def getWave2DMatrix(N, h, bc_hor, bc_ver): Dx_u, Dz_u = get2DMatrix(N, h, bc_hor[0], bc_ver[0]) Dx_w, Dz_w = get2DMatrix(N, h, bc_hor[1], bc_ver[1]) Dx_p, Dz_p = get2DMatrix(N, h, bc_hor[2], bc_ver[2]) Id_N = sp.eye(N[0] * N[1]) Zero = np.zeros((N[0] * N[1], N[0] * N[1])) M1 = sp.hstack((Zero, Zero, Dx_p), format="csr") M2 = sp.hstack((Zero, Zero, Dz_p), format="csr") M3 = sp.hstack((Dx_u, Dz_w, Zero), format="csr") M = sp.vstack((M1, M2, M3), format="csr") Id = sp.eye(3 * N[0] * N[1]) return sp.csc_matrix(Id), sp.csc_matrix(M)
def getWave2DMatrix(N, h, bc_hor, bc_ver): Dx_u, Dz_u = get2DMatrix(N, h, bc_hor[0], bc_ver[0]) Dx_w, Dz_w = get2DMatrix(N, h, bc_hor[1], bc_ver[1]) Dx_p, Dz_p = get2DMatrix(N, h, bc_hor[2], bc_ver[2]) Id_N = sp.eye(N[0]*N[1]) Zero = np.zeros((N[0]*N[1],N[0]*N[1])) M1 = sp.hstack((Zero, Zero, Dx_p), format="csr") M2 = sp.hstack((Zero, Zero, Dz_p), format="csr") M3 = sp.hstack((Dx_u, Dz_w, Zero), format="csr") M = sp.vstack((M1,M2,M3), format="csr") Id = sp.eye(3*N[0]*N[1]) return sp.csc_matrix(Id), sp.csc_matrix(M)
def getBoussinesq2DMatrix(N, h, bc_hor, bc_ver, c_s, Nfreq, order): Dx_u, Dz_u = get2DMatrix(N, h, bc_hor[0], bc_ver[0]) Dx_w, Dz_w = get2DMatrix(N, h, bc_hor[1], bc_ver[1]) Dx_b, Dz_b = get2DMatrix(N, h, bc_hor[2], bc_ver[2]) Dx_p, Dz_p = get2DMatrix(N, h, bc_hor[3], bc_ver[3]) Id_N = sp.eye(N[0]*N[1]) Zero = np.zeros((N[0]*N[1],N[0]*N[1])) Id_w = sp.eye(N[0]*N[1]) # Note: Bring all terms to right hand side, therefore a couple of minus signs # are needed M1 = sp.hstack(( Zero, Zero, Zero, -Dx_p), format="csr") M2 = sp.hstack(( Zero, Zero, Id_w, -Dz_p), format="csr") M3 = sp.hstack(( Zero, -Nfreq**2*Id_w, Zero, Zero), format="csr") M4 = sp.hstack((-c_s**2*Dx_u, -c_s**2*Dz_w, Zero, Zero), format="csr") M = sp.vstack((M1,M2,M3,M4), format="csr") Id = sp.eye(4*N[0]*N[1]) return sp.csc_matrix(Id), sp.csc_matrix(M)