Continuing to implement new CUDA platform: NonbondedForce

platforms/cuda2/tests/TestCudaEwald.cpp

+/* -------------------------------------------------------------------------- *
+ *                                   OpenMM                                   *
+ * -------------------------------------------------------------------------- *
+ * This is part of the OpenMM molecular simulation toolkit originating from   *
+ * Simbios, the NIH National Center for Physics-Based Simulation of           *
+ * Biological Structures at Stanford, funded under the NIH Roadmap for        *
+ * Medical Research, grant U54 GM072970. See https://simtk.org.               *
+ *                                                                            *
+ * Portions copyright (c) 2008-2012 Stanford University and the Authors.      *
+ * Authors: Peter Eastman                                                     *
+ * Contributors:                                                              *
+ *                                                                            *
+ * Permission is hereby granted, free of charge, to any person obtaining a    *
+ * copy of this software and associated documentation files (the "Software"), *
+ * to deal in the Software without restriction, including without limitation  *
+ * the rights to use, copy, modify, merge, publish, distribute, sublicense,   *
+ * and/or sell copies of the Software, and to permit persons to whom the      *
+ * Software is furnished to do so, subject to the following conditions:       *
+ *                                                                            *
+ * The above copyright notice and this permission notice shall be included in *
+ * all copies or substantial portions of the Software.                        *
+ *                                                                            *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR *
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,   *
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL    *
+ * THE AUTHORS, CONTRIBUTORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,    *
+ * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR      *
+ * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE  *
+ * USE OR OTHER DEALINGS IN THE SOFTWARE.                                     *
+ * -------------------------------------------------------------------------- */
+
+/**
+ * This tests the Ewald summation method CUDA implementation of NonbondedForce.
+ */
+
+#include "openmm/internal/AssertionUtilities.h"
+#include "openmm/Context.h"
+#include "CudaPlatform.h"
+#include "ReferencePlatform.h"
+#include "openmm/NonbondedForce.h"
+#include "openmm/System.h"
+#include "openmm/LangevinIntegrator.h"
+#include "openmm/VerletIntegrator.h"
+#include "openmm/internal/ContextImpl.h"
+#include "../src/SimTKUtilities/SimTKOpenMMRealType.h"
+#include "sfmt/SFMT.h"
+#include <iostream>
+#include <vector>
+
+using namespace OpenMM;
+using namespace std;
+
+const double TOL = 1e-5;
+
+void testEwaldPME(bool includeExceptions) {
+
+//      Use amorphous NaCl system for the tests
+
+    const int numParticles 	= 894;
+    const double cutoff 	= 1.2;
+    const double boxSize 	= 3.00646;
+    double tol 				= 1e-5;
+
+    CudaPlatform cu;
+    ReferencePlatform reference;
+    System system;
+    NonbondedForce* nonbonded = new NonbondedForce();
+    nonbonded->setNonbondedMethod(NonbondedForce::Ewald);
+    nonbonded->setCutoffDistance(cutoff);
+    nonbonded->setEwaldErrorTolerance(tol);
+
+    for (int i = 0; i < numParticles/2; i++)
+        system.addParticle(22.99);
+    for (int i = 0; i < numParticles/2; i++)
+        system.addParticle(35.45);
+    for (int i = 0; i < numParticles/2; i++)
+        nonbonded->addParticle(1.0, 1.0,0.0);
+    for (int i = 0; i < numParticles/2; i++)
+        nonbonded->addParticle(-1.0, 1.0,0.0);
+    system.setDefaultPeriodicBoxVectors(Vec3(boxSize, 0, 0), Vec3(0, boxSize, 0), Vec3(0, 0, boxSize));
+    system.addForce(nonbonded);
+
+    vector<Vec3> positions(numParticles);
+    #include "nacl_amorph.dat"
+    if (includeExceptions) {
+        // Add some exclusions.
+
+        for (int i = 0; i < numParticles-1; i++) {
+            Vec3 delta = positions[i]-positions[i+1];
+            if (sqrt(delta.dot(delta)) < 0.5*cutoff)
+                nonbonded->addException(i, i+1, i%2 == 0 ? 0.0 : 0.5, 1.0, 0.0);
+        }
+    }
+
+//    (1)  Check whether the Reference and CUDA platforms agree when using Ewald Method
+
+    VerletIntegrator integrator1(0.01);
+    VerletIntegrator integrator2(0.01);
+    Context cuContext(system, integrator1, cu);
+    Context referenceContext(system, integrator2, reference);
+    cuContext.setPositions(positions);
+    referenceContext.setPositions(positions);
+    State cuState = cuContext.getState(State::Forces | State::Energy);
+    State referenceState = referenceContext.getState(State::Forces | State::Energy);
+    tol = 1e-2;
+    for (int i = 0; i < numParticles; i++) {
+        ASSERT_EQUAL_VEC(referenceState.getForces()[i], cuState.getForces()[i], tol);
+    }
+    tol = 1e-5;
+    ASSERT_EQUAL_TOL(referenceState.getPotentialEnergy(), cuState.getPotentialEnergy(), tol);
+
+//    (2) Check whether Ewald method in CUDA is self-consistent
+
+    double norm = 0.0;
+    for (int i = 0; i < numParticles; ++i) {
+        Vec3 f = cuState.getForces()[i];
+        norm += f[0]*f[0] + f[1]*f[1] + f[2]*f[2];
+    }
+
+    norm = std::sqrt(norm);
+    const double delta = 5e-3;
+    double step = delta/norm;
+    for (int i = 0; i < numParticles; ++i) {
+        Vec3 p = positions[i];
+        Vec3 f = cuState.getForces()[i];
+        positions[i] = Vec3(p[0]-f[0]*step, p[1]-f[1]*step, p[2]-f[2]*step);
+    }
+    VerletIntegrator integrator3(0.01);
+    Context cuContext2(system, integrator3, cu);
+    cuContext2.setPositions(positions);
+
+    tol = 1e-2;
+    State cuState2 = cuContext2.getState(State::Energy);
+    ASSERT_EQUAL_TOL(norm, (cuState2.getPotentialEnergy()-cuState.getPotentialEnergy())/delta, tol)
+
+//    (3)  Check whether the Reference and CUDA platforms agree when using PME
+
+    nonbonded->setNonbondedMethod(NonbondedForce::PME);
+    cuContext.reinitialize();
+    referenceContext.reinitialize();
+    cuContext.setPositions(positions);
+    referenceContext.setPositions(positions);
+    cuState = cuContext.getState(State::Forces | State::Energy);
+    referenceState = referenceContext.getState(State::Forces | State::Energy);
+    tol = 1e-2;
+    for (int i = 0; i < numParticles; i++) {
+        ASSERT_EQUAL_VEC(referenceState.getForces()[i], cuState.getForces()[i], tol);
+    }
+    tol = 1e-5;
+    ASSERT_EQUAL_TOL(referenceState.getPotentialEnergy(), cuState.getPotentialEnergy(), tol);
+
+//    (4) Check whether PME method in CUDA is self-consistent
+
+    norm = 0.0;
+    for (int i = 0; i < numParticles; ++i) {
+        Vec3 f = cuState.getForces()[i];
+        norm += f[0]*f[0] + f[1]*f[1] + f[2]*f[2];
+    }
+
+    norm = std::sqrt(norm);
+    step = delta/norm;
+    for (int i = 0; i < numParticles; ++i) {
+        Vec3 p = positions[i];
+        Vec3 f = cuState.getForces()[i];
+        positions[i] = Vec3(p[0]-f[0]*step, p[1]-f[1]*step, p[2]-f[2]*step);
+    }
+    VerletIntegrator integrator4(0.01);
+    Context cuContext3(system, integrator4, cu);
+    cuContext3.setPositions(positions);
+
+    tol = 1e-2;
+    State cuState3 = cuContext3.getState(State::Energy);
+    ASSERT_EQUAL_TOL(norm, (cuState3.getPotentialEnergy()-cuState.getPotentialEnergy())/delta, tol)
+}
+
+void testEwald2Ions() {
+    CudaPlatform platform;
+    System system;
+    system.addParticle(1.0);
+    system.addParticle(1.0);
+    VerletIntegrator integrator(0.01);
+    NonbondedForce* nonbonded = new NonbondedForce();
+    nonbonded->addParticle(1.0, 1, 0);
+    nonbonded->addParticle(-1.0, 1, 0);
+    nonbonded->setNonbondedMethod(NonbondedForce::Ewald);
+    const double cutoff = 2.0;
+    nonbonded->setCutoffDistance(cutoff);
+    nonbonded->setEwaldErrorTolerance(TOL);
+    system.setDefaultPeriodicBoxVectors(Vec3(6, 0, 0), Vec3(0, 6, 0), Vec3(0, 0, 6));
+    system.addForce(nonbonded);
+    Context context(system, integrator, platform);
+    vector<Vec3> positions(2);
+    positions[0] = Vec3(3.048000,2.764000,3.156000);
+    positions[1] = Vec3(2.809000,2.888000,2.571000);
+    context.setPositions(positions);
+    State state = context.getState(State::Forces | State::Energy);
+    const vector<Vec3>& forces = state.getForces();
+
+    ASSERT_EQUAL_VEC(Vec3(-123.711,  64.1877, -302.716), forces[0], 10*TOL);
+    ASSERT_EQUAL_VEC(Vec3( 123.711, -64.1877,  302.716), forces[1], 10*TOL);
+    ASSERT_EQUAL_TOL(-217.276, state.getPotentialEnergy(), 0.01/*10*TOL*/);
+}
+
+void testErrorTolerance(NonbondedForce::NonbondedMethod method) {
+    // Create a cloud of random point charges.
