If using a dslr ( non linear response ) never use the optimise box 
Is that right Harry, and if so why? I haven't seen any detailed analysis that suggests optimisation of DSLR darks do not work, but if there is something I'd be interested to know.
As an aside, I've just plotted the mean intensity of several sets of 10 minute darks with matching EXIF temperatures. What I have found is that the mean intensity of the darks does not correlate that well to the reported EXIF temperature (which suggests that the temperature sensor reading taken at the start of the exposure does not accurately represent the mean temperature of the whole dark exposure). There is a lot of overlap whereby sets of frames with adjacent EXIF temperatures have a range of mean intensities that overlap the next highest and lowest temperatures.
Nonetheless the mean of the mean intensities for each temperature do seem to follow a pattern (I need to measure and graph a larger set to confirm it), and the mean intensity decreases with increasing temperature. Craig Stark's work found something similar for exposures of up to two minutes or so (i.e. intensity decreasing with time), but that mean intensity increased after that. I am finding that even at 10 minutes something fishy is still going on. I also need to do some noise measurements and see how they correlate to EXIF temperatures and mean intensities as Stark said that dark current noise wasn't affected and should be a much better way to figure out which darks exposures have the same mean sensor temperatures.
Point being that it is hard to make matching darks to create a master, but if the dark current meddling is based on measuring the optical black (again as suggested by Craig Stark) might one assume that a light frame of the same exposure and mean sensor temperature gets the same treatment by the camera? Or is it more complex than that? How would one find out?
Anyway, back to my main question. As I understood it, the dark scaling routine uses a noise evaluation process to find the best linear scaling factor for the dark frame. If the camera processing is a purely linear function for the whole frame, surely dark frame optimisation should still work for DSLRs. If the processing is non-linear then it might not.
I can certainly get successful correlation/scaling for my DSLR darks if they are a reasonably large stack (maybe 30 frames). Interested to hear your thoughts.
