/[MITgcm]/MITgcm_contrib/llc_hires/llc_4320/lookat.m
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Revision 1.3 - (hide annotations) (download)
Sat Apr 2 01:27:56 2016 UTC (9 years, 7 months ago) by dimitri
Branch: MAIN
CVS Tags: HEAD
Changes since 1.2: +27 -14 lines 
misc updates
1 dimitri 1.1 nx=4320;
2 dimitri 1.3 pn='~dmenemen/llc_4320/MITgcm/run/';
3    
4     %%%%%%%%%%%%
5     nx=4320;
6     pn='~dmenemen/llc_4320/MITgcm/run/';
7     nm='U';
8     ts=468432;
9     fn=[pn nm '.' myint2str(ts,10) '.data'];
10     fld=read_llc_fkij(fn,nx,3);
11     clf
12     quikpcolor(rot90(fld)');
13     caxis([-1 1]/4)
14     thincolorbar
15 dimitri 1.1
16 dimitri 1.2 %%%%%%%%%%%%%%
17     % SST of San Pedro basin
18     ts=279360;
19     fn=[pn 'Theta.' myint2str(ts,10) '.data'];
20     f=11;
21     ix=3800:4100;
22     iy=3100:3300;
23     T=quikread_llc(fn,nx,1,'real*4',f);
24     clf reset
25     mypcolor(rot90(T(ix,iy),2)')
26     colormap(cmap)
27     caxis([13.7 16.8])
28     thincolorbar
29     set(gca,'xtick',[],'ytick',[])
30     print -dpsc LA
31    
32 dimitri 1.1 %%%%%%%%%%%%
33     % compare SST off Peru on November 1, 2011
34     cx=[15 20];
35     n1=1080;
36     n2=2160;
37     n3=4320;
38     ix1=380:590;
39     iy1=300:450;
40     ix2=760:1180;
41     iy2=600:900;
42     ix3=1520:2360;
43     iy3=1200:1800;
44     dte='1-Nov-2011';
45     ts1=dte2ts(dte,90,2010,1,1);
46     ts2=dte2ts(dte,45,2011,1,17);
47     ts3=dte2ts(dte,25,2011,9,10);
48     p1='/nobackupp8/dmenemen/llc/llc_1080/MITgcm/run_2011/';
49     p2='/nobackupp5/dmenemen/llc_2160/MITgcm/run_day49_on/';
50     p3='/nobackupp8/dmenemen/llc/llc_4320/MITgcm/run/';
51     f1=[p1 'T.' myint2str(ts1,10) '.data'];
52     f2=[p2 'Theta.' myint2str(ts2,10) '.data'];
53     f3=[p3 'Theta.' myint2str(ts3,10) '.data'];
54     f=12;
55     T1=quikread_llc(f1,n1,1,'real*4',f);
56     T2=quikread_llc(f2,n2,1,'real*4',f);
57     T3=quikread_llc(f3,n3,1,'real*4',f);
58     clf reset
59     subplot(131)
60     mypcolor(rot90(T1(ix1,iy1),2)');
61     caxis(cx)
62     thincolorbar('horiz')
63     title('1/12 deg')
64     subplot(132)
65     mypcolor(rot90(T2(ix2,iy2),2)');
66     caxis(cx)
67     thincolorbar('horiz')
68     title('1/24 deg')
69     subplot(133)
70     mypcolor(rot90(T3(ix3,iy3),2)');
71     caxis(cx)
72     thincolorbar('horiz')
73     title('1/48 deg')
74    
75     print -dpsc -r600 SST_Peru
76    
77     %%%%%%%%%%%%
78     nm='SIarea';
79     n=1;
80     clf reset
81     colormap(cmap)
82     for ts=10368:144:138384;
83 dimitri 1.3 mydisp(ts)
84     fn=[pn nm '.' myint2str(ts,10) '.data'];
85     if exist(fn)
86     % fld=[rot90(quikread_llc(fn,nx,1,'real*4',7),1) quikread_llc(fn,nx,1,'real*4',8)];
87     fld=[ rot90(read_llc_fkij(fn,nx,3),1) read_llc_fkij(fn,nx,4,1,1:nx,(2*nx+1):(3*nx))];
88     clf
89     quikpcolor(rot90(fld(:,1:5000),1)');
90     caxis([0.9 1])
91     title('llc4320 fractional sea ice concentration')
92     thincolorbar
93     text(3400,760,ts2dte(ts,25,2011,9,10),'color','w')
94     eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
