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authorMichael Bien <[email protected]>2010-02-01 19:54:16 +0100
committerMichael Bien <[email protected]>2010-02-01 19:54:16 +0100
commit4e34732609bfa569aae8e89fe0304a7e56628256 (patch)
treeaaec5c12792afc80cbee0892a5a196013db39f42 /src/com/mbien
parent3394fc5b25927ae8733cab867ec1caf682cd4618 (diff)
added single/double FP precision toggle.
Diffstat (limited to 'src/com/mbien')
-rw-r--r--src/com/mbien/opencl/demos/fractal/Mandelbrot.cl33
-rw-r--r--src/com/mbien/opencl/demos/fractal/MultiDeviceFractal.java141
2 files changed, 124 insertions, 50 deletions
diff --git a/src/com/mbien/opencl/demos/fractal/Mandelbrot.cl b/src/com/mbien/opencl/demos/fractal/Mandelbrot.cl
index f4f39a1..640c775 100644
--- a/src/com/mbien/opencl/demos/fractal/Mandelbrot.cl
+++ b/src/com/mbien/opencl/demos/fractal/Mandelbrot.cl
@@ -1,30 +1,37 @@
+#ifdef DOUBLE_FP
+ #pragma OPENCL EXTENSION cl_khr_fp64 : enable
+ typedef double varfloat;
+#else
+ typedef float varfloat;
+#endif
+
/**
* For a description of this algorithm please refer to
* http://en.wikipedia.org/wiki/Mandelbrot_set
* @author Michael Bien
*/
kernel void mandelbrot(
- global uint *output,
- const int width, const int height,
- const float x0, const float y0,
- const float rangeX, const float rangeY,
- global uint *colorMap, const int colorMapSize, const int maxIterations) {
+ const int width, const int height,
+ const varfloat x0, const varfloat y0,
+ const varfloat rangeX, const varfloat rangeY,
+ global uint *output, global uint *colorMap,
+ const int colorMapSize, const int maxIterations) {
unsigned int ix = get_global_id(0);
unsigned int iy = get_global_id(1);
- float r = x0 + ix * rangeX / width;
- float i = y0 + iy * rangeY / height;
+ varfloat r = x0 + ix * rangeX / width;
+ varfloat i = y0 + iy * rangeY / height;
- float x = 0;
- float y = 0;
+ varfloat x = 0;
+ varfloat y = 0;
- float magnitudeSquared = 0;
+ varfloat magnitudeSquared = 0;
int iteration = 0;
while (magnitudeSquared < 4 && iteration < maxIterations) {
- float x2 = x*x;
- float y2 = y*y;
+ varfloat x2 = x*x;
+ varfloat y2 = y*y;
y = 2 * x * y + i;
x = x2 - y2 + r;
magnitudeSquared = x2+y2;
@@ -34,7 +41,7 @@ kernel void mandelbrot(
if (iteration == maxIterations) {
output[iy * width + ix] = 0;
}else {
- float alpha = (float)iteration / maxIterations;
+ varfloat alpha = (varfloat)iteration / maxIterations;
int colorIndex = (int)(alpha * colorMapSize);
output[iy * width + ix] = colorMap[colorIndex];
// monochrom
diff --git a/src/com/mbien/opencl/demos/fractal/MultiDeviceFractal.java b/src/com/mbien/opencl/demos/fractal/MultiDeviceFractal.java
index 01e1574..66c6e36 100644
--- a/src/com/mbien/opencl/demos/fractal/MultiDeviceFractal.java
+++ b/src/com/mbien/opencl/demos/fractal/MultiDeviceFractal.java
@@ -47,8 +47,15 @@ import static java.lang.Math.*;
/**
* Computes the Mandelbrot set with OpenCL using multiple GPUs and renders the result with OpenGL.
- * A shared PBO is used as storage for the fractal image.
