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Elphel
imagej-elphel
Commits
24112d36
Commit
24112d36
authored
Apr 18, 2020
by
Andrey Filippov
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debugging code to generate data for macroblocks correlation
parent
4203dbbb
Changes
4
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4 changed files
with
470 additions
and
98 deletions
+470
-98
GPUTileProcessor.java
src/main/java/com/elphel/imagej/gpu/GPUTileProcessor.java
+138
-11
TwoQuadCLT.java
...main/java/com/elphel/imagej/tileprocessor/TwoQuadCLT.java
+28
-8
TileProcessor.cuh
src/main/resources/kernels/TileProcessor.cuh
+294
-68
TileProcessor.h
src/main/resources/kernels/TileProcessor.h
+10
-11
No files found.
src/main/java/com/elphel/imagej/gpu/GPUTileProcessor.java
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24112d36
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src/main/java/com/elphel/imagej/tileprocessor/TwoQuadCLT.java
View file @
24112d36
...
@@ -2083,10 +2083,12 @@ public class TwoQuadCLT {
...
@@ -2083,10 +2083,12 @@ public class TwoQuadCLT {
// corr_indices array of integers to be passed to GPU
// corr_indices array of integers to be passed to GPU
// gPUTileProcessor.setCorrIndices(corr_indices);
// gPUTileProcessor.setCorrIndices(corr_indices);
/*
int [] texture_indices = gPUTileProcessor.getTextureTasks(
int [] texture_indices = gPUTileProcessor.getTextureTasks(
tp_tasks);
tp_tasks);
gPUTileProcessor.setTextureIndices(
gPUTileProcessor.setTextureIndices(
texture_indices);
texture_indices);
*/
gPUTileProcessor
.
setGeometryCorrection
(
gPUTileProcessor
.
setGeometryCorrection
(
quadCLT_main
.
getGeometryCorrection
(),
quadCLT_main
.
getGeometryCorrection
(),
false
);
// boolean use_java_rByRDist) { // false - use newer GPU execCalcReverseDistortions); // once
false
);
// boolean use_java_rByRDist) { // false - use newer GPU execCalcReverseDistortions); // once
...
@@ -2146,12 +2148,11 @@ public class TwoQuadCLT {
...
@@ -2146,12 +2148,11 @@ public class TwoQuadCLT {
clt_parameters
.
diff_sigma
,
// double diff_sigma, // pixel value/pixel change
clt_parameters
.
diff_sigma
,
// double diff_sigma, // pixel value/pixel change
clt_parameters
.
diff_threshold
,
// double diff_threshold, // pixel value/pixel change
clt_parameters
.
diff_threshold
,
// double diff_threshold, // pixel value/pixel change
clt_parameters
.
min_agree
,
// double min_agree, // minimal number of channels to agree on a point (real number to work with fuzzy averages)
clt_parameters
.
min_agree
,
// double min_agree, // minimal number of channels to agree on a point (real number to work with fuzzy averages)
clt_parameters
.
dust_remove
,
// boolean dust_remove,
clt_parameters
.
dust_remove
);
// boolean dust_remove,
clt_parameters
.
keep_weights
);
// boolean keep_weights);
long
endTextures
=
System
.
nanoTime
();
long
endTextures
=
System
.
nanoTime
();
// run texturesRBGA
// run texturesRBGA
long
startTexturesRBGA
=
System
.
nanoTime
();
// System.nanoTime();
long
startTexturesRBGA
=
System
.
nanoTime
();
// System.nanoTime();
for
(
int
i
=
0
;
i
<
NREPEAT
;
i
++
)
gPUTileProcessor
.
execRBGA
(
for
(
int
i
=
0
;
i
<
NREPEAT
;
i
++
)
gPUTileProcessor
.
execRBGA
(
col_weights
,
// double [] color_weights,
col_weights
,
// double [] color_weights,
quadCLT_main
.
isLwir
(),
// boolean is_lwir,
quadCLT_main
.
isLwir
(),
// boolean is_lwir,
...
@@ -2193,7 +2194,26 @@ public class TwoQuadCLT {
...
@@ -2193,7 +2194,26 @@ public class TwoQuadCLT {
int
out_width
=
GPUTileProcessor
.
IMG_WIDTH
+
GPUTileProcessor
.
DTT_SIZE
;
int
out_width
=
GPUTileProcessor
.
IMG_WIDTH
+
GPUTileProcessor
.
DTT_SIZE
;
int
out_height
=
GPUTileProcessor
.
IMG_HEIGHT
+
GPUTileProcessor
.
DTT_SIZE
;
int
out_height
=
GPUTileProcessor
.
IMG_HEIGHT
+
GPUTileProcessor
.
DTT_SIZE
;
int
tilesX
=
GPUTileProcessor
.