95     n=n+1;
96     end
97 dimitri 1.1 end
98    
99     %%%%%%%%%%%%
100     nm='SIarea';
101     n=1;
102     clf reset
103     colormap(cmap)
104     ts=3600;
105     fn=[pn nm '.' myint2str(ts,10) '.data'];
106     fld=[rot90(quikread_llc(fn,nx,1,'real*4',7),1) quikread_llc(fn,nx,1,'real*4',8)];
107     clf
108     quikpcolor(rot90(fld(:,1:5000),1)')
109     caxis([0.9 1])
110     title('llc4320, sea ice concentration (m)')
111     thincolorbar
112    
113     %%%%%%%%%%%%
114     p1='/nobackupp8/dmenemen/llc/llc_1080/MITgcm/run_2011/';
115     n1=1080;
116     t1=599040;
117     f1=[p1 'T.' myint2str(t1,10) '.data'];
118     fld1=zeros(n1*4,n1);
119     fld1(1:n1,:)=quikread_llc(f1,n1,1,'real*4',2);
120     fld1((n1+1):(2*n1),:)=quikread_llc(f1,n1,1,'real*4',5);
121     fld1((2*n1+1):(3*n1),:)=rot90(quikread_llc(f1,n1,1,'real*4',9),2);
122     fld1((3*n1+1):(4*n1),:)=rot90(quikread_llc(f1,n1,1,'real*4',12),2);
123    
124     p2='/nobackupp5/dmenemen/llc_2160/MITgcm/run_day49_73/';
125     n2=2160;
126     t2=466080;
127     f2=[p2 'Theta.' myint2str(t2,10) '.data'];
128     fld2=zeros(n2*4,n2);
129     fld2(1:n2,:)=quikread_llc(f2,n2,1,'real*4',2);
130     fld2((n2+1):(2*n2),:)=quikread_llc(f2,n2,1,'real*4',5);
131     fld2((2*n2+1):(3*n2),:)=rot90(quikread_llc(f2,n2,1,'real*4',9),2);
132     fld2((3*n2+1):(4*n2),:)=rot90(quikread_llc(f2,n2,1,'real*4',12),2);
133    
134     p3='/nobackupp8/dmenemen/llc/llc_4320/MITgcm/run/';
135     n3=4320;
136     t3=26928;
137     f3=[p3 'Theta.' myint2str(t3,10) '.data'];
138     fld3=zeros(n3*4,n3);
139     fld3(1:n3,:)=quikread_llc(f3,n3,1,'real*4',2);
140     fld3((n3+1):(2*n3),:)=quikread_llc(f3,n3,1,'real*4',5);
141     fld3((2*n3+1):(3*n3),:)=rot90(quikread_llc(f3,n3,1,'real*4',9),2);
142     fld3((3*n3+1):(4*n3),:)=rot90(quikread_llc(f3,n3,1,'real*4',12),2);
143    
144     cx=[0 30];
145     clf reset
146     colormap(cmap)
147     subplot(311)
148     mypcolor(fld1');
149     caxis(cx)
150     thincolorbar
151     title('llc_1080 SST, 17 September 2011')
152     subplot(312)
153     mypcolor(fld2');
154     caxis(cx)
155     thincolorbar
156     title('llc_2160 SST, 16 September 2011')
157     subplot(313)
158     mypcolor(fld3');
159     caxis(cx)
160     thincolorbar
161     title('llc_4320 SST, 17 September 2011')
162    
163     print -dpsc -r600 Theta_17sep2011
164    
165     %%%%%%%%%%%%
166     nx=4320;
167     p1='/nobackupp8/dmenemen/llc/llc_4320/MITgcm/run_day1/';
168     pn='/nobackupp8/dmenemen/llc/llc_4320/MITgcm/run/';
169     nm='Theta';
170     f=2; iy=1300:1900; ix=2600:3400;
171     clf reset
172     colormap(cmap)
173     ts=180;
174     fn=[p1 nm '.' myint2str(ts,10) '.data'];
175     fld=quikread_llc(fn,nx,1,'real*4',f);
176     subplot(211)
177     mypcolor(fld(ix,iy)');
178     caxis([10 20])
179     thincolorbar
180     ts=14976;
181     fn=[pn nm '.' myint2str(ts,10) '.data'];
182     fld=quikread_llc(fn,nx,1,'real*4',f);
183     subplot(212)
184     mypcolor(fld(ix,iy)');
185     caxis([10 20])
186     thincolorbar
187    
188     print -dpsc -r600 Theta
