Beispiel #1
0
void servo_controller_periodic_handler(void)
{
	int i;

	period_count++;

	for (i = 0; i < SERVOn; i++)
		if (period_count >= servo_motor[i].position) servo_reset(i);

	if (period_count >= period) {
		for (i = 0; i < SERVOn; i++) servo_set(i);
		period_count = 0;
	}
}
Beispiel #2
0
/**
   Time domain physical simulation.
   
   noisy: 
   - 0: no noise at all; 
   - 1: poisson and read out noise. 
   - 2: only poisson noise.   
*/
dmat *skysim_sim(dmat **mresout, const dmat *mideal, const dmat *mideal_oa, double ngsol, 
		 ASTER_S *aster, const POWFS_S *powfs, 
		 const PARMS_S *parms, int idtratc, int noisy, int phystart){
    int dtratc=0;
    if(!parms->skyc.multirate){
	dtratc=parms->skyc.dtrats->p[idtratc];
    }
    int hasphy;
    if(phystart>-1 && phystart<aster->nstep){
	hasphy=1;
    }else{
	hasphy=0;
    }
    const int nmod=mideal->nx;
    dmat *res=dnew(6,1);/*Results. 1-2: NGS and TT modes., 
			  3-4:On axis NGS and TT modes,
			  4-6: On axis NGS and TT wihtout considering un-orthogonality.*/
    dmat *mreal=NULL;/*modal correction at this step. */
    dmat *merr=dnew(nmod,1);/*modal error */
    dcell *merrm=dcellnew(1,1);dcell *pmerrm=NULL;
    const int nstep=aster->nstep?aster->nstep:parms->maos.nstep;
    dmat *mres=dnew(nmod,nstep);
    dmat* rnefs=parms->skyc.rnefs;
    dcell *zgradc=dcellnew3(aster->nwfs, 1, aster->ngs, 0);
    dcell *gradout=dcellnew3(aster->nwfs, 1, aster->ngs, 0);
    dmat *gradsave=0;
    if(parms->skyc.dbg){
	gradsave=dnew(aster->tsa*2,nstep);
    }
   
    
    SERVO_T *st2t=0;
    kalman_t *kalman=0;
    dcell *mpsol=0;
    dmat *pgm=0;
    dmat *dtrats=0;
    int multirate=parms->skyc.multirate;
    if(multirate){
	kalman=aster->kalman[0];
	dtrats=aster->dtrats;
    }else{
	if(parms->skyc.servo>0){
	    const double dtngs=parms->maos.dt*dtratc;
	    st2t=servo_new(merrm, NULL, 0, dtngs, aster->gain->p[idtratc]);
	    pgm=aster->pgm->p[idtratc];
	}else{
	    kalman=aster->kalman[idtratc];
	}
    }
    if(kalman){
	kalman_init(kalman);
	mpsol=dcellnew(aster->nwfs, 1); //for psol grad.
    }
    const long nwvl=parms->maos.nwvl;
    dcell **psf=0, **mtche=0, **ints=0;
    ccell *wvf=0,*wvfc=0, *otf=0;
    if(hasphy){
	psf=mycalloc(aster->nwfs,dcell*);
	wvf=ccellnew(aster->nwfs,1);
	wvfc=ccellnew(aster->nwfs,1);
	mtche=mycalloc(aster->nwfs,dcell*);
	ints=mycalloc(aster->nwfs,dcell*);
	otf=ccellnew(aster->nwfs,1);
    
