| /dports/math/R-cran-nloptr/nloptr/src/nlopt_src/praxis/ |
| H A D | praxis.c | 152 q_1.q0 = q_1.v + n*n; in praxis_()
153 q_1.q1 = q_1.q0 + n; in praxis_()
1226 q_1->qa = *l * (*l - q_1->qd1) / (q_1->qd0 * (q_1->qd0 + q_1->qd1)); in flin_()
1227 q_1->qb = (*l + q_1->qd0) * (q_1->qd1 - *l) / (q_1->qd0 * q_1->qd1); in flin_()
1228 q_1->qc = *l * (*l + q_1->qd0) / (q_1->qd1 * (q_1->qd0 + q_1->qd1)); in flin_()
1232 t[i__ - 1] = q_1->qa * q_1->q0[i__ - 1] + q_1->qb * x[i__] + q_1->qc * in flin_()
1348 q_1->qa = l * (l - q_1->qd1) / (q_1->qd0 * (q_1->qd0 + q_1->qd1)); in quad_()
1349 q_1->qb = (l + q_1->qd0) * (q_1->qd1 - l) / (q_1->qd0 * q_1->qd1); in quad_()
1350 q_1->qc = l * (l + q_1->qd0) / (q_1->qd1 * (q_1->qd0 + q_1->qd1)); in quad_()
1355 q_1->qb = q_1->qa; in quad_()
[all …]
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| /dports/math/nlopt/nlopt-2.7.1/src/algs/praxis/ |
| H A D | praxis.c | 152 q_1.q0 = q_1.v + n*n; in praxis_()
153 q_1.q1 = q_1.q0 + n; in praxis_()
1227 q_1->qa = *l * (*l - q_1->qd1) / (q_1->qd0 * (q_1->qd0 + q_1->qd1)); in flin_()
1228 q_1->qb = (*l + q_1->qd0) * (q_1->qd1 - *l) / (q_1->qd0 * q_1->qd1); in flin_()
1229 q_1->qc = *l * (*l + q_1->qd0) / (q_1->qd1 * (q_1->qd0 + q_1->qd1)); in flin_()
1233 t[i__ - 1] = q_1->qa * q_1->q0[i__ - 1] + q_1->qb * x[i__] + q_1->qc * in flin_()
1349 q_1->qa = l * (l - q_1->qd1) / (q_1->qd0 * (q_1->qd0 + q_1->qd1)); in quad_()
1350 q_1->qb = (l + q_1->qd0) * (q_1->qd1 - l) / (q_1->qd0 * q_1->qd1); in quad_()
1351 q_1->qc = l * (l + q_1->qd0) / (q_1->qd1 * (q_1->qd0 + q_1->qd1)); in quad_()
1356 q_1->qb = q_1->qa; in quad_()
[all …]
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| /dports/math/reduce/Reduce-svn5758-src/buglist/ |
| H A D | bug84 | 13 …q_1 + q_3)/t_s)*abs(e**(q_1/t_s))*f_s + 2*e**(q_1/t_s)*abs(e**(q_1/t_s))*c_0*k_3 + e**(q_3/t_s)*ab…
14 …q_1/t_s)*abs(e**(q_1/t_s))*f_s + abs(e**(q_1/t_s))*k_1 - e**(q_1/t_s)*sqrt((e**((2*q_1 + q_3)/t_s)…
61 % ,g45,t_s,g47,q_1,g25,k_3: real;
66 % g47:=2.0*q_1;
67 % g45:=q_1/t_s;
70 % g9:=exp((q_1+q_3)/t_s);
80 % mttb[2,1]:=(g46*exp((g33+q_1)/t_s)*k_1+g44*exp(g33/t_s)*k_1)/(
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| /dports/science/py-cirq-core/Cirq-0.13.1/cirq-core/cirq/experiments/ |
| H A D | qubit_characterizations_test.py | 116 q_1 = GridQubit(0, 1)
156 q_1 = GridQubit(0, 1)
158 circuit_00 = circuits.Circuit(ops.H(q_0), ops.CNOT(q_0, q_1))
159 circuit_01 = circuits.Circuit(ops.X(q_1), ops.H(q_0), ops.CNOT(q_0, q_1))
160 circuit_10 = circuits.Circuit(ops.X(q_0), ops.H(q_0), ops.CNOT(q_0, q_1))
161 circuit_11 = circuits.Circuit(ops.X(q_0), ops.X(q_1), ops.H(q_0), ops.CNOT(q_0, q_1))