189    
190     %%%%%%%%%%%%
191     pn='/nobackupp8/dmenemen/llc/llc_4320/MITgcm/run/';
192     nm='Theta';
193     nx=4320;
194     clf reset
195     colormap(cmap)
196     ts=136368;
197     fn=[pn nm '.' myint2str(ts,10) '.data'];
198     fld=quikread_llc(fn,nx);
199     fld(find(~fld))=-3;
200     quikplot_llc(fld)
201     caxis([-3 31])
202     axis([0 17281 1600 15121])
203     title(['llc4320 ' ts2dte(ts,45,2011,1,17) ', Sea Surface Temperature (deg C)'])
204     thincolorbar
205     eval(['print -dpsc -r600 Theta4320_' int2str(ts)])
206    
207     %%%%%%%%%%%%
208     nm='KPPhbl';
209     n=1;
210     clf reset
211     colormap(cmap)
212     for ts=92240:80:140720;
213     mydisp(ts)
214     fn=[pn nm '.' myint2str(ts,10) '.data'];
215     fld=quikread_llc(fn,nx);
216     clf
217     quikplot_llc(log10(fld))
218     caxis([0 3])
219     axis([0 8641 800 7561])
220     title('llc2160, log10(PBL)')
221     thincolorbar
222     text(1000,1000,ts2dte(ts,45,2011,1,17),'color','w')
223     eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
224     n=n+1;
225     end
226    
227     %%%%%%%%%%%%
228     nm='Eta';
229     n=1;
230     clf reset
231     for ts=92240:80:140720;
232     mydisp(ts)
233     fn=[pn nm '.' myint2str(ts,10) '.data'];
234     fld=quikread_llc(fn,nx);
235     clf
236     quikplot_llc(fld)
237     caxis([-1 1]*3)
238     axis([0 8641 800 7561])
239     title('llc2160, sea surface height (m)')
240     thincolorbar
241     text(1000,1000,ts2dte(ts,45,2011,1,17))
242     eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
243     n=n+1;
244     end
245    
246     %%%%%%%%%%%%
247     nm='Theta';
248     n=1;
249     clf reset
250     colormap(cmap)
251     ts=4464;
252     fn=[pn nm '.' myint2str(ts,10) '.data'];
253     fld=quikread_llc(fn,nx);
254     clf
255     quikplot_llc(fld)
256     caxis([-2.5 30.5])
257     axis([0 17281 1600 15121])
258     title('llc4320, sea surface temperature (deg C)')
259     thincolorbar
260     print -dpsc -r600 Theta4320_4464
261    
262     %%%%%%%%%%%%
263     nm='W';
264     kx=68;
265     n=1;
266     clf reset
267     colormap(cmap)
268     for ts=92240:80:140720;
269     mydisp(ts)
270     fn=[pn nm '.' myint2str(ts,10) '.data'];
271     fld=quikread_llc(fn,nx,kx);
272     clf
273     quikplot_llc(fld*1000)
274     caxis([-1 1]*8)
275     axis([0 8641 800 7561])
276     title('llc2160, Wvel at 2 km depth (mm/s)')
277     thincolorbar
278     text(1000,1000,ts2dte(ts,45,2011,1,17),'color','k')
279     eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
280     n=n+1;
281     end
282    
283     %%%%%%%%%%%%
284     % W2000 in EqWPac
285     nm='W';
286     kx=68;
287     n=1;
288     clf reset
289     colormap(cmap)
290     for ts=92240:80:140720;
291     mydisp(ts)
292     fn=[pn nm '.' myint2str(ts,10) '.data'];
293     fld=quikread_llc(fn,nx,kx,'real*4',9);
294     clf
295     quikpcolor(1000*rot90(fld,2)')
296     caxis([-1 1]*5)
297     title('llc2160, Wvel at 2 km depth (mm/s)')
298     thincolorbar
299     text(620,540,ts2dte(ts,45,2011,1,17),'color','k')
