QTR, how many workflows?
Hi,
We talked about using QTR for digital negatives and I noticed that there are four (or maybe more) different approaches. I am trying to list them here:
1. QTR BW workflow with quad black inks
This is what QTR was made for. You have to use a dedicated printer with black and grey inks or one of the newer K3 printers. Third party inksets are sold by MIS or Cone and others.
Each grey ink overlaps the previous and this can be controlled in the inkdescriptor file. A no K, only grey, approach is also possible. Process related density range can be controlled by setting ink limits. Process related correction/linearization curves can be specified in the gray_curve setting or applied in photoshop. (Note: does QTR handle these curves in 16 bit? If not, it is probably better to keep using them in photoshop on 16bit files)
2. QTR BW workflow with K and LK in a printer with color inks.
As I understand Ron correctly, and after looking at his 2200 Pd and silver sample files, in his workflow only K and LK are used in combination with ink limit settings for density range control. All other inks are not used by specifying them as 'unused' or setting inklimits to zero. As an only grey approach it is not very different from the first approach but it uses only two inks.
3. QTR BW workflow with all (color) inks.
This workflow uses all inks with or without K an LK to print a BW negative with all inks. Default ink limit settings control negative densitity range.
Ron's earlier example files are using copy_curve to copy and set values for each color. But individual values for each ink after measuring the inkseparation print can be set in the descriptor file also.
4. QTR colorized negatives
This is a different approach and maybe combines the best of two worlds. Here the process related density range is achieved by spectral density and finetuned by ink limit settings. For each CMY color and/or two color combinations CM, CY, MY a monochrome QTR profile is made. All other inks are set to unused. CY gives a high contrast range suitable for long scale processes like salt or albumen printing. CM gives a low contrast suitable for gum printing. Contrast control and finetuning can be done by mixing two QTR-curves or by taking down inklimits (or both).
This method would work even better with a ternary CMY calibration file of some sort to choose the right color for each process.
What approach gives the best results is difficult to say. When density range has to be very long, a spectral density negative might be the way to go.
To get the smoothest negative possible probably asks for a print with as many inks as possible. Inks that behave differently (K) than others (colors, greys) can be problematic so an 'all colors, no K' BW approach might be interesting. When using K2 K3 inksets a toner color can be mixed in for density range control.
And there's allways the printing substrate that has a big influence on the density range and smoothness of the negative. Different printers and inksets of course too.
Ok, I'm back to testing!
kees
