AXIOM Alpha Software

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1 Reading and Writing Sensor Register

Execute the script that contains the sensor interface functions before we can use them:

. ./cmv.func

Set Sensor register 82 to the decimal value "3122"

cmv_reg  82   3122

Read Register 82:

 cmv_reg  82

will output:

0x00000C31

1.1 statically linked busybox

http://vserver.13thfloor.at/Stuff/AXIOM/FAKE/

builtin fake devmem

all you need to get it to work is the following:

dd if=/dev/zero of=/tmp/mem bs=1k seek=4M count=1

this will create a sparse 4GB file /tmp/mem, which will be used by the fake devmem values written can be read back, non existing values return 0

/bin/sh and /sbin/devmem both link to busybox on the axiom alpha filesystem so both can be tested with this executeable

2 Capturing an Image

Preparations:

ssh root@*alpha-IP* "./cmv_train2

Capture the image:

ssh root@*alpha-IP* "./cmv_snap2 -e 10ms" | tee snap.raw16 | display -size 4096x3072 -depth 16 gray:-

So we dont need to type the password every time we snap an image:

Install:

sudo apt-get install sshpass

Use:

sshpass -p '1234' ssh root@*alpha-IP* "./cmv_snap2 -e 10ms" | tee snap.raw16 | display -size 4096x3072 -depth 16 gray:-

3 cmv_snap2

./cmv_snap2 -h
This is ./cmv_snap2 V1.5
options are:
-h        print this help message
-8        output 8 bit per pixel
-b        enable black columns
-r        dump sensor registers
-t        enable cmv test pattern
-e <exp>  exposure time
-m <val>  capture mask and value
-n <num>  number of frames
-s <num>  shift values by <num>
-B <val>  register mapping base
-S <val>  register mapping size
-M <val>  buffer memory base
-Z <val>  buffer memory size
-R <fil>  load sensor registers
-P <pat>  idle pattern

"./cmv_snap2 -r" without an -e parameter outputs only registers

4 cmv_hist2

Outputs RAW histogram data of the last captured image. Values are tab separated in 4 columns (Order: GRBG[image flip on], RGGB[image flip off]) with 4096 values (when operating in 12 bit mode) each.

Download: http://vserver.13thfloor.at/Stuff/AXIOM/cmv_io2/cmv_hist2

./cmv_hist2
This is ./cmv_hist2 V1.0
options are:
-h        print this help message
-s        acquire snapshot
-B <val>  register mapping base
-S <val>  register mapping size
-M <val>  buffer memory base
-Z <val>  buffer memory size

Real Time Histogram Plot

4.1 Examples

./cmv_hist2 -s

Acquire new snapshot and output histogram

./cmv_hist2

Acquire histogram from last captured snapshot in memory

5 cmv_train2

Executes the LVDS training routines to align LVDS reading timing. Execute this script when the Axiom Alpha prototype is booted up before you capture any images:

./cmv_train2
./cmv_train2 -h
This is ./cmv_train2 V1.0
options are:
-h        print this help message
-a        test all bit pattern
-B <val>  memory mapping base
-S <val>  memory mapping size
-A <val>  memory mapping address
-P <val>  training pattern

6 Post Processing images

6.1 Create RGGB separated color images from raw file:

convert -size 4096x3072 -depth 16 -crop +0+0 -sample 2048x1536 gray:colors_500ms.raw16 gray:colors_500ms_ch0.raw
convert -size 4096x3072 -depth 16 -crop -1+0 -sample 2048x1536 gray:colors_500ms.raw16 gray:colors_500ms_ch1.raw
convert -size 4096x3072 -depth 16 -crop +0-1 -sample 2048x1536 gray:colors_500ms.raw16 gray:colors_500ms_ch2.raw
convert -size 4096x3072 -depth 16 -crop -1-1 -sample 2048x1536 gray:colors_500ms.raw16 gray:colors_500ms_ch3.raw

6.2 Simple debayer with ImageMagick:

For flipped images:

convert \( -size 4096x3072 -depth 16 gray:colors_500ms.raw16 \) \
\( -clone 0 -crop -1-1 \) \( -clone 0 -crop -1+0 \) \( -clone 0 -crop +0-1 \) \
-sample 2048x1536 \( -clone 2,3 -average \) -delete 2,3 -swap 0,1 +swap -combine colors_500ms.png

For unflipped images:

convert \( -size 4096x3072 -depth 16 gray:IT8_incand.raw16 \) \
\( -clone 0 -crop -1-1 \) \( -clone 0 -crop -1+0 \) \( -clone 0 -crop +0-1 \) \
-sample 2048x1536 \( -clone 0,1 -average \) -delete 0,1 +swap -combine IT8_incand.png

6.3 Plot Histogram of Raw Image

Create histogram values file with imagemagick:

convert -size 4096x3072 -depth 16 gray:image.raw16 -format "%c" histogram:info: > histogram.hist

Reformat the file:

gawk -F, '(NF>3) { printf "%d\t%d\n", $2/16, $1 }' 

Or all in one command:

convert -size 4096x3072 -depth 16 gray:image.raw16 -format %c histogram:info:- | gawk -F, '(NF>3) { printf "%d\t%d\n", $2/16, $1 }' > histogram.info

Then draw it with this gnuplot script:

set notitle
set term svg size 1024, 512
set xlabel "Values"
set ylabel "Number of Pixels"
set multiplot
set obj 1 rectangle behind from screen 0,0 to screen 1,1
set obj 1 fillstyle solid 1.0 fillcolor rgbcolor "white"
set xrange[0:4096]
set yrange[0:8000]
plot 	'histogram.info' using 1:2	with lines lc rgb "#FF0000"	title "name your curve", \
       'histogram2.info' using 1:2	with lines lc rgb "#FF0000"	title "name your curve"
unset multiplot

execute the script with:

gnuplot thescript > output.svg