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source: Sophya/trunk/Cosmo/SimLSS/cmvobserv3d.cc@ 3115

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Last change on this file since 3115 was 3115, checked in by ansari, 19 years ago
Creation initiale du groupe Cosmo avec le repertoire SimLSS de simulation de distribution de masse 3D des galaxies par CMV+Rz 18/12/2006
File size: 11.8 KB

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1	#include "sopnamsp.h"
2	#include "machdefs.h"
3	#include <iostream>
4	#include <stdlib.h>
5	#include <stdio.h>
6	#include <string.h>
7	#include <math.h>
8	#include <unistd.h>
9	#include "timing.h"
10	#include "ntuple.h"
11	#include "matharr.h"
12	#include "srandgen.h"
13	#include "perandom.h"
14
15	#include "arrctcast.h"
16
17	#include "constcosmo.h"
18	#include "schechter.h"
19	#include "geneutils.h"
20	#include "integfunc.h"
21	#include "genefluct3d.h"
22
23	void usage(void);
24	void usage(void)
25	{
26	cout<<"cmvobserv3d [-a] [-0]"<<endl
27	<<" -a : init auto de l aleatoire"<<endl
28	<<" -0 : use methode ComputeFourier0"<<endl
29	<<" -x nx,dx : taille en x (npix,Mpc)"<<endl
30	<<" -y ny,dy : taille en y (npix,Mpc)"<<endl
31	<<" -z nz,dz : taille en z (npix,Mpc)"<<endl
32	<<" -Z zref : redshift median"<<endl
33	<<" -s scale : sigma du bruit en Msol"<<endl
34	<<endl;
35	}
36
37	int main(int narg,char *arg[])
38	{
39	InitTim();
40
41	//-----------------------------------------------------------------
42	// *** Survey definition
43	int nx=360, ny=-1, nz=64; double dx=1., dy=-1., dz=-1.;
44	//int nx=1000, ny=-1, nz=128; double dx=3., dy=-1., dz=6.;
45	//int nx=1200, ny=-1, nz=128; double dx=1., dy=-1., dz=3;
46
47	// *** Cosmography definition (WMAP)
48	double ob0 = 0.0444356;
49	double h100=0.71, om0=0.267804, or0=7.9e-05, ol0=0.73,w0=-1.;
50	double zref = 0.5;
51
52	// *** Spectrum and variance definition
53	double ns = 1., as = 1.;
54	double R=8./h100, Rg=R/sqrt(5.);
55	double sigmaR = 1.;
56
57	double kmin=1e-5,kmax=1000.;
58	int npt = 10000;
59	double lkmin=log10(kmin), lkmax=log10(kmax);
60	double eps=1.e-3;
61
62	// *** Schechter mass function definition
63	double h75 = 0.71 / 0.75;
64	double nstar = 0.006*pow(h75,3.);
65	double mstar = pow(10.,9.8/(h75*h75)); // MSol
66	double alpha = -1.37;
67
68	double schmin=1e8, schmax=1e12;
69	int schnpt = 1000;
70	double lschmin=log10(schmin), lschmax=log10(schmax), dlsch=(lschmax-lschmin)/schnpt;
71
72	// *** Niveau de bruit
73	double snoise= 0.; // en equivalent MSol
74
75	// *** type de generation
76	bool computefourier0=false;
77	unsigned short nthread=4;
78
79	// --- Decodage arguments
80
81	char c;
82	while((c = getopt(narg,arg,"ha0x:y:z:s:Z:")) != -1) {