+
+    const int numParticles = 51;
+    const double boxWidth = 5.0;
+    System system;
+    system.setDefaultPeriodicBoxVectors(Vec3(boxWidth, 0, 0), Vec3(0, boxWidth, 0), Vec3(0, 0, boxWidth));
+    NonbondedForce* force = new NonbondedForce();
+    system.addForce(force);
+    vector<Vec3> positions(numParticles);
+    OpenMM_SFMT::SFMT sfmt;
+    init_gen_rand(0, sfmt);
+
+    for (int i = 0; i < numParticles; i++) {
+        system.addParticle(1.0);
+        force->addParticle(-1.0+i*2.0/(numParticles-1), 1.0, 0.0);
+        positions[i] = Vec3(boxWidth*genrand_real2(sfmt), boxWidth*genrand_real2(sfmt), boxWidth*genrand_real2(sfmt));
+    }
+    force->setNonbondedMethod(method);
+    CudaPlatform platform;
+
+    // For various values of the cutoff and error tolerance, see if the actual error is reasonable.
+
+    for (double cutoff = 1.0; cutoff < boxWidth/2; cutoff *= 1.2) {
+        force->setCutoffDistance(cutoff);
+        vector<Vec3> refForces;
+        double norm = 0.0;
+        for (double tol = 5e-5; tol < 1e-3; tol *= 2.0) {
+            force->setEwaldErrorTolerance(tol);
+            VerletIntegrator integrator(0.01);
+            Context context(system, integrator, platform);
+            context.setPositions(positions);
+            State state = context.getState(State::Forces);
+            if (refForces.size() == 0) {
+                refForces = state.getForces();
+                for (int i = 0; i < numParticles; i++)
+                    norm += refForces[i].dot(refForces[i]);
+                norm = sqrt(norm);
+            }
+            else {
+                double diff = 0.0;
+                for (int i = 0; i < numParticles; i++) {
+                    Vec3 delta = refForces[i]-state.getForces()[i];
+                    diff += delta.dot(delta);
+                }
+                diff = sqrt(diff)/norm;
+                ASSERT(diff < 2*tol);
+            }
+        }
+    }
+}
+
+int main() {
+    try {
+     testEwaldPME(false);
+     testEwaldPME(true);
+//     testEwald2Ions();
+     testErrorTolerance(NonbondedForce::Ewald);
+     testErrorTolerance(NonbondedForce::PME);
+    }
+    catch(const exception& e) {
+        cout << "exception: " << e.what() << endl;
+        return 1;
+    }
+    cout << "Done" << endl;
+    return 0;
+}

platforms/cuda2/tests/TestCudaNonbondedForce.cpp

+/* -------------------------------------------------------------------------- *
+ *                                   OpenMM                                   *
+ * -------------------------------------------------------------------------- *
+ * This is part of the OpenMM molecular simulation toolkit originating from   *
+ * Simbios, the NIH National Center for Physics-Based Simulation of           *
+ * Biological Structures at Stanford, funded under the NIH Roadmap for        *
+ * Medical Research, grant U54 GM072970. See https://simtk.org.               *
+ *                                                                            *
+ * Portions copyright (c) 2008-2012 Stanford University and the Authors.      *
+ * Authors: Peter Eastman                                                     *
+ * Contributors:                                                              *
+ *                                                                            *
+ * Permission is hereby granted, free of charge, to any person obtaining a    *
+ * copy of this software and associated documentation files (the "Software"), *
+ * to deal in the Software without restriction, including without limitation  *
+ * the rights to use, copy, modify, merge, publish, distribute, sublicense,   *
+ * and/or sell copies of the Software, and to permit persons to whom the      *
+ * Software is furnished to do so, subject to the following conditions:       *
+ *                                                                            *
+ * The above copyright notice and this permission notice shall be included in *
+ * all copies or substantial portions of the Software.                        *
+ *                                                                            *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR *
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,   *
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL    *
+ * THE AUTHORS, CONTRIBUTORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,    *
+ * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR      *
+ * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE  *
+ * USE OR OTHER DEALINGS IN THE SOFTWARE.                                     *
+ * -------------------------------------------------------------------------- */
+
+/**
+ * This tests all the different force terms in the CUDA implementation of NonbondedForce.
+ */
+
+#include "openmm/internal/AssertionUtilities.h"
+#include "openmm/Context.h"
+#include "CudaPlatform.h"
+#include "ReferencePlatform.h"
+#include "openmm/HarmonicBondForce.h"
+#include "openmm/NonbondedForce.h"
+#include "openmm/System.h"
+#include "openmm/LangevinIntegrator.h"
+#include "openmm/VerletIntegrator.h"
+#include "openmm/internal/ContextImpl.h"
+#include "CudaArray.h"
+#include "CudaNonbondedUtilities.h"
+#include "../src/SimTKUtilities/SimTKOpenMMRealType.h"
+#include "sfmt/SFMT.h"
+#include <iostream>
+#include <vector>
+
+using namespace OpenMM;
+using namespace std;
+
+const double TOL = 1e-5;
+
+void testCoulomb() {
+    CudaPlatform platform;
+    System system;
+    system.addParticle(1.0);
+    system.addParticle(1.0);
+    VerletIntegrator integrator(0.01);
+    NonbondedForce* forceField = new NonbondedForce();
+    forceField->addParticle(0.5, 1, 0);
+    forceField->addParticle(-1.5, 1, 0);
+    system.addForce(forceField);
+    Context context(system, integrator, platform);
+    vector<Vec3> positions(2);
+    positions[0] = Vec3(0, 0, 0);
+    positions[1] = Vec3(2, 0, 0);
+    context.setPositions(positions);
+    State state = context.getState(State::Forces | State::Energy);
+    const vector<Vec3>& forces = state.getForces();
+    double force = ONE_4PI_EPS0*(-0.75)/4.0;
+    ASSERT_EQUAL_VEC(Vec3(-force, 0, 0), forces[0], TOL);
+    ASSERT_EQUAL_VEC(Vec3(force, 0, 0), forces[1], TOL);
+    ASSERT_EQUAL_TOL(ONE_4PI_EPS0*(-0.75)/2.0, state.getPotentialEnergy(), TOL);
+}
+
+void testLJ() {
+    CudaPlatform platform;
+    System system;
+    system.addParticle(1.0);
+    system.addParticle(1.0);
+    VerletIntegrator integrator(0.01);
+    NonbondedForce* forceField = new NonbondedForce();
+    forceField->addParticle(0, 1.2, 1);
+    forceField->addParticle(0, 1.4, 2);
+    system.addForce(forceField);
+    Context context(system, integrator, platform);
+    vector<Vec3> positions(2);
+    positions[0] = Vec3(0, 0, 0);
+    positions[1] = Vec3(2, 0, 0);
+    context.setPositions(positions);
+    State state = context.getState(State::Forces | State::Energy);
+    const vector<Vec3>& forces = state.getForces();
+    double x = 1.3/2.0;
+    double eps = SQRT_TWO;
+    double force = 4.0*eps*(12*std::pow(x, 12.0)-6*std::pow(x, 6.0))/2.0;
+    ASSERT_EQUAL_VEC(Vec3(-force, 0, 0), forces[0], TOL);
+    ASSERT_EQUAL_VEC(Vec3(force, 0, 0), forces[1], TOL);
+    ASSERT_EQUAL_TOL(4.0*eps*(std::pow(x, 12.0)-std::pow(x, 6.0)), state.getPotentialEnergy(), TOL);
+}
+
+void testExclusionsAnd14() {
+    CudaPlatform platform;
+    System system;
+    NonbondedForce* nonbonded = new NonbondedForce();
+    for (int i = 0; i < 5; ++i) {
+        system.addParticle(1.0);
+        nonbonded->addParticle(0, 1.5, 0);
+    }
+    vector<pair<int, int> > bonds;
+    bonds.push_back(pair<int, int>(0, 1));
+    bonds.push_back(pair<int, int>(1, 2));
+    bonds.push_back(pair<int, int>(2, 3));
+    bonds.push_back(pair<int, int>(3, 4));
+    nonbonded->createExceptionsFromBonds(bonds, 0.0, 0.0);
+    int first14, second14;
+    for (int i = 0; i < nonbonded->getNumExceptions(); i++) {