	for(long iwfs=0; iwfs<aster->nwfs; iwfs++){
	    const int ipowfs=aster->wfs[iwfs].ipowfs;
	    const long ncomp=parms->maos.ncomp[ipowfs];
	    const long nsa=parms->maos.nsa[ipowfs];
	    wvf->p[iwfs]=cnew(ncomp,ncomp);
	    wvfc->p[iwfs]=NULL;
	    psf[iwfs]=dcellnew(nsa,nwvl);
	    //cfft2plan(wvf->p[iwfs], -1);
	    if(parms->skyc.multirate){
		mtche[iwfs]=aster->wfs[iwfs].pistat->mtche[(int)aster->idtrats->p[iwfs]];
	    }else{
		mtche[iwfs]=aster->wfs[iwfs].pistat->mtche[idtratc];
	    }
	    otf->p[iwfs]=cnew(ncomp,ncomp);
	    //cfft2plan(otf->p[iwfs],-1);
	    //cfft2plan(otf->p[iwfs],1);
	    ints[iwfs]=dcellnew(nsa,1);
	    int pixpsa=parms->skyc.pixpsa[ipowfs];
	    for(long isa=0; isa<nsa; isa++){
		ints[iwfs]->p[isa]=dnew(pixpsa,pixpsa);
	    }
	}
    }
    for(int irep=0; irep<parms->skyc.navg; irep++){
	if(kalman){
	    kalman_init(kalman);
	}else{
	    servo_reset(st2t);
	}
	dcellzero(zgradc);
	dcellzero(gradout);
	if(ints){
	    for(int iwfs=0; iwfs<aster->nwfs; iwfs++){
		dcellzero(ints[iwfs]);
	    }
	}
	for(int istep=0; istep<nstep; istep++){
	    memcpy(merr->p, PCOL(mideal,istep), nmod*sizeof(double));
	    dadd(&merr, 1, mreal, -1);/*form NGS mode error; */
	    memcpy(PCOL(mres,istep),merr->p,sizeof(double)*nmod);
	    if(mpsol){//collect averaged modes for PSOL.
		for(long iwfs=0; iwfs<aster->nwfs; iwfs++){
		    dadd(&mpsol->p[iwfs], 1, mreal, 1);
		}
	    }
	    pmerrm=0;
	    if(istep>=parms->skyc.evlstart){/*performance evaluation*/
		double res_ngs=dwdot(merr->p,parms->maos.mcc,merr->p);
		if(res_ngs>ngsol*100){
		    dfree(res); res=NULL;
		    break;
		}
		{
		    res->p[0]+=res_ngs;
		    res->p[1]+=dwdot2(merr->p,parms->maos.mcc_tt,merr->p);
		    double dot_oa=dwdot(merr->p, parms->maos.mcc_oa, merr->p);
		    double dot_res_ideal=dwdot(merr->p, parms->maos.mcc_oa, PCOL(mideal,istep));
		    double dot_res_oa=0;
		    for(int imod=0; imod<nmod; imod++){
			dot_res_oa+=merr->p[imod]*IND(mideal_oa,imod,istep);
		    }
		    res->p[2]+=dot_oa-2*dot_res_ideal+2*dot_res_oa;
		    res->p[4]+=dot_oa;
		}
		{
		    double dot_oa_tt=dwdot2(merr->p, parms->maos.mcc_oa_tt, merr->p);
		    /*Notice that mcc_oa_tt2 is 2x5 marix. */
		    double dot_res_ideal_tt=dwdot(merr->p, parms->maos.mcc_oa_tt2, PCOL(mideal,istep));
		    double dot_res_oa_tt=0;
		    for(int imod=0; imod<2; imod++){
			dot_res_oa_tt+=merr->p[imod]*IND(mideal_oa,imod,istep);
		    }
		    res->p[3]+=dot_oa_tt-2*dot_res_ideal_tt+2*dot_res_oa_tt;
		    res->p[5]+=dot_oa_tt;
		}
	    }//if evl

	    if(istep<phystart || phystart<0){
		/*Ztilt, noise free simulation for acquisition. */
		dmm(&zgradc->m, 1, aster->gm, merr, "nn", 1);/*grad due to residual NGS mode. */
		for(int iwfs=0; iwfs<aster->nwfs; iwfs++){
		    const int ipowfs=aster->wfs[iwfs].ipowfs;
		    const long ng=parms->maos.nsa[ipowfs]*2;
		    for(long ig=0; ig<ng; ig++){
			zgradc->p[iwfs]->p[ig]+=aster->wfs[iwfs].ztiltout->p[istep*ng+ig];
		    }
		}
	