83	switch (c) {
84	case 'a' :
85	Auto_Ini_Ranf(5);
86	break;
87	case '0' :
88	computefourier0 = true;
89	break;
90	case 'x' :
91	sscanf(optarg,"%d,%lf",&nx,&dx);
92	break;
93	case 'y' :
94	sscanf(optarg,"%d,%lf",&ny,&dy);
95	break;
96	case 'z' :
97	sscanf(optarg,"%d,%lf",&nz,&dz);
98	break;
99	case 's' :
100	sscanf(optarg,"%lf",&snoise);
101	break;
102	case 'Z' :
103	sscanf(optarg,"%lf",&zref);
104	break;
105	case 'h' :
106	default :
107	usage(); return -1;
108	}
109	}
110
111	string tagobs = "cmvobserv3d.ppf";
112	POutPersist posobs(tagobs);
113
114	cout<<"zref="<<zref<<endl;
115	cout<<"nx="<<nx<<" dx="<<dx<<" ny="<<ny<<" dy="<<dy<<" nz="<<nz<<" dz="<<dz<<endl;
116	cout<<"kmin="<<kmin<<" ("<<lkmin<<"), kmax="<<kmax<<" ("<<lkmax<<") Mpc^-1"
117	<<", npt="<<npt<<endl;
118	cout<<"R="<<R<<" Rg="<<Rg<<" Mpc, sigmaR="<<sigmaR<<endl;
119	cout<<"nstar= "<<nstar<<" mstar="<<mstar<<" alpha="<<alpha<<endl;
120	cout<<"schmin="<<schmin<<" ("<<lschmin
121	<<"), schmax="<<schmax<<" ("<<lschmax<<") Msol"
122	<<", schnpt="<<schnpt<<endl;
123	cout<<"snoise="<<snoise<<" equivalent Msol"<<endl;
124
125	//-----------------------------------------------------------------
126	cout<<endl<<"\n--- Create Spectrum and mass function"<<endl;
127
128	InitialSpectrum pkini(ns,as);
129
130	TransfertEisenstein tf(h100,om0-ob0,ob0,T_CMB_Par,false);
131	//tf.SetNoOscEnv(2);
132
133	GrowthFactor d1(om0,ol0);
134
135	PkSpectrum0 pk0(pkini,tf);
136
137	PkSpectrumZ pkz(pk0,d1,zref);
138
139	Schechter sch(nstar,mstar,alpha);
140
141	//-----------------------------------------------------------------
142	pkz.SetZ(0.);
143	cout<<endl<<"\n--- Compute variance for top-hat R="<<R
144	<<" at z="<<pkz.GetZ()<<endl;
145	VarianceSpectrum varpk_th(pkz,0);
146	double kfind_th = varpk_th.FindMaximum(R,kmin,kmax,eps);
147	double pkmax_th = varpk_th(kfind_th);
148	cout<<"kfind_th = "<<kfind_th<<" ("<<log10(kfind_th)<<"), integrand="<<pkmax_th<<endl;
149	double k1=kmin, k2=kmax;
150	int rc = varpk_th.FindLimits(R,pkmax_th/1.e4,k1,k2,eps);
151	cout<<"limit_th: rc="<<rc<<" : "<<k1<<" ("<<log10(k1)<<") , "
152	<<k2<<" ("<<log10(k2)<<")"<<endl;
153
154	double ldlk = (log10(k2)-log10(k1))/npt;
155	varpk_th.SetInteg(0.01,ldlk,-1.,4);
156	double sr2 = varpk_th.Variance(R,k1,k2);
157	cout<<"varpk_th="<<sr2<<" -> sigma="<<sqrt(sr2)<<endl;
158
159	double normpkz = sigmaR*sigmaR/sr2;
160	pkz.SetScale(normpkz);
161	cout<<"Spectrum normalisation = "<<pkz.GetScale()<<endl;
162
163	pkz.SetZ(zref);
164
165	Histo hpkz (lkmin,lkmax,npt); hpkz.ReCenterBin();
166	FuncToHisto(pkz,hpkz,true);
167	{
168	tagobs = "hpkz"; posobs.PutObject(hpkz,tagobs);
169	}
170
171	//-----------------------------------------------------------------