+        int particle1, particle2;
+        double chargeProd, sigma, epsilon;
+        nonbonded->getExceptionParameters(i, particle1, particle2, chargeProd, sigma, epsilon);
+        if ((particle1 == 0 && particle2 == 3) || (particle1 == 3 && particle2 == 0))
+            first14 = i;
+        if ((particle1 == 1 && particle2 == 4) || (particle1 == 4 && particle2 == 1))
+            second14 = i;
+    }
+    system.addForce(nonbonded);
+    VerletIntegrator integrator(0.01);
+    Context context(system, integrator, platform);
+    for (int i = 1; i < 5; ++i) {
+
+        // Test LJ forces
+
+        vector<Vec3> positions(5);
+        const double r = 1.0;
+        for (int j = 0; j < 5; ++j) {
+            nonbonded->setParticleParameters(j, 0, 1.5, 0);
+            positions[j] = Vec3(0, j, 0);
+        }
+        nonbonded->setParticleParameters(0, 0, 1.5, 1);
+        nonbonded->setParticleParameters(i, 0, 1.5, 1);
+        nonbonded->setExceptionParameters(first14, 0, 3, 0, 1.5, i == 3 ? 0.5 : 0.0);
+        nonbonded->setExceptionParameters(second14, 1, 4, 0, 1.5, 0.0);
+        positions[i] = Vec3(r, 0, 0);
+        context.reinitialize();
+        context.setPositions(positions);
+        State state = context.getState(State::Forces | State::Energy);
+        const vector<Vec3>& forces = state.getForces();
+        double x = 1.5/r;
+        double eps = 1.0;
+        double force = 4.0*eps*(12*std::pow(x, 12.0)-6*std::pow(x, 6.0))/r;
+        double energy = 4.0*eps*(std::pow(x, 12.0)-std::pow(x, 6.0));
+        if (i == 3) {
+            force *= 0.5;
+            energy *= 0.5;
+        }
+        if (i < 3) {
+            force = 0;
+            energy = 0;
+        }
+        ASSERT_EQUAL_VEC(Vec3(-force, 0, 0), forces[0], TOL);
+        ASSERT_EQUAL_VEC(Vec3(force, 0, 0), forces[i], TOL);
+        ASSERT_EQUAL_TOL(energy, state.getPotentialEnergy(), TOL);
+
+        // Test Coulomb forces
+
+        nonbonded->setParticleParameters(0, 2, 1.5, 0);
+        nonbonded->setParticleParameters(i, 2, 1.5, 0);
+        nonbonded->setExceptionParameters(first14, 0, 3, i == 3 ? 4/1.2 : 0, 1.5, 0);
+        nonbonded->setExceptionParameters(second14, 1, 4, 0, 1.5, 0);
+        context.reinitialize();
+        context.setPositions(positions);
+        state = context.getState(State::Forces | State::Energy);
+        const vector<Vec3>& forces2 = state.getForces();
+        force = ONE_4PI_EPS0*4/(r*r);
+        energy = ONE_4PI_EPS0*4/r;
+        if (i == 3) {
+            force /= 1.2;
+            energy /= 1.2;
+        }
+        if (i < 3) {
+            force = 0;
+            energy = 0;
+        }
+        ASSERT_EQUAL_VEC(Vec3(-force, 0, 0), forces2[0], TOL);
+        ASSERT_EQUAL_VEC(Vec3(force, 0, 0), forces2[i], TOL);
+        ASSERT_EQUAL_TOL(energy, state.getPotentialEnergy(), TOL);
+    }
+}
+
+void testCutoff() {
+    CudaPlatform platform;
+    System system;
+    system.addParticle(1.0);
+    system.addParticle(1.0);
+    system.addParticle(1.0);
+    VerletIntegrator integrator(0.01);
+    NonbondedForce* forceField = new NonbondedForce();
+    forceField->addParticle(1.0, 1, 0);
+    forceField->addParticle(1.0, 1, 0);
+    forceField->addParticle(1.0, 1, 0);
+    forceField->setNonbondedMethod(NonbondedForce::CutoffNonPeriodic);
+    const double cutoff = 2.9;
+    forceField->setCutoffDistance(cutoff);
+    const double eps = 50.0;
+    forceField->setReactionFieldDielectric(eps);
+    system.addForce(forceField);
+    Context context(system, integrator, platform);
+    vector<Vec3> positions(3);
+    positions[0] = Vec3(0, 0, 0);
+    positions[1] = Vec3(0, 2, 0);
+    positions[2] = Vec3(0, 3, 0);
+    context.setPositions(positions);
+    State state = context.getState(State::Forces | State::Energy);
+    const vector<Vec3>& forces = state.getForces();
+    const double krf = (1.0/(cutoff*cutoff*cutoff))*(eps-1.0)/(2.0*eps+1.0);
+    const double crf = (1.0/cutoff)*(3.0*eps)/(2.0*eps+1.0);
+    const double force1 = ONE_4PI_EPS0*(1.0)*(0.25-2.0*krf*2.0);
+    const double force2 = ONE_4PI_EPS0*(1.0)*(1.0-2.0*krf*1.0);
+    ASSERT_EQUAL_VEC(Vec3(0, -force1, 0), forces[0], TOL);
+    ASSERT_EQUAL_VEC(Vec3(0, force1-force2, 0), forces[1], TOL);
+    ASSERT_EQUAL_VEC(Vec3(0, force2, 0), forces[2], TOL);
+    const double energy1 = ONE_4PI_EPS0*(1.0)*(0.5+krf*4.0-crf);
+    const double energy2 = ONE_4PI_EPS0*(1.0)*(1.0+krf*1.0-crf);
+    ASSERT_EQUAL_TOL(energy1+energy2, state.getPotentialEnergy(), TOL);
+}
+
+void testCutoff14() {
+    CudaPlatform platform;
+    System system;
+    VerletIntegrator integrator(0.01);
+    NonbondedForce* nonbonded = new NonbondedForce();
+    nonbonded->setNonbondedMethod(NonbondedForce::CutoffNonPeriodic);
+    for (int i = 0; i < 5; ++i) {
+        system.addParticle(1.0);
+        nonbonded->addParticle(0, 1.5, 0);
+    }
+    const double cutoff = 3.5;
+    nonbonded->setCutoffDistance(cutoff);
+    const double eps = 30.0;
+    nonbonded->setReactionFieldDielectric(eps);
+    vector<pair<int, int> > bonds;
+    bonds.push_back(pair<int, int>(0, 1));
+    bonds.push_back(pair<int, int>(1, 2));
+    bonds.push_back(pair<int, int>(2, 3));
+    bonds.push_back(pair<int, int>(3, 4));
+    nonbonded->createExceptionsFromBonds(bonds, 0.0, 0.0);
+    int first14, second14;
+    for (int i = 0; i < nonbonded->getNumExceptions(); i++) {
+        int particle1, particle2;
+        double chargeProd, sigma, epsilon;
+        nonbonded->getExceptionParameters(i, particle1, particle2, chargeProd, sigma, epsilon);
+        if ((particle1 == 0 && particle2 == 3) || (particle1 == 3 && particle2 == 0))
+            first14 = i;
+        if ((particle1 == 1 && particle2 == 4) || (particle1 == 4 && particle2 == 1))
+            second14 = i;
+    }
+    system.addForce(nonbonded);
+    Context context(system, integrator, platform);
+    vector<Vec3> positions(5);
+    positions[0] = Vec3(0, 0, 0);
+    positions[1] = Vec3(1, 0, 0);
+    positions[2] = Vec3(2, 0, 0);
+    positions[3] = Vec3(3, 0, 0);
+    positions[4] = Vec3(4, 0, 0);
+    for (int i = 1; i < 5; ++i) {
+
+        // Test LJ forces
+
+        nonbonded->setParticleParameters(0, 0, 1.5, 1);
+        for (int j = 1; j < 5; ++j)
+            nonbonded->setParticleParameters(j, 0, 1.5, 0);
+        nonbonded->setParticleParameters(i, 0, 1.5, 1);
+        nonbonded->setExceptionParameters(first14, 0, 3, 0, 1.5, i == 3 ? 0.5 : 0.0);
+        nonbonded->setExceptionParameters(second14, 1, 4, 0, 1.5, 0.0);
+        context.reinitialize();
+        context.setPositions(positions);
+        State state = context.getState(State::Forces | State::Energy);
+        const vector<Vec3>& forces = state.getForces();
+        double r = positions[i][0];
+        double x = 1.5/r;
+        double e = 1.0;
+        double force = 4.0*e*(12*std::pow(x, 12.0)-6*std::pow(x, 6.0))/r;
+        double energy = 4.0*e*(std::pow(x, 12.0)-std::pow(x, 6.0));
+        if (i == 3) {
+            force *= 0.5;
+            energy *= 0.5;
+        }
+        if (i < 3 || r > cutoff) {
+            force = 0;
+            energy = 0;
+        }
+        ASSERT_EQUAL_VEC(Vec3(-force, 0, 0), forces[0], TOL);
+        ASSERT_EQUAL_VEC(Vec3(force, 0, 0), forces[i], TOL);
+        ASSERT_EQUAL_TOL(energy, state.getPotentialEnergy(), TOL);
+
+        // Test Coulomb forces
+
+        const double q = 0.7;
+        nonbonded->setParticleParameters(0, q, 1.5, 0);
+        nonbonded->setParticleParameters(i, q, 1.5, 0);
+        nonbonded->setExceptionParameters(first14, 0, 3, i == 3 ? q*q/1.2 : 0, 1.5, 0);
+        nonbonded->setExceptionParameters(second14, 1, 4, 0, 1.5, 0);
+        context.reinitialize();
+        context.setPositions(positions);
+        state = context.getState(State::Forces | State::Energy);
+        const vector<Vec3>& forces2 = state.getForces();
