Mercurial > hg > python-allan
changeset 0:3dcd4cfd8f82
Import
author | Daniele Nicolodi <daniele.nicolodi@obspm.fr> |
---|---|
date | Fri, 18 Apr 2014 18:44:54 +0200 |
parents | |
children | ebc4e1d7c32f |
files | .hgignore __init__.py _allan.pyx allan.py setup.py |
diffstat | 5 files changed, 250 insertions(+), 0 deletions(-) [+] |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/.hgignore Fri Apr 18 18:44:54 2014 +0200 @@ -0,0 +1,6 @@ +syntax: glob +*~ +*.c +*.so +*.pyc +build/ \ No newline at end of file
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/__init__.py Fri Apr 18 18:44:54 2014 +0200 @@ -0,0 +1,1 @@ +from .allan import *
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/_allan.pyx Fri Apr 18 18:44:54 2014 +0200 @@ -0,0 +1,86 @@ +import numpy as np +cimport numpy as np +cimport cython + +@cython.boundscheck(False) +@cython.wraparound(False) +@cython.cdivision(True) +def _xmvar(np.ndarray[np.double_t, ndim=1] x, int m): + + cdef double c + cdef double v + cdef int n = x.shape[0] + cdef unsigned int j + cdef unsigned int i + + c = 0 + for j in range(n - 3 * m + 1): + v = 0 + for i in range(j, j + m): + v += (x[i + 2 * m] - 2 * x[i + m] + x[i]) / m + c += v * v + return c / (2.0 * m*m * (n - 3 * m + 1)) + + +@cython.boundscheck(False) +@cython.wraparound(False) +@cython.cdivision(True) +def _xmvar2(np.ndarray[np.double_t, ndim=1] x, np.ndarray[np.int_t, ndim=1] mm): + + cdef double z + cdef double zi + cdef unsigned int n = x.shape[0] + cdef unsigned int i + cdef unsigned int k + cdef unsigned int m + cdef np.ndarray[np.double_t, ndim=1] w = np.empty([n + 1, ], np.double) + cdef np.ndarray[np.double_t, ndim=1] mvar = np.empty([mm.shape[0], ], np.double) + + mvar.fill(np.nan) + + w[0] = 0.0 + for i in range(n): + w[i + 1] = w[i] + x[i] + + for k, m in enumerate(mm): + if 3 * m > n: + continue + z = 0 + for i in range(n - 3 * m + 1): + zi = (w[i + 3 * m] - 3 * w[i + 2 * m] + 3 * w[i + m] - w[i]) / m + z += zi * zi + mvar[k] = z / (2.0 * m*m * (n - 3 * m + 1)) + + return mvar + + +@cython.boundscheck(False) +@cython.wraparound(False) +@cython.cdivision(True) +def _xavar(double[:] x, int[:] mm): + + cdef double z + cdef double zi + cdef unsigned int n = x.shape[0] + cdef unsigned int i + cdef unsigned int k + cdef unsigned int m + cdef int N + + r = np.empty([mm.shape[0], ], np.double) + r.fill(np.nan) + cdef double[::1] avar = r + + for k, m in enumerate(mm): + if m < 1: + continue + N = (n // m) - 2 + if N < 1: + continue + z = 0 + for i in range(N): + zi = x[i * m] - 2 * x[(i + 1) * m] + x[(i + 2) * m] + z += (zi * zi) + avar[k] = z / (2.0 * m*m * N) + + return r
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/allan.py Fri Apr 18 18:44:54 2014 +0200 @@ -0,0 +1,148 @@ +import numpy as np +from scipy import polyfit, polyval +import matplotlib.pyplot as plt +import numexpr + +__all__ = ['outliers', 'detrend', 'fastdetrend', + 'adev', 'xadev', 'xmdev', 'xtdev', 'xavar', 'xmvar', ] + + +def outliers(y, alpha=6, remove=False): + """Detect and optionally remove outliers""" + + m = np.mean(y) + v = np.var(y) + + outliers = np.abs(y - m) > (alpha * np.sqrt(v)) + + if remove: + x = lambda z: z.nonzero()[0] + y[outliers] = np.interp(x(outliers), x(~outliers), y[~outliers]) + + return