181212 and 030101: A/DE95/DE95.HTM

For this page, see DE95 in English or DG95 in German.
For the previous page, see DE94 in English or DG94 in German.
For the next page, see DE96 in English or DG96 in German.
Back to the main page of this colour series, see ../DE in English or ../DG in German.

For this page without and with MTL code for OL with:
CIEXYZ data of luminous colours, see IE95 in English and IG95 in German,
CIELAB data of surface colours, see DE95 in English and DG95 in German.

For this page without and with MTL code (N and F file) for OL with CIELAB data of surface colours for different devices:
L=Linear, see DE95L in English and DG95L in German,
S=Square root, see DE95S in English and DG95S in German,
Q=Quadratic, see DE95Q in English and DG95Q in German,
printer F, see DE95F in English and DG95F in German,
printer O, see DE95O in English and DG95O in German,
printer T, see DE95T in English and DG95T in German.

For this page with the colours defined by the input PS operator:
cmyn* setcmykcolor, see DE95 in English or DG95 in German,
olv* setrgbcolor, see EE95 in English or EG95 in German,
LAB* setcolor, see FE95 in English or FG95 in German.

Fig. B4 and D4 of chromatic ISO/IEC-test chart 2 and 4
Colour Workflow (CW) by the input operator no. 0(D/I), 1(E/J), 5(F/K)
and different output PS operators and Output Linearisation (OL)


Fig. 1: Output layout without the MTL code in the N-File (N = No MTL code in the file), see
L95E00N1.PS / TXT / JPG / PDF


Fig. 2: Output layout with MTL code of example CIELAB output data of the device L (L=Linear) in the F-File (F = MTL code in the File), see
L95E00F1.PS / TXT / JPG / PDF

Remark: In Fig. 2 the output of the grey series in row 4 and 8 is identical and defined by the same grey output PS operator used in the MTL code. In Fig. 1 the output of the two grey series in row 4 and 8 may be different, because two different input PS operators are used in the N-file.


Fig. 3: Output layout with MTL code of example CIELAB output data of the device S (S=Square root) in the F-File (F = MTL code in the File), which produce a "lighter" output compared to Fig. 1, see
Q95E00F1.PS / TXT / JPG / PDF


Fig. 4: Output layout with MTL code of example CIELAB output data of the device Q (Q=Quadratic) in the F-File (F = MTL code in the File), which produce a "darker" output compared to Fig. 1, see
S95E00F1.PS / TXT / JPG / PDF

One may use for monitor Output Linearisation (OL) the top and the bottom part. The top part or a transparent ISO/IEC-test chart may serve as reference and the bottom part for the adjustment to the reference.

For the full page with CIELAB data, see DE95 in English or DG95 in German,
For the top part of the page with CIELAB data, see EE95 in English or EG95 in German,
For the bottom part of the page with CIELAB data, see FE95 in English or FG95 in German.

Remark: The file names begin with A, B, C or D, if the different room reflections Yr=0.00, 2.52 (standard case), 5.04 and7.56 change the luminous monitor colours.

For the full page with CIEXYZ data for luminous colours and room reflexions:
Yr=0.00, see IE95A in English or IG95A in German.
Yr=2.52 (standard), see IE95B in English or IG95B in German.
Yr=5.04, see IE95C in English or IG95C in German.
Yr=7.56, see IE95D in English or IG95D in German.

One may use for monitor Output Linearisation (OL) the top and the bottom part. The top part or a transparent ISO/IEC-test chart may serve as reference and the bottom part for the adjustment to the reference.

For the top part with CIEXYZ data for luminous colours and room reflexions:
Yr=0.00, see JE95A in English or JG95A in German.
Yr=2.52 (standard), see JE95B in English or JG95B in German.
Yr=5.04, see JE95C in English or JG95C in German.
Yr=7.56, see JE95D in English or JG95D in German.

For the bottom part with CKEXYZ data for luminous colours and room reflexions:
Yr=0.00, see KE95A in English or KG95A in German.
Yr=2.52 (standard), see KE95B in English or KG95B in German.
Yr=5.04, see KE95C in English or KG95C in German.
Yr=7.56, see KE95D in English or KG95D in German.

Important properties if the MTL code is used (see files: L..FA.PS, L..FP.PDF, L..SP.PDF):
1. The output is the same for all output PS operators independent of the input PS operator used.
2. The output is the same and visually equally spaced (in CIELAB) for all output PS operators if Output Linearisation (OL) by the MTL code is used (e. g. files [(Q/S/F/O/T)]..FP.[PS/PDF]). The equally spaced output is independent of the input PS operator used.

For information about the parameter i*ptrsc (number 0 to 7) used for input or output PS operators, see DE802

For information about the ISO/IEC-test charts and separate parts (Fig. XY) with different input PS operators and discussion, see DE801

This page includes files for the following application:
Fig. B4 and D4 of chromatic ISO/IEC-test chart 2 and 4,
Colour Workflow (CW) and Output Linearisation (OL)

Table 1 includes the output files of the Portable Document format (L..NP.PS/TXT/PDF and L..FP.PS/TXT/PDF)
Table 2 includes the output files of the PostScript format (L..NA.PS/TXT and L..FA.PS/TXT).
Table 3 includes the output files of the Portable Document format (L..NP.PS/TXT/PDF and L..SP.PS/TXT/PDF).