162 circuit_hh = circuits.Circuit(ops.H(q_0), ops.H(q_1))
163 circuit_xy = circuits.Circuit(ops.X(q_0) ** 0.5, ops.Y(q_1) ** 0.5)
164 circuit_yx = circuits.Circuit(ops.Y(q_0) ** 0.5, ops.X(q_1) ** 0.5)
166 act_rho_00 = two_qubit_state_tomography(simulator, q_0, q_1, circuit_00, 1000).data
[all …]
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| H A D | qubit_characterizations.py | 731 yield _single_qubit_gates(c1[idx_1], q_1)
742 yield ops.CZ(q_0, q_1)
744 yield ops.Y(q_1) ** 0.5
745 yield ops.CZ(q_0, q_1)
747 yield ops.Y(q_1) ** -0.5
748 yield ops.CZ(q_0, q_1)
749 yield ops.Y(q_1) ** 0.5
751 yield ops.CZ(q_0, q_1)
757 yield ops.CZ(q_0, q_1)
759 yield ops.X(q_1) ** -0.5
[all …]
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| /dports/science/py-cirq-aqt/Cirq-0.12.0/cirq-core/cirq/experiments/ |
| H A D | qubit_characterizations_test.py | 116 q_1 = GridQubit(0, 1)
156 q_1 = GridQubit(0, 1)
158 circuit_00 = circuits.Circuit(ops.H(q_0), ops.CNOT(q_0, q_1))
159 circuit_01 = circuits.Circuit(ops.X(q_1), ops.H(q_0), ops.CNOT(q_0, q_1))
160 circuit_10 = circuits.Circuit(ops.X(q_0), ops.H(q_0), ops.CNOT(q_0, q_1))
161 circuit_11 = circuits.Circuit(ops.X(q_0), ops.X(q_1), ops.H(q_0), ops.CNOT(q_0, q_1))
162 circuit_hh = circuits.Circuit(ops.H(q_0), ops.H(q_1))
163 circuit_xy = circuits.Circuit(ops.X(q_0) ** 0.5, ops.Y(q_1) ** 0.5)
164 circuit_yx = circuits.Circuit(ops.Y(q_0) ** 0.5, ops.X(q_1) ** 0.5)
166 act_rho_00 = two_qubit_state_tomography(simulator, q_0, q_1, circuit_00, 1000).data
[all …]
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| H A D | qubit_characterizations.py | 730 yield _single_qubit_gates(c1[idx_1], q_1)
741 yield ops.CZ(q_0, q_1)
743 yield ops.Y(q_1) ** 0.5
744 yield ops.CZ(q_0, q_1)
746 yield ops.Y(q_1) ** -0.5
747 yield ops.CZ(q_0, q_1)
748 yield ops.Y(q_1) ** 0.5
750 yield ops.CZ(q_0, q_1)
756 yield ops.CZ(q_0, q_1)
758 yield ops.X(q_1) ** -0.5
[all …]
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| /dports/science/py-cirq-pasqal/Cirq-0.13.1/cirq-core/cirq/experiments/ |
| H A D | qubit_characterizations_test.py | 116 q_1 = GridQubit(0, 1)
156 q_1 = GridQubit(0, 1)
158 circuit_00 = circuits.Circuit(ops.H(q_0), ops.CNOT(q_0, q_1))
159 circuit_01 = circuits.Circuit(ops.X(q_1), ops.H(q_0), ops.CNOT(q_0, q_1))
160 circuit_10 = circuits.Circuit(ops.X(q_0), ops.H(q_0), ops.CNOT(q_0, q_1))
161 circuit_11 = circuits.Circuit(ops.X(q_0), ops.X(q_1), ops.H(q_0), ops.CNOT(q_0, q_1))
162 circuit_hh = circuits.Circuit(ops.H(q_0), ops.H(q_1))
163 circuit_xy = circuits.Circuit(ops.X(q_0) ** 0.5, ops.Y(q_1) ** 0.5)
164 circuit_yx = circuits.Circuit(ops.Y(q_0) ** 0.5, ops.X(q_1) ** 0.5)
