diff --git a/modules/galaxy/shaders/galaxyraycast.glsl b/modules/galaxy/shaders/galaxyraycast.glsl
index a16188aa5d..dab687e3ca 100644
--- a/modules/galaxy/shaders/galaxyraycast.glsl
+++ b/modules/galaxy/shaders/galaxyraycast.glsl
@@ -29,17 +29,18 @@ uniform float absorptionMultiply#{id} = 50.0;
 uniform float emissionMultiply#{id} = 1500.0;
 uniform sampler3D galaxyTexture#{id};
 
-void sample#{id}(vec3 samplePos,
+void sample#{id}(
+  vec3 samplePos,
   vec3 dir,
   inout vec3 accumulatedColor,
   inout vec3 accumulatedAlpha,
-  inout float stepSize)
-  {
+  inout float stepSize
+  ) {
     vec3 aspect = aspect#{id};
     stepSize = maxStepSize#{id} / length(dir / aspect);
 
     //Early ray termination on black parts of the data
-    vec3 normalizedPos = samplePos*2.0 - 1.0;
+    vec3 normalizedPos = samplePos * 2.f - 1.f;
     if (normalizedPos.x * normalizedPos.x + normalizedPos.y * normalizedPos.y > 0.7) {
         return;
     }
@@ -51,12 +52,12 @@ void sample#{id}(vec3 samplePos,
     sampledColor = sampledColor*sampledColor;
 
     // Fudge for the dust "spreading"
-    sampledColor.a = clamp(sampledColor.a, 0.0, 1.0);
-    sampledColor.a = pow(sampledColor.a, 0.7);
+    sampledColor.a = clamp(sampledColor.a, 0.f, 1.f);
+    sampledColor.a = pow(sampledColor.a, 0.7f);
 
     // Absorption probability
     float scaledDensity = sampledColor.a * stepSize * absorptionMultiply#{id};
-    vec3 alphaTint = vec3(0.3, 0.54, 0.85);
+    vec3 alphaTint = vec3(0.3f, 0.54f, 0.85f);
     vec3 absorption = alphaTint * scaledDensity;
 
     // Extinction
@@ -67,10 +68,10 @@ void sample#{id}(vec3 samplePos,
     accumulatedColor.rgb +=
         sampledColor.rgb * stepSize * emissionMultiply#{id} * opacityCoefficient#{id};
 
-    vec3 oneMinusFrontAlpha = vec3(1.0) - accumulatedAlpha;
+    vec3 oneMinusFrontAlpha = vec3(1.f) - accumulatedAlpha;
     accumulatedAlpha += oneMinusFrontAlpha * sampledColor.rgb  * opacityCoefficient#{id};
   }
 
   float stepSize#{id}(vec3 samplePos, vec3 dir) {
-    return maxStepSize#{id} * length(dir * 1.0 / aspect#{id});
+    return maxStepSize#{id} * length(dir * 1.f / aspect#{id});
   }
diff --git a/shaders/framebuffer/raycastframebuffer.frag b/shaders/framebuffer/raycastframebuffer.frag
index 6a949b4cc9..b5a972cff8 100644
--- a/shaders/framebuffer/raycastframebuffer.frag
+++ b/shaders/framebuffer/raycastframebuffer.frag
@@ -45,7 +45,7 @@ uniform vec2 windowSize;
 out vec4 finalColor;
 
 #define ALPHA_LIMIT 0.99
-#define RAYCAST_MAX_STEPS 1000
+#define RAYCAST_MAX_STEPS 480
 
 #include <#{getEntryPath}>
 
@@ -55,7 +55,7 @@ void main() {
     vec4 exitColorTexture = texture(exitColorTexture, texCoord);
 
     // If we don't have an exit, discard the ray
-    if (exitColorTexture.a < 1.0 || exitColorTexture.rgb == vec3(0.0)) {
+    if (exitColorTexture.a < 1.f || exitColorTexture.rgb == vec3(0.f)) {
         discard;
     }
 
@@ -63,13 +63,13 @@ void main() {
     vec3 exitPos = exitColorTexture.rgb;
     float exitDepth =  denormalizeFloat(texture(exitDepthTexture, texCoord).x);
 
-    float jitterFactor = 0.5 + 0.5 * rand(gl_FragCoord.xy); // should be between 0.5 and 1.0
+    float jitterFactor = 0.5f + 0.5f * rand(gl_FragCoord.xy); // should be between 0.5 and 1.0
 
     vec3 entryPos;
     float entryDepth;
     getEntry(entryPos, entryDepth);
     // If we don't have an entry, discard the ray
-    if (entryPos == vec3(0.0)) {
+    if (entryPos == vec3(0.f)) {
         discard;
     }
 
@@ -80,21 +80,21 @@ void main() {
     float raycastDepth = length(diff);
 
     float geoDepth = denormalizeFloat(texelFetch(mainDepthTexture, ivec2(gl_FragCoord), 0).x);
-    float geoRatio = clamp((geoDepth - entryDepth) / (exitDepth - entryDepth), 0.0, 1.0);
+    float geoRatio = clamp((geoDepth - entryDepth) / (exitDepth - entryDepth), 0.f, 1.f);
     raycastDepth = geoRatio * raycastDepth;
 
-    float currentDepth = 0.0;
+    float currentDepth = 0.f;
     float nextStepSize = stepSize#{id}(position, direction);
     float currentStepSize;
-    float previousJitterDistance = 0.0;
+    float previousJitterDistance = 0.f;
 
     int nSteps = 0;
 
     int sampleIndex = 0;
-    float opacityDecay = 1.0;
+    float opacityDecay = 1.f;
 
-    vec3 accumulatedColor = vec3(0.0);
-    vec3 accumulatedAlpha = vec3(0.0);
+    vec3 accumulatedColor = vec3(0.f);
+    vec3 accumulatedAlpha = vec3(0.f);
 
 
     for (nSteps = 0; 
@@ -102,7 +102,7 @@ void main() {
          accumulatedAlpha.b < ALPHA_LIMIT) && nSteps < RAYCAST_MAX_STEPS; 
          ++nSteps) 
     {
-        if (nextStepSize < raycastDepth / 10000000000.0) {
+        if (nextStepSize < raycastDepth / 10000000000.f) {
             break;
         }
 
@@ -110,7 +110,7 @@ void main() {
         currentDepth += currentStepSize;
 
         float jitteredStepSize = currentStepSize * jitterFactor;
-        vec3 jitteredPosition = position + direction*jitteredStepSize;
+        vec3 jitteredPosition = position + direction * jitteredStepSize;
         position += direction * currentStepSize;
 
         sample#{id}(jitteredPosition, direction, accumulatedColor, accumulatedAlpha, nextStepSize);
@@ -122,7 +122,7 @@ void main() {
         nextStepSize = min(nextStepSize, maxStepSize);
     }
 
-    finalColor = vec4(accumulatedColor, (accumulatedAlpha.r + accumulatedAlpha.g + accumulatedAlpha.b) / 3);
+    finalColor = vec4(accumulatedColor, (accumulatedAlpha.r + accumulatedAlpha.g + accumulatedAlpha.b) / 3.f);
 
     finalColor.rgb /= finalColor.a ;
     gl_FragDepth = normalizeFloat(entryDepth);