+        force = ONE_4PI_EPS0*q*q/(r*r);
+        energy = ONE_4PI_EPS0*q*q/r;
+        if (i == 3) {
+            force /= 1.2;
+            energy /= 1.2;
+        }
+        if (i < 3 || r > cutoff) {
+            force = 0;
+            energy = 0;
+        }
+        ASSERT_EQUAL_VEC(Vec3(-force, 0, 0), forces2[0], TOL);
+        ASSERT_EQUAL_VEC(Vec3(force, 0, 0), forces2[i], TOL);
+        ASSERT_EQUAL_TOL(energy, state.getPotentialEnergy(), TOL);
+    }
+}
+
+void testPeriodic() {
+    CudaPlatform platform;
+    System system;
+    system.addParticle(1.0);
+    system.addParticle(1.0);
+    system.addParticle(1.0);
+    VerletIntegrator integrator(0.01);
+    NonbondedForce* nonbonded = new NonbondedForce();
+    nonbonded->addParticle(1.0, 1, 0);
+    nonbonded->addParticle(1.0, 1, 0);
+    nonbonded->addParticle(1.0, 1, 0);
+    nonbonded->addException(0, 1, 0.0, 1.0, 0.0);
+    nonbonded->setNonbondedMethod(NonbondedForce::CutoffPeriodic);
+    const double cutoff = 2.0;
+    nonbonded->setCutoffDistance(cutoff);
+    system.setDefaultPeriodicBoxVectors(Vec3(4, 0, 0), Vec3(0, 4, 0), Vec3(0, 0, 4));
+    system.addForce(nonbonded);
+    Context context(system, integrator, platform);
+    vector<Vec3> positions(3);
+    positions[0] = Vec3(0, 0, 0);
+    positions[1] = Vec3(2, 0, 0);
+    positions[2] = Vec3(3, 0, 0);
+    context.setPositions(positions);
+    State state = context.getState(State::Forces | State::Energy);
+    const vector<Vec3>& forces = state.getForces();
+    const double eps = 78.3;
+    const double krf = (1.0/(cutoff*cutoff*cutoff))*(eps-1.0)/(2.0*eps+1.0);
+    const double crf = (1.0/cutoff)*(3.0*eps)/(2.0*eps+1.0);
+    const double force = ONE_4PI_EPS0*(1.0)*(1.0-2.0*krf*1.0);
+    ASSERT_EQUAL_VEC(Vec3(force, 0, 0), forces[0], TOL);
+    ASSERT_EQUAL_VEC(Vec3(-force, 0, 0), forces[1], TOL);
+    ASSERT_EQUAL_VEC(Vec3(0, 0, 0), forces[2], TOL);
+    ASSERT_EQUAL_TOL(2*ONE_4PI_EPS0*(1.0)*(1.0+krf*1.0-crf), state.getPotentialEnergy(), TOL);
+}
+
+
+void testLargeSystem() {
+    const int numMolecules = 600;
+    const int numParticles = numMolecules*2;
+    const double cutoff = 2.0;
+    const double boxSize = 20.0;
+    const double tol = 2e-3;
+    CudaPlatform cl;
+    ReferencePlatform reference;
+    System system;
+    for (int i = 0; i < numParticles; i++)
+        system.addParticle(1.0);
+    NonbondedForce* nonbonded = new NonbondedForce();
+    HarmonicBondForce* bonds = new HarmonicBondForce();
+    vector<Vec3> positions(numParticles);
+    vector<Vec3> velocities(numParticles);
+    OpenMM_SFMT::SFMT sfmt;
+    init_gen_rand(0, sfmt);
+
+    for (int i = 0; i < numMolecules; i++) {
+        if (i < numMolecules/2) {
+            nonbonded->addParticle(-1.0, 0.2, 0.1);
+            nonbonded->addParticle(1.0, 0.1, 0.1);
+        }
+        else {
+            nonbonded->addParticle(-1.0, 0.2, 0.2);
+            nonbonded->addParticle(1.0, 0.1, 0.2);
+        }
+        positions[2*i] = Vec3(boxSize*genrand_real2(sfmt), boxSize*genrand_real2(sfmt), boxSize*genrand_real2(sfmt));
+        positions[2*i+1] = Vec3(positions[2*i][0]+1.0, positions[2*i][1], positions[2*i][2]);
+        velocities[2*i] = Vec3(genrand_real2(sfmt), genrand_real2(sfmt), genrand_real2(sfmt));
+        velocities[2*i+1] = Vec3(genrand_real2(sfmt), genrand_real2(sfmt), genrand_real2(sfmt));
+        bonds->addBond(2*i, 2*i+1, 1.0, 0.1);
+        nonbonded->addException(2*i, 2*i+1, 0.0, 0.15, 0.0);
+    }
+
+    // Try with cutoffs but not periodic boundary conditions, and make sure the cl and Reference
+    // platforms agree.
+
+    nonbonded->setNonbondedMethod(NonbondedForce::CutoffNonPeriodic);
+    nonbonded->setCutoffDistance(cutoff);
+    system.addForce(nonbonded);
+    system.addForce(bonds);
+    VerletIntegrator integrator1(0.01);
+    VerletIntegrator integrator2(0.01);
+    Context cuContext(system, integrator1, cl);
+    Context referenceContext(system, integrator2, reference);
+    cuContext.setPositions(positions);
+    cuContext.setVelocities(velocities);
+    referenceContext.setPositions(positions);
+    referenceContext.setVelocities(velocities);
+    State cuState = cuContext.getState(State::Positions | State::Velocities | State::Forces | State::Energy);
+    State referenceState = referenceContext.getState(State::Positions | State::Velocities | State::Forces | State::Energy);
+    for (int i = 0; i < numParticles; i++) {
+        ASSERT_EQUAL_VEC(cuState.getPositions()[i], referenceState.getPositions()[i], tol);
+        ASSERT_EQUAL_VEC(cuState.getVelocities()[i], referenceState.getVelocities()[i], tol);
+        ASSERT_EQUAL_VEC(cuState.getForces()[i], referenceState.getForces()[i], tol);
+    }
+    ASSERT_EQUAL_TOL(cuState.getPotentialEnergy(), referenceState.getPotentialEnergy(), tol);
+
+    // Now do the same thing with periodic boundary conditions.
+
+    nonbonded->setNonbondedMethod(NonbondedForce::CutoffPeriodic);
+    system.setDefaultPeriodicBoxVectors(Vec3(boxSize, 0, 0), Vec3(0, boxSize, 0), Vec3(0, 0, boxSize));
+    cuContext.reinitialize();
+    referenceContext.reinitialize();
+    cuContext.setPositions(positions);
+    cuContext.setVelocities(velocities);
+    referenceContext.setPositions(positions);
+    referenceContext.setVelocities(velocities);
+    cuState = cuContext.getState(State::Positions | State::Velocities | State::Forces | State::Energy);
+    referenceState = referenceContext.getState(State::Positions | State::Velocities | State::Forces | State::Energy);
+    for (int i = 0; i < numParticles; i++) {
+        ASSERT_EQUAL_TOL(fmod(cuState.getPositions()[i][0]-referenceState.getPositions()[i][0], boxSize), 0, tol);
+        ASSERT_EQUAL_TOL(fmod(cuState.getPositions()[i][1]-referenceState.getPositions()[i][1], boxSize), 0, tol);
+        ASSERT_EQUAL_TOL(fmod(cuState.getPositions()[i][2]-referenceState.getPositions()[i][2], boxSize), 0, tol);
+        ASSERT_EQUAL_VEC(cuState.getVelocities()[i], referenceState.getVelocities()[i], tol);
+        ASSERT_EQUAL_VEC(cuState.getForces()[i], referenceState.getForces()[i], tol);
+    }
+    ASSERT_EQUAL_TOL(cuState.getPotentialEnergy(), referenceState.getPotentialEnergy(), tol);
+}
+
+void testBlockInteractions(bool periodic) {
+    const int blockSize = 32;
+    const int numBlocks = 100;
+    const int numParticles = blockSize*numBlocks;
+    const double cutoff = 1.0;
+    const double boxSize = (periodic ? 5.1 : 1.1);
+    CudaPlatform cl;
+    System system;
+    VerletIntegrator integrator(0.01);
+    NonbondedForce* nonbonded = new NonbondedForce();
+    vector<Vec3> positions(numParticles);
+    OpenMM_SFMT::SFMT sfmt;
+    init_gen_rand(0, sfmt);
+
+    for (int i = 0; i < numParticles; i++) {
+        system.addParticle(1.0);
+        nonbonded->addParticle(1.0, 0.2, 0.2);
+        positions[i] = Vec3(boxSize*(3*genrand_real2(sfmt)-1), boxSize*(3*genrand_real2(sfmt)-1), boxSize*(3*genrand_real2(sfmt)-1));
+    }
+    nonbonded->setNonbondedMethod(periodic ? NonbondedForce::CutoffPeriodic : NonbondedForce::CutoffNonPeriodic);
+    nonbonded->setCutoffDistance(cutoff);
+    system.setDefaultPeriodicBoxVectors(Vec3(boxSize, 0, 0), Vec3(0, boxSize, 0), Vec3(0, 0, boxSize));
+    system.addForce(nonbonded);
+    Context context(system, integrator, cl);
+    context.setPositions(positions);
+    ContextImpl* contextImpl = *reinterpret_cast<ContextImpl**>(&context);
+    CudaPlatform::PlatformData& data = *static_cast<CudaPlatform::PlatformData*>(contextImpl->getPlatformData());
+    CudaContext& cuContext = *data.contexts[0];
+    CudaNonbondedUtilities& nb = cuContext.getNonbondedUtilities();
+    State state = context.getState(State::Positions | State::Velocities | State::Forces);
+    nb.updateNeighborListSize();
+    state = context.getState(State::Positions | State::Velocities | State::Forces);
+
+    // Verify that the bounds of each block were calculated correctly.
