Unno_san

 Newly results are in /ux0/data9/sdc_si/hiroyuki/ana/ana1125
There are many files. CC means the case ID. RR means the REgion ID. Definition
 of them were indicated follow table.

  ___________________________________________
  | Test Detector   |pitch|Regiont|Track|ca- |
  |      &    side  |     | ID    |type |se  |
  +------------------------------------------+
  | USCS-n          |50   |  5    | A   | 6  |
  |                 |100* |  4    | B   | 5  |
  |                 |100* |  4    | C   | 4  |
  |                 |100  |  3    | C   | 3  |
  |                 |150  |  2    | C   | 2  |
  |_________________|200__|__1____|_C___|_1__|
  | USCS-p          |50   |  7    | A   | 9  |
  |                 |100  |  6    | B   | 7  |
  |_________________|100__|__6____|_C___|_8__|
  | LBL-n           |50   |   8   | A   | 10 |
  |                 |50   |   8   | B   | 11 |
  |_________________|50___|___8___|_C___|_12_|
  | LBL-p           |50   |   9   | A   | 13 |
  |                 |50   |   9   | B   | 14 |
  |_________________|50___|___9___|_C___|_15_|

 Track type means
  _______________________________
  |_Track_Type|Pitch(n)|Pitch(p)_|
  |     A     | 50   | 50        |
  |     B     | 50   | 100       |
  |_____C_____|100___|_100_______|

===========================
summaryCC.dat
===========================
This file have a summary information.
1st colum : run#
2nd colum : resolution ( Not a sigma of residual. Resolution of Reference was
			substracted.)
3rd colum : error of resolution
4th colum : efficiency
5th colum : error of efficiency

===========================
runpar.dat
===========================
This file is for run-summary.
1st colum : run#
2nd colum : beam angle( unit in degree)
3rd colum : Threshold ( unit in fC )
4th colum : Bias Voltage ( unit in V )

===========================
accRR.dat  ( RR : 01--09)
===========================
These files are for noise data.
1st colum : run#
2nd colum : numerator of noise
3rd colum : denominator of noise
4th colum : noise hit ratio / region ( region-width(full-width) is (100+pitch) 
                                       micron   )
5th colum : error of noise ( it was calculated from Binary Distribution rule)
===========================
eff_sumCC.dat ( CC:01--15 )
===========================
These files are for efficiency.
1st colum : run#
2nd colum : numerator of efficiency
3rd colum : denominator of efficiency
4th colum : efficiency hit ratio / region ( region-width(full-width) is 
		                              (100+pitch)micron   )
5th colum : error of efficiency ( it was calculated from Binary Distribution 
                                               rule)
===========================
reso_sumCC.dat 
=========================== 
These files are for efficiency.
1st colum : run#
2nd colum : Fitted sigma ( already smeared ) unit is in [mm].
3rd colum : error of sigma
4th colum : corrected sigma ( substracted the smear sigma ).

=================================
Information of Histogram
=================================

If you want to see the histogram , you need to know the ID of Thres.
Bias and Angle.

                                      
  ------------------------------------------
  | angle ID| 1  2   3   4   5   6   7   8 |
  | angle   | 0  9  12  18  27  36  45  54 |        
  ------------------------------------------

  --------------------------------------------------
  | Threshold ID  | 1   2   3   4   5   6   7   8  |
  | Threshold(fC) |0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 | 
  --------------------------------------------------

  ---------------------------------------------
  | BiasID  | 1  2  3   4   5  6   7   8   9  |
  | Bias(V) |60 65  70  75 80  85 90  100 120 |
  ---------------------------------------------


In "graph.hst" the histgramID is as follows.
 TABXX
where T is Threshold ID , A is Angle ID , B is Bias ID.
XX means CC + DD
DD means
DD =  0 : resolution
DD = 20 : efficiency
DD = 40 : noise

If you want to see the Threshould dependence set T to 0.
If you want to see the Angle dependence set A to 0.
If you want to see the Bias dependence set B to 0.
 do not set 0 more than 2 place in TAB.
For example ,
PAW > h/plot  1801
This command shows you a histogram for Threshold Dependence(T=0) of resolution
at angle = 0 , Bias = 100.

However ,it is dull to plot by hand. 
Convenient KUMAC was implemented. 

PAW > exec plot1page TAB  : this KUMAC plots 6 figure. p/n,Reso.,Effi and Noise 
PAW > exec plot_n TABDD   : this KUMAC plots about n-side.
PAW > exec plot_p TABDD   : this KUMAC plots about p-side.
To use these kumac file, move to /ux0/data9/sdc_si/hiroyuki/ana/work.
You can use "graph.hst",because I made a symbolic link.

In "resosum.hst".
This histogram file have a histogram of smeared residual.
Histogram ID is RRRCC.
where RRR is run-number.


I don't know what sort of information, so I show the almost all technics
to access the analyzed data. 
 If you have more information or question, please let me know.
 Sorry to be late to answer you.

	Sincerity Yours,
		Hiroyuki Maeohmichi

P.S 
  How is a reaction against "Smeared Distribution ,make gaussian fit ,and 
                               substract the smeared sigma"?