+ * A shared PBO is used as storage for the fractal image.<br/>
* http://en.wikipedia.org/wiki/Mandelbrot_set
+ * <p>
+ * controls:<br/>
+ * keys 1-9 control parallelism level<br/>
+ * space enables/disables slice seperator<br/>
+ * 'd' toggles between 32/64bit floatingpoint precision<br/>
+ * mouse/mousewheel to drag and zoom<br/>
+ * </p>
* @author Michael Bien
*/
public class MultiDeviceFractal implements GLEventListener {
@@ -64,21 +71,25 @@ public class MultiDeviceFractal implements GLEventListener {
private CLGLContext clContext;
private CLCommandQueue[] queues;
private CLKernel[] kernels;
+ private CLProgram program;
private CLEventList probes;
private CLGLBuffer<?>[] pboBuffers;
+ private CLBuffer<IntBuffer>[] colorMap;
private int width = 0;
private int height = 0;
- private float minX = -2f;
- private float minY = -1.2f;
- private float maxX = 0.6f;
- private float maxY = 1.3f;
+ private double minX = -2f;
+ private double minY = -1.2f;
+ private double maxX = 0.6f;
+ private double maxY = 1.3f;
private int slices;
- private boolean drawSeperator = false;
- private boolean initialized = false;
+ private boolean drawSeperator;
+ private boolean doublePrecision;
+ private boolean buffersInitialized;
+ private boolean rebuild;
private final TextRenderer textRenderer;
@@ -118,7 +129,7 @@ public class MultiDeviceFractal implements GLEventListener {
initView(gl, drawable.getWidth(), drawable.getHeight());
initPBO(gl);
-
+ setKernelConstants();
}
private void initCL(GLContext glCtx){
@@ -126,10 +137,6 @@ public class MultiDeviceFractal implements GLEventListener {
// create context managing all available GPUs
clContext = CLGLContext.create(glCtx, GPU);
- // load and build program
- CLProgram program = clContext.createProgram(getClass().getResourceAsStream("Mandelbrot.cl"))
- .build(CompilerOptions.FAST_RELAXED_MATH);
-
CLDevice[] devices = clContext.getCLDevices();
slices = min(devices.length, MAX_PARRALLELISM_LEVEL);
@@ -138,23 +145,22 @@ public class MultiDeviceFractal implements GLEventListener {
queues = new CLCommandQueue[slices];
kernels = new CLKernel[slices];
probes = new CLEventList(slices);
+ colorMap = new CLBuffer[slices];
for (int i = 0; i < slices; i++) {
- CLBuffer<IntBuffer> colorMap = clContext.createIntBuffer(32*2, READ_ONLY);
- initColorMap(colorMap.getBuffer(), 32, Color.BLUE, Color.GREEN, Color.RED);
+ colorMap[i] = clContext.createIntBuffer(32*2, READ_ONLY);
+ initColorMap(colorMap[i].getBuffer(), 32, Color.BLUE, Color.GREEN, Color.RED);
// create command queue and upload color map buffer on each used device
- queues[i] = devices[i].createCommandQueue(PROFILING_MODE).putWriteBuffer(colorMap, true); // blocking upload
-
- // init kernel with constants
- kernels[i] = program.createCLKernel("mandelbrot")
- .setArg(7, colorMap)
- .setArg(8, colorMap.getBuffer().capacity())
- .setArg(9, MAX_ITERATIONS);
+ queues[i] = devices[i].createCommandQueue(PROFILING_MODE).putWriteBuffer(colorMap[i], true); // blocking upload
}
+ // load and build program
+ program = clContext.createProgram(getClass().getResourceAsStream("Mandelbrot.cl"));
+ buildProgram();
+
} catch (IOException ex) {
Logger.getLogger(getClass().getName()).log(Level.SEVERE, "can not find 'Mandelbrot.cl' in classpath.", ex);
} catch (CLException ex) {
@@ -231,15 +237,71 @@ public class MultiDeviceFractal implements GLEventListener {
gl.glBindBuffer(GL_PIXEL_UNPACK_BUFFER, 0);
pboBuffers[i] = clContext.createFromGLBuffer(null, pbo[i], WRITE_ONLY);
+
}
-
- initialized = true;
+
+ buffersInitialized = true;
}
+ private void buildProgram() {
+
+ /*
+ * workaround: The driver keeps using the old binaries for some reason.
+ * to solve this we simple create a new program and release the old.
+ * however rebuilding programs should be possible -> remove when drivers are fixed.
