Minor cleanup to Render size

examples/toroid25d.rs

@@ -4,18 +4,19 @@ use coremem::stim::{Stimulus, Sinusoid};
 
 fn main() {
     coremem::init_logging();
-    let feat_size = 5e-6; // feature size
+    let feat_size = 10e-6; // feature size
     let from_m = |m| (m/feat_size) as u32;
     let m_to_um = |px| (px * 1e6) as u32;
     let to_m = |px| px as Flt * feat_size;
-    let width = 2000e-6;
-    let depth = 500e-6;
+    let width = 1000e-6;
+    let depth = 600e-6;
     let conductor_inner_rad = 0e-6;
-    let conductor_outer_rad = 5e-6;
-    let ferro_inner_rad = 220e-6;
-    let ferro_outer_rad = 300e-6;
-    let buffer = 100e-6;
-    let peak_current = 1e-80;
+    let conductor_outer_rad = 19e-6;
+    let ferro_inner_rad = 100e-6;
+    let ferro_outer_rad = 200e-6;
+    let buffer = 50e-6;
+    let peak_current = 2e3;
+    let current_duration = 1e-9; // half-wavelength of the sine wave
     let conductivity = 1.0e5;
     let half_width = width * 0.5;
     let half_depth = depth * 0.5;
@@ -24,14 +25,15 @@ fn main() {
     let depth_px = from_m(depth);
     let size_px = Index((width_px, width_px, depth_px).into());
     let mut driver = Driver::new(size_px, feat_size);
-    //driver.set_steps_per_frame(8);
+    driver.set_steps_per_frame(8);
     //driver.set_steps_per_frame(40);
     //driver.set_steps_per_frame(200);
-    driver.add_y4m_renderer(&*format!("toroid25d-flt{}-{}-feat{}um-{:.1e}A--radii{}um-{}um-{}um.y4m",
+    driver.add_y4m_renderer(&*format!("toroid25d-flt{}-{}-feat{}um-{:.1e}A-{:.1e}s--radii{}um-{}um-{}um.y4m",
         std::mem::size_of::<Flt>() * 8,
         *size_px,
         m_to_um(feat_size),
         peak_current,
+        current_duration,
         m_to_um(conductor_outer_rad),
         m_to_um(ferro_inner_rad),
         m_to_um(ferro_outer_rad),
@@ -90,12 +92,13 @@ fn main() {
     }
     let boundary_xy = half_width - ferro_outer_rad - buffer;
     println!("boundary: {}um", m_to_um(boundary_xy));
-    let boundary = Index((from_m(boundary_xy), from_m(boundary_xy), 20).into());
+    let boundary = Index((from_m(boundary_xy), from_m(boundary_xy), 0).into());
     driver.add_upml_boundary(boundary);
 
     driver.add_stimulus(Stimulus::new(
         conductor_region.clone(),
-        Sinusoid::new(Vec3::new(0.0, 0.0, peak_current * 1e-18), 1e9)));
+        Sinusoid::from_wavelength(Vec3::new(0.0, 0.0, peak_current), current_duration * 2.0
+)));
 
     loop {
         driver.step();

src/meas.rs

@@ -21,7 +21,7 @@ pub struct Meta;
 
 impl AbstractMeasurement for Meta {
     fn eval(&self, state: &dyn GenericSim) -> String {
-        format!("{}x{} feat: {:.1e}m", state.width(), state.height(), state.feature_size())
+        format!("{}x{}x{} feat: {:.1e}m", state.width(), state.height(), state.depth(), state.feature_size())
     }
 }
 

src/render.rs

@@ -62,12 +62,13 @@ struct RenderSteps<'a> {
 
 impl<'a> RenderSteps<'a> {
     fn render(state: &'a dyn GenericSim, measurements: &'a [Box<dyn AbstractMeasurement>], z: u32) -> RgbImage {
-        let mut width = 1920;
+        let mut width = 640;
+        let max_height = 480;
         let mut height = width * state.height() / state.width();
-        if height > 1080 {
-            let stretch = 1080 as f32 / height as f32;
+        if height > max_height {
+            let stretch = max_height as f32 / height as f32;
             width = (width as f32 * stretch) as _;
-            height = 1080;
+            height = max_height;
         }
         trace!("rendering at {}x{}", width, height);
         let mut me = Self::new(state, measurements, width, height, z);

src/stim.rs

@@ -57,6 +57,9 @@ impl Sinusoid {
             omega: freq * consts::TWO_PI,
         }
     }
+    pub fn from_wavelength(amp: Vec3, lambda: Flt) -> Self {
+        Self::new(amp, 1.0/lambda)
+    }
 }
 
 impl TimeVarying for Sinusoid {