Пример #1
0
    def test_uccsd_lambda(self):
        noa = self.no
        nob = self.no
        nva = self.nv
        nvb = self.nv
        na = noa + nva
        nb = nob + nvb
        no = noa + nob
        nv = nva + nvb
        Fa = test_utils.make_random_F(noa, nva)
        Fb = test_utils.make_random_F(nob, nvb)

        # Direct integrals over a,b orbitals
        Ia = test_utils.make_random_I_anti(noa, nva)
        Ib = test_utils.make_random_I_anti(nob, nvb)
        Iabab = test_utils.make_random_Ifull_gen(noa, nva, nob, nvb, noa, nva,
                                                 nob, nvb)

        # Full antisymmetric spin-orbital tensor
        I = spin_utils.int_to_spin2(Ia, Ib, Iabab, noa, nva, nob, nvb)
        F = spin_utils.F_to_spin(Fa, Fb, noa, nva, nob, nvb)

        # initial T
        T1a, T1b = test_utils.make_random_T1_spatial(noa, nva, nob, nvb)
        T2aa, T2ab, T2bb = test_utils.make_random_T2_spatial(
            noa, nva, nob, nvb)
        T1 = spin_utils.T1_to_spin(T1a, T1b, noa, nva, nob, nvb)
        T2 = spin_utils.T2_to_spin(T2aa, T2ab, T2bb, noa, nva, nob, nvb)

        # initial L
        L1aold, L1bold = test_utils.make_random_T1_spatial(nva, noa, nvb, nob)
        L2aaold, L2abold, L2bbold = test_utils.make_random_T2_spatial(
            nva, noa, nvb, nob)
        L1old = spin_utils.T1_to_spin(L1aold, L1bold, nva, noa, nvb, nob)
        L2old = spin_utils.T2_to_spin(L2aaold, L2abold, L2bbold, nva, noa, nvb,
                                      nob)

        # Get updated Lambda using spin orbitals
        L1_ref, L2_ref = cc_equations.ccsd_lambda_opt(F, I, L1old, L2old, T1,
                                                      T2)

        # Get updated Lambda using unrestricted code
        M1, M2 = cc_equations.uccsd_lambda_opt(Fa, Fb, Ia, Ib, Iabab,
                                               (L1aold, L1bold),
                                               (L2aaold, L2abold, L2bbold),
                                               (T1a, T1b), (T2aa, T2ab, T2bb))

        L1a, L1b = M1
        L2aa, L2ab, L2bb = M2
        L1 = spin_utils.T1_to_spin(L1a, L1b, nva, noa, nvb, nob)
        L2 = spin_utils.T2_to_spin(L2aa, L2ab, L2bb, nva, noa, nvb, nob)
        z1 = numpy.linalg.norm(L1 - L1_ref) / numpy.sqrt(L1.size)
        z2 = numpy.linalg.norm(L2 - L2_ref) / numpy.sqrt(L2.size)
        s1 = z1 < self.thresh
        s2 = z2 < self.thresh
        e1 = "Error in UCCSD L1"
        e2 = "Error in UCCSD L2"
        self.assertTrue(s1, e1)
        self.assertTrue(s2, e2)
Пример #2
0
    def test_ucc_energy(self):
        noa = self.no
        nob = self.no
        nva = self.nv
        nvb = self.nv
        na = noa + nva
        nb = nob + nvb
        no = noa + nob
        nv = nva + nvb
        Faa = test_utils.make_random_F(noa, nva)
        Fbb = test_utils.make_random_F(nob, nvb)

        # Direct integrals over a,b orbitals
        Ia = test_utils.make_random_I_anti(noa, nva)
        Ib = test_utils.make_random_I_anti(nob, nvb)
        Iabab = test_utils.make_random_Ifull_gen(noa, nva, nob, nvb, noa, nva,
                                                 nob, nvb)

        # Full antisymmetric spin-orbital tensor
        I = spin_utils.int_to_spin2(Ia, Ib, Iabab, noa, nva, nob, nvb)
        F = spin_utils.F_to_spin(Faa, Fbb, noa, nva, nob, nvb)

        # initial T
        T1a, T1b = test_utils.make_random_T1_spatial(noa, nva, nob, nvb)
        T2aa, T2ab, T2bb = test_utils.make_random_T2_spatial(
            noa, nva, nob, nvb)
        T1 = spin_utils.T1_to_spin(T1a, T1b, noa, nva, nob, nvb)
        T2 = spin_utils.T2_to_spin(T2aa, T2ab, T2bb, noa, nva, nob, nvb)

