Thread history
From User talk:Rednaxela/FastTrig
Viewing a history listing
Jump to navigation
Jump to search
Viewing a history listing
Time | User | Activity | Comment |
---|---|---|---|
18:21, 19 February 2012 | MN (talk | contribs) | New reply created | (Reply to Fast gaussian kernel function) |
10:12, 19 February 2012 | Skilgannon (talk | contribs) | New reply created | (Reply to Fast gaussian kernel function) |
22:54, 18 February 2012 | MN (talk | contribs) | New thread created |
Patched a gaussian kernel to work together with that fast exp.
private static final double SQRT_2_PI = Math.sqrt(2 * Math.PI);
private static final double EXP_LIMIT = 700;
private static final double GAUSSIAN_LIMIT = Math.sqrt(EXP_LIMIT * 2);
public static double gaussian(final double u) {
if (u > GAUSSIAN_LIMIT || u < -GAUSSIAN_LIMIT) {
return 0;
}
return exp(-(u * u) / 2) / SQRT_2_PI;
}
public static double exp(double val) {
final long tmp = (long) (1512775 * val + 1072632447);
return Double.longBitsToDouble(tmp << 32);
}
MN
A suggestion: get rid of divisions, they are almost as slow as sqrt and slow the code down a lot. Also, sometimes it is important that the gaussian doesn't return 0, so change that to something a tiny bit bigger =)
private static final double SQRT_2_PI = Math.sqrt(2 * Math.PI);
private static final double EXP_LIMIT = 700;
private static final double GAUSSIAN_LIMIT = Math.sqrt(EXP_LIMIT * 2);
public static double gaussian(final double u) {
if (u > GAUSSIAN_LIMIT || u < -GAUSSIAN_LIMIT) {
return 2e-200;
}
return exp((u * u) * -0.5) * (1 / SQRT_2_PI);
}
public static double exp(double val) {
final long tmp = (long) (1512775 * val + 1072632447);
return Double.longBitsToDouble(tmp << 32);
}
That "get rid of divisions" tip doubled the speed of my bot. O.o'
And for a mathematical purism, returning the value at the boundaries as minimum to keep the function smooth:
private static final double SQRT_2_PI_INVERSE = 1 / Math.sqrt(2 * Math.PI);
private static final double EXP_LIMIT = 700;
private static final double GAUSSIAN_LIMIT = Math.sqrt(EXP_LIMIT * 2);
private static final double MIN_GAUSSIAN_VALUE = gaussian(GAUSSIAN_LIMIT);
public static double gaussian(final double u) {
if (u > GAUSSIAN_LIMIT || u < -GAUSSIAN_LIMIT) {
return MIN_GAUSSIAN_VALUE;
}
return exp(u * u * -0.5) * SQRT_2_PI_INVERSE;
}
public static double exp(final double val) {
final long tmp = (long) (1512775 * val + 1072632447);
return Double.longBitsToDouble(tmp << 32);
}
MN