IMG_WIDTH
/
GPUTileProcessor
.
DTT_SIZE
;
int
tilesY
=
GPUTileProcessor
.
IMG_HEIGHT
/
GPUTileProcessor
.
DTT_SIZE
;
// show extra
/* */
String
[]
extra_group_titles
=
{
"DIFF"
,
"Red"
,
"Blue"
,
"Green"
};
String
[]
extra_titles
=
new
String
[
extra_group_titles
.
length
*
GPUTileProcessor
.
NUM_CAMS
];
for
(
int
g
=
0
;
g
<
extra_group_titles
.
length
;
g
++)
{
for
(
int
ncam
=
0
;
ncam
<
GPUTileProcessor
.
NUM_CAMS
;
ncam
++)
{
extra_titles
[
g
*
GPUTileProcessor
.
NUM_CAMS
+
ncam
]=
extra_group_titles
[
g
]+
"-"
+
ncam
;
}
}
float
[][]
extra
=
gPUTileProcessor
.
getExtra
();
(
new
ShowDoubleFloatArrays
()).
showArrays
(
extra
,
tilesX
,
tilesY
,
true
,
name
+
"-EXTRA-D"
+
clt_parameters
.
disparity
,
extra_titles
);
/* */
ImagePlus
[]
imps_RGB
=
new
ImagePlus
[
iclt_fimg
.
length
];
ImagePlus
[]
imps_RGB
=
new
ImagePlus
[
iclt_fimg
.
length
];
for
(
int
ncam
=
0
;
ncam
<
iclt_fimg
.
length
;
ncam
++)
{
for
(
int
ncam
=
0
;
ncam
<
iclt_fimg
.
length
;
ncam
++)
{
String
title
=
name
+
"-"
+
String
.
format
(
"%02d"
,
ncam
);
String
title
=
name
+
"-"
+
String
.
format
(
"%02d"
,
ncam
);
...
@@ -2215,8 +2235,6 @@ public class TwoQuadCLT {
...
@@ -2215,8 +2235,6 @@ public class TwoQuadCLT {
}
}
//show_corr
//show_corr
int
tilesX
=
GPUTileProcessor
.
IMG_WIDTH
/
GPUTileProcessor
.
DTT_SIZE
;
int
tilesY
=
GPUTileProcessor
.
IMG_HEIGHT
/
GPUTileProcessor
.
DTT_SIZE
;
int
[]
wh
=
new
int
[
2
];
int
[]
wh
=
new
int
[
2
];
if
(
clt_parameters
.
show_corr
)
{
if
(
clt_parameters
.
show_corr
)
{
int
[]
corr_indices
=
gPUTileProcessor
.
getCorrIndices
();
int
[]
corr_indices
=
gPUTileProcessor
.
getCorrIndices
();
...
@@ -2234,7 +2252,7 @@ public class TwoQuadCLT {
...
@@ -2234,7 +2252,7 @@ public class TwoQuadCLT {
wh
[
0
],
wh
[
0
],
wh
[
1
],
wh
[
1
],
true
,
true
,
"CORR2D"
,
name
+
"-CORR2D-D"
+
clt_parameters
.
disparity
,
GPUTileProcessor
.
getCorrTitles
());
GPUTileProcessor
.
getCorrTitles
());
}
}
// convert to overlapping and show
// convert to overlapping and show
...
@@ -2369,14 +2387,16 @@ public class TwoQuadCLT {
...
@@ -2369,14 +2387,16 @@ public class TwoQuadCLT {
}
}
// convert textures to RGBA in Java
// convert textures to RGBA in Java
if
(
clt_parameters
.
show_rgba_color
&&
(
debugLevel
>
0
))
{
// disabling
if
(
clt_parameters
.
show_rgba_color
&&
(
debugLevel
>
10
0
))
{
// disabling
int
numcol
=
quadCLT_main
.
isMonochrome
()?
1
:
3
;
int
numcol
=
quadCLT_main
.
isMonochrome
()?
1
:
3
;
int
ports
=
imp_quad_main
.
length
;
int
ports
=
imp_quad_main
.
length
;
int
[]
texture_indices
=
gPUTileProcessor
.
getTextureIndices
();
int
num_src_slices
=
numcol
+
1
+
(
clt_parameters
.
keep_weights
?(
ports
+
numcol
+
1
):
0
);
// 12 ; // calculate
int
num_src_slices
=
numcol
+
1
+
(
clt_parameters
.
keep_weights
?(
ports
+
numcol
+
1
):
0
);
// 12 ; // calculate
// float [][][] ftextures = gPUTileProcessor.getTextures(
// float [][][] ftextures = gPUTileProcessor.getTextures(
// (is_mono?1:3), // int num_colors,
// (is_mono?1:3), // int num_colors,
// clt_parameters.keep_weights); // boolean keep_weights);
// clt_parameters.keep_weights); // boolean keep_weights);
float
[]
flat_textures
=
gPUTileProcessor
.
getFlatTextures
(
float
[]
flat_textures
=
gPUTileProcessor
.
getFlatTextures
(
texture_indices
.
length
,
(
is_mono
?
