Difference between revisions of "Raw processing recorder benchmarking"
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This kind of script is helpful to execute during HDMIrecording: | This kind of script is helpful to execute during HDMIrecording: | ||
#stop HDMI stream: | <nowiki>#stop HDMI stream: | ||
fil_reg 15 0 | fil_reg 15 0 | ||
#capture image | #capture image | ||
./cmv_snap3 -r -2 -e 10ms > image.raw12 | ./cmv_snap3 -r -2 -e 10ms > image.raw12 | ||
#start HDMI stream: | #start HDMI stream: | ||
fil_reg 15 0x01000100 | fil_reg 15 0x01000100</nowiki> | ||
* HDMI captured 1-minute clip with dark frames (lens cap on camera, black cloth covering camera in a completely dark room - its very important that absolutely no photon hits the sensor surface) | * HDMI captured 1-minute clip with dark frames (lens cap on camera, black cloth covering camera in a completely dark room - its very important that absolutely no photon hits the sensor surface) |
Revision as of 17:44, 2 May 2016
required footage
Alex can analyze the footage recorded by the 3rd party recorder and needs the following:
- short HDMI captured clip from the 3rd party recorder
- raw12 still image captured during the HDMI recording (its important that the framing is 100% identical so be sure to shoot this from a steady tripod and that operating the recorder does not move the camera the slightest - if there is a 1 pixel offset due to camera motion the test will not generate proper results).
This kind of script is helpful to execute during HDMIrecording:
#stop HDMI stream: fil_reg 15 0 #capture image ./cmv_snap3 -r -2 -e 10ms > image.raw12 #start HDMI stream: fil_reg 15 0x01000100
- HDMI captured 1-minute clip with dark frames (lens cap on camera, black cloth covering camera in a completely dark room - its very important that absolutely no photon hits the sensor surface)