Home › Forums › Help and Support › Issue calibrating monitor with i1, decklink, and resolve
- This topic has 4 replies, 2 voices, and was last updated 4 years, 12 months ago by Florian Höch.
-
AuthorPosts
-
2019-04-24 at 18:04 #17011
Hi,
I am having issues getting the test window to generate on my resolve monitor (Panasonic TH50PHD5) which is hooked up via component hd to a blackmagic decklink. Resolve controls this monitor and I have unchecked release control in Video I/O yet when I hit start calibration the screen goes black with a small white line at the bottom but no test window to place my i1 display on. I am attaching the argyll cmd log below:Calibrate a Display, Version 2.0.1
Author: Graeme W. Gill, licensed under the AGPL Version 3
Diagnostic: Too few arguments
usage: dispcal [options] outfile
-v [n] Verbose mode
-d n Choose the display from the following list (default 1)
1 = ‘DISPLAY5, at 0, 0, width 1920, height 1080 (Primary Display)’
2 = ‘DISPLAY6, at 3840, 0, width 1920, height 1080’
-dweb[:port] Display via a web server at port (default 8080)
-dcc[:n] Display via n’th ChromeCast (default 1, ? for list)
-dmadvr Display via MadVR Video Renderer
-c listno Choose instrument from the following list (default 1)
1 = ‘hid:/13 (X-Rite i1 DisplayPro, ColorMunki Display)’
2 = ‘COM1’
3 = ‘COM3’
-r Report on the calibrated display then exit
-R Report on the uncalibrated display then exit
-m Skip adjustment of the monitor controls
-o [profile.icm] Create fast matrix/shaper profile [different filename to outfile.icm]
-O “description” Fast ICC Profile Description string (Default “outfile”)
-u Update previous calibration and (if -o used) ICC profile VideoLUTs
-q [vlmh] Quality – Very Low, Low, Medium (def), High
-p Use telephoto mode (ie. for a projector) (if available)
-y n i1D3: Non-Refresh display [Default,CB1]
r i1D3: Refresh display [CB2]
c i1D3: CRT (Hitachi CM2112MET, Diamond View 1772ie)
l i1D3: LCD CCFL IPS (CCFL AC EIZO HP with CORRECTION)
L i1D3: LCD CCFL Wide Gamut IPS (WG CCFL NEC241 271)
h i1D3: LCD RG Phosphor (Addition of Dell Ultrasharp U2413 to the RG-Phosphor Family EDR (created originall
b i1D3: LCD RGB LED IPS (RGBLED HP SOYO)
e i1D3: LCD White LED IPS (WLED AC LG Samsung)
o i1D3: LED OLED (EDR for OLED created with primaries R, G, B, White)
1 i1D3: LED OLED (Sony PVM_2541 & Samsung Galaxy S7 & LEN4140)
m i1D3: Plasma (EDR for Plasma created with primaries R, G, B and White)
p i1D3: Projector (Marantz HP Panasonic Projectors Hybrid EDR)
u i1D3: Unknown (Panasonic VVX17P051J00 in Lenovo P70)
l|c Other: l = LCD, c = CRT
-t [temp] White Daylight locus target, optional target temperaturee in deg. K (deflt.)
-T [temp] White Black Body locus target, optional target temperaturee in deg. K
-w x,y Set the target white point as chromaticity coordinates
-b bright Set the target white brightness in cd/m^2
-g gamma Set the target response curve advertised gamma (Def. 2.4)
Use “-gl” for L*a*b* curve
Use “-gs” for sRGB curve
Use “-g709” for REC 709 curve (should use -a as well!)
Use “-g240” for SMPTE 240M curve (should use -a as well!)
Use “-G2.4 -f0” for BT.1886
-G gamma Set the target response curve actual technical gamma
-f [degree] Amount of black level accounted for with output offset (default all output offset)
-a ambient Use viewing condition adjustment for ambient in Lux
-k factor Amount to correct black hue, 0 = none, 1 = full, Default = Automatic
-A rate Rate of blending from neutral to black point. Default 4.0
-b Use forced black point hack
-B blkbright Set the target black brightness in cd/m^2
-e [n] Run n verify passes on final curves
-z Run only verify pass on installed calibration curves
-P ho,vo,ss[,vs] Position test window and scale it
ho,vi: 0.0 = left/top, 0.5 = center, 1.0 = right/bottom etc.
ss: 0.5 = half, 1.0 = normal, 2.0 = double etc.
-F Fill whole screen with black background
-E Encode the test values for video range 16..235/255
-J Run instrument calibration first (used rarely)
-N Disable initial calibration of instrument if possible
-H Use high resolution spectrum mode (if available)
-X file.ccmx Apply Colorimeter Correction Matrix
-X file.ccss Use Colorimeter Calibration Spectral Samples for calibration
-Q observ Choose CIE Observer for spectrometer or CCSS colorimeter data:
1931_2 (def), 1964_10, 2012_2, 2012_10, S&B 1955_2, shaw, J&V 1978_2, 1964_10c or file.cmf
-I b|w Drift compensation, Black: -Ib, White: -Iw, Both: -Ibw
-Y R:rate Override measured refresh rate with rate Hz
-Y A Use non-adaptive integration time mode (if available).
-Y p Don’t wait for the instrument to be placed on the display
-C “command” Invoke shell “command” each time a color is set
-M “command” Invoke shell “command” each time a color is measured
-W n|h|x Override serial port flow control: n = none, h = HW, x = Xon/Xoff
-D [level] Print debug diagnostics to stderr
inoutfile Base name for created or updated .cal and .icm output filesCalibrite Display Pro HL on Amazon
Disclosure: As an Amazon Associate I earn from qualifying purchases.2019-04-24 at 18:05 #17012Running on Windows 10, RTX2070 GPU
2019-04-24 at 20:31 #17021Hi,
it looks like you are running ArgyllCMS on the command line, but you have not included the command parameters that you have used. For ArgyllCMS support when not using DisplayCAL, please use the ArgyllCMS mailing list.
2019-04-25 at 0:47 #17038This is for DisplayCal as I stated in the post. What command should I run to satisfy your requirements here?
2019-04-26 at 16:31 #17059Well, you posted the output of running
dispcal
without any parameters, so I assumed you were using the command line (dispcal
is the ArgyllCMS command line tool, not the GUI app DisplayCAL). If you are using DisplayCAL, then you need to post the settings you are using. -
AuthorPosts