172	cout<<endl<<"\n--- Compute variance for Pk at z="<<pkz.GetZ()<<endl;
173	VarianceSpectrum varpk_int(pkz,2);
174
175	double kfind_int = varpk_int.FindMaximum(R,kmin,kmax,eps);
176	double pkmax_int = varpk_int(kfind_int);
177	cout<<"kfind_int = "<<kfind_int<<" ("<<log10(kfind_int)<<"), integrand="<<pkmax_int<<endl;
178	double k1int=kmin, k2int=kmax;
179	int rcint = varpk_int.FindLimits(R,pkmax_int/1.e4,k1int,k2int,eps);
180	cout<<"limit_int: rc="<<rcint<<" : "<<k1int<<" ("<<log10(k1int)<<") , "
181	<<k2int<<" ("<<log10(k2int)<<")"<<endl;
182
183	double ldlkint = (log10(k2int)-log10(k1int))/npt;
184	varpk_int.SetInteg(0.01,ldlkint,-1.,4);
185	double sr2int = varpk_int.Variance(R,k1int,k2int);
186	cout<<"varpk_int="<<sr2int<<" -> sigma="<<sqrt(sr2int)<<endl;
187
188	PrtTim("End of definition");
189
190	//-----------------------------------------------------------------
191	cout<<endl<<"\n--- Compute galaxies density number"<<endl;
192
193	sch.SetOutValue(0);
194	cout<<"sch(mstar) = "<<sch(mstar)<<" /Mpc^3/Msol"<<endl;
195	double ngal_by_mpc3 = IntegrateFuncLog(sch,lschmin,lschmax,0.01,dlsch,10.*dlsch,4);
196	cout<<"Galaxy density number = "<<ngal_by_mpc3<<" /Mpc^3 between limits"<<endl;
197
198	sch.SetOutValue(1);
199	cout<<"mstar*sch(mstar) = "<<sch(mstar)<<" Msol/Mpc^3/Msol"<<endl;
200	double mass_by_mpc3 = IntegrateFuncLog(sch,lschmin,lschmax,0.01,dlsch,10.*dlsch,4);
201	cout<<"Galaxy mass density= "<<mass_by_mpc3<<" Msol/Mpc^3 between limits"<<endl;
202
203	//-----------------------------------------------------------------
204	// FFTW3 (p26): faster if sizes 2^a 3^b 5^c 7^d 11^e 13^f with e+f=0 ou 1
205	cout<<endl<<"\n--- Compute Spectrum Realization"<<endl;
206
207	pkz.SetZ(zref);
208	TArray< complex<r_8> > pkgen;
209	GeneFluct3D fluct3d(pkgen,pkz);
210	fluct3d.SetNThread(nthread);
211	fluct3d.SetSize(nx,ny,nz,dx,dy,dz);
212	fluct3d.Print();
213	double knyqmax = fluct3d.GetKmax();
214	double dkmin = fluct3d.GetKinc()[0];
215
216	cout<<"\n--- Computing spectra variance up to Kmax at z="<<pkz.GetZ()<<endl;
217	// En fait on travaille sur un cube inscrit dans la sphere de rayon kmax:
218	// sphere: Vs = 4Pi/3 k^3 , cube inscrit (cote ksqrt(2)): Vc = (ksqrt(2))^3
219	// Vc/Vs = 0.675 -> keff = kmax * (0.675)^(1/3) = kmax * 0.877
220	knyqmax *= 0.877;
221	ldlkint = (log10(knyqmax)-log10(k1int))/npt;
222	varpk_int.SetInteg(0.01,ldlkint,-1.,4);
223	double sr2int_kmax = varpk_int.Variance(R,k1int,knyqmax);
224	cout<<"varpk_int(<"<<knyqmax<<")="<<sr2int_kmax<<" -> sigma="<<sqrt(sr2int_kmax)<<endl;
225
226	cout<<"\n--- Computing a realization in Fourier space"<<endl;
227	if(computefourier0) fluct3d.ComputeFourier0();