        E_ref = cc_energy.cc_energy(T1, T2, F.ov, I.oovv)
        E_out = cc_energy.ucc_energy((T1a, T1b), (T2aa, T2ab, T2bb), Faa.ov,
                                     Fbb.ov, Ia.oovv, Ib.oovv, Iabab.oovv)
        s = abs(E_ref - E_out) < self.thresh
        err = "Error in ucc_energy"
        self.assertTrue(s, err)
Пример #3
0
    def test_uccsd(self):
        noa = self.no
        nob = self.no
        nva = self.nv
        nvb = self.nv
        na = noa + nva
        nb = nob + nvb
        no = noa + nob
        nv = nva + nvb
        Faa = test_utils.make_random_F(noa, nva)
        Fbb = test_utils.make_random_F(nob, nvb)

        # Direct integrals over a,b orbitals
        Ia = test_utils.make_random_I_anti(noa, nva)
        Ib = test_utils.make_random_I_anti(nob, nvb)
        I_abab = test_utils.make_random_Ifull_gen(noa, nva, nob, nvb, noa, nva,
                                                  nob, nvb)

        # Full antisymmetric spin-orbital tensor
        I = spin_utils.int_to_spin2(Ia, Ib, I_abab, noa, nva, nob, nvb)
        F = spin_utils.F_to_spin(Faa, Fbb, noa, nva, nob, nvb)

        # initial T
        T1a, T1b = test_utils.make_random_T1_spatial(noa, nva, nob, nvb)
        T2aa, T2ab, T2bb = test_utils.make_random_T2_spatial(
            noa, nva, nob, nvb)
        T1 = spin_utils.T1_to_spin(T1a, T1b, noa, nva, nob, nvb)
        T2 = spin_utils.T2_to_spin(T2aa, T2ab, T2bb, noa, nva, nob, nvb)

        # Update with spin orbitals
        S1ref, S2ref = cc_equations.ccsd_stanton(F, I, T1, T2)

        # Update with UCCSD
        S1, S2 = cc_equations.uccsd_stanton(Faa, Fbb, Ia, Ib, I_abab,
                                            (T1a, T1b), (T2aa, T2ab, T2bb))
        S1a, S1b = S1
        S2aa, S2ab, S2bb = S2
        S1 = spin_utils.T1_to_spin(S1a, S1b, noa, nva, nob, nvb)
        S2 = spin_utils.T2_to_spin(S2aa, S2ab, S2bb, noa, nva, nob, nvb)
        z1 = numpy.linalg.norm(S1 - S1ref) / numpy.sqrt(S1.size)
        z2 = numpy.linalg.norm(S2 - S2ref) / numpy.sqrt(S2.size)
        s1 = z1 < self.thresh
        s2 = z2 < self.thresh
        e1 = "Error in UCCSD T1"
        e2 = "Error in UCCSD T2"
        self.assertTrue(s1, e1)
        self.assertTrue(s2, e2)
Пример #4
0
 def test_T(self):
     noa = 3
     nob = 2
     nva = 2 
     nvb = 3
     no = noa + nob
     nv = nva + nvb
     T1ref,T2ref = test_utils.make_random_T(no,nv) 
     Taa,Tab,Tbb = spin_utils.T2_to_spatial(T2ref, noa, nva, nob, nvb)
     Ta,Tb = spin_utils.T1_to_spatial(T1ref,noa,nva,nob,nvb)
     T2out = spin_utils.T2_to_spin(Taa,Tab,Tbb,noa,nva,nob,nvb)
     T1out = spin_utils.T1_to_spin(Ta,Tb,noa,nva,nob,nvb)
     z = T2out - T2ref
     s = numpy.linalg.norm(z < self.thresh)
     err = "Error in T2"
     self.assertTrue(s,err)
     z = T1out - T1ref
     s = numpy.linalg.norm(z < self.thresh)
     err = "Error in T1"
     self.assertTrue(s,err)
Пример #5
0
    def test_u1rdm(self):
        noa = 3
        nva = 5
        nob = 2
        nvb = 6
        thresh = 1e-14

        # use unrestricted one-particle property
        Aa = test_utils.make_random_F(noa, nva)
        Ab = test_utils.make_random_F(nob, nvb)
        Atot = spin_utils.F_to_spin(Aa, Ab, noa, nva, nob, nvb)

