public void BuildHess4PwIntrAct(Universe.AtomPack info, Vector[] coords, out Pair <int, int>[] pwidxs, out PwIntrActInfo[] pwhessinfos) { HDebug.Depreciated("check idx1 and idx2"); int idx1 = 0; // nonbonded.atoms[0].ID; int idx2 = 1; // nonbonded.atoms[1].ID; Universe.Atom atom1 = info.atoms[0]; Universe.Atom atom2 = info.atoms[1]; Vector diff = (coords[idx2] - coords[idx1]); double dx = diff[0]; double dy = diff[1]; double dz = diff[2]; double radi = double.NaN; double radj = double.NaN; double epsi = double.NaN; double epsj = double.NaN; if (typeof(Universe.Nonbonded14).IsInstanceOfType(info)) { radi = atom1.Rmin2_14; radi = (double.IsNaN(radi) == false) ? radi : atom1.Rmin2; radj = atom2.Rmin2_14; radj = (double.IsNaN(radj) == false) ? radj : atom2.Rmin2; epsi = atom1.eps_14; epsi = (double.IsNaN(epsi) == false) ? epsi : atom1.epsilon; epsj = atom2.eps_14; epsj = (double.IsNaN(epsj) == false) ? epsj : atom2.epsilon; } if (typeof(Universe.Nonbonded).IsInstanceOfType(info)) { radi = atom1.Rmin2; radj = atom2.Rmin2; epsi = atom1.epsilon; epsj = atom2.epsilon; } HDebug.Assert(double.IsNaN(radi) == false, double.IsNaN(radj) == false, double.IsNaN(epsi) == false, double.IsNaN(epsj) == false); // !V(Lennard-Jones) = Eps,i,j[(Rmin,i,j/ri,j)**12 - 2(Rmin,i,j/ri,j)**6] // !epsilon: kcal/mole, Eps,i,j = sqrt(eps,i * eps,j) // !Rmin/2: A, Rmin,i,j = Rmin/2,i + Rmin/2,j // // V(r) = epsij * r0^12 * rij^-12 - 2 * epsij * r0^6 * rij^-6 // F(r) = -12 * epsij * r0^12 * rij^-13 - -6*2 * epsij * r0^6 * rij^-7 // K(r) = -13*-12 * epsij * r0^12 * rij^-14 - -7*-6*2 * epsij * r0^6 * rij^-8 double r = (radi + radj); double r6 = Math.Pow(r, 6); double r12 = Math.Pow(r, 12); double rij2 = (dx * dx + dy * dy + dz * dz); double rij = Math.Sqrt(rij2); double rij7 = Math.Pow(rij2, 3) * rij; double rij8 = Math.Pow(rij2, 4); double rij13 = Math.Pow(rij2, 6) * rij; double rij14 = Math.Pow(rij2, 7); double epsij = epsi * epsj; double fij = (-12) * epsij * r12 / rij13 - (-6 * 2) * epsij * r6 / rij7; double kij = (-13 * -12) * epsij * r12 / rij14 - (-7 * -6 * 2) * epsij * r6 / rij8; pwidxs = new Pair <int, int> [1]; pwidxs[0] = new Pair <int, int>(0, 1); pwhessinfos = new PwIntrActInfo[1]; pwhessinfos[0] = new PwIntrActInfo(kij, fij); }
public void BuildHess4PwIntrAct(Universe.AtomPack info, Vector[] coords, out Pair <int, int>[] pwidxs, out PwIntrActInfo[] pwhessinfos) { Universe.Nonbonded nonbonded = (Universe.Nonbonded)info; HDebug.Depreciated("check idx1 and idx2"); int idx1 = 0; // nonbonded.atoms[0].ID; int idx2 = 1; // nonbonded.atoms[1].ID; Universe.Atom atom1 = nonbonded.atoms[0]; Universe.Atom atom2 = nonbonded.atoms[1]; double pchij = atom1.Charge * atom2.Charge; if (double.IsNaN(pchij)) { HDebug.Assert(false); pwidxs = null; pwhessinfos = null; return; } Vector diff = (coords[idx2] - coords[idx1]); double dx = diff[0]; double dy = diff[1]; double dz = diff[2]; double pchi = atom1.Charge; double pchj = atom2.Charge; double ee = 80; // !V(Lennard-Jones) = Eps,i,j[(Rmin,i,j/ri,j)**12 - 2(Rmin,i,j/ri,j)**6] // !epsilon: kcal/mole, Eps,i,j = sqrt(eps,i * eps,j) // !Rmin/2: A, Rmin,i,j = Rmin/2,i + Rmin/2,j // // V(rij) = (332 * pchij / ee) * rij^-1 // F(rij) = ( -1) * (332 * pchij / ee) * rij^-2 // K(rij) = (-2*-1) * (332 * pchij / ee) * rij^-3 // double pchij = pchi * pchj; double rij2 = dx * dx + dy * dy + dz * dz; double rij = Math.Sqrt(rij2); double rij3 = rij2 * rij; double fij = (-1) * (332 * pchij / ee) / rij2; double kij = (-2 * -1) * (332 * pchij / ee) / rij3; pwidxs = new Pair <int, int> [1]; pwidxs[0] = new Pair <int, int>(0, 1); pwhessinfos = new PwIntrActInfo[1]; pwhessinfos[0] = new PwIntrActInfo(kij, fij); }
