diff options
Determine weights using Gauss-Hermite quadrature
-rw-r--r-- | symbolic/D2Q9.py | 1 | ||||
-rw-r--r-- | symbolic/D3Q27.py | 6 | ||||
-rw-r--r-- | symbolic/characteristics.py | 21 | ||||
-rw-r--r-- | symbolic/generator.py | 14 |
4 files changed, 31 insertions, 11 deletions
diff --git a/symbolic/D2Q9.py b/symbolic/D2Q9.py index 22f7ed5..24fb223 100644 --- a/symbolic/D2Q9.py +++ b/symbolic/D2Q9.py @@ -4,6 +4,5 @@ q = 9 d = 2 c = [ Matrix(x) for x in [(-1, 1), ( 0, 1), ( 1, 1), (-1, 0), ( 0, 0), ( 1, 0), (-1,-1), ( 0, -1), ( 1, -1)] ] -w = [ Rational(*x) for x in [(1,36), (1,9), (1,36), (1,9), (4,9), (1,9), (1,36), (1,9), (1,36)] ] c_s = sqrt(Rational(1,3)) diff --git a/symbolic/D3Q27.py b/symbolic/D3Q27.py index 6a81de5..3db45d3 100644 --- a/symbolic/D3Q27.py +++ b/symbolic/D3Q27.py @@ -9,10 +9,4 @@ c = [ Matrix(x) for x in [ (-1, 1,-1), ( 0, 1,-1), ( 1, 1,-1), (-1, 0,-1), ( 0, 0,-1), ( 1, 0,-1), (-1,-1,-1), ( 0, -1,-1), ( 1, -1,-1) ]] -w = [Rational(*x) for x in [ - (1, 216), (1,54), (1,216), (1,54), (2,27), (1,54), (1,216), (1,54), (1,216), - (1, 54), (2,27), (1, 54), (2,27), (8,27), (2,27), (1, 54), (2,27), (1, 54), - (1, 216), (1,54), (1,216), (1,54), (2,27), (1,54), (1,216), (1,54), (1,216) -]] - c_s = sqrt(Rational(1,3)) diff --git a/symbolic/characteristics.py b/symbolic/characteristics.py new file mode 100644 index 0000000..ca3904e --- /dev/null +++ b/symbolic/characteristics.py @@ -0,0 +1,21 @@ +from sympy import * + +# copy of `sympy.integrals.quadrature.gauss_hermite` sans evaluation +def gauss_hermite(n): + x = Dummy("x") + p = hermite_poly(n, x, polys=True) + p1 = hermite_poly(n-1, x, polys=True) + xi = [] + w = [] + for r in p.real_roots(): + xi.append(r) + w.append(((2**(n-1) * factorial(n) * sqrt(pi))/(n**2 * p1.subs(x, r)**2))) + return xi, w + +# determine weights of a d-dimensional LBM model on velocity set c +# (only works for velocity sets that result into NSE-recovering LB models when +# plugged into Gauss-Hermite quadrature without any additional arguments +# i.e. D2Q9 and D3Q27 but not D3Q19) +def weights(d, c): + _, omegas = gauss_hermite(3) + return list(map(lambda c_i: Mul(*[ omegas[1+c_i[iDim]] for iDim in range(0,d) ]) / pi**(d/2), c)) diff --git a/symbolic/generator.py b/symbolic/generator.py index f94031f..73f3940 100644 --- a/symbolic/generator.py +++ b/symbolic/generator.py @@ -2,6 +2,7 @@ from sympy import * from sympy.codegen.ast import Assignment import symbolic.optimizations as optimizations +from symbolic.characteristics import weights def assign(names, definitions): @@ -13,6 +14,11 @@ class LBM: self.f_next = symarray('f_next', descriptor.q) self.f_curr = symarray('f_curr', descriptor.q) + if hasattr(descriptor, 'w'): + self.w = descriptor.w + else: + self.w = weights(descriptor.d, descriptor.c) + def moments(self, optimize = True): rho = symbols('rho') u = Matrix(symarray('u', self.descriptor.d)) @@ -35,10 +41,10 @@ class LBM: f_eq = [] for i, c_i in enumerate(self.descriptor.c): - f_eq_i = self.descriptor.w[i] * rho * ( 1 - + c_i.dot(u) / self.descriptor.c_s**2 - + c_i.dot(u)**2 / (2*self.descriptor.c_s**4) - - u.dot(u) / (2*self.descriptor.c_s**2) ) + f_eq_i = self.w[i] * rho * ( 1 + + c_i.dot(u) / self.descriptor.c_s**2 + + c_i.dot(u)**2 / (2*self.descriptor.c_s**4) + - u.dot(u) / (2*self.descriptor.c_s**2) ) f_eq.append(f_eq_i) return f_eq |