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Elphel
tile_processor_gpu
Commits
705a2e85
Commit
705a2e85
authored
Sep 16, 2020
by
Andrey Filippov
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Plain Diff
updated ers correction
parent
263efc60
Changes
3
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3 changed files
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79 additions
and
76 deletions
+79
-76
geometry_correction.cu
src/geometry_correction.cu
+44
-42
geometry_correction.h
src/geometry_correction.h
+1
-0
test_tp.cu
src/test_tp.cu
+34
-34
No files found.
src/geometry_correction.cu
View file @
705a2e85
...
@@ -294,7 +294,6 @@ extern "C" __global__ void get_tiles_offsets(
...
@@ -294,7 +294,6 @@ extern "C" __global__ void get_tiles_offsets(
float * gpu_rByRDist, // length should match RBYRDIST_LEN
float * gpu_rByRDist, // length should match RBYRDIST_LEN
trot_deriv * gpu_rot_deriv)
trot_deriv * gpu_rot_deriv)
{
{
// int task_num = blockIdx.x * blockDim.x + threadIdx.x; // blockIdx.x * TILES_PER_BLOCK_GEOM + threadIdx.x
int task_num = blockIdx.x * blockDim.y + threadIdx.y; // blockIdx.x * TILES_PER_BLOCK_GEOM + threadIdx.y
int task_num = blockIdx.x * blockDim.y + threadIdx.y; // blockIdx.x * TILES_PER_BLOCK_GEOM + threadIdx.y
if (task_num >= num_tiles){
if (task_num >= num_tiles){
return;
return;
...
@@ -306,6 +305,7 @@ extern "C" __global__ void get_tiles_offsets(
...
@@ -306,6 +305,7 @@ extern "C" __global__ void get_tiles_offsets(
__shared__ float rByRDist [RBYRDIST_LEN];
__shared__ float rByRDist [RBYRDIST_LEN];
__shared__ struct corr_vector extrinsic_corr;
__shared__ struct corr_vector extrinsic_corr;
__shared__ trot_deriv rot_deriv;
__shared__ trot_deriv rot_deriv;
__shared__ float pY_offsets[TILES_PER_BLOCK_GEOM][NUM_CAMS];
float pXY[2]; // result to be copied to task
float pXY[2]; // result to be copied to task
// copy data common to all threads
// copy data common to all threads
{
{
...
@@ -362,8 +362,7 @@ extern "C" __global__ void get_tiles_offsets(
...
@@ -362,8 +362,7 @@ extern "C" __global__ void get_tiles_offsets(
(extrinsic_corr.imu_move[0] != 0.0) ||
(extrinsic_corr.imu_move[0] != 0.0) ||
(extrinsic_corr.imu_move[1] != 0.0) ||
(extrinsic_corr.imu_move[1] != 0.0) ||
(extrinsic_corr.imu_move[2] != 0.0);
(extrinsic_corr.imu_move[2] != 0.0);
// Temporary
// imu_exists = 0;
#ifdef DEBUG21
#ifdef DEBUG21
if ((ncam == DBG_CAM) && (task_num == DBG_TILE)){
if ((ncam == DBG_CAM) && (task_num == DBG_TILE)){
printf("\nTile = %d, camera= %d\n", task_num, ncam);
printf("\nTile = %d, camera= %d\n", task_num, ncam);
...
@@ -373,6 +372,9 @@ extern "C" __global__ void get_tiles_offsets(
...
@@ -373,6 +372,9 @@ extern "C" __global__ void get_tiles_offsets(
}
}
__syncthreads();// __syncwarp();
__syncthreads();// __syncwarp();
#endif // DEBUG21
#endif // DEBUG21
// String dbg_s = corr_vector.toString();
// String dbg_s = corr_vector.toString();
/* Starting with required tile center X, Y and nominal distortion, for each sensor port:
/* Starting with required tile center X, Y and nominal distortion, for each sensor port:
* 1) unapply common distortion (maybe for different - master camera)
* 1) unapply common distortion (maybe for different - master camera)
...
@@ -401,15 +403,10 @@ extern "C" __global__ void get_tiles_offsets(
...