300     eval(['print -dtiff -r135 ' pn 'figs/' nm 'WPac' myint2str(n,4)]);
301     n=n+1;
302     end
303    
304     %%%%%%%%%%%%
305     nm='Salt';
306     n=1;
307     clf reset
308     colormap(cmap)
309     for ts=92240:80:140720;
310     mydisp(ts)
311     fn=[pn nm '.' myint2str(ts,10) '.data'];
312     fld=quikread_llc(fn,nx);
313     clf
314     quikplot_llc(fld)
315     caxis([28 38])
316     axis([0 8641 800 7561])
317     title('llc2160, sea surface salinity (g/kg)')
318     thincolorbar
319     text(1000,1000,ts2dte(ts,45,2011,1,17),'color','w')
320     eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
321     n=n+1;
322     end
323    
324     %%%%%%%%%%%%
325     nm='PhiBot';
326     fld1=0;
327     n=1;
328     for ts=92240:80:140720;
329     mydisp(ts)
330     fn=[pn nm '.' myint2str(ts,10) '.data'];
331     fld1=fld1+quikread_llc(fn,nx);
332     n=n+1;
333     end
334     fld1=fld1/n;
335     n=1;
336     clf reset
337     colormap(cmap)
338     for ts=92240:80:140720;
339     mydisp(ts)
340     fn=[pn nm '.' myint2str(ts,10) '.data'];
341     fld=quikread_llc(fn,nx)-fld1;
342     clf
343     quikplot_llc(fld/9.81)
344     caxis([-2 2])
345     axis([0 8641 800 7561])
346     title('llc2160, bottom pressure (m)')
347     thincolorbar
348     text(1000,1000,ts2dte(ts,45,2011,1,17))
349     eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
350     n=n+1;
351     end
352    
353     %%%%%%%%%%%%
354     % Eta perturbation
355     nm='Eta';
356     fld1=0;
357     fld2=0;
358     n=1;
359     for ts=92240:80:140720;
360     mydisp(ts)
361     fn=[pn nm '.' myint2str(ts,10) '.data'];
362     fld=quikread_llc(fn,nx);
363     fld1=fld1+fld;
364     fld2=fld2+fld.^2;
365     n=n+1;
366     end
367     fld1=fld1/n;
368     fld2=fld2/n;
369     writebin([pn 'EtaMean.data'],fld1);
370     writebin([pn 'EtaMeanSquare.data'],fld2);
371     clf reset
372     colormap(cmap)
373     quikplot_llc(sqrt(fld2-fld1.^2)*2*sqrt(2))
374     caxis([0 3])
375     thincolorbar
376     axis([0 8641 800 7561])
377     title('Global Eta range (m): 2*sqrt(2)*std(Eta)')
378     eval(['print -dtiff -r135 ' pn 'figs/' nm 'Range']);
379     n=1;
380     for ts=92240:80:140720;
381     mydisp(ts)
382     fn=[pn nm '.' myint2str(ts,10) '.data'];
383     fld=quikread_llc(fn,nx)-fld1;
384     clf
385     quikplot_llc(fld)
386     caxis([-1 1]*2)
387     axis([0 8641 800 7561])
388     title('llc2160, Eta perturbation (m)')
389     thincolorbar
390     text(1000,1000,ts2dte(ts,45,2011,1,17))
391     eval(['print -dtiff -r135 ' pn 'figs/' nm 'Pert' myint2str(n,4)]);
392     n=n+1;
393     end
394    
395     %%%%%%%%%%%%
396     % Theta perturbation
397     nm='Theta';
398     fld1=0;
399     n=1;
400     for ts=92240:80:140720;
401     mydisp(ts)
402     fn=[pn nm '.' myint2str(ts,10) '.data'];
403     fld1=fld1+quikread_llc(fn,nx);
404     n=n+1;
405     end
406     fld1=fld1/n;
407     n=1;
408     clf reset
409     colormap(cmap)
410     for ts=92240:80:140720;
411     mydisp(ts)
412     fn=[pn nm '.' myint2str(ts,10) '.data'];
