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authorAaron LI <aly@aaronly.me>2017-07-27 17:31:38 +0800
committerAaron LI <aly@aaronly.me>2017-07-27 17:31:38 +0800
commit938c09e89926fb2e4d4e889e7a4b21e1e23580fd (patch)
treec9f1d263d10084b5e1815fa83f6e00795cb2c6fa /fg21sim/extragalactic
parent6f5562045e70dd3c5b066470cb25ba7a0dc327bb (diff)
downloadfg21sim-938c09e89926fb2e4d4e889e7a4b21e1e23580fd.tar.bz2
clusters/emission.py: Cache kernel function interpolation results
Signed-off-by: Aaron LI <aly@aaronly.me>
Diffstat (limited to 'fg21sim/extragalactic')
-rw-r--r--fg21sim/extragalactic/clusters/emission.py44
1 files changed, 22 insertions, 22 deletions
diff --git a/fg21sim/extragalactic/clusters/emission.py b/fg21sim/extragalactic/clusters/emission.py
index 2454644..b54d113 100644
--- a/fg21sim/extragalactic/clusters/emission.py
+++ b/fg21sim/extragalactic/clusters/emission.py
@@ -103,16 +103,17 @@ class SynchrotronEmission:
nu_c = 1.5 * gamma**2 * np.sin(theta) * self.frequency_larmor
return nu_c
- @staticmethod
- def F(x):
+ def F(self, x):
"""
Synchrotron kernel function.
NOTE
----
- Use interpolation to optimize the speed, also avoid instabilities
- near the lower end (e.g., x < 1e-5).
- Interpolation also helps vectorize this function for easier calling.
+ * Use interpolation to optimize the speed, also avoid instabilities
+ near the lower end (e.g., x < 1e-5).
+ * Interpolation also helps vectorize this function for easier calling.
+ * Cache the interpolation results, since this function will be called
+ multiple times for each frequency.
Parameters
----------
@@ -125,27 +126,26 @@ class SynchrotronEmission:
y : `~numpy.ndarray`
Calculated kernel function values.
"""
- # The lower and upper cuts
- xmin = 1e-5
- xmax = 20.0
- # Number of samples within [xmin, xmax]
- # NOTE: this kernel function is quiet smooth and slow-varying.
- nsamples = 128
- # Make an interpolation
- x_interp = np.logspace(np.log10(xmin), np.log10(xmax),
- num=nsamples)
- F_interp = [
- xp * integrate.quad(lambda t: scipy.special.kv(5/3, t),
- a=xp, b=np.inf)[0]
- for xp in x_interp
- ]
- func_interp = interpolate.interp1d(x_interp, F_interp,
- kind="quadratic")
+ if not hasattr(self, "_F_interp"):
+ # Interpolate the kernel function and cache the results
+ #
+ # The lower and upper cuts
+ xmin = 1e-5
+ xmax = 20.0
+ # Number of samples within [xmin, xmax]
+ # NOTE: this kernel function is quiet smooth and slow-varying.
+ nsamples = 128
+ # Make an interpolation
+ xx = np.logspace(np.log10(xmin), np.log10(xmax), num=nsamples)
+ Fxx = [xp * integrate.quad(lambda t: scipy.special.kv(5/3, t),
+ a=xp, b=np.inf)[0]
+ for xp in xx]
+ self._F_interp = interpolate.interp1d(xx, Fxx, kind="quadratic")
x = np.array(x) # Make a copy!
x[x < xmin] = xmin
x[x > xmax] = xmax
- y = func_interp(x)
+ y = self._F_interp(x)
return y
def emissivity(self, nu):