@@ -401,15 +403,10 @@ extern "C" __global__ void get_tiles_offsets(
float pXcd = px - 0.5 * geometry_correction.pixelCorrectionWidth;
float pXcd = px - 0.5 * geometry_correction.pixelCorrectionWidth;
float pYcd = py - 0.5 * geometry_correction.pixelCorrectionHeight;
float pYcd = py - 0.5 * geometry_correction.pixelCorrectionHeight;
// float rXY [NUM_CAMS][2];
float rXY [2];
float rXY [2];
// for (int i = 0; i < NUM_CAMS;i++){
// rXY[ncam][0] = geometry_correction.rXY[ncam][0];
// rXY[ncam][1] = geometry_correction.rXY[ncam][1];
rXY[0] = geometry_correction.rXY[ncam][0];
rXY[0] = geometry_correction.rXY[ncam][0];
rXY[1] = geometry_correction.rXY[ncam][1];
rXY[1] = geometry_correction.rXY[ncam][1];
// }
float rD = sqrtf(pXcd*pXcd + pYcd*pYcd)*0.001*geometry_correction.pixelSize; // distorted radius in a virtual center camera
float rD = sqrtf(pXcd*pXcd + pYcd*pYcd)*0.001*geometry_correction.pixelSize; // distorted radius in a virtual center camera
float rND2R=getRByRDist(rD/geometry_correction.distortionRadius, rByRDist);
float rND2R=getRByRDist(rD/geometry_correction.distortionRadius, rByRDist);
...
@@ -489,9 +486,17 @@ extern "C" __global__ void get_tiles_offsets(
...
@@ -489,9 +486,17 @@ extern "C" __global__ void get_tiles_offsets(
float pYid = pYci * rD2rND;
float pYid = pYci * rD2rND;
pXY[0] = pXid + geometry_correction.pXY0[ncam][0];
pXY[0] = pXid + geometry_correction.pXY0[ncam][0];
pXY[1] = pYid + geometry_correction.pXY0[ncam][1];
pXY[1] = pYid + geometry_correction.pXY0[ncam][1];
// new for ERS
pY_offsets[threadIdx.y][ncam] = pXY[1] - geometry_correction.woi_tops[ncam];
__syncthreads();
// Each thread re-calculate same sum
float lines_avg = 0;
for (int i = 0; i < NUM_CAMS; i ++){
lines_avg += pY_offsets[threadIdx.y][i];
}
lines_avg *= (1.0/NUM_CAMS);
// used when calculating derivatives, TODO: combine calculations !
// used when calculating derivatives, TODO: combine calculations !
float pY_offset = pY_offsets[threadIdx.y][ncam] - lines_avg;
#ifdef DEBUG21
#ifdef DEBUG21
if ((ncam == DBG_CAM) && (task_num == DBG_TILE)){
if ((ncam == DBG_CAM) && (task_num == DBG_TILE)){
printf("pXci0 = %f, pYci0 = %f\n", pXci0, pYci0);
printf("pXci0 = %f, pYci0 = %f\n", pXci0, pYci0);
...
@@ -501,6 +506,7 @@ extern "C" __global__ void get_tiles_offsets(
...
@@ -501,6 +506,7 @@ extern "C" __global__ void get_tiles_offsets(
printf("rD2rND = %f\n", rD2rND);
printf("rD2rND = %f\n", rD2rND);
printf("pXid = %f, pYid = %f\n", pXid, pYid);
printf("pXid = %f, pYid = %f\n", pXid, pYid);
printf("pXY[0] = %f, pXY[1] = %f\n", pXY[0], pXY[1]); // OK
printf("pXY[0] = %f, pXY[1] = %f\n", pXY[0], pXY[1]); // OK
printf("lines_avg = %f, pY_offset = %f\n", lines_avg, pY_offset);
}
}
__syncthreads();// __syncwarp();
__syncthreads();// __syncwarp();
#endif // DEBUG21
#endif // DEBUG21
...
@@ -514,14 +520,10 @@ extern "C" __global__ void get_tiles_offsets(
...