413     fld=quikread_llc(fn,nx)-fld1;
414     clf
415     quikplot_llc(fld)
416     caxis([-1 1]*1.5)
417     axis([0 8641 800 7561])
418     title('llc2160, Theta perturbation (deg C)')
419     thincolorbar
420     text(1000,1000,ts2dte(ts,45,2011,1,17))
421     eval(['print -dtiff -r135 ' pn 'figs/' nm 'Pert' myint2str(n,4)]);
422     n=n+1;
423     end
424    
425     %%%%%%%%%%%%
426     % Theta 12-hour difference
427     nm='Theta';
428     n=1;
429     clf reset
430     colormap(cmap)
431     for ts=93200:80:140720;
432     mydisp(ts)
433     fn1=[pn nm '.' myint2str(ts-960,10) '.data'];
434     fn2=[pn nm '.' myint2str(ts,10) '.data'];
435     fld=quikread_llc(fn2,nx)-quikread_llc(fn1,nx);
436     clf
437     quikplot_llc(fld)
438     caxis([-1 1])
439     axis([0 8641 800 7561])
440     title('llc2160, Theta 12-hour difference (deg C)')
441     thincolorbar
442     text(1000,1000,ts2dte(ts,45,2011,1,17))
443     eval(['print -dtiff -r135 ' pn 'figs/' nm 'Diff' myint2str(n,4)]);
444     n=n+1;
445     end
446    
447     %%%%%%%%%%%%
448     nm1='U'; nm2='V';
449     clf reset
450     colormap(cmap)
451     ts=140720;
452     fn1=[pn nm1 '.' myint2str(ts,10) '.data'];
453     fn2=[pn nm2 '.' myint2str(ts,10) '.data'];
454     fl1=quikread_llc(fn1,nx);
455     fl2=quikread_llc(fn2,nx);
456     fld=sqrt(fl1.^2+fl2.^2);
457     clf
458     quikplot_llc(fld)
459     caxis([0 1])
460     axis([0 8641 800 7561])
461     title('llc2160, ocean surface speed (m/s)')
462     thincolorbar
463     text(1000,1000,ts2dte(ts,45,2011,1,17),'color','w')
464     eval(['print -dpsc ' pn 'figs/HiResSpeed']);
465    
466     %%%%%%%%%%%%
467     nm1='U'; nm2='V';
468     n=1;
469     clf reset
470     colormap(cmap)
471     for ts=92240:80:140720;
472     mydisp(ts)
473     fn1=[pn nm1 '.' myint2str(ts,10) '.data'];
474     fn2=[pn nm2 '.' myint2str(ts,10) '.data'];
475     fl1=quikread_llc(fn1,nx);
476     fl2=quikread_llc(fn2,nx);
477     fld=sqrt(fl1.^2+fl2.^2);
478     clf
479     quikplot_llc(fld)
480     caxis([0 1])
481     axis([0 8641 800 7561])
482     title('llc2160, ocean surface speed (m/s)')
483     thincolorbar
484     text(1000,1000,ts2dte(ts,45,2011,1,17),'color','w')
485     eval(['print -dtiff -r135 ' pn 'figs/Speed' myint2str(n,4)]);
486     n=n+1;
487     end
488    
489     %%%%%%%%%%%%
490     % circum-Greenland speed
491     nm1='U'; nm2='V';
492     n=1;
493     clf reset
494     orient landscape
495     wysiwyg
496     colormap(cmap)
497     for ts=92240:80:140720;
498     mydisp(ts)
499     fn1=[pn nm1 '.' myint2str(ts,10) '.data'];
500     fn2=[pn nm2 '.' myint2str(ts,10) '.data'];
501     fl1=sqrt(quikread_llc(fn1,nx,1,'real*4',7).^2+quikread_llc(fn2,nx,1,'real*4',7).^2);
502     fl2=sqrt(quikread_llc(fn1,nx,1,'real*4',11).^2+quikread_llc(fn2,nx,1,'real*4',11).^2);
503     fl3=sqrt(quikread_llc(fn1,nx,1,'real*4',3).^2+quikread_llc(fn2,nx,1,'real*4',3).^2);
504     fld=zeros(nx*2,'single');
505     fld(1:nx,(nx+1):end)=rot90(fl1,2);
506     fld(1:nx,1:nx)=rot90(fl2,2);
507     fld((nx+1):end,(nx+1):end)=rot90(fl1,1);
508     fld((nx+1):end,1:nx)=fl3;