        # get unrestricted and general amplitudes
        T1a, T1b = test_utils.make_random_T1_spatial(noa, nva, nob, nvb)
        T2aa, T2ab, T2bb \
            = test_utils.make_random_T2_spatial(noa, nva, nob, nvb)
        L1a, L1b = test_utils.make_random_T1_spatial(nva, noa, nvb, nob)
        L2aa, L2ab, L2bb \
            = test_utils.make_random_T2_spatial(nva, noa, nvb, nob)
        T1 = spin_utils.T1_to_spin(T1a, T1b, noa, nva, nob, nvb)
        L1 = spin_utils.T1_to_spin(L1a, L1b, nva, noa, nvb, nob)
        T2 = spin_utils.T2_to_spin(T2aa, T2ab, T2bb, noa, nva, nob, nvb)
        L2 = spin_utils.T2_to_spin(L2aa, L2ab, L2bb, nva, noa, nvb, nob)

        # make general pieces of 1-rdm
        pia = L1.copy()
        pba = cc_equations.ccsd_1rdm_ba_opt(T1, T2, L1, L2)
        pji = cc_equations.ccsd_1rdm_ji_opt(T1, T2, L1, L2)
        pai = cc_equations.ccsd_1rdm_ai_opt(T1, T2, L1, L2)

        # make unrestricted 1-rdm
        pia_a = L1a.copy()
        pia_b = L1b.copy()
        pba_a, pba_b = cc_equations.uccsd_1rdm_ba(
            T1a, T1b, T2aa, T2ab, T2bb, L1a, L1b, L2aa, L2ab, L2bb)
        pji_a, pji_b = cc_equations.uccsd_1rdm_ji(
            T1a, T1b, T2aa, T2ab, T2bb, L1a, L1b, L2aa, L2ab, L2bb)
        pai_a, pai_b = cc_equations.uccsd_1rdm_ai(
            T1a, T1b, T2aa, T2ab, T2bb, L1a, L1b, L2aa, L2ab, L2bb)

        # ia
        ref = numpy.einsum('ia,ai->', pia, Atot.vo)
        out = numpy.einsum('ia,ai->', pia_a, Aa.vo)
        out += numpy.einsum('ia,ai->', pia_b, Ab.vo)
        diff = abs(out - ref) / abs(ref)
        self.assertTrue(diff < thresh, "Error in Pia: {}".format(diff))

        # ba
        ref = numpy.einsum('ba,ab->', pba, Atot.vv)
        out = numpy.einsum('ba,ab->', pba_a, Aa.vv)
        out += numpy.einsum('ba,ab->', pba_b, Ab.vv)
        diff = abs(out - ref) / abs(ref)
        self.assertTrue(diff < thresh, "Error in Pba: {}".format(diff))

        # ji
        ref = numpy.einsum('ji,ij->', pji, Atot.oo)
        out = numpy.einsum('ji,ij->', pji_a, Aa.oo)
        out += numpy.einsum('ji,ij->', pji_b, Ab.oo)
        diff = abs(out - ref) / abs(ref)
        self.assertTrue(diff < thresh, "Error in Pji: {}".format(diff))

        # ai
        ref = numpy.einsum('ai,ia->', pai, Atot.ov)
        out = numpy.einsum('ai,ia->', pai_a, Aa.ov)
        out += numpy.einsum('ai,ia->', pai_b, Ab.ov)
        diff = abs(out - ref) / abs(ref)
        self.assertTrue(diff < thresh, "Error in Pai: {}".format(diff))
Пример #6
0
    def test_u2rdm(self):
        noa = 3
        nva = 5
        nob = 2
        nvb = 6
        thresh = 1e-14

        # use unrestricted one-particle property
        Aa = test_utils.make_random_I_anti(noa, nva)
        Ab = test_utils.make_random_I_anti(nob, nvb)
        Aab = test_utils.make_random_Ifull_gen(
            noa, nva, nob, nvb, noa, nva, nob, nvb)
        Atot = spin_utils.int_to_spin2(Aa, Ab, Aab, noa, nva, nob, nvb)

        # get unrestricted and general amplitudes
        T1a, T1b = test_utils.make_random_T1_spatial(noa, nva, nob, nvb)
        T2aa, T2ab, T2bb \
            = test_utils.make_random_T2_spatial(noa, nva, nob, nvb)
        L1a, L1b = test_utils.make_random_T1_spatial(nva, noa, nvb, nob)
        L2aa, L2ab, L2bb \
            = test_utils.make_random_T2_spatial(nva, noa, nvb, nob)
        T1 = spin_utils.T1_to_spin(T1a, T1b, noa, nva, nob, nvb)
        L1 = spin_utils.T1_to_spin(L1a, L1b, nva, noa, nvb, nob)
        T2 = spin_utils.T2_to_spin(T2aa, T2ab, T2bb, noa, nva, nob, nvb)
        L2 = spin_utils.T2_to_spin(L2aa, L2ab, L2bb, nva, noa, nvb, nob)