@@ -514,14 +520,10 @@ extern "C" __global__ void get_tiles_offsets(
#pragma unroll
#pragma unroll
for (int j = 0; j< 3; j++){
for (int j = 0; j< 3; j++){
// drvi_daz[j] = rot_deriv.d_daz[ncam][j][0] * rvi[0] + rot_deriv.d_daz[ncam][j][1] * rvi[1] + rot_deriv.d_daz[ncam][j][2] * rvi[2];
// drvi_dtl[j] = rot_deriv.d_tilt[ncam][j][0] * rvi[0] + rot_deriv.d_tilt[ncam][j][1] * rvi[1] + rot_deriv.d_tilt[ncam][j][2] * rvi[2];
// drvi_drl[j] = rot_deriv.d_roll[ncam][j][0] * rvi[0] + rot_deriv.d_roll[ncam][j][1] * rvi[1] + rot_deriv.d_roll[ncam][j][2] * rvi[2];
drvi_daz[j] = rot_deriv.d_daz[ncam][j][0] * pXci0 + rot_deriv.d_daz[ncam][j][1] * pYci0 + rot_deriv.d_daz[ncam][j][2] * fl_pix;
drvi_daz[j] = rot_deriv.d_daz[ncam][j][0] * pXci0 + rot_deriv.d_daz[ncam][j][1] * pYci0 + rot_deriv.d_daz[ncam][j][2] * fl_pix;
drvi_dtl[j] = rot_deriv.d_tilt[ncam][j][0] * pXci0 + rot_deriv.d_tilt[ncam][j][1] * pYci0 + rot_deriv.d_tilt[ncam][j][2] * fl_pix;
drvi_dtl[j] = rot_deriv.d_tilt[ncam][j][0] * pXci0 + rot_deriv.d_tilt[ncam][j][1] * pYci0 + rot_deriv.d_tilt[ncam][j][2] * fl_pix;
drvi_drl[j] = rot_deriv.d_roll[ncam][j][0] * pXci0 + rot_deriv.d_roll[ncam][j][1] * pYci0 + rot_deriv.d_roll[ncam][j][2] * fl_pix;
drvi_drl[j] = rot_deriv.d_roll[ncam][j][0] * pXci0 + rot_deriv.d_roll[ncam][j][1] * pYci0 + rot_deriv.d_roll[ncam][j][2] * fl_pix;
}
}
// double [][] avi = {{pXci0}, {pYci0},{fl_pix}};
float dpXci_dazimuth = drvi_daz[0] * norm_z - pXci * drvi_daz[2] / rvi[2];
float dpXci_dazimuth = drvi_daz[0] * norm_z - pXci * drvi_daz[2] / rvi[2];
float dpYci_dazimuth = drvi_daz[1] * norm_z - pYci * drvi_daz[2] / rvi[2];
float dpYci_dazimuth = drvi_daz[1] * norm_z - pYci * drvi_daz[2] / rvi[2];
...
@@ -573,25 +575,6 @@ extern "C" __global__ void get_tiles_offsets(
...
@@ -573,25 +575,6 @@ extern "C" __global__ void get_tiles_offsets(
// unity vector in the direction of radius
// unity vector in the direction of radius
float c_dist = pXci/rNDi;
float c_dist = pXci/rNDi;
float s_dist = pYci/rNDi;
float s_dist = pYci/rNDi;
/*
double [][] arot2= {
{c_dist, s_dist},
{-s_dist, c_dist}};
Matrix rot2 = new Matrix(arot2); // convert from non-distorted X,Y to parallel and perpendicular (CCW) to the radius
double [][] ascale_distort = {
{rD2rND + ri* drD2rND_dri, 0 },
{0, rD2rND}};
Matrix scale_distort = new Matrix(ascale_distort); // scale component parallel to radius as distortion derivative, perpendicular - as distortion
Matrix dd2 = rot2.transpose().times(scale_distort).times(rot2).times(dd1);
disp_dist[i][0] = dd2.get(0, 0);
disp_dist[i][1] = dd2.get(0, 1);
disp_dist[i][2] = dd2.get(1, 0); // d_py/d_disp
disp_dist[i][3] = dd2.get(1, 1);
*/
//#undef NVRTC_BUG
//#undef NVRTC_BUG
float drD2rND_dri = 0.0;
float drD2rND_dri = 0.0;
{
{
...
@@ -612,11 +595,6 @@ extern "C" __global__ void get_tiles_offsets(
...
