Esempio n. 1
0
 def _define_kernel(self):
     pv = self._pv
     self._k1 = pv[0] * ESn2K(1 / pv[1], pv[2], ndim=3, dim=0) * ESK(
         1 / pv[3], ndim=3, dim=0)
     self._k2 = pv[4] * ESK(1 / pv[5], ndim=3, dim=1) * ESK(
         1 / pv[6], ndim=3, dim=2)
     self._k = self._k1 + self._k2
Esempio n. 2
0
 def _define_kernel(self):
     pv = self._pv
     self._k1 = pv[0] * ESn2K(pv[1], pv[2], ndim=3, dim=0)
     self._k2 = (
         pv[3] * ESK(pv[4], ndim=3, dim=1) * ESK(pv[5], ndim=3, dim=2) +
         pv[6] * ESK(pv[7], ndim=3, dim=0))
     self._k = self._k1 + self._k2
Esempio n. 3
0
 def _create_kernel(self):
     self.covids = (2, 3, 4, 5, 6)
     self.standardize = []
     nd = len(self.covids)
     logv = self.logwnvar.mean()
     kernel_sk = ESK(10, bounds=((None, None),), ndim=nd, axes=0)
     kernel_am = ESK(1, bounds=((None, None),), ndim=nd, axes=1)
     kernel_xy = ESK(2, metric_bounds=((0, 20),), ndim=nd, axes=[2, 3])
     kernel_en = ESK(1, bounds=((None, None),), ndim=nd, axes=4)
     self.kernels = kernel_sk, kernel_am, kernel_xy, kernel_en
     return CK(logv, bounds=((-18, -7),), ndim=nd) * kernel_sk * kernel_am * kernel_xy * kernel_en
Esempio n. 4
0
 def _define_kernel(self):
     pv = self.map_pv(self._pv)
     self._k1 = pv[0] * ESK(1/pv[1], ndim=3, axes=0)
     self._k2 = pv[2] * ESK(1/pv[3], ndim=3, axes=1) * ESK(1/pv[4], ndim=3, axes=2)
     self._k   = self._k1 + self._k2
Esempio n. 5
0
 def _define_kernel(self):
     pv = self.map_pv(self._pv)
     self._k1 = pv[0] * ESn2K(gamma=1/pv[1], log_period=log(pv[2]), ndim=3, axes=0) * ESK(1/pv[3], ndim=3, axes=0)
     self._k2 = pv[4] * EK(1/pv[5], ndim=3, axes=1) * EK(1/pv[6], ndim=3, axes=2)
     self._k  = self._k1 + self._k2