166 act_rho_00 = two_qubit_state_tomography(simulator, q_0, q_1, circuit_00, 1000).data
[all …]
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| H A D | qubit_characterizations.py | 731 yield _single_qubit_gates(c1[idx_1], q_1)
742 yield ops.CZ(q_0, q_1)
744 yield ops.Y(q_1) ** 0.5
745 yield ops.CZ(q_0, q_1)
747 yield ops.Y(q_1) ** -0.5
748 yield ops.CZ(q_0, q_1)
749 yield ops.Y(q_1) ** 0.5
751 yield ops.CZ(q_0, q_1)
757 yield ops.CZ(q_0, q_1)
759 yield ops.X(q_1) ** -0.5
[all …]
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| /dports/science/py-cirq-ionq/Cirq-0.13.1/cirq-core/cirq/experiments/ |
| H A D | qubit_characterizations_test.py | 116 q_1 = GridQubit(0, 1)
156 q_1 = GridQubit(0, 1)
158 circuit_00 = circuits.Circuit(ops.H(q_0), ops.CNOT(q_0, q_1))
159 circuit_01 = circuits.Circuit(ops.X(q_1), ops.H(q_0), ops.CNOT(q_0, q_1))
160 circuit_10 = circuits.Circuit(ops.X(q_0), ops.H(q_0), ops.CNOT(q_0, q_1))
161 circuit_11 = circuits.Circuit(ops.X(q_0), ops.X(q_1), ops.H(q_0), ops.CNOT(q_0, q_1))
162 circuit_hh = circuits.Circuit(ops.H(q_0), ops.H(q_1))
163 circuit_xy = circuits.Circuit(ops.X(q_0) ** 0.5, ops.Y(q_1) ** 0.5)
164 circuit_yx = circuits.Circuit(ops.Y(q_0) ** 0.5, ops.X(q_1) ** 0.5)
166 act_rho_00 = two_qubit_state_tomography(simulator, q_0, q_1, circuit_00, 1000).data
[all …]
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| H A D | qubit_characterizations.py | 731 yield _single_qubit_gates(c1[idx_1], q_1)
742 yield ops.CZ(q_0, q_1)
744 yield ops.Y(q_1) ** 0.5
745 yield ops.CZ(q_0, q_1)
747 yield ops.Y(q_1) ** -0.5
748 yield ops.CZ(q_0, q_1)
749 yield ops.Y(q_1) ** 0.5
751 yield ops.CZ(q_0, q_1)
757 yield ops.CZ(q_0, q_1)
759 yield ops.X(q_1) ** -0.5
[all …]
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| /dports/science/py-cirq-google/Cirq-0.13.0/cirq-core/cirq/experiments/ |
| H A D | qubit_characterizations_test.py | 116 q_1 = GridQubit(0, 1)
156 q_1 = GridQubit(0, 1)
158 circuit_00 = circuits.Circuit(ops.H(q_0), ops.CNOT(q_0, q_1))
159 circuit_01 = circuits.Circuit(ops.X(q_1), ops.H(q_0), ops.CNOT(q_0, q_1))
160 circuit_10 = circuits.Circuit(ops.X(q_0), ops.H(q_0), ops.CNOT(q_0, q_1))
161 circuit_11 = circuits.Circuit(ops.X(q_0), ops.X(q_1), ops.H(q_0), ops.CNOT(q_0, q_1))
162 circuit_hh = circuits.Circuit(ops.H(q_0), ops.H(q_1))
163 circuit_xy = circuits.Circuit(ops.X(q_0) ** 0.5, ops.Y(q_1) ** 0.5)
164 circuit_yx = circuits.Circuit(ops.Y(q_0) ** 0.5, ops.X(q_1) ** 0.5)
166 act_rho_00 = two_qubit_state_tomography(simulator, q_0, q_1, circuit_00, 1000).data
[all …]
