181212 and 030101: A/DE09/DE09.HTM

For this page, see DE09 in English or DG09 in German.
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Start and linearized printer output of the ISO/IEC-test chart no. 3 (offset range) according to ISO/IEC 15775:1999-12
There are three different methods to linearize the printer output:
1. By Linearization Method data in the file (F)
2. By colour manangement data in the Distiller Startup (S) directory
3. By Linearization Method data in the PostScript device (D) memory

Step S1: Start output of the 16 grey steps.
Remark: The measurement data of CIE lightness L* of the 16 grey steps are used to produce an linearized output.
Step S2: linearized output of the 16 equidistant grey steps in CIE lightness L*
Step S3: Specification of the reproduction properties of the start output and the linearized output according to the method given in Annex G of DIN 33866-1:2000-08 and ISO/IEC 15775:1999-12.

Short description of the method using the PS output method for device T:
1. The file A/DE09/9120T/T9120ENA.PS is used to produce a PS ouput on a PS printer.
2. The 16 L*-lightness data of the 16 gray steps of the output NA are measured in the sequence F to 0.
3. The 16 L*-lightness data of the output NA are included in the files FA and RA (R=result, not realized up to now).
4. The file A/DE09/9120T/T9120EFA.PS is used to produce the linearized PS ouput on a PS printer.
5. The 16 L*-lightness data of the 16 gray steps of the output FA are measured in the sequence F to 0.
6. The 16 L*-lightness data of the output FA are included in the file RA (R=result, not realized up to now).

Remark 1: For a PDF output on any printer (instead of the PS output on a PS printer) the software Adobe Acrobat Distiller or an equivalent is necessary. The software is used to produce PDF files from PS files.

Remark 2: The output result produced here by File Output Linearisation (OLF) is based on measurement of the LAB* CIELAB data instead of only lightness L* data used in DE19

Output linearization of the achromatic ISO/IEC-test chart no. 3

If the start printer output of the ISO/IEC-test chart fails to pass some of the ISO/IEC-tests according to ISO/IEC 15775, e. g. to recognize 16 grey steps or all the Landolt -rings, then there is the intention for an linearized printer output. The following Table 1 shows examples for the specification of the reproduction properties of the start output and the linearized output according to the method given in Annex G of DIN 33866-1:2000-08 and ISO/IEC 15775:1999-12.

Table 1 shows some important test results for the start output and the linearized output:

Specification according to Annex G of DIN 33866-1 or ISO/IEC 15775 Device A
Black and white printer;
Output files A9120ENP.PDF and A9120EFP.PDF
Device F
Foto colour printer;
Output files F9120ENP.PDF and F9120EFP.PDF
Device O
Laser colour printer;
Output files O9120ENP.PDF and O9120EFP.PDF
Device T
Laser colour printer;
Output files T9120ENP.PDF and T9120EFP.PDF
Mean lightness difference (16 colours), Start output NP.PDF and linearized output FP.PDF 1.9 for start output
0.7 for linearized output
2.5 for start output
0.4 for linearized output
4.8 for start output
0.7 for linearized output
5.4 for start output
0.8 for linearized output
Regularity (5 colours), Start output NP.PDF and linearized output FP.PDF 77.1 for start output
90.2 for linearized output
67.0 for start output
92.0 for linearized output
33.7 for start output
94.1 for linearized output
49.3 for start output
89.9 for linearized output

Table 1: Specification of reproduction properties of the black and white output on four different printers using the PS operator 0 0 0 n* setcmykcolor (n* = relative blackness)

In Table 1 four different printers using the PostScript operator: 0 0 0 n* setcmykcolor (series A/DE09/9120X/X9120EFP.PDF, X=A,F,O,T) are shown. The files with the extention NP.PDF (N=no Linearization Method) and FP.PDF (F=File Linearization Method) distinguish only by a few lines at the beginning, which includes the Linearization Method data (which linearizes the colour output). The file FP.PDF includes the measured the CIE lightness L* data of the start output by the file NP.PDF.

Important exercise in four steps which is recommended for a user who likes to linearize visually the output of his device which may be a printer, monitor or a Video-beamer:
1. The PS file
T9120EFP.PS is copied to T9120ECP.PS (instead of F=File the abreviation C=Changed is used)

2. The PS file T9120ECP.PS includes in line 81 and 82 the measured lightness L* data of the 16 grey steps of the output of the file
T9120ENP.PS.
The 16 measurement data are as follows:
12.80 13.24 13.63 19.19 26.83 34.12 40.27 44.95
50.75 55.23 60.02 70.35 76.19 83.60 88.87 96.39
It is recommended to change the 16 data to the 16 default relative values in equidistant steps with a step difference of 6.67:
00.00 06.67 13.33 20.00 26.67 33.33 40.00 46.67
53.33 60.00 66.67 73.33 80.00 86.67 93.33 100.0
This gives the final PS file T9120ECP.PS (we have changed additionally the name FP.PS to CP.PS in the file)

3. Produce an output of the three PS files NP.PS, FP.PS and CP.PS on a PS printer or Display PostScript system (or use e. g. Adobe Acrobat Distiller and produce und use PDF files for output)

4. The output comparison of the three PS files (or three PDF-files) shows that visually the 16 grey steps and Landolt-rings in T9120ENP.PS and T9120ECP.PS are identical.
The file
T9120EFP.PS gives a lighter output (the start output was too dark). The output comparison of the three PDF files T9120ENP.PDF, T9120ECP.PDF and T9120EFP.PDF shows the same properties.