228	else fluct3d.ComputeFourier();
229
230	cout<<"\n--- Checking realization spectra"<<endl;
231	int nhprof = int(fluct3d.GetKmax()/dkmin+0.5);
232	HProf hpkgen(0.,fluct3d.GetKmax(),nhprof);
233	hpkgen.ReCenterBin();
234	fluct3d.ComputeSpectrum(hpkgen);
235	{
236	tagobs = "hpkgen"; posobs.PutObject(hpkgen,tagobs);
237	}
238
239	if(1) {
240	cout<<"\n--- Computing convolution by pixel shape"<<endl;
241	fluct3d.FilterByPixel();
242
243	cout<<"\n--- Checking realization spectra after pixel shape convol."<<endl;
244	HProf hpkgenf(hpkgen); hpkgenf.Zero();
245	fluct3d.ComputeSpectrum(hpkgenf);
246	{
247	tagobs = "hpkgenf"; posobs.PutObject(hpkgenf,tagobs);
248	}
249	}
250
251	if(0) {
252	cout<<"\n--- Writing cmvobserv3dk.ppf"<<endl;
253	string tag = "cmvobserv3dk.ppf";
254	POutPersist pos(tag);
255	tag = "pkgen"; pos.PutObject(pkgen,tag);
256	}
257
258	cout<<"\n--- Computing a realization in real space"<<endl;
259	fluct3d.ComputeReal();
260	r_8 undouble=0.;
261	TArray<r_8> rgen = ArrayCast(pkgen,undouble);
262	double rmin,rmax; rgen.MinMax(rmin,rmax);
263	cout<<"rgen.Min = "<<rmin<<" , Max="<<rmax<<endl;
264
265	cout<<"\n--- Check mean and variance in real space"<<endl;
266	size_t nlowone = fluct3d.NumberOfBad(-1.,1e+200);
267	double rm,rs2; size_t nm;
268	nm = fluct3d.MeanSigma2(rm,rs2);
269	cout<<"rgen:("<<nm<<") Mean = "<<rm<<", Sigma^2 = "
270	<<rs2<<" -> "<<sqrt(rs2)<<", n(<-1)="<<nlowone<<endl;
271
272	if(1) {
273	cout<<"\n--- Check variance sigmaR in real space"<<endl;
274	double varr;
275	size_t nvarr = fluct3d.VarianceFrReal(R,varr);
276	cout<<"R="<<R<<" : sigmaR^2="<<varr<<" -> "<<sqrt(varr)<<", n="<<nvarr<<endl;
277	}
278
279	//-----------------------------------------------------------------
280	cout<<endl<<"\n--- Converting fluctuations into mass"<<endl;
281	fluct3d.TurnFluct2Mass();
282	nm = fluct3d.MeanSigma2(rm,rs2);
283	cout<<"1+rgen: ("<<nm<<") Mean = "<<rm<<", Sigma^2 = "
284	<<rs2<<" -> "<<sqrt(rs2)<<endl;
285
286	cout<<"\n--- Converting mass into galaxy number"<<endl;
287	rm = fluct3d.TurnMass2MeanNumber(ngal_by_mpc3);
288	cout<<rm<<" galaxies put into survey"<<endl;
289	nm = fluct3d.MeanSigma2(rm,rs2,0.);
290	cout<<"galaxy: ("<<nm<<") Mean = "<<rm<<", Sigma^2 = "
291	<<rs2<<" -> "<<sqrt(rs2)<<endl;
292
293	cout<<"\n--- Set negative pixels to BAD"<<endl;
294	nm = fluct3d.SetToVal(0.,1e+200,-999.);
295	cout<<nm<<" negative in survey set to BAD"<<endl;
296	nm = fluct3d.MeanSigma2(rm,rs2,-998.);
297	cout<<"galaxy: ("<<nm<<") Mean = "<<rm<<", Sigma^2 = "
298	<<rs2<<" -> "<<sqrt(rs2)<<endl;
299
300	cout<<"\n--- Apply poisson on galaxie number"<<endl;
301	nm = fluct3d.ApplyPoisson();
302	cout<<nm<<" galaxies into survey after poisson"<<endl;
