->lambda              = 0.1;
349:   user->q                   = 1.0;
350:   user->mux                 = PetscAsinScalar(user->PM_min / user->Pmax);
351:   user->sigmax              = 0.1;
352:   user->sigmay              = 0.1;
353:   user->rho                 = 0.0;
354:   user->xmin                = -PETSC_PI;
355:   user->xmax                = PETSC_PI;
356:   user->bx                  = DM_BOUNDARY_PERIODIC;
357:   user->by                  = DM_BOUNDARY_GHOSTED;
358:   user->tf = user->tcl = -1;
359:   user->ymin           = -2.0;
360:   user->ymax           = 2.0;
361:   user->st_width       = 1;

363:   PetscCall(PetscOptionsGetScalar(NULL, NULL, "-ws", &user->ws, &flg));
364:   PetscCall(PetscOptionsGetScalar(NULL, NULL, "-Inertia", &user->H, &flg));
365:   PetscCall(PetscOptionsGetScalar(NULL, NULL, "-D", &user->D, &flg));
366:   PetscCall(PetscOptionsGetScalar(NULL, NULL, "-Pmax", &user->Pmax, &flg));
367:   PetscCall(PetscOptionsGetScalar(NULL, NULL, "-PM_min", &user->PM_min, &flg));
368:   PetscCall(PetscOptionsGetScalar(NULL, NULL, "-lambda", &user->lambda, &flg));
369:   PetscCall(PetscOptionsGetScalar(NULL, NULL, "-q", &user->q, &flg));
370:   PetscCall(PetscOptionsGetScalar(NULL, NULL, "-mux", &user->mux, &flg));
371:   PetscCall(PetscOptionsGetScalar(NULL, NULL, "-muy", &user->muy, &flg));
372:   if (flg == 0) user->muy = user->ws;
373:   PetscCall(PetscOptionsGetScalar(NULL, NULL, "-xmin", &user->xmin, &flg));
374:   PetscCall(PetscOptionsGetScalar(NULL, NULL, "-xmax", &user->xmax, &flg));
375:   PetscCall(PetscOptionsGetScalar(NULL, NULL, "-ymin", &user->ymin, &flg));
376:   PetscCall(PetscOptionsGetScalar(NULL, NULL, "-ymax", &user->ymax, &flg));
377:   PetscCall(PetscOptionsGetInt(NULL, NULL, "-stencil_width", &user->st_width, &flg));
378:   PetscCall(PetscOptionsGetEnum(NULL, NULL, "-bx", DMBoundaryTypes, (PetscEnum *)&user->bx, &flg));
379:   PetscCall(PetscOptionsGetEnum(NULL, NULL, "-by", DMBoundaryTypes, (PetscEnum *)&user->by, &flg));
380:   PetscCall(PetscOptionsGetReal(NULL, NULL, "-tf", &user->tf, &flg));
381:   PetscCall(PetscOptionsGetReal(NULL, NULL, "-tcl", &user->tcl, &flg));
382:   PetscFunctionReturn(PETSC_SUCCESS);
383: }

385: /*TEST

387:    build:
388:       requires: !complex x

390:    test:
391:       args: -ts_max_steps 1
392:       localrunfiles: petscopt_ex8
393:       timeoutfactor: 3

395: TEST*/