Result: Only the change of two lines with the relative CIELAB lightness L* data from equidistant relative values to measuered values allow to linearize the output of the achromatic ISO/IEC-test chart.

Recommended application for a user device (e. g. a printer, monitor or a Video-beamer):
1. If the output seems too light for light values then guess and change mainly the lighter values, e. g. guess and use 90 and 72 instead of the default values 80 and 60.
00.00 06.67 13.33 20.00 26.67 33.33 40.00 50.66
61.33 72.00 78.00 84.00 90.00 93.33 96.66 100.0
This is realized in the files T9120ECPN.PS and T9120ECPN.PDF which produce a darker (N) output for light colours only. The dark colours remain unchanged.

2.If the output seems too dark for dark values then guess and change mainly the darker values, e. g. guess and use 10 and 28 instead of the default values 20 and 40.
00.00 03.33 06.67 10.00 16.00 22.00 28.00 38.66
49.33 60.00 66.67 73.33 80.00 86.67 93.33 100.0
This is realized in the files T9120ECPW.PS and T9120ECPW.PDF which produce a lighter (W) output for dark colours only. The light colours remain unchanged.

Remark 1: Output linearization for images with 32 ISO/IEC-test colours is under development (result expected in April 2001)
Remark 2: Output linearization for chromatic ISO/IEC-test charts no. 2 and no. 4 is under development (result expected in May 2001)
Remark 3: The 16 above lightness data may be stored in the Distiller Startup (S) directory. A PS file can be produced by nearly any application. If a user produces from this PS file a PDF file then the Distiller may take the lightness data from the Distiller Startup (S) directory to produce the intended correction.
Remark 4: If the 16 above lightness data are stored in the PostScript Device (D) memory, then the output of all PS files of any application may produce the intended correction.

Output linearization of the achromatic ISO/IEC-test chart no. 3 on one model printer (X) and four real printers (A,F,O,T)

The PostScript operators w* setgray (Table 2), 0 0 0 n* setcmykcolor (Table 3), n* n* n* 0 setcmykcolor (Table 4), and w* w* w* 0 setrgbcolor (Table 5) are used for the linearization.

The files in the following tables with the extention SP.PDF (S=Startup) and DP.PDF (D=Device) may be used for Linearization Method using the Adobe Distiller Startup (S) directory or the PS Device (D) memory.

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
w* setgray
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and the non equidistant 16 grey steps using w* setgray

 X9110ENA(.TXT / PS)
125 /125 kByte

X9110ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: Square root model output of 16 gray steps using CM data at the beginning of the FA/FP.PS file second output and the 16 grey steps changed by the square root model using w* setgray

X9110EFA(.TXT / .PS)
125 /125 kByte

X9110EFP(.PS / .PDF )
125 / 100 kByte
Additional step: Model output of 16 gray steps using CM data stored in the Adobe Distiller startup directory additional output and the 16 grey steps changed by the square root model using w* setgray

 simulation: X9110ESA(.TXT / .PS)
125 /125 kByte

 simulation: X9110ESP(.PS / .PDF )
125 / 100 kByte
or use in startup X: MX9110ENP(.PS)
and delete this part in: X9110ESP(.PS )
Additional step: Model output of 16 gray steps using CM data stored in the PostScript device memory additional output and the 16 grey steps changed by the square root model using w* setgray

 simulation: X9110EDA(.TXT / .PS)
125 /125 kByte
or use in device X: MX9110ENA(.PS)
and delete this part in: X9110EDA(.PS )

simulation: X9110EDP(.PS / .PDF )
125 / 100 kByte 
Table 2X: Example files for square root model device X (relative L*-lightness range 0 to 1) using the PostScript operator w* setgray

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
w* setgray
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and measurement of the non equidistant 16 gray steps using w* setgray

 A9110ENA(.TXT / PS)
125 /125 kByte

A9110ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: linearized output of 16 equidistant gray steps using CM data at the beginning of the FA/FP.PS file second output and measurement of the equidistant 16 gray steps using w* setgray

A9110EFA(.TXT / .PS)
125 /125 kByte

A9110EFP(.PS / .PDF )
125 / 100 kByte
Step no. 3: Specification of the reproduction properties of the start and linearized output result: comparison of the start and linearized output of 16 gray steps and the reference gray steps (use measurements of step no. 1 and 2) using w* setgray

A9110ES3(.TXT )
125 /125 kByte

A9110ES3(.PS / .PDF )
125 / 100 kByte
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the Adobe Distiller startup directory additional output and measurement of the equidistant 16 gray steps using w* setgray

 simulation: A9110ESA(.TXT / .PS)
125 /125 kByte

 simulation: A9110ESP(.PS / .PDF )
125 / 100 kByte
or use in startup A: MA9110ENP(.PS)
and delete this part in: A9110ESP(.PS )
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the PostScript device memory additional output and measurement of the equidistant 16 gray steps using w* setgray

 simulation: A9110EDA(.TXT / .PS)
125 /125 kByte
or use in device A: MA9110ENA(.PS)
and delete this part in: A9110EDA(.PS )

simulation: A9110EDP(.PS / .PDF )
125 / 100 kByte 
Table 2A: Example files for device A (normal L*-lightness range) using the PostScript operator w* setgray