        # make general pieces of 2-rdm
        Pijab = L2.copy()
        Pciab = cc_equations.ccsd_2rdm_ciab(T1, T2, L1, L2)
        Pjkai = cc_equations.ccsd_2rdm_jkai(T1, T2, L1, L2)
        Pcdab = cc_equations.ccsd_2rdm_cdab(T1, T2, L1, L2)
        Pbjai = cc_equations.ccsd_2rdm_bjai(T1, T2, L1, L2)
        Pklij = cc_equations.ccsd_2rdm_klij(T1, T2, L1, L2)
        Pbcai = cc_equations.ccsd_2rdm_bcai(T1, T2, L1, L2)
        Pkaij = cc_equations.ccsd_2rdm_kaij(T1, T2, L1, L2)
        Pabij = cc_equations.ccsd_2rdm_abij(T1, T2, L1, L2)

        # make unrestricted RDMs
        Pijab_u = L2aa.copy()
        PIJAB_u = L2bb.copy()
        PiJaB_u = L2ab.copy()

        Pciab_u, PCIAB_u, PcIaB_u, PCiAb_u = cc_equations.uccsd_2rdm_ciab(
            T1a, T1b, T2aa, T2ab, T2bb, L1a, L1b, L2aa, L2ab, L2bb)
        Pjkai_u, PJKAI_u, PjKaI_u, PJkAi_u = cc_equations.uccsd_2rdm_jkai(
            T1a, T1b, T2aa, T2ab, T2bb, L1a, L1b, L2aa, L2ab, L2bb)
        Pcdab_u, PCDAB_u, PcDaB_u = cc_equations.uccsd_2rdm_cdab(
            T1a, T1b, T2aa, T2ab, T2bb, L1a, L1b, L2aa, L2ab, L2bb)
        Pbjai_u, PBJAI_u, PbJaI_u, PbJAi_u, PBjaI_u, PBjAi_u \
            = cc_equations.uccsd_2rdm_bjai(
                T1a, T1b, T2aa, T2ab, T2bb, L1a, L1b, L2aa, L2ab, L2bb)
        Pklij_u, PKLIJ_u, PkLiJ_u = cc_equations.uccsd_2rdm_klij(
            T1a, T1b, T2aa, T2ab, T2bb, L1a, L1b, L2aa, L2ab, L2bb)
        Pbcai_u, PBCAI_u, PbCaI_u, PBcAi_u = cc_equations.uccsd_2rdm_bcai(
            T1a, T1b, T2aa, T2ab, T2bb, L1a, L1b, L2aa, L2ab, L2bb)
        Pkaij_u, PKAIJ_u, PkAiJ_u, PKaIj_u = cc_equations.uccsd_2rdm_kaij(
            T1a, T1b, T2aa, T2ab, T2bb, L1a, L1b, L2aa, L2ab, L2bb)
        Pabij_u, PABIJ_u, PaBiJ_u = cc_equations.uccsd_2rdm_abij(
            T1a, T1b, T2aa, T2ab, T2bb, L1a, L1b, L2aa, L2ab, L2bb)

        # ijab
        ref = numpy.einsum('ijab,abij->', Pijab, Atot.vvoo)
        out = numpy.einsum('ijab,abij->', Pijab_u, Aa.vvoo)
        out += numpy.einsum('ijab,abij->', PIJAB_u, Ab.vvoo)
        out += 4.0*numpy.einsum('ijab,abij->', PiJaB_u, Aab.vvoo)
        diff = abs(out - ref) / abs(ref + 0.001)
        self.assertTrue(diff < thresh, "Error in Pijab: {}".format(diff))

        # ciab
        ref = numpy.einsum('ciab,abci->', Pciab, Atot.vvvo)
        out = numpy.einsum('ciab,abci->', Pciab_u, Aa.vvvo)
        out += numpy.einsum('ciab,abci->', PCIAB_u, Ab.vvvo)
        out += 2.0*numpy.einsum('ciab,abci->', PcIaB_u, Aab.vvvo)
        out += 2.0*numpy.einsum('ciab,baic->', PCiAb_u, Aab.vvov)
        diff = abs(out - ref) / abs(ref + 0.001)
        self.assertTrue(diff < thresh, "Error in Pciab: {}".format(diff))