+ */
+ if(program != null && rebuild) {
+ String source = program.getSource();
+ program.release();
+ program = clContext.createProgram(source);
+ }
+
+ // disable 64bit floating point math if not available
+ if(doublePrecision) {
+ for (CLDevice device : program.getCLDevices()) {
+ if(!device.isDoubleFPAvailable()) {
+ doublePrecision = false;
+ break;
+ }
+ }
+ }
+
+ if(doublePrecision) {
+ program.build(CompilerOptions.FAST_RELAXED_MATH, "-D DOUBLE_FP");
+ }else{
+ program.build(CompilerOptions.FAST_RELAXED_MATH);
+ }
+ rebuild = false;
+
+ for (int i = 0; i < kernels.length; i++) {
+ // init kernel with constants
+ kernels[i] = program.createCLKernel("mandelbrot");
+ }
+
+ }
+
+ // init kernels with constants
+ private void setKernelConstants() {
+ for (int i = 0; i < slices; i++) {
+ kernels[i].setForce32BitArgs(!doublePrecision)
+ .setArg(6, pboBuffers[i])
+ .setArg(7, colorMap[i])
+ .setArg(8, colorMap[i].getBuffer().capacity())
+ .setArg(9, MAX_ITERATIONS);
+ }
+ }
+
+ // rendering cycle
public void display(GLAutoDrawable drawable) {
GL gl = drawable.getGL();
- if(!initialized) {
+
+ if(!buffersInitialized) {
initPBO(gl);
+ setKernelConstants();
+ }
+ if(rebuild) {
+ buildProgram();
+ setKernelConstants();
}
// make sure GL does not use our objects before we start computeing
gl.glFinish();
@@ -252,8 +314,8 @@ public class MultiDeviceFractal implements GLEventListener {
private void compute() {
int sliceWidth = width / slices;
- float rangeX = (maxX - minX) / slices;
- float rangeY = (maxY - minY);
+ double rangeX = (maxX - minX) / slices;
+ double rangeY = (maxY - minY);
// release all old events, you can't reuse events in OpenCL
probes.release();
@@ -261,9 +323,8 @@ public class MultiDeviceFractal implements GLEventListener {
// start computation
for (int i = 0; i < slices; i++) {
- kernels[i].putArg(pboBuffers[i])
- .putArg(sliceWidth).putArg(height)
- .putArg(minX + rangeX*i).putArg(minY)
+ kernels[i].putArg( sliceWidth).putArg(height)
+ .putArg(minX + rangeX*i).putArg( minY)
.putArg( rangeX ).putArg(rangeY)
.rewind();
@@ -304,11 +365,13 @@ public class MultiDeviceFractal implements GLEventListener {
//draw info text
textRenderer.beginRendering(width, height, false);
+ textRenderer.draw("precision: "+ (doublePrecision?"64bit":"32bit"), 10, height-15);
+
for (int i = 0; i < slices; i++) {
CLEvent event = probes.getEvent(i);
long start = event.getProfilingInfo(START);
long end = event.getProfilingInfo(END);
- textRenderer.draw("GPU"+i +" "+(int)((end-start)/1000000.0f)+"ms", 10, 10+16*(slices-i));
+ textRenderer.draw("GPU"+i +" "+(int)((end-start)/1000000.0f)+"ms", 10, height-(20+16*(slices-i)));
}
textRenderer.endRendering();
@@ -323,6 +386,7 @@ public class MultiDeviceFractal implements GLEventListener {
this.height = height;
initPBO(drawable.getGL());
+
initView(drawable.getGL().getGL2(), drawable.getWidth(), drawable.getHeight());
}
@@ -335,8 +399,8 @@ public class MultiDeviceFractal implements GLEventListener {
@Override
public void mouseDragged(MouseEvent e) {
- float offsetX = (lastpos.x - e.getX()) * (maxX - minX) / width;
- float offsetY = (lastpos.y - e.getY()) * (maxY - minY) / height;
+ double offsetX = (lastpos.x - e.getX()) * (maxX - minX) / width;
+ double offsetY = (lastpos.y - e.getY()) * (maxY - minY) / height;
minX += offsetX;
minY -= offsetY;
@@ -359,12 +423,12 @@ public class MultiDeviceFractal implements GLEventListener {
public void mouseWheelMoved(MouseWheelEvent e) {
float rotation = e.getWheelRotation() / 25.0f;
- float deltaX = rotation * (maxX - minX);
- float deltaY = rotation * (maxY - minY);
+ double deltaX = rotation * (maxX - minX);
+ double deltaY = rotation * (maxY - minY);
// offset for "zoom to cursor"
- float offsetX = (e.getX() / (float)width - 0.5f) * deltaX * 2;
- float offsetY = (e.getY() / (float)height- 0.5f) * deltaY * 2;
+ double offsetX = (e.getX() / (float)width - 0.5f) * deltaX * 2;
+ double offsetY = (e.getY() / (float)height- 0.5f) * deltaY * 2;
minX += deltaX+offsetX;
minY += deltaY-offsetY;
@@ -385,7 +449,10 @@ public class MultiDeviceFractal implements GLEventListener {
}else if(e.getKeyChar() > '0' && e.getKeyChar() < '9') {
int number = e.getKeyChar()-'0';
slices = min(number, min(queues.length, MAX_PARRALLELISM_LEVEL));
- initialized = false;
+ buffersInitialized = false;
+ }else if(e.getKeyCode() == KeyEvent.VK_D) {
+ doublePrecision = !doublePrecision;
+ rebuild = true;
}
canvas.display();
}