303	nm = fluct3d.MeanSigma2(rm,rs2,-998.);
304	cout<<"galaxy: ("<<nm<<") Mean = "<<rm<<", Sigma^2 = "
305	<<rs2<<" -> "<<sqrt(rs2)<<endl;
306
307	cout<<"\n--- Convert Galaxies number to HI mass"<<endl;
308	int nhmdndm = int( (lschmax-lschmin+1.)*100. + 0.5);
309	Histo hmdndm(lschmin,lschmax,nhmdndm);
310	sch.SetOutValue(1);
311	FuncToHisto(sch,hmdndm,true);
312	FunRan tirhmdndm(hmdndm,true);
313	{
314	tagobs = "hmdndm"; posobs.PutObject(hmdndm,tagobs);
315	Histo hdum1(tirhmdndm);
316	tagobs = "tirhmdndm"; posobs.PutObject(hdum1,tagobs);
317	}
318	double mhi = fluct3d.TurnNGal2Mass(tirhmdndm,true);
319	cout<<mhi<<" MSol in survey / "<<mass_by_mpc3*fluct3d.GetVol()<<endl;
320	nm = fluct3d.MeanSigma2(rm,rs2,0.);
321	cout<<"HI mass: ("<<nm<<") Mean = "<<rm<<", Sigma^2 = "
322	<<rs2<<" -> "<<sqrt(rs2)<<endl;
323	cout<<"Equivalent: "<<rm*nm/fluct3d.NPix()<<" Msol / pixels"<<endl;
324
325	cout<<"\n--- Set BAD pixels to Zero"<<endl;
326	nm = fluct3d.SetToVal(-998.,1e+200,0.);
327	cout<<nm<<" BAD in survey set to zero"<<endl;
328	nm = fluct3d.MeanSigma2(rm,rs2);
329	cout<<"galaxy: ("<<nm<<") Mean = "<<rm<<", Sigma^2 = "
330	<<rs2<<" -> "<<sqrt(rs2)<<endl;
331
332	cout<<"\n--- Add noise to HI Flux snoise="<<snoise<<endl;
333	fluct3d.AddNoise2Real(snoise);
334	nm = fluct3d.MeanSigma2(rm,rs2);
335	cout<<"HI mass with noise: ("<<nm<<") Mean = "<<rm<<", Sigma^2 = "
336	<<rs2<<" -> "<<sqrt(rs2)<<endl;
337
338	if(0) {
339	cout<<"\n--- Writing cmvobserv3dr.ppf"<<endl;
340	string tag = "cmvobserv3dr.ppf";
341	POutPersist pos(tag);
342	tag = "rgen"; pos.PutObject(rgen,tag);
343	}
344
345	//-----------------------------------------------------------------
346	// -- NE PAS FAIRE CA SI ON VEUT CONTINUER LA SIMULATION -> d_rho/rho ecrase
347	if(1) {
348	cout<<endl<<"\n--- ReComputing spectrum from real space"<<endl;
349	fluct3d.ReComputeFourier();
350	HProf hpkrec(0.,fluct3d.GetKmax(),nhprof);
351	hpkrec.ReCenterBin();
352	fluct3d.ComputeSpectrum(hpkrec);
353	tagobs = "hpkrec"; posobs.PutObject(hpkrec,tagobs);
354	}
355
356	return 0;
357	}
358
359	/*
360	openppf cmvobserv3dk.ppf
361	openppf cmvobserv3dr.ppf
362	openppf cmvobserv3d.ppf
363
364	objaoper pkgen sliceyz 0
365
366	n/plot hpkz.val%x x>0 ! "connectpoints"
367	n/plot hpkgen.val%log10(x) x>0 ! "same red connectpoints"
368	n/plot hpkgenf.val%log10(x) x>0 ! "same pink connectpoints"
369	n/plot hpkrec.val%log10(x) x>0 ! "same blue connectpoints"
370
371	set k pow(10.,x)
372	n/plot hpkz.val$k$k/(2M_PIM_PI)%x ! "connectpoints"
373
374	defscript rgensl
375	objaoper rgen sliceyz $1
376	disp sliceyz_$1
377	endscript
378
379	rgensl 0
380
381	*/

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