		for(int iwfs=0; iwfs<aster->nwfs; iwfs++){
		    int dtrati=(multirate?(int)dtrats->p[iwfs]:dtratc);
		    if((istep+1) % dtrati==0){
			dadd(&gradout->p[iwfs], 0, zgradc->p[iwfs], 1./dtrati);
			dzero(zgradc->p[iwfs]);
			if(noisy){
			    int idtrati=(multirate?(int)aster->idtrats->p[iwfs]:idtratc);
			    dmat *nea=aster->wfs[iwfs].pistat->sanea->p[idtrati];
			    for(int i=0; i<nea->nx; i++){
				gradout->p[iwfs]->p[i]+=nea->p[i]*randn(&aster->rand);
			    }
			}
			pmerrm=merrm;//record output.
		    }
		}
	    }else{
		/*Accumulate PSF intensities*/
		for(long iwfs=0; iwfs<aster->nwfs; iwfs++){
		    const double thetax=aster->wfs[iwfs].thetax;
		    const double thetay=aster->wfs[iwfs].thetay;
		    const int ipowfs=aster->wfs[iwfs].ipowfs;
		    const long nsa=parms->maos.nsa[ipowfs];
		    ccell* wvfout=aster->wfs[iwfs].wvfout[istep];
		    for(long iwvl=0; iwvl<nwvl; iwvl++){
			double wvl=parms->maos.wvl[iwvl];
			for(long isa=0; isa<nsa; isa++){
			    ccp(&wvfc->p[iwfs], IND(wvfout,isa,iwvl));
			    /*Apply NGS mode error to PSF. */
			    ngsmod2wvf(wvfc->p[iwfs], wvl, merr, powfs+ipowfs, isa,
				       thetax, thetay, parms);
			    cembedc(wvf->p[iwfs],wvfc->p[iwfs],0,C_FULL);
			    cfft2(wvf->p[iwfs],-1);
			    /*peak in corner. */
			    cabs22d(&psf[iwfs]->p[isa+nsa*iwvl], 1., wvf->p[iwfs], 1.);
			}/*isa */
		    }/*iwvl */
		}/*iwfs */
	
		/*Form detector image from accumulated PSFs*/
		double igrad[2];
		for(long iwfs=0; iwfs<aster->nwfs; iwfs++){
		    int dtrati=dtratc, idtrat=idtratc;
		    if(multirate){//multirate
			idtrat=aster->idtrats->p[iwfs];
			dtrati=dtrats->p[iwfs];
		    }
		    if((istep+1) % dtrati == 0){/*has output */
			dcellzero(ints[iwfs]);
			const int ipowfs=aster->wfs[iwfs].ipowfs;
			const long nsa=parms->maos.nsa[ipowfs];
			for(long isa=0; isa<nsa; isa++){
			    for(long iwvl=0; iwvl<nwvl; iwvl++){
				double siglev=aster->wfs[iwfs].siglev->p[iwvl];
				ccpd(&otf->p[iwfs],psf[iwfs]->p[isa+nsa*iwvl]);
				cfft2i(otf->p[iwfs], 1); /*turn to OTF, peak in corner */
				ccwm(otf->p[iwfs], powfs[ipowfs].dtf[iwvl].nominal);
				cfft2(otf->p[iwfs], -1);
				dspmulcreal(ints[iwfs]->p[isa]->p, powfs[ipowfs].dtf[iwvl].si, 
					   otf->p[iwfs]->p, siglev);
			    }
		