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
w* setgray
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and measurement of the non equidistant 16 gray steps using w* setgray

 F9110ENA(.TXT / PS)
125 /125 kByte

F9110ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: linearized output of 16 equidistant gray steps using CM data at the beginning of the FA/FP.PS file second output and measurement of the equidistant 16 gray steps using w* setgray

F9110EFA(.TXT / .PS)
125 /125 kByte

F9110EFP(.PS / .PDF )
125 / 100 kByte
Step no. 3: Specification of the reproduction properties of the start and linearized output result: comparison of the start and linearized output of 16 gray steps and the reference gray steps (use measurements of step no. 1 and 2) using w* setgray

F9110ES3(.TXT )
125 /125 kByte

F9110ES3(.PS / .PDF )
125 / 100 kByte
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the Adobe Distiller startup directory additional output and measurement of the equidistant 16 gray steps using w* setgray

 simulation: F9110ESA(.TXT / .PS)
125 /125 kByte

 simulation: F9110ESP(.PS / .PDF )
125 / 100 kByte
or use in startup F: MF9110ENP(.PS)
and delete this part in: F9110ESP(.PS )
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the PostScript device memory additional output and measurement of the equidistant 16 gray steps using w* setgray

 simulation: F9110EDA(.TXT / .PS)
125 /125 kByte
or use in device F: MF9110ENA(.PS)
and delete this part in: F9110EDA(.PS )

simulation: F9110EDP(.PS / .PDF )
125 / 100 kByte 
Table 2F: Example files for device F (very high L*-lightness range) using the PostScript operator w* setgray

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
w* setgray
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and measurement of the non equidistant 16 gray steps using w* setgray

 O9110ENA(.TXT / PS)
125 /125 kByte

O9110ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: linearized output of 16 equidistant gray steps using CM data at the beginning of the FA/FP.PS file second output and measurement of the equidistant 16 gray steps using w* setgray

O9110EFA(.TXT / .PS)
125 /125 kByte

O9110EFP(.PS / .PDF )
125 / 100 kByte
Step no. 3: Specification of the reproduction properties of the start and linearized output result: comparison of the start and linearized output of 16 gray steps and the reference gray steps (use measurements of step no. 1 and 2) using w* setgray

O9110ES3(.TXT )
125 /125 kByte

O9110ES3(.PS / .PDF )
125 / 100 kByte
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the Adobe Distiller startup directory additional output and measurement of the equidistant 16 gray steps using w* setgray

 simulation: O9110ESA(.TXT / .PS)
125 /125 kByte

 simulation: O9110ESP(.PS / .PDF )
125 / 100 kByte
or use in startup O: MO9110ENP(.PS)
and delete this part in: O9110ESP(.PS )
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the PostScript device memory additional output and measurement of the equidistant 16 gray steps using w* setgray

 simulation: O9110EDA(.TXT / .PS)
125 /125 kByte
or use in device O: MO9110ENA(.PS)
and delete this part in: O9110EDA(.PS )

simulation: O9110EDP(.PS / .PDF )
125 / 100 kByte 
Table 2O: Example files for device O (normal L*-lightness range) using the PostScript operator w* setgray

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
w* setgray
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and measurement of the non equidistant 16 gray steps using w* setgray

 T9110ENA(.TXT / PS)
125 /125 kByte

T9110ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: linearized output of 16 equidistant gray steps using CM data at the beginning of the FA/FP.PS file second output and measurement of the equidistant 16 gray steps using w* setgray

T9110EFA(.TXT / .PS)
125 /125 kByte

T9110EFP(.PS / .PDF )
125 / 100 kByte
Step no. 3: Specification of the reproduction properties of the start and linearized output result: comparison of the start and linearized output of 16 gray steps and the reference gray steps (use measurements of step no. 1 and 2) using w* setgray

T9110ES3(.TXT )
125 /125 kByte

T9110ES3(.PS / .PDF )
125 / 100 kByte
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the Adobe Distiller startup directory additional output and measurement of the equidistant 16 gray steps using w* setgray

 simulation: T9110ESA(.TXT / .PS)
125 /125 kByte

 simulation: T9110ESP(.PS / .PDF )
125 / 100 kByte
or use in startup T: MT9110ENP(.PS)
and delete this part in: T9110ESP(.PS )
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the PostScript device memory additional output and measurement of the equidistant 16 gray steps using w* setgray

 simulation: T9110EDA(.TXT / .PS)
125 /125 kByte
or use in device T: MT9110ENA(.PS)
and delete this part in: T9110EDA(.PS )

simulation: T9110EDP(.PS / .PDF )
125 / 100 kByte 
Table 2T: Example files for device T (high L*-lightness range) using the PostScript operator w* setgray

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
using 0 0 0 n* setcmykcolor
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and the non equidistant 16 gray steps using 0 0 0 n* setcmykcolor

