r186: *** empty log message ***

[ctsim.git] / html / simulate.html.in

diff --git a/html/simulate.html.in b/html/simulate.html.in
index 8b855a59479771560a3c1a6aa9637b5e78aac5c3..bd0745a34768c4510e0d9993c56888f9731b8e10 100644 (file)
--- a/html/simulate.html.in
+++ b/html/simulate.html.in
@@ -17,7 +17,7 @@ Phantom Name:<br>
 Nx: <input type="text" name="Phantom_Nx" size="4" value="256"><br>
 Ny: <input type="text" name="Phantom_Ny" size="4" value="256"><br>
 <p>
-Number of Samples<br>per pixel: <input type="text" name="Phantom_NSample" size="2" value="1"><br>
+Number of Samples<br>per pixel: <input type="text" name="Phantom_NSample" size="2" value="2"><br>
 <p>
 Display Window:<br>
 Minimum: <input type="text" name="Disp_Min" size=5 value="auto"><br>
@@ -28,12 +28,28 @@ MPI Supercomputing:<br>
 <INPUT type="radio" name="MPI" value="no" checked>No (Single CPU)<br>
 </td><td valign="top">
 <h3>Simulate X-Ray acquistion</h3>
-Number of detectors: <input type="text" name="PJ_NDet" size="4" value="367"><p>
+Geometry:<br>
+<INPUT type="radio" name="geometry" value="parallel" checked>Parallel<br>
+<INPUT type="radio" name="geometry" value="equiangular">Equiangular<br>
+<INPUT type="radio" name="geometry" value="collinear">Collinear<br>
+<p>
+Number of Detectors: <input type="text" name="PJ_NDet" size="4" value="367"><p>
 Number of Rotations: <input type="text" name="PJ_NRot" size="4" value="320"><p>
-Number of Rays<br>(samples) per detector: <input type="text" name="PJ_NRay" size="2" value="1"><p>
+Number of Rays<br>(samples) per detector: <input type="text" name="PJ_NRay" size="2" value="3"><p>
 Rotation Angle<br>as a multiple of PI: <input type="text" name="PJ_RotAngle" size="3" value="1.0"><br>
 </td><td valign="top">
 <H3>Image Reconstruction</H3>
+Filter Method:<br>
+<input type="radio" name="IR_FilterMethod" value="convolution" checked>Convolution<br>
+<input type="radio" name="IR_FilterMethod" value="fourier">Fourier<br>
+<input type="radio" name="IR_FilterMethod" value="fourier_table">Fourier Table<br>
+<input type="radio" name="IR_FilterMethod" value="fft">FFT (Fast Fourier)<br>
+<input type="radio" name="IR_FilterMethod" value="fftw">FFTW (Fastest Fourier Library)<br>
+<input type="radio" name="IR_FilterMethod" value="rfftw">RFFTW (Real-mode Fastest Fourier Library)<br>
+<p>
+Zeropad: (frequency-base filtering only)<br>
+<input type="text" name="IR_Zeropad" size="1" value="2"><br>
+<p>
 Interpolation:<br>
 <input type="radio" name="IR_Interp" value="linear" checked>Linear<br>
 <input type="radio" name="IR_Interp" value="nearest">Nearest Neighbor<br>
@@ -53,8 +69,9 @@ Backprojection Method:<br>
 <input type="radio" name="IR_Backproj" value="trig">Trig<br>
 <input type="radio" name="IR_Backproj" value="table">Trig Table<br>
 <input type="radio" name="IR_Backproj" value="diff">Difference<br>
-<input type="radio" name="IR_Backproj" value="diff2" checked>Difference Optimized<br>
+<input type="radio" name="IR_Backproj" value="diff2">Difference Optimized<br>
 <input type="radio" name="IR_Backproj" value="idiff2">Difference Optimized (integer math)<br>
+<input type="radio" name="IR_Backproj" value="idiff3" checked>Difference Highly-optimized (integer math)<br>
 </td></tr></table>
 <p>
 <input type="submit" value="Simulate"><input type="reset" value="clear fields">