public void BuildHess4PwIntrAct(Universe.AtomPack info, Vector[] coords, out Pair <int, int>[] pwidxs, out PwIntrActInfo[] pwhessinfos) { Universe.Bond bond = (Universe.Bond)info; double Kb = bond.Kb; double b0 = bond.b0; HDebug.Assert(coords.Length == 2); Vector pos1 = coords[0]; Vector pos2 = coords[1]; Vector r12 = pos1 - pos2; double r = r12.Dist; double kij = 2 * Kb; double fij = (2 * Kb) * (r - b0); pwidxs = new Pair <int, int> [1]; pwidxs[0] = new Pair <int, int>(0, 1); pwhessinfos = new PwIntrActInfo[1]; pwhessinfos[0] = new PwIntrActInfo(kij, fij); }
public void BuildHess4PwIntrAct(Universe.AtomPack info, Vector[] coords, out Pair <int, int>[] pwidxs, out PwIntrActInfo[] pwhessinfos) { Universe.Angle angle = (Universe.Angle)info; double Ktheta = angle.Ktheta; double Theta0 = angle.Theta0; double Kub = angle.Kub; double S0 = angle.S0; Vector pos1 = coords[0]; // const Vector *pos1 = coords + angle->atom1; Vector pos2 = coords[1]; // const Vector *pos2 = coords + angle->atom2; Vector pos3 = coords[2]; // const Vector *pos3 = coords + angle->atom3; double a = (pos2 - pos1).Dist; double b = (pos3 - pos2).Dist; double c = (pos3 - pos1).Dist; ValueTuple <double, double> fij_kij = GetFijKij(a, b, c, Ktheta, Theta0); double fij = fij_kij.Item1; double kij = fij_kij.Item2; HDebug.Assert(coords.Length == 3); pwidxs = new Pair <int, int> [1]; pwidxs[0] = new Pair <int, int>(0, 2); pwhessinfos = new PwIntrActInfo[1]; pwhessinfos[0] = new PwIntrActInfo(kij, fij); }
public void BuildHess4PwIntrAct(Universe.AtomPack info, Vector[] coords, out Pair <int, int>[] pwidxs, out PwIntrActInfo[] pwhessinfos) { Universe.Improper improper = (Universe.Improper)info; double Kchi = improper.Kpsi; int n = improper.n; double delta = improper.psi0; //Vector pos1 = coords[0]; // const Vector *pos1 = coords + angle->atom1; //Vector pos2 = coords[1]; // const Vector *pos2 = coords + angle->atom2; //Vector pos3 = coords[2]; // const Vector *pos3 = coords + angle->atom3; //double a = (pos2-pos1).Dist; //double b = (pos3-pos2).Dist; //double c = (pos3-pos1).Dist; //Pair<double,double> fij_kij = GetFijKij(a, b, c, Ktheta, Theta0); //double fij = fij_kij.first; //double kij = fij_kij.second; /// A /// / B /// a .../. c / /// \ / / \ / /// \ / /\ /// \ / / \ /// b ..... d /// /// a /// |\ / /// | \ /T /// | \ ----- A ----+---- /// | \ / /// | \ B /// p l / /// | \ \ / /// |T \ \ /// | \ \ /// \ \ /// \\ /// d /// /// A = (b-a) x (c-b) /// B = (c-b) x (d-c) /// (A x B) ⊥ (Δ adp) /// p ∈ bc /// T + ∠apd = π /// /// V = K0 (T - T0)^2 /// F = dV/dT = 2 K0 (T - T0) /// K = (d^2 V)/(d T^2) = 2 K0 /// return { dV/dl, (d^2 V)/(d l^2) } Vector a = coords[0]; Vector b = coords[1]; Vector c = coords[2]; Vector d = coords[3]; Vector A = LinAlg.CrossProd(a - b, b - c); Vector B = LinAlg.CrossProd(b - c, c - d); Vector AxB = LinAlg.CrossProd(A, B); double ad = (a - d).Dist; Vector p = Geometry.Point4LinePlaneIntersect(a, d, a + A, b, c); double ap = (a - p).Dist; double pd = (p - d).Dist; ValueTuple <double, double> fij_kij = MindyAngle.GetFijKij(ap, pd, ad, Kchi, delta, -1, +1, -1); double fij = fij_kij.Item1; double kij = fij_kij.Item2; HDebug.Assert(coords.Length == 4); pwidxs = new Pair <int, int> [1]; pwidxs[0] = new Pair <int, int>(0, 3); pwhessinfos = new PwIntrActInfo[1]; pwhessinfos[0] = new PwIntrActInfo(kij, fij); }