509     clf
510     quikpcolor(fld')
511     caxis([0 1]*.8)
512     axis([940 3080 1490 2620])
513     title('llc2160, ocean surface speed (m/s)')
514     thincolorbar
515     text(1900,2200,ts2dte(ts,45,2011,1,17),'color','w')
516     eval(['print -dtiff -r135 ' pn 'figs/GreenSpeed' myint2str(n,4)]);
517     n=n+1;
518     end
519    
520     %%%%%%%%%%%%
521     % circum-Greenland speed, 15-m
522     nm1='U'; nm2='V';
523     k=9; % 14.68 m depth
524     n=1;
525     clf reset
526     orient landscape
527     wysiwyg
528     colormap(cmap)
529     for ts=92240:80:140720;
530     mydisp(ts)
531     fn1=[pn nm1 '.' myint2str(ts,10) '.data'];
532     fn2=[pn nm2 '.' myint2str(ts,10) '.data'];
533     fl1=sqrt(quikread_llc(fn1,nx,k,'real*4',7).^2+quikread_llc(fn2,nx,k,'real*4',7).^2);
534     fl2=sqrt(quikread_llc(fn1,nx,k,'real*4',11).^2+quikread_llc(fn2,nx,k,'real*4',11).^2);
535     fl3=sqrt(quikread_llc(fn1,nx,k,'real*4',3).^2+quikread_llc(fn2,nx,k,'real*4',3).^2);
536     fld=zeros(nx*2,'single');
537     fld(1:nx,(nx+1):end)=rot90(fl1,2);
538     fld(1:nx,1:nx)=rot90(fl2,2);
539     fld((nx+1):end,(nx+1):end)=rot90(fl1,1);
540     fld((nx+1):end,1:nx)=fl3;
541     clf
542     quikpcolor(fld')
543     caxis([0 1]*.8)
544     axis([940 3080 1490 2620])
545     title('llc2160, current speed at 15 m depth (m/s)')
546     thincolorbar
547     text(1900,2200,ts2dte(ts,45,2011,1,17),'color','w')
548     eval(['print -dtiff -r135 ' pn 'figs/GreenSpeed15m' myint2str(n,4)]);
549     n=n+1;
550     end
551    
552     %%%%%%%%%%%%
553     nm1='oceTAUX'; nm2='oceTAUY';
554     n=1;
555     clf reset
556     colormap(cmap)
557     for ts=92240:80:140720;
558     mydisp(ts)
559     fn1=[pn nm1 '.' myint2str(ts,10) '.data'];
560     fn2=[pn nm2 '.' myint2str(ts,10) '.data'];
561     fl1=quikread_llc(fn1,nx);
562     fl2=quikread_llc(fn2,nx);
563     fld=sqrt(fl1.^2+fl2.^2);
564     clf
565     quikplot_llc(fld)
566     caxis([0 1]/2)
567     axis([0 8641 800 7561])
568     title('llc2160, ocean surface stress (Pa)')
569     thincolorbar
570     text(1000,1000,ts2dte(ts,45,2011,1,17),'color','w')
571     eval(['print -dtiff -r135 ' pn 'figs/Stress' myint2str(n,4)]);
572     n=n+1;
573     end
574    
575     %%%%%%%%%%%%
576     nm='SIheff';
577     n=1;
578     clf reset
579     colormap(cmap)
580     for ts=92240:80:140720;
581     mydisp(ts)
582     fn=[pn nm '.' myint2str(ts,10) '.data'];
583     fld=quikread_llc(fn,nx,1,'real*4',7);
584     clf
585     quikpcolor(rot90(fld,2)')
586     caxis([0 10])
587     title('llc2160, effective sea ice thickness (m)')
588     thincolorbar
589     text(1500,400,ts2dte(ts,45,2011,1,17),'color','w')
590     eval(['print -dtiff -r135 ' pn 'figs/' nm myint2str(n,4)]);
591     n=n+1;
592     end
593    
594     %%%%%%%%%%%%
595     ts=140704;
596     pn='/nobackupp5/dmenemen/llc_2160/MITgcm/run_crash/';
597     fn=[pn 'Theta.' myint2str(ts,10) '.data'];
598     for k=1:90
599     fld=quikread_llc(fn,nx);
600     disp([k minmax(fld)])
601     end
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