			    /*Add noise and apply matched filter. */
#if _OPENMP >= 200805 
#pragma omp critical 
#endif
			    switch(noisy){
			    case 0:/*no noise at all. */
				break;
			    case 1:/*both poisson and read out noise. */
				{
				    double bkgrnd=aster->wfs[iwfs].bkgrnd*dtrati;
				    addnoise(ints[iwfs]->p[isa], &aster->rand, bkgrnd, bkgrnd, 0,0,IND(rnefs,idtrat,ipowfs));
				}
				break;
			    case 2:/*there is still poisson noise. */
				addnoise(ints[iwfs]->p[isa], &aster->rand, 0, 0, 0,0,0);
				break;
			    default:
				error("Invalid noisy\n");
			    }
		
			    igrad[0]=0;
			    igrad[1]=0;
			    double pixtheta=parms->skyc.pixtheta[ipowfs];
			    if(parms->skyc.mtch){
				dmulvec(igrad, mtche[iwfs]->p[isa], ints[iwfs]->p[isa]->p, 1);
			    }
			    if(!parms->skyc.mtch || fabs(igrad[0])>pixtheta || fabs(igrad[1])>pixtheta){
				if(!parms->skyc.mtch){
				    warning2("fall back to cog\n");
				}else{
				    warning_once("mtch is out of range\n");
				}
				dcog(igrad, ints[iwfs]->p[isa], 0, 0, 0, 3*IND(rnefs,idtrat,ipowfs), 0); 
				igrad[0]*=pixtheta;
				igrad[1]*=pixtheta;
			    }
			    gradout->p[iwfs]->p[isa]=igrad[0];
			    gradout->p[iwfs]->p[isa+nsa]=igrad[1];
			}/*isa */
			pmerrm=merrm;
			dcellzero(psf[iwfs]);/*reset accumulation.*/
		    }/*if iwfs has output*/
		}/*for wfs*/
	    }/*if phystart */
	    //output to mreal after using it to ensure two cycle delay.
	    if(st2t){//Type I or II control.
		if(st2t->mint->p[0]){//has output.
		    dcp(&mreal, st2t->mint->p[0]->p[0]);
		}
	    }else{//LQG control
		kalman_output(kalman, &mreal, 0, 1);
	    }
	    if(kalman){//LQG control
		int indk=0;
		//Form PSOL grads and obtain index to LQG M
		for(int iwfs=0; iwfs<aster->nwfs; iwfs++){
		    int dtrati=(multirate?(int)dtrats->p[iwfs]:dtratc);
		    if((istep+1) % dtrati==0){
			indk|=1<<iwfs;
			dmm(&gradout->p[iwfs], 1, aster->g->p[iwfs], mpsol->p[iwfs], "nn", 1./dtrati);
			dzero(mpsol->p[iwfs]);
		    }
		}
		if(indk){
		    kalman_update(kalman, gradout->m, indk-1);
		}
	    }else if(st2t){
		if(pmerrm){
		    dmm(&merrm->p[0], 0, pgm, gradout->m, "nn", 1);	
		}
		servo_filter(st2t, pmerrm);//do even if merrm is zero. to simulate additional latency
	    }
	    if(parms->skyc.dbg){
		memcpy(PCOL(gradsave, istep), gradout->m->p, sizeof(double)*gradsave->nx);
	    }
	}/*istep; */
    }
    if(parms->skyc.dbg){
	int dtrati=(multirate?(int)dtrats->p[0]:dtratc);
	writebin(gradsave,"%s/skysim_grads_aster%d_dtrat%d",dirsetup, aster->iaster,dtrati);
	writebin(mres,"%s/skysim_sim_mres_aster%d_dtrat%d",dirsetup,aster->iaster,dtrati);
    }
  
    dfree(mreal);
    dcellfree(mpsol);
    dfree(merr);
    dcellfree(merrm);
    dcellfree(zgradc);
    dcellfree(gradout);
    dfree(gradsave);
    if(hasphy){
	dcellfreearr(psf, aster->nwfs);
	dcellfreearr(ints, aster->nwfs);
        ccellfree(wvf);
	ccellfree(wvfc);
	ccellfree(otf);
	free(mtche);
    }
    servo_free(st2t);
    /*dfree(mres); */
    if(mresout) {
	*mresout=mres;
    }else{
	dfree(mres);
    }
    dscale(res, 1./((nstep-parms->skyc.evlstart)*parms->skyc.navg));
    return res;
}