To indicate the Colour Workflow (CW) at the output different file names are used. The files have usually the same PS content

The PS content of the files L..NP.PS, L..NA.PS and L..SP.PS of the Tables 1 to 3 is identical and includes no MTL code.
The PS content of the files L..FP.PS and L..FA.PS of the Tables 1 and 2 is identical and includes the MTL code L..FP.DAT or L..FA.DAT in the file (F).

The output of the files L..FP.PDF and L..SP.PDF must be identical if the MTL code L..SP.DAT is stored within the Distiller Startup Directory during distilling of the PS file L..SP.PS. The files L..FP.PDF and L..SP.PDF have been produced by the software Adobe Acrobat DIstiller Version 3.0. In the first case the MTL code is located in the file L..FP.PS and in the second case the MTL code L..FP.DAT = L..SP.DAT is not in the file L..SP.PS but in the Startup (S) directory of the software Adobe Acrobat DIstiller.

Input PS operator no. 0(D/I), 1(E/J), 5(F/K)
and start files

*NP.PS / .TXT /.PDF
140 / 140 / 25 kByte
Output
PS operator
parameter
i*ptrsc
Colorimetric transfer from the
input PS operator no. 0(D/I), 1(E/J), 5(F/K)
to the output PS operators no. 0 to 7
defined by i*ptrsc

Output Linearisation with
L=Linear data (no change of scaling of output) in files
*FP.PS / TXT / PDF
240 / 240 / 25 kByte

PostScript MTL code used for output
100 kByte
L95E00NP.PS / TXT / PDF  0 cmy0* setcmykcolor and 000n* setcmykcolor L95E00FP.PS / TXT / PDF L95E00FP.DAT
L95E01NP.PS / TXT / PDF  1 olv* setrgbcolor and w* setgray L95E01FP.PS / TXT / PDF L95E01FP.DAT
L95E02NP.PS / TXT / PDF  2 cmy0* setcmykcolor and nnn0* setcmykcolor L95E02FP.PS / TXT / PDF L95E02FP.DAT
L95E03NP.PS / TXT / PDF  3 olv* setrgbcolor and www* setrgbcolor L95E03FP.PS / TXT / PDF L95E03FP.DAT
L95E04NP.PS / TXT / PDF   4 lab* setcolor L95E04FP.PS / TXT / PDF L95E04FP.DAT
L95E05NP.PS / TXT / PDF  5 LAB* setcolor L95E05FP.PS / TXT / PDF L95E05FP.DAT
L95E06NP.PS / TXT / PDF  6 000n* setcmykcolor L95E06FP.PS / TXT / PDF L95E06FP.DAT
L95E07NP.PS / TXT / PDF  7 w* setgray L95E07FP.PS / TXT / PDF L95E07FP.DAT

Table 1: For PDF output with linearising data in File (F); Input PS operator no. 0(D/I), 1(E/J), 5(F/K) in the NP file and output PS operators no. 0 to 7 in the in FP file which are transferred by the PS MTL code.

Remark: With the files of Table 1 it is intended to produce only a PDF output with linearisation data in the File (F) and not a PS output.

Input PS operator no. 0(D/I), 1(E/J), 5(F/K)
and start files

*NA.PS / .TXT
140 / 140 kByte
Output
PS operator
parameter
i*ptrsc
Colorimetric transfer from the
input PS operator no. 0(D/I), 1(E/J), 5(F/K)
to the output PS operators no. 0 to 7
defined by i*ptrsc

Output Linearisation with
L=Linear data (no change of scaling of output) in files
*FA.PS / TXT
240 / 240 kByte

PostScript MTL code used for output
100 kByte
L95E00NA.PS / TXT  0 cmy0* setcmykcolor and 000n* setcmykcolor L95E00FA.PS / TXT L95E00FA.DAT
L95E01NA.PS / TXT  1 olv* setrgbcolor and w* setgray L95E01FA.PS / TXT L95E01FA.DAT
L95E02NA.PS / TXT  2 cmy0* setcmykcolor and nnn0* setcmykcolor L95E02FA.PS / TXT L95E02FA.DAT
L95E03NA.PS / TXT  3 olv* setrgbcolor and www* setrgbcolor L95E03FA.PS / TXT L95E03FA.DAT
L95E04NA.PS / TXT   4 lab* setcolor L95E04FA.PS / TXT L95E04FA.DAT
L95E05NA.PS / TXT  5 LAB* setcolor L95E05FA.PS / TXT L95E05FA.DAT
L95E06NA.PS / TXT  6 000n* setcmykcolor L95E06FA.PS / TXT L95E06FA.DAT
L95E07NA.PS / TXT  7 w* setgray L95E07FA.PS / TXT L95E07FA.DAT

Table 2: For PS output with linearising data in File (F); Input PS operator no. 0(D/I), 1(E/J), 5(F/K) in the NA file and output PS operators no. 0 to 7 in the in FA file which are transferred by the PS MTL code.