        # jkai
        ref = numpy.einsum('jkai,aijk->', Pjkai, Atot.vooo)
        out = numpy.einsum('jkai,aijk->', Pjkai_u, Aa.vooo)
        out += numpy.einsum('jkai,aijk->', PJKAI_u, Ab.vooo)
        out += 2.0*numpy.einsum('jKaI,aIjK->', PjKaI_u, Aab.vooo)
        out += 2.0*numpy.einsum('JkAi,iAkJ->', PJkAi_u, Aab.ovoo)
        diff = abs(out - ref) / abs(ref + 0.001)
        self.assertTrue(diff < thresh, "Error in Pciab: {}".format(diff))

        # cdab
        ref = numpy.einsum('cdab,abcd->', Pcdab, Atot.vvvv)
        out = numpy.einsum('cdab,abcd->', Pcdab_u, Aa.vvvv)
        out += numpy.einsum('cdab,abcd->', PCDAB_u, Ab.vvvv)
        out += 4.0*numpy.einsum('cdab,abcd->', PcDaB_u, Aab.vvvv)
        diff = abs(out - ref) / abs(ref + 0.001)
        self.assertTrue(diff < thresh, "Error in Pcdab: {}".format(diff))

        # bjai
        ref = numpy.einsum('bjai,aibj->', Pbjai, Atot.vovo)
        out = numpy.einsum('bjai,aibj->', Pbjai_u, Aa.vovo)
        out += numpy.einsum('bJaI,aIbJ->', PbJaI_u, Aab.vovo)
        out -= numpy.einsum('bJAi,iAbJ->', PbJAi_u, Aab.ovvo)
        out -= numpy.einsum('BjaI,aIjB->', PBjaI_u, Aab.voov)
        out += numpy.einsum('BjAi,iAjB->', PBjAi_u, Aab.ovov)
        out += numpy.einsum('BJAI,AIBJ->', PBJAI_u, Ab.vovo)
        diff = abs(out - ref) / abs(ref + 0.001)
        self.assertTrue(diff < thresh, "Error in Pbjai: {}".format(diff))

        # klij
        ref = numpy.einsum('klij,ijkl->', Pklij, Atot.oooo)
        out = numpy.einsum('klij,ijkl->', Pklij_u, Aa.oooo)
        out += numpy.einsum('klij,ijkl->', PKLIJ_u, Ab.oooo)
        out += 4.0*numpy.einsum('kLiJ,iJkL->', PkLiJ_u, Aab.oooo)
        diff = abs(out - ref) / abs(ref + 0.001)
        self.assertTrue(diff < thresh, "Error in Pklij: {}".format(diff))

        # bcai
        ref = numpy.einsum('bcai,aibc->', Pbcai, Atot.vovv)
        out = numpy.einsum('bcai,aibc->', Pbcai_u, Aa.vovv)
        out += 2.0*numpy.einsum('bCaI,aIbC->', PbCaI_u, Aab.vovv)
        out += 2.0*numpy.einsum('BcAi,iAcB->', PBcAi_u, Aab.ovvv)
        out += numpy.einsum('bcai,aibc->', PBCAI_u, Ab.vovv)
        diff = abs(out - ref) / abs(ref + 0.001)
        self.assertTrue(diff < thresh, "Error in Pbcai: {}".format(diff))

        # kaij
        ref = numpy.einsum('kaij,ijka->', Pkaij, Atot.ooov)
        out = numpy.einsum('kaij,ijka->', Pkaij_u, Aa.ooov)
        out += 2.0*numpy.einsum('kaij,ijka->', PkAiJ_u, Aab.ooov)
        out += 2.0*numpy.einsum('KaIj,jIaK->', PKaIj_u, Aab.oovo)
        out += numpy.einsum('kaij,ijka->', PKAIJ_u, Ab.ooov)
        diff = abs(out - ref) / abs(ref + 0.001)
        self.assertTrue(diff < thresh, "Error in Pkaij: {}".format(diff))

        # abij
        ref = numpy.einsum('abij,ijab->', Pabij, Atot.oovv)
        out = numpy.einsum('abij,ijab->', Pabij_u, Aa.oovv)
        out += numpy.einsum('abij,ijab->', PABIJ_u, Ab.oovv)
        out += 4.0*numpy.einsum('aBiJ,iJaB->', PaBiJ_u, Aab.oovv)
        diff = abs(out - ref) / abs(ref + 0.001)
        self.assertTrue(diff < thresh, "Error in Pabij: {}".format(diff))