@@ -612,11 +595,6 @@ extern "C" __global__ void get_tiles_offsets(
}
}
float scale_distort00 = rD2rND + ri* drD2rND_dri;
float scale_distort00 = rD2rND + ri* drD2rND_dri;
float scale_distort11 = rD2rND;
float scale_distort11 = rD2rND;
// float rot2Xdd1[2][2];
// rot2Xdd1[0][0] = c_dist * dd1[0][0] + s_dist * dd1[1][0];
// rot2Xdd1[0][1] = c_dist * dd1[0][1] + s_dist * dd1[1][1];
// rot2Xdd1[1][0] = -s_dist * dd1[0][0] + c_dist * dd1[1][0];
// rot2Xdd1[1][1] = -s_dist * dd1[0][1] + c_dist * dd1[1][1];
float scale_distortXrot2Xdd1[2][2];
float scale_distortXrot2Xdd1[2][2];
scale_distortXrot2Xdd1[0][0] = ( c_dist * dd1[0][0] + s_dist * dd1[1][0]) * scale_distort00;
scale_distortXrot2Xdd1[0][0] = ( c_dist * dd1[0][0] + s_dist * dd1[1][0]) * scale_distort00;
scale_distortXrot2Xdd1[0][1] = ( c_dist * dd1[0][1] + s_dist * dd1[1][1]) * scale_distort00;
scale_distortXrot2Xdd1[0][1] = ( c_dist * dd1[0][1] + s_dist * dd1[1][1]) * scale_distort00;
...
@@ -651,6 +629,7 @@ extern "C" __global__ void get_tiles_offsets(
...
@@ -651,6 +629,7 @@ extern "C" __global__ void get_tiles_offsets(
// float imu_move[3]; // dx/dt, dy/dt, dz/dt 16..19 geometry_correction.imu_move
// float imu_move[3]; // dx/dt, dy/dt, dz/dt 16..19 geometry_correction.imu_move
// ERS linear does not yet use per-port rotations, probably not needed
// ERS linear does not yet use per-port rotations, probably not needed
if (imu_exists){
if (imu_exists){
/*
float delta_t = disp_dist[2] * disparity * geometry_correction.line_time; // positive for top cameras, negative - for bottom //disp_dist[2]=dd2.get(1, 0)
float delta_t = disp_dist[2] * disparity * geometry_correction.line_time; // positive for top cameras, negative - for bottom //disp_dist[2]=dd2.get(1, 0)
float ers_Xci = delta_t * (
float ers_Xci = delta_t * (
dpXci_dtilt * extrinsic_corr.imu_rot[0] +
dpXci_dtilt * extrinsic_corr.imu_rot[0] +
...
@@ -660,9 +639,22 @@ extern "C" __global__ void get_tiles_offsets(
...
@@ -660,9 +639,22 @@ extern "C" __global__ void get_tiles_offsets(
dpYci_dtilt * extrinsic_corr.imu_rot[0] +
dpYci_dtilt * extrinsic_corr.imu_rot[0] +
dpYci_dazimuth * extrinsic_corr.imu_rot[1] +
dpYci_dazimuth * extrinsic_corr.imu_rot[1] +
dpYci_droll * extrinsic_corr.imu_rot[2]);
dpYci_droll * extrinsic_corr.imu_rot[2]);
*/
float ers_x =
dpXci_dtilt * extrinsic_corr.imu_rot[0] +
dpXci_dazimuth * extrinsic_corr.imu_rot[1] +
dpXci_droll * extrinsic_corr.imu_rot[2];
float ers_y =
dpYci_dtilt * extrinsic_corr.imu_rot[0] +
dpYci_dazimuth * extrinsic_corr.imu_rot[1] +
dpYci_droll * extrinsic_corr.imu_rot[2];
#ifdef DEBUG21
#ifdef DEBUG21
if ((ncam == DBG_CAM) && (task_num == DBG_TILE)){
if ((ncam == DBG_CAM) && (task_num == DBG_TILE)){
printf("delta_t = %f, ers_Xci = %f, ers_Yci = %f\n", delta_t, ers_Xci, ers_Yci);
// printf("delta_t = %f, ers_Xci = %f, ers_Yci = %f\n", delta_t, ers_Xci, ers_Yci);
printf("ers_x = %f, ers_y = %f\n", ers_x, ers_y);
}
}
__syncthreads();// __syncwarp();
__syncthreads();// __syncwarp();
#endif // DEBUG21
#endif // DEBUG21
...