Remark: With the files of Table 2 it is intended to produce only a PS output and not a PDF output.

The files of the tables 1 to 3 are available for different devices instead of the model device L=Linear. Every device produces with all NP files the same start output. Only for the model device L=Linear of the table 2 the output of the NP and FP in one row is identical. For devices which produce equal output for corresponding colours the output of all FP files in one collum is identical.

In application the output of the NP files for differnet output parameters i*ptrsc is in one collum often different. The output of the FP file of the devices S and Q or of the linearized output devices F, O, and T is different compared to the output of the NP file. The PS MTL code uses the measurement data of up to 256 colours of the start output, see the CIELAB LAB* data at the beginning of the FP files, for the change and the linearisation of the output.

Input PS operator no. 0(D/I), 1(E/J), 5(F/K)
and start files

*NP.PS / .TXT /.PDF
140 / 140 / 25 kByte
Output
PS operator
parameter
i*ptrsc
Colorimetric transfer from the
input PS operator no. 0(D/I), 1(E/J), 5(F/K)
to the output PS operators no. 0 to 7
defined by i*ptrsc

Output Linearisation with
L=Linear data (no change of scaling of output) in files
*SP.PS / TXT / PDF
240 / 240 / 25 kByte

PostScript MTL code used for output
100 kByte
L95E00NP.PS / TXT / PDF  0 cmy0* setcmykcolor and 000n* setcmykcolor L95E00SP.PS / TXT / PDF L95E00SP.DAT
L95E01NP.PS / TXT / PDF  1 olv* setrgbcolor and w* setgray L95E01SP.PS / TXT / PDF L95E01SP.DAT
L95E02NP.PS / TXT / PDF  2 cmy0* setcmykcolor and nnn0* setcmykcolor L95E02SP.PS / TXT / PDF L95E02SP.DAT
L95E03NP.PS / TXT / PDF  3 olv* setrgbcolor and www* setrgbcolor L95E03SP.PS / TXT / PDF *) L95E03SP.DAT
L95E04NP.PS / TXT / PDF   4 lab* setcolor L95E04SP.PS / TXT / PDF L95E04SP.DAT
L95E05NP.PS / TXT / PDF  5 LAB* setcolor L95E05SP.PS / TXT / PDF L95E05SP.DAT
L95E06NP.PS / TXT / PDF  6 000n* setcmykcolor L95E06SP.PS / TXT / PDF L95E06SP.DAT
L95E07NP.PS / TXT / PDF  7 w* setgray L95E07SP.PS / TXT / PDF L95E07SP.DAT

Table 3: For PDF output with linearising data in Startup (S); Input PS operator no. 0(D/I), 1(E/J), 5(F/K) in the NP file and output PS operators no. 0 to 7 in the in SP file which are transferred by the PS MTL code.

*) Only the PDF file L95E03SP.PS is transferred with the file L95E03SP.DAT which uses the parameter i*ptrsc=3 in the Distiller Startup (S) Directory. The other L..SP files of the Table 3 are distilled with the default file Example.ps in the Distiller Startup (S) Directory.

Remark: With the files of Table 3 it is intended to produce only a PDF output with linearisation data in the Distiller Startup (S) Directory and not a PS output.

The input operator no. 0(D/I), 1(E/J), 5(F/K) and eight output PS operators no. 0 to 7 are used in the files.The input PS operator no. 0(D/I), 1(E/J), 5(F/K) of the NA or NP file are transferred to the output PS operators no. 0 to 7 in the FA, FP or SP file by the PS MTL code.

For further information and discussion of the results in the achromatic case with similar files see DE811

For further information and discussion of the results in the chromatic case with similar files see DE841

Compare the final result in DE811 and DE841. The Colour Workflow (CW) and the Output Linearisation (OL) of the PS MTL code is based on ISO/IEC 15775 and DIS ISO/IEC 19839-X. The PS MTL code is compatible to CIELAB and fulfils the basic user requirements in the field of image technology. The result is the same in the achromatic and chromatic case.

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For an introduction (archive 2000-2009) to all folders compared to this folder DE95, see
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For information (archive 2000-2009) about International and National Standards, Technical Reports, and Meetings, see
../4STAE.html in English or ../4STAG.html in German.

For information (archive 2000-2009) about colour test charts and colorimetric calculations, see
../indexAE.html in English or ../indexAG.html in German.

For publications (archive 2000-2009) of the BAM research group, see
../XY91AE.html in English or ../XY91AG.html in German.

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The last link may not work, if you have visited directly this archive site.
Then go to the main page of one of the two TU web sites in a new window, see
http://farbe.li.tu-berlin.de/index.html or
http://130.149.60.45/~farbmetrik/index.html.