 X9120ENA(.TXT / PS)
125 /125 kByte

X9120ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: Square root model output of 16 gray steps using CM data at the beginning of the FA/FP.PS file second output and the 16 grey steps changed by the square root model using 0 0 0 n* setcmykcolor

X9120EFA(.TXT / .PS)
125 /125 kByte

X9120EFP(.PS / .PDF )
125 / 100 kByte
Additional step: Model output of 16 gray steps using CM data stored in the Adobe Distiller startup directory additional output and the 16 grey steps changed by the square root model using 0 0 0 n* setcmykcolor

 simulation: X9120ESA(.TXT / .PS)
125 /125 kByte

 simulation: X9120ESP(.PS / .PDF )
125 / 100 kByte
or use in startup X: MX9120ENP(.PS)
and delete this part in: X9120ESP(.PS )
Additional step: Model output of 16 gray steps using CM data stored in the PostScript device memory additional output and the 16 grey steps changed by the square root model using 0 0 0 n* setcmykcolor

 simulation: X9120EDA(.TXT / .PS)
125 /125 kByte
or use in device X: MX9120ENA(.PS)
and delete this part in: X9120EDA(.PS )

simulation: X9120EDP(.PS / .PDF )
125 / 100 kByte 
Table 3X: Example files for square root model device X (relative L*-lightness range 0 to 1) using the PostScript operator 0 0 0 n* setcmykcolor

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
0 0 0 n* setcmykcolor
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and measurement of the non equidistant 16 gray steps using 0 0 0 n* setcmykcolor

 A9120ENA(.TXT / PS)
125 /125 kByte

A9120ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: linearized output of 16 equidistant gray steps using CM data at the beginning of the FA/FP.PS file second output and measurement of the equidistant 16 gray steps using 0 0 0 n* setcmykcolor

A9120EFA(.TXT / .PS)
125 /125 kByte

A9120EFP(.PS / .PDF )
125 / 100 kByte
Step no. 3: Specification of the reproduction properties of the start and linearized output result: comparison of the start and linearized output of 16 gray steps and the reference gray steps (use measurements of step no. 1 and 2)
using 0 0 0 n* setcmykcolor

A9120ES3(.TXT )
125 /125 kByte

A9120ES3(.PS / .PDF )
125 / 100 kByte
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the Adobe Distiller startup directory additional output and measurement of the equidistant 16 gray steps using 0 0 0 n* setcmykcolor

 simulation: A9120ESA(.TXT / .PS)
125 /125 kByte

 simulation: A9120ESP(.PS / .PDF )
125 / 100 kByte
or use in startup A: MA9120ENP(.PS)
and delete this part in: A9120ESP(.PS )
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the PostScript device memory additional output and measurement of the equidistant 16 gray steps using 0 0 0 n* setcmykcolor

 simulation: A9120EDA(.TXT / .PS)
125 /125 kByte
or use in device A: MA9120ENA(.PS)
and delete this part in: A9120EDA(.PS )

simulation: A9120EDP(.PS / .PDF )
125 / 100 kByte 
Table 3A: Example files for device A (normal L*-lightness range) using the PostScript operator 0 0 0 n* setcmykcolor

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
0 0 0 n* setcmykcolor
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and measurement of the non equidistant 16 gray steps using 0 0 0 n* setcmykcolor

 F9120ENA(.TXT / PS)
125 /125 kByte

F9120ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: linearized output of 16 equidistant gray steps using CM data at the beginning of the FA/FP.PS file second output and measurement of the equidistant 16 gray steps using 0 0 0 n* setcmykcolor

F9120EFA(.TXT / .PS)
125 /125 kByte

F9120EFP(.PS / .PDF )
125 / 100 kByte
Step no. 3: Specification of the reproduction properties of the start and linearized output result: comparison of the start and linearized output of 16 gray steps and the reference gray steps (use measurements of step no. 1 and 2)
using 0 0 0 n* setcmykcolor

F9120ES3(.TXT )
125 /125 kByte

F9120ES3(.PS / .PDF )
125 / 100 kByte
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the Adobe Distiller startup directory additional output and measurement of the equidistant 16 gray steps using 0 0 0 n* setcmykcolor

 simulation: F9120ESA(.TXT / .PS)
125 /125 kByte

 simulation: F9120ESP(.PS / .PDF )
125 / 100 kByte
or use in startup F: MF9120ENP(.PS)
and delete this part in: F9120ESP(.PS )
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the PostScript device memory additional output and measurement of the equidistant 16 gray steps using 0 0 0 n* setcmykcolor

 simulation: F9120EDA(.TXT / .PS)
125 /125 kByte
or use in device F: MF9120ENA(.PS)
and delete this part in: F9120EDA(.PS )

simulation: F9120EDP(.PS / .PDF )
125 / 100 kByte 
Table 3F: Example files for device F (very high L*-lightness range) using the PostScript operator 0 0 0 n* setcmykcolor

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
0 0 0 n* setcmykcolor
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and measurement of the non equidistant 16 gray steps using 0 0 0 n* setcmykcolor