+
+    vector<float4> posq(cuContext.getPosq().getSize());
+    cuContext.getPosq().download(posq);
+    vector<float4> blockCenters(numBlocks);
+    vector<float4> blockBoundingBoxes(numBlocks);
+    nb.getBlockCenters().download(blockCenters);
+    nb.getBlockBoundingBoxes().download(blockBoundingBoxes);
+    for (int i = 0; i < numBlocks; i++) {
+        float4 gridSize = blockBoundingBoxes[i];
+        float4 center = blockCenters[i];
+        if (periodic) {
+            ASSERT(gridSize.x < 0.5*boxSize);
+            ASSERT(gridSize.y < 0.5*boxSize);
+            ASSERT(gridSize.z < 0.5*boxSize);
+        }
+        float minx = 0.0, maxx = 0.0, miny = 0.0, maxy = 0.0, minz = 0.0, maxz = 0.0, radius = 0.0;
+        for (int j = 0; j < blockSize; j++) {
+            float4 pos = posq[i*blockSize+j];
+            float dx = pos.x-center.x;
+            float dy = pos.y-center.y;
+            float dz = pos.z-center.z;
+            if (periodic) {
+                dx -= (float)(floor(0.5+dx/boxSize)*boxSize);
+                dy -= (float)(floor(0.5+dy/boxSize)*boxSize);
+                dz -= (float)(floor(0.5+dz/boxSize)*boxSize);
+            }
+            ASSERT(abs(dx) < gridSize.x+TOL);
+            ASSERT(abs(dy) < gridSize.y+TOL);
+            ASSERT(abs(dz) < gridSize.z+TOL);
+            minx = min(minx, dx);
+            maxx = max(maxx, dx);
+            miny = min(miny, dy);
+            maxy = max(maxy, dy);
+            minz = min(minz, dz);
+            maxz = max(maxz, dz);
+        }
+        ASSERT_EQUAL_TOL(-minx, gridSize.x, TOL);
+        ASSERT_EQUAL_TOL(maxx, gridSize.x, TOL);
+        ASSERT_EQUAL_TOL(-miny, gridSize.y, TOL);
+        ASSERT_EQUAL_TOL(maxy, gridSize.y, TOL);
+        ASSERT_EQUAL_TOL(-minz, gridSize.z, TOL);
+        ASSERT_EQUAL_TOL(maxz, gridSize.z, TOL);
+    }
+
+    // Verify that interactions were identified correctly.
+
+    vector<unsigned int> interactionCount;
+    vector<ushort2> interactingTiles;
+    vector<unsigned int> interactionFlags;
+    nb.getInteractionCount().download(interactionCount);
+    int numWithInteractions = interactionCount[0];
+    vector<bool> hasInteractions(numBlocks*(numBlocks+1)/2, false);
+    nb.getInteractingTiles().download(interactingTiles);
+    nb.getInteractionFlags().download(interactionFlags);
+    const unsigned int dim = cuContext.getNumAtomBlocks();
+    for (int i = 0; i < numWithInteractions; i++) {
+        unsigned int x = interactingTiles[i].x;
+        unsigned int y = interactingTiles[i].y;
+        int index = (x > y ? x+y*dim-y*(y+1)/2 : y+x*dim-x*(x+1)/2);
+        hasInteractions[index] = true;
+
+        // Make sure this tile really should have been flagged based on bounding volumes.
+
+        float4 gridSize1 = blockBoundingBoxes[x];
+        float4 gridSize2 = blockBoundingBoxes[y];
+        float4 center1 = blockCenters[x];
+        float4 center2 = blockCenters[y];
+        float dx = center1.x-center2.x;
+        float dy = center1.y-center2.y;
+        float dz = center1.z-center2.z;
+        if (periodic) {
+            dx -= (float)(floor(0.5+dx/boxSize)*boxSize);
+            dy -= (float)(floor(0.5+dy/boxSize)*boxSize);
+            dz -= (float)(floor(0.5+dz/boxSize)*boxSize);
+        }
+        dx = max(0.0f, abs(dx)-gridSize1.x-gridSize2.x);
+        dy = max(0.0f, abs(dy)-gridSize1.y-gridSize2.y);
+        dz = max(0.0f, abs(dz)-gridSize1.z-gridSize2.z);
+        ASSERT(sqrt(dx*dx+dy*dy+dz*dz) < cutoff+TOL);
+
+        // Check the interaction flags.
+
+        unsigned int flags = interactionFlags[i];
+        for (int atom2 = 0; atom2 < 32; atom2++) {
+            if ((flags & 1) == 0) {
+                float4 pos2 = posq[y*blockSize+atom2];
+                for (int atom1 = 0; atom1 < blockSize; ++atom1) {
+                    float4 pos1 = posq[x*blockSize+atom1];
+                    float dx = pos2.x-pos1.x;
+                    float dy = pos2.y-pos1.y;
+                    float dz = pos2.z-pos1.z;
+                    if (periodic) {
+                        dx -= (float)(floor(0.5+dx/boxSize)*boxSize);
+                        dy -= (float)(floor(0.5+dy/boxSize)*boxSize);
+                        dz -= (float)(floor(0.5+dz/boxSize)*boxSize);
+                    }
+                    ASSERT(dx*dx+dy*dy+dz*dz > cutoff*cutoff);
+                }
+            }
+            flags >>= 1;
+        }
+    }
+
+    // Check the tiles that did not have interactions to make sure all atoms are beyond the cutoff.
+
+    for (int i = 0; i < (int) hasInteractions.size(); i++) 
+        if (!hasInteractions[i]) {
+            unsigned int y = (unsigned int) std::floor(numBlocks+0.5-std::sqrt((numBlocks+0.5)*(numBlocks+0.5)-2*i));
+            unsigned int x = (i-y*numBlocks+y*(y+1)/2);
+            for (int atom1 = 0; atom1 < blockSize; ++atom1) {
+                float4 pos1 = posq[x*blockSize+atom1];
+                for (int atom2 = 0; atom2 < blockSize; ++atom2) {
+                    float4 pos2 = posq[y*blockSize+atom2];
+                    float dx = pos1.x-pos2.x;
+                    float dy = pos1.y-pos2.y;
+                    float dz = pos1.z-pos2.z;
+                    if (periodic) {
+                        dx -= (float)(floor(0.5+dx/boxSize)*boxSize);
+                        dy -= (float)(floor(0.5+dy/boxSize)*boxSize);
+                        dz -= (float)(floor(0.5+dz/boxSize)*boxSize);
+                    }
+                    ASSERT(dx*dx+dy*dy+dz*dz > cutoff*cutoff);
+                }
+            }
+        }
+}
+
+void testDispersionCorrection() {
+    // Create a box full of identical particles.
+
+    int gridSize = 5;
+    int numParticles = gridSize*gridSize*gridSize;
+    double boxSize = gridSize*0.5;
+    double cutoff = boxSize/3;
+    CudaPlatform platform;
+    System system;
+    VerletIntegrator integrator(0.01);
+    NonbondedForce* nonbonded = new NonbondedForce();
+    vector<Vec3> positions(numParticles);
+    int index = 0;
+    for (int i = 0; i < gridSize; i++)
+        for (int j = 0; j < gridSize; j++)
+            for (int k = 0; k < gridSize; k++) {
+                system.addParticle(1.0);
+                nonbonded->addParticle(0, 1.1, 0.5);
+                positions[index] = Vec3(i*boxSize/gridSize, j*boxSize/gridSize, k*boxSize/gridSize);
+                index++;
+            }
+    nonbonded->setNonbondedMethod(NonbondedForce::CutoffPeriodic);
+    nonbonded->setCutoffDistance(cutoff);
+    system.setDefaultPeriodicBoxVectors(Vec3(boxSize, 0, 0), Vec3(0, boxSize, 0), Vec3(0, 0, boxSize));
+    system.addForce(nonbonded);
+
+    // See if the correction has the correct value.
+
+    Context context(system, integrator, platform);
+    context.setPositions(positions);
+    double energy1 = context.getState(State::Energy).getPotentialEnergy();
+    nonbonded->setUseDispersionCorrection(false);
+    context.reinitialize();
+    context.setPositions(positions);
+    double energy2 = context.getState(State::Energy).getPotentialEnergy();
+    double term1 = (0.5*pow(1.1, 12)/pow(cutoff, 9))/9;
+    double term2 = (0.5*pow(1.1, 6)/pow(cutoff, 3))/3;
+    double expected = 8*M_PI*numParticles*numParticles*(term1-term2)/(boxSize*boxSize*boxSize);
+    ASSERT_EQUAL_TOL(expected, energy1-energy2, 1e-4);
+
+    // Now modify half the particles to be different, and see if it is still correct.