1
:
3
),
// int num_colors,
(
is_mono
?
1
:
3
),
// int num_colors,
clt_parameters
.
keep_weights
);
// boolean keep_weights);
clt_parameters
.
keep_weights
);
// boolean keep_weights);
int
texture_slice_size
=
(
2
*
GPUTileProcessor
.
DTT_SIZE
)*
(
2
*
GPUTileProcessor
.
DTT_SIZE
);
int
texture_slice_size
=
(
2
*
GPUTileProcessor
.
DTT_SIZE
)*
(
2
*
GPUTileProcessor
.
DTT_SIZE
);
...
...
src/main/resources/kernels/TileProcessor.cuh
View file @
24112d36
This diff is collapsed.
Click to expand it.
src/main/resources/kernels/TileProcessor.h
View file @
24112d36
...
@@ -75,11 +75,13 @@ extern "C" __global__ void correlate2D(
...
@@ -75,11 +75,13 @@ extern "C" __global__ void correlate2D(
float
*
gpu_corrs
);
// correlation output data
float
*
gpu_corrs
);
// correlation output data
extern
"C"
__global__
void
textures_
accumulate
(
extern
"C"
__global__
void
textures_
nonoverlap
(
int
*
woi
,
// x, y, width,height
struct
tp_task
*
gpu_tasks
,
float
**
gpu_clt
,
// [NUM_CAMS] ->[TILESY][TILESX][NUM_COLORS][DTT_SIZE*DTT_SIZE]
int
num_tiles
,
// number of tiles in task list
size_t
num_texture_tiles
,
// number of texture tiles to process
// declare arrays in device code?
int
*
gpu_texture_indices
,
// packed tile + bits (now only (1 << 7)
int
*
gpu_texture_indices
,
// packed tile + bits (now only (1 << 7)
int
*
pnum_texture_tiles
,
// returns total number of elements in gpu_texture_indices array
float
**
gpu_clt
,
// [NUM_CAMS] ->[TILESY][TILESX][NUM_COLORS][DTT_SIZE*DTT_SIZE]
// TODO: use geometry_correction rXY !
// TODO: use geometry_correction rXY !
struct
gc
*
gpu_geometry_correction
,
struct
gc
*
gpu_geometry_correction
,
int
colors
,
// number of colors (3/1)
int
colors
,
// number of colors (3/1)
...
@@ -91,14 +93,11 @@ extern "C" __global__ void textures_accumulate(
...
@@ -91,14 +93,11 @@ extern "C" __global__ void textures_accumulate(
float
min_agree
,
// minimal number of channels to agree on a point (real number to work with fuzzy averages)
float
min_agree
,
// minimal number of channels to agree on a point (real number to work with fuzzy averages)
float
weights
[
3
],
// scale for R,B,G
float
weights
[
3
],
// scale for R,B,G
int
dust_remove
,
// Do not reduce average weight when only one image differs much from the average
int
dust_remove
,
// Do not reduce average weight when only one image differs much from the average
int
keep_weights
,
// return channel weights after A in RGBA (was removed) (should be 0 if gpu_texture_rbg)?
//
int keep_weights, // return channel weights after A in RGBA (was removed) (should be 0 if gpu_texture_rbg)?
// combining both non-overlap and overlap (each calculated if pointer is not null )
// combining both non-overlap and overlap (each calculated if pointer is not null )
size_t
texture_rbg_stride
,
// in floats
size_t
texture_stride
,
// in floats (now 256*4 = 1024) // may be 0 if not needed
float
*
gpu_texture_rbg
,
// (number of colors +1 + ?)*16*16 rgba texture tiles
float
*
gpu_texture_tiles
,
// (number of colors +1 + ?)*16*16 rgba texture tiles // may be 0 if not needed
size_t
texture_stride
,
// in floats (now 256*4 = 1024)
float
*
gpu_diff_rgb_combo
);
// diff[NUM_CAMS], R[NUM_CAMS], B[NUM_CAMS],G[NUM_CAMS] // may be 0 if not needed
float
*
gpu_texture_tiles
,
// (number of colors +1 + ?)*16*16 rgba texture tiles
float
*
gpu_diff_rgb_combo
);
// diff[NUM_CAMS], R[NUM_CAMS], B[NUM_CAMS],G[NUM_CAMS]
extern
"C"
extern
"C"
__global__
void
imclt_rbg_all
(
__global__
void
imclt_rbg_all
(
...
...
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