@@ -674,14 +666,22 @@ extern "C" __global__ void get_tiles_offsets(
...
@@ -674,14 +666,22 @@ extern "C" __global__ void get_tiles_offsets(
dpXci_pYci_imu_lin[1][1] = wdisparity / k; // dpy/ dworld_Y
dpXci_pYci_imu_lin[1][1] = wdisparity / k; // dpy/ dworld_Y
dpXci_pYci_imu_lin[0][2] = (xyz[0] / k) * dwdisp_dz; // dpx/ dworld_Z
dpXci_pYci_imu_lin[0][2] = (xyz[0] / k) * dwdisp_dz; // dpx/ dworld_Z
dpXci_pYci_imu_lin[1][2] = (xyz[1] / k) * dwdisp_dz; // dpy/ dworld_Z
dpXci_pYci_imu_lin[1][2] = (xyz[1] / k) * dwdisp_dz; // dpy/ dworld_Z
/*
ers_Xci += delta_t* (
ers_Xci += delta_t* (
dpXci_pYci_imu_lin[0][0] * extrinsic_corr.imu_move[0] +
dpXci_pYci_imu_lin[0][0] * extrinsic_corr.imu_move[0] +
dpXci_pYci_imu_lin[0][2] * extrinsic_corr.imu_move[2]);
dpXci_pYci_imu_lin[0][2] * extrinsic_corr.imu_move[2]);
ers_Yci += delta_t* (
ers_Yci += delta_t* (
dpXci_pYci_imu_lin[1][1] * extrinsic_corr.imu_move[1] +
dpXci_pYci_imu_lin[1][1] * extrinsic_corr.imu_move[1] +
dpXci_pYci_imu_lin[1][2] * extrinsic_corr.imu_move[2]);
dpXci_pYci_imu_lin[1][2] * extrinsic_corr.imu_move[2]);
pXY[0] += ers_Xci * rD2rND; // added correction to pixel X
*/
pXY[1] += ers_Yci * rD2rND; // added correction to pixel Y
ers_x += dpXci_pYci_imu_lin[0][0] * extrinsic_corr.imu_move[0] +
dpXci_pYci_imu_lin[0][2] * extrinsic_corr.imu_move[2];
ers_y += dpXci_pYci_imu_lin[1][1] * extrinsic_corr.imu_move[1] +
dpXci_pYci_imu_lin[1][2] * extrinsic_corr.imu_move[2];
float delta_t = (pY_offset/ (1.0 - geometry_correction.line_time * ers_y)) * geometry_correction.line_time; // positive for top cameras, negative - for bottom //disp_dist[2]=dd2.get(1, 0)
pXY[0] += delta_t * ers_x * rD2rND; // added correction to pixel X
pXY[1] += delta_t * ers_y * rD2rND; // added correction to pixel Y
#ifdef DEBUG21
#ifdef DEBUG21
if ((ncam == DBG_CAM) && (task_num == DBG_TILE)){
if ((ncam == DBG_CAM) && (task_num == DBG_TILE)){
...
@@ -689,7 +689,7 @@ extern "C" __global__ void get_tiles_offsets(
...
@@ -689,7 +689,7 @@ extern "C" __global__ void get_tiles_offsets(
printf("dpXci_pYci_imu_lin[0][0] = %f, dpXci_pYci_imu_lin[0][2] = %f\n", dpXci_pYci_imu_lin[0][0],dpXci_pYci_imu_lin[0][2]);
printf("dpXci_pYci_imu_lin[0][0] = %f, dpXci_pYci_imu_lin[0][2] = %f\n", dpXci_pYci_imu_lin[0][0],dpXci_pYci_imu_lin[0][2]);
printf("dpXci_pYci_imu_lin[1][1] = %f, dpXci_pYci_imu_lin[1][2] = %f\n", dpXci_pYci_imu_lin[1][1],dpXci_pYci_imu_lin[1][2]);
printf("dpXci_pYci_imu_lin[1][1] = %f, dpXci_pYci_imu_lin[1][2] = %f\n", dpXci_pYci_imu_lin[1][1],dpXci_pYci_imu_lin[1][2]);
printf("delta_t = %f, ers_
Xci = %f, ers_Yci = %f\n", delta_t, ers_Xci, ers_Yci
);
printf("delta_t = %f, ers_
x = %f, ers_y = %f\n", delta_t, ers_x, ers_y
);
printf("pXY[0] = %f, pXY[1] = %f\n", pXY[0], pXY[1]); // OK
printf("pXY[0] = %f, pXY[1] = %f\n", pXY[0], pXY[1]); // OK
}
}
__syncthreads();// __syncwarp();
__syncthreads();// __syncwarp();
...