 O9120ENA(.TXT / PS)
125 /125 kByte

O9120ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: linearized output of 16 equidistant gray steps using CM data at the beginning of the FA/FP.PS file second output and measurement of the equidistant 16 gray steps using 0 0 0 n* setcmykcolor

O9120EFA(.TXT / .PS)
125 /125 kByte

O9120EFP(.PS / .PDF )
125 / 100 kByte
Step no. 3: Specification of the reproduction properties of the start and linearized output result: comparison of the start and linearized output of 16 gray steps and the reference gray steps (use measurements of step no. 1 and 2)
using 0 0 0 n* setcmykcolor

O9120ES3(.TXT )
125 /125 kByte

O9120ES3(.PS / .PDF )
125 / 100 kByte
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the Adobe Distiller startup directory additional output and measurement of the equidistant 16 gray steps using 0 0 0 n* setcmykcolor

 simulation: O9120ESA(.TXT / .PS)
125 /125 kByte

 simulation: O9120ESP(.PS / .PDF )
125 / 100 kByte
or use in startup O: MO9120ENP(.PS)
and delete this part in: O9120ESP(.PS )
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the PostScript device memory additional output and measurement of the equidistant 16 gray steps using 0 0 0 n* setcmykcolor

 simulation: O9120EDA(.TXT / .PS)
125 /125 kByte
or use in device O: MO9120ENA(.PS)
and delete this part in: O9120EDA(.PS )

simulation: O9120EDP(.PS / .PDF )
125 / 100 kByte 
Table 3O: Example files for device O (normal L*-lightness range) using the PostScript operator 0 0 0 n* setcmykcolor

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
0 0 0 n* setcmykcolor
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and measurement of the non equidistant 16 gray steps using 0 0 0 n* setcmykcolor

 T9120ENA(.TXT / PS)
125 /125 kByte

T9120ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: linearized output of 16 equidistant gray steps using CM data at the beginning of the FA/FP.PS file second output and measurement of the equidistant 16 gray steps using 0 0 0 n* setcmykcolor

T9120EFA(.TXT / .PS)
125 /125 kByte

T9120EFP(.PS / .PDF )
125 / 100 kByte
Step no. 3: Specification of the reproduction properties of the start and linearized output result: comparison of the start and linearized output of 16 gray steps and the reference gray steps (use measurements of step no. 1 and 2)
using 0 0 0 n* setcmykcolor

T9120ES3(.TXT )
125 /125 kByte

T9120ES3(.PS / .PDF )
125 / 100 kByte
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the Adobe Distiller startup directory additional output and measurement of the equidistant 16 gray steps using 0 0 0 n* setcmykcolor

 simulation: T9120ESA(.TXT / .PS)
125 /125 kByte

 simulation: T9120ESP(.PS / .PDF )
125 / 100 kByte
or use in startup T: MT9120ENP(.PS)
and delete this part in: T9120ESP(.PS )
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the PostScript device memory additional output and measurement of the equidistant 16 gray steps using 0 0 0 n* setcmykcolor

 simulation: T9120EDA(.TXT / .PS)
125 /125 kByte
or use in device T: MT9120ENA(.PS)
and delete this part in: T9120EDA(.PS )

simulation: T9120EDP(.PS / .PDF )
125 / 100 kByte 
Table 3T: Example files for device T (high L*-lightness range) using the PostScript operator 0 0 0 n* setcmykcolor

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
using n* n* n* 0 setcmykcolor
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and the non equidistant 16 grey steps using n* n* n* 0 setcmykcolor

 X9130ENA(.TXT / PS)
125 /125 kByte

X9130ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: Square root model output of 16 gray steps using CM data at the beginning of the FA/FP.PS file second output and the 16 grey steps changed by the square root model using n* n* n* 0 setcmykcolor

X9130EFA(.TXT / .PS)
125 /125 kByte

X9130EFP(.PS / .PDF )
125 / 100 kByte
Additional step: Model output of 16 gray steps using CM data stored in the Adobe Distiller startup directory additional output and the 16 grey steps changed by the square root model using n* n* n* 0 setcmykcolor

 simulation: X9130ESA(.TXT / .PS)
125 /125 kByte

 simulation: X9130ESP(.PS / .PDF )
125 / 100 kByte
or use in startup X: MX9130ENP(.PS)
and delete this part in: X9130ESP(.PS )
Additional step: Model output of 16 gray steps using CM data stored in the PostScript device memory additional output and the 16 grey steps changed by the square root model using n* n* n* 0 setcmykcolor

 simulation: X9130EDA(.TXT / .PS)
125 /125 kByte
or use in device X: MX9130ENA(.PS)
and delete this part in: X9130EDA(.PS )

simulation: X9130EDP(.PS / .PDF )
125 / 100 kByte 
Table 4X: Example files for square root model device X (relative L*-lightness range 0 to 1) using the PostScript operatorn* n* n* 0 setcmykcolor

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
n* n* n* 0 setcmykcolor
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and measurement of the non equidistant 16 gray steps using n* n* n* 0 setcmykcolor

 A9130ENA(.TXT / PS)
125 /125 kByte

A9130ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: linearized output of 16 equidistant gray steps using CM data at the beginning of the FA/FP.PS file second output and measurement of the equidistant 16 gray steps using n* n* n* 0 setcmykcolor