+
+    int numType2 = 0;
+    for (int i = 0; i < numParticles; i += 2) {
+        nonbonded->setParticleParameters(i, 0, 1, 1);
+        numType2++;
+    }
+    int numType1 = numParticles-numType2;
+    nonbonded->updateParametersInContext(context);
+    energy2 = context.getState(State::Energy).getPotentialEnergy();
+    nonbonded->setUseDispersionCorrection(true);
+    context.reinitialize();
+    context.setPositions(positions);
+    energy1 = context.getState(State::Energy).getPotentialEnergy();
+    term1 = ((numType1*(numType1+1))/2)*(0.5*pow(1.1, 12)/pow(cutoff, 9))/9;
+    term2 = ((numType1*(numType1+1))/2)*(0.5*pow(1.1, 6)/pow(cutoff, 3))/3;
+    term1 += ((numType2*(numType2+1))/2)*(1*pow(1.0, 12)/pow(cutoff, 9))/9;
+    term2 += ((numType2*(numType2+1))/2)*(1*pow(1.0, 6)/pow(cutoff, 3))/3;
+    double combinedSigma = 0.5*(1+1.1);
+    double combinedEpsilon = sqrt(1*0.5);
+    term1 += (numType1*numType2)*(combinedEpsilon*pow(combinedSigma, 12)/pow(cutoff, 9))/9;
+    term2 += (numType1*numType2)*(combinedEpsilon*pow(combinedSigma, 6)/pow(cutoff, 3))/3;
+    term1 /= (numParticles*(numParticles+1))/2;
+    term2 /= (numParticles*(numParticles+1))/2;
+    expected = 8*M_PI*numParticles*numParticles*(term1-term2)/(boxSize*boxSize*boxSize);
+    ASSERT_EQUAL_TOL(expected, energy1-energy2, 1e-4);
+}
+
+void testChangingParameters() {
+    const int numMolecules = 600;
+    const int numParticles = numMolecules*2;
+    const double cutoff = 2.0;
+    const double boxSize = 20.0;
+    const double tol = 2e-3;
+    CudaPlatform cl;
+    ReferencePlatform reference;
+    System system;
+    for (int i = 0; i < numParticles; i++)
+        system.addParticle(1.0);
+    NonbondedForce* nonbonded = new NonbondedForce();
+    vector<Vec3> positions(numParticles);
+    OpenMM_SFMT::SFMT sfmt;
+    init_gen_rand(0, sfmt);
+
+    for (int i = 0; i < numMolecules; i++) {
+        if (i < numMolecules/2) {
+            nonbonded->addParticle(-1.0, 0.2, 0.1);
+            nonbonded->addParticle(1.0, 0.1, 0.1);
+        }
+        else {
+            nonbonded->addParticle(-1.0, 0.2, 0.2);
+            nonbonded->addParticle(1.0, 0.1, 0.2);
+        }
+        positions[2*i] = Vec3(boxSize*genrand_real2(sfmt), boxSize*genrand_real2(sfmt), boxSize*genrand_real2(sfmt));
+        positions[2*i+1] = Vec3(positions[2*i][0]+1.0, positions[2*i][1], positions[2*i][2]);
+        system.addConstraint(2*i, 2*i+1, 1.0);
+        nonbonded->addException(2*i, 2*i+1, 0.0, 0.15, 0.0);
+    }
+    nonbonded->setNonbondedMethod(NonbondedForce::PME);
+    nonbonded->setCutoffDistance(cutoff);
+    system.addForce(nonbonded);
+    system.setDefaultPeriodicBoxVectors(Vec3(boxSize, 0, 0), Vec3(0, boxSize, 0), Vec3(0, 0, boxSize));
+    
+    // See if Reference and Cuda give the same forces and energies.
+    
+    VerletIntegrator integrator1(0.01);
+    VerletIntegrator integrator2(0.01);
+    Context cuContext(system, integrator1, cl);
+    Context referenceContext(system, integrator2, reference);
+    cuContext.setPositions(positions);
+    referenceContext.setPositions(positions);
+    State cuState = cuContext.getState(State::Forces | State::Energy);
+    State referenceState = referenceContext.getState(State::Forces | State::Energy);
+    for (int i = 0; i < numParticles; i++)
+        ASSERT_EQUAL_VEC(cuState.getForces()[i], referenceState.getForces()[i], tol);
+    ASSERT_EQUAL_TOL(cuState.getPotentialEnergy(), referenceState.getPotentialEnergy(), tol);
+    
+    // Now modify parameters and see if they still agree.
+
+    for (int i = 0; i < numParticles; i += 5) {
+        double charge, sigma, epsilon;
+        nonbonded->getParticleParameters(i, charge, sigma, epsilon);
+        nonbonded->setParticleParameters(i, 1.5*charge, 1.1*sigma, 1.7*epsilon);
+    }
+    double total = 0;
+    for (int i = 0; i < numParticles; i++) {
+        double charge, sigma, epsilon;
+        nonbonded->getParticleParameters(i, charge, sigma, epsilon);
+        total += charge;
+    }
+    nonbonded->updateParametersInContext(cuContext);
+    nonbonded->updateParametersInContext(referenceContext);
+    cuState = cuContext.getState(State::Forces | State::Energy);
+    referenceState = referenceContext.getState(State::Forces | State::Energy);
+    for (int i = 0; i < numParticles; i++)
+        ASSERT_EQUAL_VEC(cuState.getForces()[i], referenceState.getForces()[i], tol);
+    ASSERT_EQUAL_TOL(cuState.getPotentialEnergy(), referenceState.getPotentialEnergy(), tol);
+}
+
+void testParallelComputation(bool useCutoff) {
+    CudaPlatform platform;
+    System system;
+    const int numParticles = 200;
+    for (int i = 0; i < numParticles; i++)
+        system.addParticle(1.0);
+    NonbondedForce* force = new NonbondedForce();
+    for (int i = 0; i < numParticles; i++)
+        force->addParticle(i%2-0.5, 0.5, 1.0);
+    if (useCutoff)
+        force->setNonbondedMethod(NonbondedForce::CutoffNonPeriodic);
+    system.addForce(force);
+    OpenMM_SFMT::SFMT sfmt;
+    init_gen_rand(0, sfmt);
+    vector<Vec3> positions(numParticles);
+    for (int i = 0; i < numParticles; i++)
+        positions[i] = Vec3(5*genrand_real2(sfmt), 5*genrand_real2(sfmt), 5*genrand_real2(sfmt));
+    for (int i = 0; i < numParticles; ++i)
+        for (int j = 0; j < i; ++j) {
+            Vec3 delta = positions[i]-positions[j];
+            if (delta.dot(delta) < 0.1)
+                force->addException(i, j, 0, 1, 0);
+        }
+    
+    // Create two contexts, one with a single device and one with two devices.
+    
+    VerletIntegrator integrator1(0.01);
+    Context context1(system, integrator1, platform);
+    context1.setPositions(positions);
+    State state1 = context1.getState(State::Forces | State::Energy);
+    VerletIntegrator integrator2(0.01);
+    string deviceIndex = platform.getPropertyValue(context1, CudaPlatform::CudaDeviceIndex());
+    map<string, string> props;
+    props[CudaPlatform::CudaDeviceIndex()] = deviceIndex+","+deviceIndex;
+    Context context2(system, integrator2, platform, props);
+    context2.setPositions(positions);
+    State state2 = context2.getState(State::Forces | State::Energy);
+    
+    // See if they agree.
+    
+    ASSERT_EQUAL_TOL(state1.getPotentialEnergy(), state2.getPotentialEnergy(), 1e-5);
+    for (int i = 0; i < numParticles; i++)
+        ASSERT_EQUAL_VEC(state1.getForces()[i], state2.getForces()[i], 1e-5);
+    
+    // Modify some particle parameters and see if they still agree.
