From 24847cbb2567f508a7c30b39c6fb7ba6379d1adc Mon Sep 17 00:00:00 2001
From: Adrian Kummerlaender
Date: Sat, 2 Nov 2019 17:18:32 +0100
Subject: Restructure LBM model / lattice distinction

---
 boltzgen/lbm/lattice/characteristics.py | 27 +++++++++++++++++++++++++++
 1 file changed, 27 insertions(+)
 create mode 100644 boltzgen/lbm/lattice/characteristics.py

(limited to 'boltzgen/lbm/lattice/characteristics.py')

diff --git a/boltzgen/lbm/lattice/characteristics.py b/boltzgen/lbm/lattice/characteristics.py
new file mode 100644
index 0000000..b68afeb
--- /dev/null
+++ b/boltzgen/lbm/lattice/characteristics.py
@@ -0,0 +1,27 @@
+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))
+
+# determine lattice speed of sound using directions and their weights
+def c_s(d, c, w):
+    speeds = set([ sqrt(sum([ w[i] * c_i[j]**2 for i, c_i in enumerate(c) ])) for j in range(0,d) ])
+    assert len(speeds) == 1 # verify isotropy
+    return speeds.pop()
-- 
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