A9130EFA(.TXT / .PS)
125 /125 kByte

A9130EFP(.PS / .PDF )
125 / 100 kByte
Step no. 3: Specification of the reproduction properties of the start and linearized output result: comparison of the start and linearized output of 16 gray steps and the reference gray steps (use measurements of step no. 1 and 2)
using n* n* n* 0 setcmykcolor

A9130ES3(.TXT )
125 /125 kByte

A9130ES3(.PS / .PDF )
125 / 100 kByte
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the Adobe Distiller startup directory additional output and measurement of the equidistant 16 gray steps using n* n* n* 0 setcmykcolor

 simulation: A9130ESA(.TXT / .PS)
125 /125 kByte

 simulation: A9130ESP(.PS / .PDF )
125 / 100 kByte
or use in startup A: MA9130ENP(.PS)
and delete this part in: A9130ESP(.PS )
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the PostScript device memory additional output and measurement of the equidistant 16 gray steps using n* n* n* 0 setcmykcolor

 simulation: A9130EDA(.TXT / .PS)
125 /125 kByte
or use in device A: MA9130ENA(.PS)
and delete this part in: A9130EDA(.PS )

simulation: A9130EDP(.PS / .PDF )
125 / 100 kByte 
Table 4A: Example files for device A (normal L*-lightness range) using the PostScript operator n* n* n* 0 setcmykcolor

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
n* n* n* 0 setcmykcolor
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and measurement of the non equidistant 16 gray steps using n* n* n* 0 setcmykcolor

 F9130ENA(.TXT / PS)
125 /125 kByte

F9130ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: linearized output of 16 equidistant gray steps using CM data at the beginning of the FA/FP.PS file second output and measurement of the equidistant 16 gray steps using n* n* n* 0 setcmykcolor

F9130EFA(.TXT / .PS)
125 /125 kByte

F9130EFP(.PS / .PDF )
125 / 100 kByte
Step no. 3: Specification of the reproduction properties of the start and linearized output result: comparison of the start and linearized output of 16 gray steps and the reference gray steps (use measurements of step no. 1 and 2)
using n* n* n* 0 setcmykcolor

F9130ES3(.TXT )
125 /125 kByte

F9130ES3(.PS / .PDF )
125 / 100 kByte
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the Adobe Distiller startup directory additional output and measurement of the equidistant 16 gray steps using n* n* n* 0 setcmykcolor

 simulation: F9130ESA(.TXT / .PS)
125 /125 kByte

 simulation: F9130ESP(.PS / .PDF )
125 / 100 kByte
or use in startup F: MF9130ENP(.PS)
and delete this part in: F9130ESP(.PS )
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the PostScript device memory additional output and measurement of the equidistant 16 gray steps using n* n* n* 0 setcmykcolor

 simulation: F9130EDA(.TXT / .PS)
125 /125 kByte
or use in device F: MF9130ENA(.PS)
and delete this part in: F9130EDA(.PS )

simulation: F9130EDP(.PS / .PDF )
125 / 100 kByte 
Table 4F: Example files for device F (very high L*-lightness range) using the PostScript operator n* n* n* 0 setcmykcolor

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
n* n* n* 0 setcmykcolor
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and measurement of the non equidistant 16 gray steps using n* n* n* 0 setcmykcolor

 O9130ENA(.TXT / PS)
125 /125 kByte

O9130ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: linearized output of 16 equidistant gray steps using CM data at the beginning of the FA/FP.PS file second output and measurement of the equidistant 16 gray steps using n* n* n* 0 setcmykcolor

O9130EFA(.TXT / .PS)
125 /125 kByte

O9130EFP(.PS / .PDF )
125 / 100 kByte
Step no. 3: Specification of the reproduction properties of the start and linearized output result: comparison of the start and linearized output of 16 gray steps and the reference gray steps (use measurements of step no. 1 and 2)
using n* n* n* 0 setcmykcolor

O9130ES3(.TXT )
125 /125 kByte

O9130ES3(.PS / .PDF )
125 / 100 kByte
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the Adobe Distiller startup directory additional output and measurement of the equidistant 16 gray steps using n* n* n* 0 setcmykcolor

 simulation: O9130ESA(.TXT / .PS)
125 /125 kByte

 simulation: O9130ESP(.PS / .PDF )
125 / 100 kByte
or use in startup O: MO9130ENP(.PS)
and delete this part in: O9130ESP(.PS )
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the PostScript device memory additional output and measurement of the equidistant 16 gray steps using n* n* n* 0 setcmykcolor

 simulation: O9130EDA(.TXT / .PS)
125 /125 kByte
or use in device O: MO9130ENA(.PS)
and delete this part in: O9130EDA(.PS )

simulation: O9130EDP(.PS / .PDF )
125 / 100 kByte 
Table 4O: Example files for device O (normal L*-lightness range) using the PostScript operator n* n* n* 0 setcmykcolor

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
n* n* n* 0 setcmykcolor
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and measurement of the non equidistant 16 gray steps using n* n* n* 0 setcmykcolor

