def _integrator(f, a, b): # return quad(f, a, b, limit=1000, epsrel = 1e-10, full_output=(0 if _feedback else 1))[0] # return Integrate_Patterson(f, a, b, eps = 1e-7, abs=1e-10)[0] i = integrate.chebyshev(f, a, b, epsrel=1e-12, epsabs=1e-16) # i = integrate.romberg(f, a, b, epsrel = 1e-15) # print i return i
def _integrator(f, a, b): #return quad(f, a, b, limit=1000, epsrel = 1e-10, full_output=(0 if _feedback else 1))[0] #return Integrate_Patterson(f, a, b, eps = 1e-7, abs=1e-10)[0] i = integrate.chebyshev(f, a, b, epsrel=1e-12, epsabs=1e-16) #i = integrate.romberg(f, a, b, epsrel = 1e-15) #print i return i
def _int(f, a, b, args=()): #return quad(f, a, b, args=args, limit=1000, epsrel = 1e-7, # full_output=(0 if _feedback else 1))[0] #return Integrate_Patterson(f, a, b, eps = 1e-7, abs=1e-10, args=args)[0] return integrate.chebyshev(f, a, b, epsrel=1e-7, epsabs=1e-9, args=args)
def _integrator(f, a, b): # return quad(f, a, b, limit=1000, epsrel = 1e-7, full_output=(0 if _feedback else 1))[0] # return Integrate_Patterson(f, a, b, eps = 1e-7, abs=1e-10)[0] return integrate.chebyshev(f, a, b, epsrel=1e-7, epsabs=1e-10)[0]
def _int(f, a, b, args=()): # return quad(f, a, b, args=args, limit=1000, epsrel = 1e-7, # full_output=(0 if _feedback else 1))[0] # return Integrate_Patterson(f, a, b, eps = 1e-7, abs=1e-10, args=args)[0] return integrate.chebyshev(f, a, b, epsrel=1e-7, epsabs=1e-9, args=args)
def _integrator(f, a, b): #return quad(f, a, b, limit=1000, epsrel = 1e-7, full_output=(0 if _feedback else 1))[0] #return Integrate_Patterson(f, a, b, eps = 1e-7, abs=1e-10)[0] return integrate.chebyshev(f, a, b, epsrel=1e-7, epsabs=1e-10)[0]