@@ -703,6 +703,7 @@ extern "C" __global__ void get_tiles_offsets(
...
@@ -703,6 +703,7 @@ extern "C" __global__ void get_tiles_offsets(
}
}
extern "C" __global__ void calcReverseDistortionTable(
extern "C" __global__ void calcReverseDistortionTable(
struct gc * geometry_correction,
struct gc * geometry_correction,
float * rByRDist)
float * rByRDist)
...
@@ -841,6 +842,7 @@ __device__ void printGeometryCorrection(struct gc * g){
...
@@ -841,6 +842,7 @@ __device__ void printGeometryCorrection(struct gc * g){
printf("%22s: %f\n","cameraRadius", g->cameraRadius);
printf("%22s: %f\n","cameraRadius", g->cameraRadius);
printf("%22s: %f\n","disparityRadius", g->disparityRadius);
printf("%22s: %f\n","disparityRadius", g->disparityRadius);
printf("%22s: %f, %f, %f, %f \n","woi_tops", g->woi_tops[0], g->woi_tops[1], g->woi_tops[2], g->woi_tops[3]);
#endif //ifndef JCUDA
#endif //ifndef JCUDA
}
}
...
...
src/geometry_correction.h
View file @
705a2e85
...
@@ -138,6 +138,7 @@ struct gc {
...
@@ -138,6 +138,7 @@ struct gc {
// only used for the multi-quad systems
// only used for the multi-quad systems
float
cameraRadius
;
// =0; // average distance from the "mass center" of the sensors to the sensors
float
cameraRadius
;
// =0; // average distance from the "mass center" of the sensors to the sensors
float
disparityRadius
;
// =150.0; // distance between cameras to normalize disparity units to. sqrt(2)*disparityRadius for quad
float
disparityRadius
;
// =150.0; // distance between cameras to normalize disparity units to. sqrt(2)*disparityRadius for quad
float
woi_tops
[
NUM_CAMS
];
// used to calculate scanline timing
};
};
#define RAD_COEFF_LEN 7
#define RAD_COEFF_LEN 7
extern
"C"
__global__
void
get_tiles_offsets
(
extern
"C"
__global__
void
get_tiles_offsets
(
...
...
src/test_tp.cu
View file @
705a2e85
...
@@ -251,50 +251,50 @@ int main(int argc, char **argv)
...