 T9130ENA(.TXT / PS)
125 /125 kByte

T9130ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: linearized output of 16 equidistant gray steps using CM data at the beginning of the FA/FP.PS file second output and measurement of the equidistant 16 gray steps using n* n* n* 0 setcmykcolor

T9130EFA(.TXT / .PS)
125 /125 kByte

T9130EFP(.PS / .PDF )
125 / 100 kByte
Step no. 3: Specification of the reproduction properties of the start and linearized output result: comparison of the start and linearized output of 16 gray steps and the reference gray steps (use measurements of step no. 1 and 2)
using n* n* n* 0 setcmykcolor

T9130ES3(.TXT )
125 /125 kByte

T9130ES3(.PS / .PDF )
125 / 100 kByte
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the Adobe Distiller startup directory additional output and measurement of the equidistant 16 gray steps using n* n* n* 0 setcmykcolor

 simulation: T9130ESA(.TXT / .PS)
125 /125 kByte

 simulation: T9130ESP(.PS / .PDF )
125 / 100 kByte
or use in startup T: MT9130ENP(.PS)
and delete this part in: T9130ESP(.PS )
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the PostScript device memory additional output and measurement of the equidistant 16 gray steps using n* n* n* 0 setcmykcolor

 simulation: T9130EDA(.TXT / .PS)
125 /125 kByte
or use in device T: MT9130ENA(.PS)
and delete this part in: T9130EDA(.PS )

simulation: T9130EDP(.PS / .PDF )
125 / 100 kByte 
Table 4T: Example files for device T (high L*-lightness range) using the PostScript operator n* n* n* 0 setcmykcolor

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
w* w* w* setrgbcolor
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and the non equidistant 16 gray steps using w* w* w* setrgbcolor

 X9140ENA(.TXT / PS)
125 /125 kByte

X9140ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: Square root model output of 16 gray steps using CM data at the beginning of the FA/FP.PS file second output and the 16 grey steps changed by the square root model using w* w* w* setrgbcolor

X9140EFA(.TXT / .PS)
125 /125 kByte

X9140EFP(.PS / .PDF )
125 / 100 kByte
Additional step: Model output of 16 gray steps using CM data stored in the Adobe Distiller startup directory additional output and the 16 grey steps changed by the square root model using w* w* w* setrgbcolor

 simulation: X9140ESA(.TXT / .PS)
125 /125 kByte

 simulation: X9140ESP(.PS / .PDF )
125 / 100 kByte
or use in startup X: MX9140ENP(.PS)
and delete this part in: X9140ESP(.PS )
Additional step: Model output of 16 gray steps using CM data stored in the PostScript device memory additional output and the 16 grey steps changed by the square root model using w* w* w* setrgbcolor

 simulation: X9140EDA(.TXT / .PS)
125 /125 kByte
or use in device X: MX9140ENA(.PS)
and delete this part in: X9140EDA(.PS )

simulation: X9140EDP(.PS / .PDF )
125 / 100 kByte 
Table 5X: Example files for square root model device X (relative L*-lightness range 0 to 1) using the PostScript operator w* w* w* setrgbcolor

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
w* w* w* setrgbcolor
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and measurement of the non equidistant 16 gray steps using w* w* w* setrgbcolor

 A9140ENA(.TXT / PS)
125 /125 kByte

A9140ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: linearized output of 16 equidistant gray steps using CM data at the beginning of the FA/FP.PS file second output and measurement of the equidistant 16 gray steps using w* w* w* setrgbcolor

A9140EFA(.TXT / .PS)
125 /125 kByte

A9140EFP(.PS / .PDF )
125 / 100 kByte
Step no. 3: Specification of the reproduction properties of the start and linearized output result: comparison of the start and linearized output of 16 gray steps and the reference gray steps (use measurements of step no. 1 and 2)
using w* w* w* setrgbcolor

A9140ES3(.TXT )
125 /125 kByte

A9140ES3(.PS / .PDF )
125 / 100 kByte
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the Adobe Distiller startup directory additional output and measurement of the equidistant 16 gray steps using w* w* w* setrgbcolor

 simulation: A9140ESA(.TXT / .PS)
125 /125 kByte

 simulation: A9140ESP(.PS / .PDF )
125 / 100 kByte
or use in startup A: MA9140ENP(.PS)
and delete this part in: A9140ESP(.PS )
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the PostScript device memory additional output and measurement of the equidistant 16 gray steps using w* w* w* setrgbcolor

 simulation: A9140EDA(.TXT / .PS)
125 /125 kByte
or use in device A: MA9140ENA(.PS)
and delete this part in: A9140EDA(.PS )

simulation: A9140EDP(.PS / .PDF )
125 / 100 kByte 
Table 5A: Example files for device A (normal L*-lightness range) using the PostScript operator w* w* w* setrgbcolor

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
w* w* w* setrgbcolor
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and measurement of the non equidistant 16 gray steps using w* w* w* setrgbcolor

 F9140ENA(.TXT / PS)
125 /125 kByte

F9140ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: linearized output of 16 equidistant gray steps using CM data at the beginning of the FA/FP.PS file second output and measurement of the equidistant 16 gray steps using w* w* w* setrgbcolor