+
+    for (int i = 0; i < numParticles; i += 5) {
+        double charge, sigma, epsilon;
+        force->getParticleParameters(i, charge, sigma, epsilon);
+        force->setParticleParameters(i, 0.9*charge, sigma, epsilon);
+    }
+    force->updateParametersInContext(context1);
+    force->updateParametersInContext(context2);
+    state1 = context1.getState(State::Forces | State::Energy);
+    state2 = context2.getState(State::Forces | State::Energy);
+    ASSERT_EQUAL_TOL(state1.getPotentialEnergy(), state2.getPotentialEnergy(), 1e-5);
+    for (int i = 0; i < numParticles; i++)
+        ASSERT_EQUAL_VEC(state1.getForces()[i], state2.getForces()[i], 1e-5);
+}
+
+int main() {
+    try {
+        testCoulomb();
+        testLJ();
+        testExclusionsAnd14();
+        testCutoff();
+        testCutoff14();
+        testPeriodic();
+        testLargeSystem();
+        testBlockInteractions(false);
+        testBlockInteractions(true);
+        testDispersionCorrection();
+        testChangingParameters();
+//        testParallelComputation(false);
+//        testParallelComputation(true);
+    }
+    catch(const exception& e) {
+        cout << "exception: " << e.what() << endl;
+        return 1;
+    }
+    cout << "Done" << endl;
+    return 0;
+}

platforms/cuda2/tests/nacl_amorph.dat

+positions[0] = Vec3(1.066000,1.628000,0.835000);
+positions[1] = Vec3(1.072000,0.428000,0.190000);
+positions[2] = Vec3(0.524000,1.442000,1.160000);
+positions[3] = Vec3(2.383000,1.524000,1.119000);
+positions[4] = Vec3(0.390000,1.441000,0.575000);
+positions[5] = Vec3(0.618000,0.399000,0.819000);
+positions[6] = Vec3(1.003000,1.257000,1.543000);
+positions[7] = Vec3(2.933000,1.569000,0.642000);
+positions[8] = Vec3(0.849000,0.739000,0.089000);
+positions[9] = Vec3(0.060000,0.794000,0.766000);
+positions[10] = Vec3(1.652000,1.405000,1.010000);
+positions[11] = Vec3(2.843000,1.533000,1.781000);
+positions[12] = Vec3(0.952000,1.309000,0.996000);
+positions[13] = Vec3(1.847000,1.402000,0.313000);
+positions[14] = Vec3(2.674000,0.083000,1.691000);
+positions[15] = Vec3(1.763000,2.104000,0.728000);
+positions[16] = Vec3(0.914000,0.574000,0.982000);
+positions[17] = Vec3(0.514000,0.078000,0.891000);
+positions[18] = Vec3(0.538000,0.766000,1.110000);
+positions[19] = Vec3(0.808000,0.676000,0.570000);
+positions[20] = Vec3(0.178000,0.014000,0.628000);
+positions[21] = Vec3(1.329000,1.333000,0.339000);
+positions[22] = Vec3(1.029000,1.678000,0.503000);
+positions[23] = Vec3(1.423000,1.767000,1.104000);
+positions[24] = Vec3(1.966000,1.051000,0.282000);
+positions[25] = Vec3(1.596000,1.971000,0.194000);
+positions[26] = Vec3(1.025000,1.043000,2.809000);
+positions[27] = Vec3(1.628000,2.614000,0.088000);
+positions[28] = Vec3(0.440000,0.606000,0.141000);
+positions[29] = Vec3(1.050000,2.821000,2.517000);
+positions[30] = Vec3(0.644000,1.604000,0.770000);
+positions[31] = Vec3(0.637000,0.917000,0.392000);
+positions[32] = Vec3(0.611000,2.768000,0.013000);
+positions[33] = Vec3(1.892000,0.660000,0.473000);
+positions[34] = Vec3(1.052000,2.081000,0.982000);
+positions[35] = Vec3(1.508000,2.300000,0.439000);
+positions[36] = Vec3(2.617000,0.328000,1.099000);
+positions[37] = Vec3(0.910000,0.040000,0.259000);
+positions[38] = Vec3(1.195000,1.494000,1.202000);
+positions[39] = Vec3(2.657000,0.997000,0.564000);
+positions[40] = Vec3(1.465000,1.580000,0.648000);
+positions[41] = Vec3(0.154000,2.538000,1.331000);
+positions[42] = Vec3(0.849000,1.476000,1.365000);
+positions[43] = Vec3(0.898000,0.987000,1.178000);
+positions[44] = Vec3(0.958000,0.656000,1.358000);
+positions[45] = Vec3(1.067000,0.934000,0.211000);
+positions[46] = Vec3(1.030000,0.319000,1.281000);
+positions[47] = Vec3(2.709000,0.807000,0.240000);
+positions[48] = Vec3(0.837000,1.362000,0.588000);
+positions[49] = Vec3(2.080000,0.791000,2.947000);
+positions[50] = Vec3(0.200000,0.266000,1.474000);
+positions[51] = Vec3(0.848000,0.379000,1.625000);
+positions[52] = Vec3(0.637000,1.071000,0.821000);
+positions[53] = Vec3(1.324000,0.757000,2.951000);
+positions[54] = Vec3(2.666000,0.935000,1.373000);
+positions[55] = Vec3(1.584000,1.025000,1.703000);
+positions[56] = Vec3(1.699000,0.636000,0.038000);
+positions[57] = Vec3(1.099000,1.644000,1.879000);
+positions[58] = Vec3(2.897000,1.302000,1.522000);
+positions[59] = Vec3(1.753000,0.949000,2.885000);
+positions[60] = Vec3(2.502000,1.321000,0.752000);
+positions[61] = Vec3(0.545000,0.193000,1.959000);
+positions[62] = Vec3(1.098000,2.646000,1.706000);
+positions[63] = Vec3(0.001000,1.205000,0.670000);
+positions[64] = Vec3(2.997000,0.061000,1.040000);
+positions[65] = Vec3(0.662000,0.828000,1.535000);
+positions[66] = Vec3(1.252000,1.246000,0.780000);
+positions[67] = Vec3(1.173000,0.472000,0.810000);
+positions[68] = Vec3(0.124000,0.622000,2.992000);
+positions[69] = Vec3(1.036000,0.883000,0.848000);
+positions[70] = Vec3(1.423000,2.146000,1.340000);
+positions[71] = Vec3(2.391000,1.136000,1.165000);
+positions[72] = Vec3(1.189000,2.961000,0.425000);
+positions[73] = Vec3(1.584000,2.500000,0.782000);
+positions[74] = Vec3(0.565000,1.122000,1.240000);
+positions[75] = Vec3(1.733000,1.716000,1.763000);
+positions[76] = Vec3(1.548000,1.522000,0.041000);
+positions[77] = Vec3(1.485000,0.561000,0.369000);
+positions[78] = Vec3(0.350000,1.661000,0.928000);
+positions[79] = Vec3(1.653000,1.223000,0.578000);
+positions[80] = Vec3(0.648000,1.349000,0.253000);
+positions[81] = Vec3(0.340000,1.820000,0.483000);
+positions[82] = Vec3(2.926000,0.119000,1.421000);
+positions[83] = Vec3(1.512000,1.084000,0.156000);
+positions[84] = Vec3(1.600000,2.115000,1.792000);
+positions[85] = Vec3(1.089000,0.934000,1.584000);
+positions[86] = Vec3(1.276000,1.104000,1.230000);
+positions[87] = Vec3(0.485000,0.305000,0.428000);
+positions[88] = Vec3(1.317000,1.261000,1.795000);
+positions[89] = Vec3(0.039000,1.413000,1.085000);
+positions[90] = Vec3(0.453000,0.701000,0.605000);
+positions[91] = Vec3(1.283000,1.937000,0.752000);
+positions[92] = Vec3(0.212000,1.416000,1.447000);
+positions[93] = Vec3(0.203000,0.358000,0.723000);
+positions[94] = Vec3(0.556000,0.445000,1.364000);
+positions[95] = Vec3(1.436000,0.861000,0.911000);
+positions[96] = Vec3(0.358000,0.966000,0.176000);
+positions[97] = Vec3(1.478000,2.715000,0.427000);
+positions[98] = Vec3(1.581000,0.575000,0.809000);
+positions[99] = Vec3(1.007000,2.153000,2.887000);
+positions[100] = Vec3(2.343000,0.663000,2.513000);
+positions[101] = Vec3(2.105000,0.649000,1.635000);
+positions[102] = Vec3(0.875000,0.743000,2.459000);
+positions[103] = Vec3(0.229000,1.315000,1.879000);
+positions[104] = Vec3(0.285000,0.935000,1.700000);
+positions[105] = Vec3(2.269000,1.284000,2.234000);
+positions[106] = Vec3(1.406000,1.149000,2.767000);
+positions[107] = Vec3(1.076000,0.220000,1.849000);
+positions[108] = Vec3(2.001000,1.532000,2.881000);
+positions[109] = Vec3(2.893000,0.485000,1.860000);
+positions[110] = Vec3(1.621000,1.786000,2.624000);
+positions[111] = Vec3(0.500000,0.616000,1.818000);
+positions[112] = Vec3(0.938000,2.978000,2.104000);
+positions[113] = Vec3(0.550000,2.081000,0.454000);
+positions[114] = Vec3(1.121000,0.685000,2.196000);
+positions[115] = Vec3(1.088000,1.385000,2.184000);
+positions[116] = Vec3(1.122000,2.705000,2.080000);
+positions[117] = Vec3(0.918000,1.767000,2.861000);
+positions[118] = Vec3(2.748000,0.232000,2.126000);
+positions[119] = Vec3(1.238000,2.766000,0.109000);
+positions[120] = Vec3(1.380000,0.785000,1.961000);
+positions[121] = Vec3(1.236000,1.757000,0.150000);
+positions[122] = Vec3(1.339000,2.187000,2.592000);
+positions[123] = Vec3(1.414000,0.342000,2.714000);
+positions[124] = Vec3(1.310000,0.770000,2.589000);
+positions[125] = Vec3(1.686000,0.765000,2.321000);
+positions[126] = Vec3(1.659000,1.367000,2.780000);
+positions[127] = Vec3(0.141000,0.095000,1.903000);
+positions[128] = Vec3(2.084000,1.002000,2.520000);