np.nonzero(outliers)[0] + + +def detrend(y, order=1): + """Detrend""" + + x = np.arange(y.size) + p = polyfit(x, y, order) + y = y - polyval(p, x) + return y + + +def fastdetrend(y, order=1, downsample=1000): + # time base + x = np.arange(y.size) + # compute detrend polynomial from downsampled data + p = polyfit(x[::downsample], y[::downsample], order) + + # construct numexpr expression + expr = [] + args = {'y': y, 'x': x} + for i in range(order + 1): + expr.append("p%d" % i + "*x" * i) + args["p%d" % i] = p[order - i] + expr = "y - (%s)" % " + ".join(expr) + + # evaluate expression + y = numexpr.evaluate(expr, local_dict=args) + return y + + +def adev(x, tau, sampl=1.0): + """Allan deviation""" + + x = np.asarray(x) + tau = np.asarray(tau) + + # allocate output vectors + adev = np.zeros(tau.size) + dadev = np.zeros(tau.size) + + # samples + n = x.size + # partitioning + p = np.floor(tau * sampl).astype(int) + + for i, m in enumerate(p): + d = x[0:n - n % m].reshape(-1, m) + y = np.mean(d, axis=1) + adev[i] = np.sqrt(0.5 * np.mean(np.diff(y)**2)) + dadev[i] = adev[i] / np.sqrt(y.size) + + return adev, dadev + + +from _allan import _xmvar, _xmvar2, _xavar + +# Functions to compute Allan deviation and modified Allan deviation +# from time error data. For an oscillator described by the equation +# v(t) = v0 * cos(2*pi * f0 * t + phi(t)) where f0 is the nominal +# oscillator frequency the time deviation is computed as: x(t) = +# phi(t) / (2*pi * f0) +# +# The Symmetricom 5115A phase analyzer outputs data in units of cycles +# of the input signal. To obtain time deviation from the data stream +# d(t) it is sufficient to compute: x(t) = d(t) / f0 where f0 is the +# nominal frequency of the oscillator under test + +def xmvar0(x, tau, tau0=1.0): + + x = np.asarray(x) + tau = np.asarray(tau) + + # allocate output vectors + mvar = np.zeros(tau.size) + + # partitioning + p = (tau // tau0).astype(int) + + for k, m in enumerate(p): + mvar[k] = _xmvar(x, m) + # c = 0 + # for j in xrange(x.size - 3 * m + 1): + # v = 0 + # for i in xrange(j, j + m): + # v += (x[i + 2 * m] - 2 * x[i + m] + x[i]) / m + # c += v*v + # mavar[k] = c / (2.0 * m*m * (n - 3 * m + 1)) + + return np.sqrt(mvar) / tau0 + + +def xmvar(x, tau, tau0=1.0): + + x = np.asarray(x) + tau = np.asarray(tau) + + # partitioning + p = (tau // tau0).astype(int) + + return _xmvar2(x, p) / (tau0 * tau0) + + +def xmdev(x, tau, tau0=1.0): + + return np.sqrt(xmvar(x, tau, tau0)) + + +def xtdev(x, tau, tau0=1.0): + + return np.sqrt(xmvar(x, tau, tau0)) * tau / np.sqrt(3.0) + + +def xavar(x, tau, tau0=1.0): + + x = np.asarray(x) + tau = np.asarray(tau) + + # partitioning + p = (tau // tau0).astype(int) + + return _xavar(x, p) / (tau0 * tau0) + + +def xadev(x, tau, tau0=1.0): + + return np.sqrt(xavar(x, tau, tau0))
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/setup.py Fri Apr 18 18:44:54 2014 +0200 @@ -0,0 +1,9 @@ +from distutils.core import setup +from distutils.extension import Extension +from Cython.Build import cythonize +from numpy import get_include + +ext_modules = cythonize([Extension("_allan", ["_allan.pyx"]), ]) + +setup(ext_modules = ext_modules, + include_dirs = get_include())