F9140EFA(.TXT / .PS)
125 /125 kByte

F9140EFP(.PS / .PDF )
125 / 100 kByte
Step no. 3: Specification of the reproduction properties of the start and linearized output result: comparison of the start and linearized output of 16 gray steps and the reference gray steps (use measurements of step no. 1 and 2)
using w* w* w* setrgbcolor

F9140ES3(.TXT )
125 /125 kByte

F9140ES3(.PS / .PDF )
125 / 100 kByte
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the Adobe Distiller startup directory additional output and measurement of the equidistant 16 gray steps using w* w* w* setrgbcolor

 simulation: F9140ESA(.TXT / .PS)
125 /125 kByte

 simulation: F9140ESP(.PS / .PDF )
125 / 100 kByte
or use in startup F: MF9140ENP(.PS)
and delete this part in: F9140ESP(.PS )
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the PostScript device memory additional output and measurement of the equidistant 16 gray steps using w* w* w* setrgbcolor

 simulation: F9140EDA(.TXT / .PS)
125 /125 kByte
or use in device F: MF9140ENA(.PS)
and delete this part in: F9140EDA(.PS )

simulation: F9140EDP(.PS / .PDF )
125 / 100 kByte 
Table 5F: Example files for device F (very high L*-lightness range) using the PostScript operator w* w* w* setrgbcolor

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
w* w* w* setrgbcolor
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and measurement of the non equidistant 16 gray steps using w* w* w* setrgbcolor

 O9140ENA(.TXT / PS)
125 /125 kByte

O9140ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: linearized output of 16 equidistant gray steps using CM data at the beginning of the FA/FP.PS file second output and measurement of the equidistant 16 gray steps using w* w* w* setrgbcolor

O9140EFA(.TXT / .PS)
125 /125 kByte

O9140EFP(.PS / .PDF )
125 / 100 kByte
Step no. 3: Specification of the reproduction properties of the start and linearized output result: comparison of the start and linearized output of 16 gray steps and the reference gray steps (use measurements of step no. 1 and 2)
using w* w* w* setrgbcolor

O9140ES3(.TXT )
125 /125 kByte

O9140ES3(.PS / .PDF )
125 / 100 kByte
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the Adobe Distiller startup directory additional output and measurement of the equidistant 16 gray steps using w* w* w* setrgbcolor

 simulation: O9140ESA(.TXT / .PS)
125 /125 kByte

 simulation: O9140ESP(.PS / .PDF )
125 / 100 kByte
or use in startup O: MO9140ENP(.PS)
and delete this part in: O9140ESP(.PS )
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the PostScript device memory additional output and measurement of the equidistant 16 gray steps using w* w* w* setrgbcolor

 simulation: O9140EDA(.TXT / .PS)
125 /125 kByte
or use in device O: MF9140ENA(.PS)
and delete this part in: O9140EDA(.PS )

simulation: O9140EDP(.PS / .PDF )
125 / 100 kByte 
Table 5O: Example files for device O (normal L*-lightness range) using the PostScript operator w* w* w* setrgbcolor

Digital ISO/IEC-test charts
according to ISO/IEC 15775:1999-12
Remarks and use of PostScript operator
w* w* w* setrgbcolor
Text and PostScript format
File types A.TXT or A.PS
PostScript and Portable Document format (Version 3.0)
File types P.PS and P.PDF
Step no. 1: Start output of the 16 gray steps defined in the NA/NP.PS file first output and measurement of the non equidistant 16 gray steps using w* w* w* setrgbcolor

 T9140ENA(.TXT / PS)
125 /125 kByte

T9140ENP(.PS / PDF)
125 / 100 kByte
Step no. 2: linearized output of 16 equidistant gray steps using CM data at the beginning of the FA/FP.PS file second output and measurement of the equidistant 16 gray steps using w* w* w* setrgbcolor

T9140EFA(.TXT / .PS)
125 /125 kByte

T9140EFP(.PS / .PDF )
125 / 100 kByte
Step no. 3: Specification of the reproduction properties of the start and linearized output result: comparison of the start and linearized output of 16 gray steps and the reference gray steps (use measurements of step no. 1 and 2)
using w* w* w* setrgbcolor

T9140ES3(.TXT )
125 /125 kByte

T9140ES3(.PS / .PDF )
125 / 100 kByte
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the Adobe Distiller startup directory additional output and measurement of the equidistant 16 gray steps using w* w* w* setrgbcolor

 simulation: T9140ESA(.TXT / .PS)
125 /125 kByte

 simulation: T9140ESP(.PS / .PDF )
125 / 100 kByte
or use in startup T: MT9140ENP(.PS)
and delete this part in: T9140ESP(.PS )
Additional step: linearized output of 16 equidistant gray steps using CM data stored in the PostScript device memory additional output and measurement of the equidistant 16 gray steps using w* w* w* setrgbcolor

 simulation: T9140EDA(.TXT / .PS)
125 /125 kByte
or use in device T: MT9140ENA(.PS)
and delete this part in: T9140EDA(.PS )

simulation: T9140EDP(.PS / .PDF )
125 / 100 kByte 
Table 5T: Example files for device T (high L*-lightness range) using the PostScript operator w* w* w* setrgbcolor

The accuracy of the 16step grey scale output for the start and linearized output is described in DE02

-------
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