@@ -251,50 +251,50 @@ int main(int argc, char **argv)
// CLT testing
// CLT testing
const char* kernel_file[] = {
const char* kernel_file[] = {
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn0_transposed.kernel",
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn0_transposed.kernel",
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn1_transposed.kernel",
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn1_transposed.kernel",
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn2_transposed.kernel",
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn2_transposed.kernel",
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn3_transposed.kernel"};
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn3_transposed.kernel"};
const char* kernel_offs_file[] = {
const char* kernel_offs_file[] = {
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn0_transposed.kernel_offsets",
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn0_transposed.kernel_offsets",
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn1_transposed.kernel_offsets",
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn1_transposed.kernel_offsets",
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn2_transposed.kernel_offsets",
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn2_transposed.kernel_offsets",
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn3_transposed.kernel_offsets"};
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn3_transposed.kernel_offsets"};
const char* image_files[] = {
const char* image_files[] = {
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn0.bayer",
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn0.bayer",
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn1.bayer",
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn1.bayer",
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn2.bayer",
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn2.bayer",
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn3.bayer"};
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn3.bayer"};
const char* ports_offs_xy_file[] = {
const char* ports_offs_xy_file[] = {
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn0.portsxy",
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn0.portsxy",
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn1.portsxy",
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn1.portsxy",
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn2.portsxy",
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn2.portsxy",
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn3.portsxy"};
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn3.portsxy"};
#ifndef DBG_TILE
#ifndef DBG_TILE
const char* ports_clt_file[] = { // never referenced
const char* ports_clt_file[] = { // never referenced
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn0.clt",
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn0.clt",
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn1.clt",
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn1.clt",
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn2.clt",
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn2.clt",
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn3.clt"};
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn3.clt"};
const char* result_rbg_file[] = {
const char* result_rbg_file[] = {
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn0.rbg",
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn0.rbg",
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn1.rbg",
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn1.rbg",
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn2.rbg",
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn2.rbg",
"/
data_ssd
/git/tile_processor_gpu/clt/main_chn3.rbg"};
"/
home/eyesis
/git/tile_processor_gpu/clt/main_chn3.rbg"};
#endif
#endif
const char* result_corr_file = "/
data_ssd
/git/tile_processor_gpu/clt/main_corr.corr";
const char* result_corr_file = "/
home/eyesis
/git/tile_processor_gpu/clt/main_corr.corr";
const char* result_corr_quad_file = "/
data_ssd
/git/tile_processor_gpu/clt/main_corr-quad.corr";
const char* result_corr_quad_file = "/
home/eyesis
/git/tile_processor_gpu/clt/main_corr-quad.corr";
const char* result_corr_cross_file = "/
data_ssd
/git/tile_processor_gpu/clt/main_corr-cross.corr";
const char* result_corr_cross_file = "/
home/eyesis
/git/tile_processor_gpu/clt/main_corr-cross.corr";
const char* result_textures_file = "/
data_ssd
/git/tile_processor_gpu/clt/texture.rgba";
const char* result_textures_file = "/
home/eyesis
/git/tile_processor_gpu/clt/texture.rgba";
const char* result_textures_rgba_file = "/
data_ssd
/git/tile_processor_gpu/clt/texture_rgba.rgba";
const char* result_textures_rgba_file = "/
home/eyesis
/git/tile_processor_gpu/clt/texture_rgba.rgba";
const char* rByRDist_file = "/
data_ssd
/git/tile_processor_gpu/clt/main.rbyrdist";
const char* rByRDist_file = "/
home/eyesis
/git/tile_processor_gpu/clt/main.rbyrdist";
const char* correction_vector_file = "/
data_ssd
/git/tile_processor_gpu/clt/main.correction_vector";
const char* correction_vector_file = "/
home/eyesis
/git/tile_processor_gpu/clt/main.correction_vector";
const char* geometry_correction_file = "/
data_ssd
/git/tile_processor_gpu/clt/main.geometry_correction";
const char* geometry_correction_file = "/
home/eyesis
/git/tile_processor_gpu/clt/main.geometry_correction";
float port_offsets[NUM_CAMS][2] = {// used only in textures to scale differences
float port_offsets[NUM_CAMS][2] = {// used only in textures to scale differences
...
@@ -1101,8 +1101,8 @@ int main(int argc, char **argv)
...
@@ -1101,8 +1101,8 @@ int main(int argc, char **argv)
(corr_size_combo * corr_size_combo) * sizeof(float),
(corr_size_combo * corr_size_combo) * sizeof(float),
num_corr_combo,
num_corr_combo,
cudaMemcpyDeviceToHost));
cudaMemcpyDeviceToHost));
// const char* result_corr_quad_file = "/
data_ssd
/git/tile_processor_gpu/clt/main_corr-quad.corr";
// const char* result_corr_quad_file = "/
home/eyesis
/git/tile_processor_gpu/clt/main_corr-quad.corr";
// const char* result_corr_cross_file = "/
data_ssd
/git/tile_processor_gpu/clt/main_corr-cross.corr";
// const char* result_corr_cross_file = "/
home/eyesis
/git/tile_processor_gpu/clt/main_corr-cross.corr";
#ifndef NSAVE_CORR
#ifndef NSAVE_CORR
printf("Writing phase correlation data to %s\n", result_corr_quad_file);
printf("Writing phase correlation data to %s\n", result_corr_quad_file);
...
...
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