+positions[129] = Vec3(2.819000,1.286000,2.626000);
+positions[130] = Vec3(1.257000,1.044000,2.401000);
+positions[131] = Vec3(1.064000,0.546000,2.839000);
+positions[132] = Vec3(0.078000,1.246000,0.010000);
+positions[133] = Vec3(1.506000,0.420000,2.223000);
+positions[134] = Vec3(1.778000,0.699000,1.920000);
+positions[135] = Vec3(1.315000,1.721000,2.733000);
+positions[136] = Vec3(0.114000,0.281000,0.279000);
+positions[137] = Vec3(1.082000,1.421000,2.596000);
+positions[138] = Vec3(3.001000,0.592000,2.276000);
+positions[139] = Vec3(1.384000,2.227000,2.992000);
+positions[140] = Vec3(1.353000,0.044000,1.985000);
+positions[141] = Vec3(1.367000,1.832000,2.383000);
+positions[142] = Vec3(0.853000,1.119000,2.230000);
+positions[143] = Vec3(1.675000,1.482000,2.295000);
+positions[144] = Vec3(1.334000,1.890000,1.904000);
+positions[145] = Vec3(1.630000,0.140000,2.939000);
+positions[146] = Vec3(0.195000,1.290000,2.300000);
+positions[147] = Vec3(2.178000,1.173000,3.001000);
+positions[148] = Vec3(0.637000,0.655000,2.126000);
+positions[149] = Vec3(0.993000,1.796000,2.529000);
+positions[150] = Vec3(0.910000,0.701000,1.845000);
+positions[151] = Vec3(0.191000,2.128000,0.355000);
+positions[152] = Vec3(0.692000,1.163000,2.578000);
+positions[153] = Vec3(1.154000,1.052000,1.974000);
+positions[154] = Vec3(1.682000,0.335000,2.509000);
+positions[155] = Vec3(0.569000,1.032000,1.895000);
+positions[156] = Vec3(1.800000,2.796000,1.295000);
+positions[157] = Vec3(2.517000,2.347000,2.878000);
+positions[158] = Vec3(0.639000,2.470000,1.678000);
+positions[159] = Vec3(0.634000,2.006000,1.829000);
+positions[160] = Vec3(0.892000,0.215000,0.566000);
+positions[161] = Vec3(1.800000,2.143000,1.491000);
+positions[162] = Vec3(1.898000,0.226000,2.765000);
+positions[163] = Vec3(0.791000,1.738000,0.260000);
+positions[164] = Vec3(0.437000,1.740000,2.048000);
+positions[165] = Vec3(1.687000,2.438000,1.166000);
+positions[166] = Vec3(1.337000,2.304000,1.643000);
+positions[167] = Vec3(1.270000,2.397000,1.033000);
+positions[168] = Vec3(0.702000,2.429000,0.591000);
+positions[169] = Vec3(0.842000,1.976000,0.724000);
+positions[170] = Vec3(1.965000,0.095000,1.206000);
+positions[171] = Vec3(0.355000,2.710000,0.618000);
+positions[172] = Vec3(0.745000,1.434000,2.781000);
+positions[173] = Vec3(0.707000,2.171000,1.502000);
+positions[174] = Vec3(1.294000,2.696000,0.847000);
+positions[175] = Vec3(1.143000,2.075000,0.276000);
+positions[176] = Vec3(1.111000,2.474000,0.312000);
+positions[177] = Vec3(1.144000,2.316000,0.633000);
+positions[178] = Vec3(1.335000,0.292000,0.515000);
+positions[179] = Vec3(1.926000,2.813000,2.703000);
+positions[180] = Vec3(0.559000,2.314000,2.904000);
+positions[181] = Vec3(1.308000,1.605000,1.534000);
+positions[182] = Vec3(0.773000,2.913000,1.217000);
+positions[183] = Vec3(1.612000,0.082000,1.027000);
+positions[184] = Vec3(1.510000,0.287000,1.787000);
+positions[185] = Vec3(0.716000,1.424000,1.843000);
+positions[186] = Vec3(1.267000,0.685000,1.160000);
+positions[187] = Vec3(0.306000,1.653000,1.717000);
+positions[188] = Vec3(0.349000,0.020000,1.275000);
+positions[189] = Vec3(0.166000,1.979000,0.804000);
+positions[190] = Vec3(1.523000,2.992000,0.711000);
+positions[191] = Vec3(1.998000,2.146000,0.088000);
+positions[192] = Vec3(0.047000,2.513000,0.642000);
+positions[193] = Vec3(0.501000,1.793000,1.438000);
+positions[194] = Vec3(1.099000,2.010000,1.626000);
+positions[195] = Vec3(2.580000,2.854000,1.328000);
+positions[196] = Vec3(1.080000,2.779000,1.190000);
+positions[197] = Vec3(0.901000,2.561000,0.948000);
+positions[198] = Vec3(0.920000,2.990000,0.844000);
+positions[199] = Vec3(0.819000,2.924000,1.711000);
+positions[200] = Vec3(0.434000,1.516000,0.063000);
+positions[201] = Vec3(1.470000,0.058000,0.231000);
+positions[202] = Vec3(0.530000,3.005000,1.550000);
+positions[203] = Vec3(0.447000,2.330000,1.277000);
+positions[204] = Vec3(1.632000,2.683000,1.593000);
+positions[205] = Vec3(0.885000,1.835000,2.072000);
+positions[206] = Vec3(0.868000,2.601000,1.425000);
+positions[207] = Vec3(0.720000,2.242000,0.907000);
+positions[208] = Vec3(1.194000,0.144000,1.065000);
+positions[209] = Vec3(0.448000,2.485000,0.959000);
+positions[210] = Vec3(1.377000,2.694000,1.352000);
+positions[211] = Vec3(1.305000,2.928000,2.713000);
+positions[212] = Vec3(1.784000,2.456000,1.981000);
+positions[213] = Vec3(0.354000,2.136000,1.563000);
+positions[214] = Vec3(0.489000,2.000000,1.108000);
+positions[215] = Vec3(1.884000,2.221000,0.461000);
+positions[216] = Vec3(1.860000,2.540000,0.306000);
+positions[217] = Vec3(1.753000,2.335000,2.768000);
+positions[218] = Vec3(1.536000,2.441000,2.344000);
+positions[219] = Vec3(0.531000,0.025000,2.235000);
+positions[220] = Vec3(0.809000,0.011000,2.834000);
+positions[221] = Vec3(0.289000,2.614000,2.879000);
+positions[222] = Vec3(0.613000,1.891000,2.337000);
+positions[223] = Vec3(0.507000,0.037000,2.694000);
+positions[224] = Vec3(0.882000,2.185000,2.583000);
+positions[225] = Vec3(0.503000,2.051000,2.615000);
+positions[226] = Vec3(1.907000,1.956000,2.831000);
+positions[227] = Vec3(2.833000,2.769000,1.644000);
+positions[228] = Vec3(1.141000,0.113000,2.945000);
+positions[229] = Vec3(0.600000,1.338000,2.200000);
+positions[230] = Vec3(0.904000,2.360000,1.952000);
+positions[231] = Vec3(0.738000,1.568000,2.437000);
+positions[232] = Vec3(1.136000,2.535000,2.805000);
+positions[233] = Vec3(1.430000,2.767000,2.321000);
+positions[234] = Vec3(1.078000,2.470000,2.385000);
+positions[235] = Vec3(0.296000,2.376000,2.560000);
+positions[236] = Vec3(0.719000,0.300000,0.075000);
+positions[237] = Vec3(0.518000,1.911000,0.080000);
+positions[238] = Vec3(0.381000,1.570000,2.450000);
+positions[239] = Vec3(0.716000,2.581000,2.697000);
+positions[240] = Vec3(1.473000,2.617000,1.936000);
+positions[241] = Vec3(0.421000,2.449000,0.229000);
+positions[242] = Vec3(0.425000,2.817000,1.910000);
+positions[243] = Vec3(1.312000,2.294000,2.057000);
+positions[244] = Vec3(1.239000,0.007000,1.539000);
+positions[245] = Vec3(0.822000,0.379000,2.086000);
+positions[246] = Vec3(0.560000,2.562000,2.227000);
+positions[247] = Vec3(0.863000,2.417000,0.050000);
+positions[248] = Vec3(1.263000,0.151000,2.332000);
+positions[249] = Vec3(0.237000,0.208000,2.336000);
+positions[250] = Vec3(0.437000,2.370000,1.910000);
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+positions[865] = Vec3(2.234000,2.051000,0.158000);
+positions[866] = Vec3(0.185000,2.453000,0.055000);
+positions[867] = Vec3(2.509000,0.048000,2.786000);
+positions[868] = Vec3(2.202000,2.206000,2.027000);
+positions[869] = Vec3(0.061000,2.367000,2.656000);
+positions[870] = Vec3(3.003000,2.755000,2.241000);
+positions[871] = Vec3(0.297000,2.131000,2.463000);
+positions[872] = Vec3(1.553000,0.429000,1.573000);
+positions[873] = Vec3(2.506000,1.832000,1.911000);
+positions[874] = Vec3(2.472000,1.814000,2.759000);
+positions[875] = Vec3(1.922000,1.563000,2.278000);
+positions[876] = Vec3(2.623000,2.666000,2.169000);
+positions[877] = Vec3(0.120000,1.834000,2.723000);
+positions[878] = Vec3(0.294000,0.103000,2.826000);
+positions[879] = Vec3(2.364000,2.821000,0.417000);
+positions[880] = Vec3(2.446000,1.734000,0.153000);
+positions[881] = Vec3(2.777000,2.037000,2.565000);
+positions[882] = Vec3(2.837000,2.477000,1.924000);
+positions[883] = Vec3(2.221000,1.961000,2.443000);
+positions[884] = Vec3(2.284000,2.895000,2.157000);
+positions[885] = Vec3(2.728000,2.880000,1.861000);
+positions[886] = Vec3(0.454000,2.080000,2.868000);
+positions[887] = Vec3(2.430000,2.790000,2.524000);
+positions[888] = Vec3(1.808000,2.213000,1.899000);
+positions[889] = Vec3(2.666000,0.053000,2.309000);
+positions[890] = Vec3(2.290000,2.408000,2.995000);
+positions[891] = Vec3(2.646000,2.592000,1.625000);
+positions[892] = Vec3(2.750000,2.508000,2.489000);
+positions[893] = Vec3(0.211000,1.753000,1.939000);