public void PQRSTermFromGeneralHamiltonianTest() { var generalHamiltonian = new FermionHamiltonian(nOrbitals: 2, nElectrons: 1); generalHamiltonian.AddFermionTerm(PQRSTermType, new Int64[] { 0, 1, 3, 2 }, 2.0); var jwEvolutionSetData = JordanWignerEncoding.Create(generalHamiltonian); var termData = jwEvolutionSetData.Terms; var qsim = new QCTraceSimulator(TraceConfig.config); RunOptimizedBlockEncoding.Run(qsim, generalHamiltonian.NOrbitals * 2, termData, targetError).Wait(); }
public void PQRSTermFromLiquidOrbitalTest() { string orbitals = "0,1,0,1=1.0"; var generalHamiltonian = LoadData.LoadFromLiquid(orbitals); generalHamiltonian.NElectrons = 1L; var jwEvolutionSetData = JordanWignerEncoding.Create(generalHamiltonian); var termData = jwEvolutionSetData.Terms; var qsim = new QCTraceSimulator(TraceConfig.config); RunOptimizedBlockEncoding.Run(qsim, generalHamiltonian.NOrbitals * 2, termData, targetError).Wait(); }
public void PPTermFromGeneralHamiltonianTest() { var generalHamiltonian = new FermionHamiltonian(nOrbitals: 1, nElectrons: 1); generalHamiltonian.AddFermionTerm(PPTermType, new Int64[] { 0, 0 }, 1.0); generalHamiltonian.AddFermionTerm(PPTermType, new Int64[] { 1, 1 }, -1.0); var jwEvolutionSetData = JordanWignerEncoding.Create(generalHamiltonian); var identityCoefficient = jwEvolutionSetData.energyOffset; var termData = jwEvolutionSetData.Terms; var qsim = new QCTraceSimulator(TraceConfig.config); RunOptimizedBlockEncoding.Run(qsim, generalHamiltonian.NOrbitals * 2, termData, targetError).Wait(); }