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| H A D | qubit_characterizations.py | 731 yield _single_qubit_gates(c1[idx_1], q_1)
742 yield ops.CZ(q_0, q_1)
744 yield ops.Y(q_1) ** 0.5
745 yield ops.CZ(q_0, q_1)
747 yield ops.Y(q_1) ** -0.5
748 yield ops.CZ(q_0, q_1)
749 yield ops.Y(q_1) ** 0.5
751 yield ops.CZ(q_0, q_1)
757 yield ops.CZ(q_0, q_1)
759 yield ops.X(q_1) ** -0.5
[all …]
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| /dports/math/lcalc/lcalc-1.23/src/ |
| H A D | Lcommandline_twist.cc | 832 q_1=q; in all_twists()
841 q_1=q_1/gcd(m[k],b); in all_twists()
864 q_1=q_1/2; in all_twists()
874 q_1=q_1/4; in all_twists()
880 if(m[0]==0&&m_prime==0)q_1=q_1/(4*loop1); //strip powers of 2 in all_twists()
881 else q_1=q_1/gcd(m_prime,loop1); in all_twists()
973 tmp_Q=sqrt(q_1/Pi); in all_twists()
1011 tmp_OMEGA=tmp_OMEGA*chi_1[underlying_cond%q_1]*tau_chi*tau_chi/Double(q_1); in all_twists()
1048 tmp_N_terms=q_1; in all_twists()
1050 tmp_period=q_1; in all_twists()
[all …]
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| /dports/science/siconos/siconos-4.4.0/mechanics/src/collision/native/bodies/ |
| H A D | SphereNEDSSphereNEDSR.cpp | 49 double q_1 = q0(1); in computeh() local
55 y.setValue(0, distance(q_0, q_1, q_2, r1, q_7, q_8, q_9, r2)); in computeh()
58 _Pc1->setValue(1, (r1 * q_1 + r2 * q_8) / (r1 + r2)); in computeh()
61 _Pc2->setValue(1, (r1 * q_1 + r2 * q_8) / (r1 + r2)); in computeh()
64 _Nc->setValue(1, (q_1 - q_8) / (y.getValue(0) + r1pr2)); in computeh()
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| H A D | SphereNEDSPlanR.cpp | 48 double q_1 = q0(1); in computeh() local
51 y.setValue(0, distance(q_0, q_1, q_2, r)); in computeh()
53 _Pc1->setValue(1, q_1 - r * n2); in computeh()
56 _Pc2->setValue(1, q_1 - r * n2); in computeh()
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| /dports/editors/ted/Ted-2.23/appUtil/ |
| H A D | geoAffineTransform.c | 28 a_11* y_1+ a_12* y_2+ t_1= q_1
54 a_12* ( x_2- y_2 )= ( p_1- q_1 ) -> a_12= ( p_1- q_1 ) / ( x_2- y_2 ) or
91 a_11* ( x_1- y_1 )= ( p_1- q_1 ) -> a_11= ( p_1- q_1 ) / ( x_1- y_1 ) or
131 double q_1, in geoAffineTransformForTriangles() argument
144 double pq_1= p_1- q_1; in geoAffineTransformForTriangles()
270 double q_1; in zzz() local
309 for ( q_1= 0; q_1 <= 400; q_1 += 100 ) in zzz()
312 if ( q_1 == p_1 && q_2 == p_2 ) in zzz()
322 if ( r_1 == q_1 && r_2 == q_2 ) in zzz()
324 if ( r_1 == q_1 && r_1 == p_1 ) in zzz()
[all …]
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| /dports/misc/openmvg/openMVG-2.0/src/third_party/ceres-solver/docs/source/ |
| H A D | interfacing_with_autodiff.rst | 56 const T q_1 = sin(theta[0]) * x[0] + cos(theta[0]) * x[1] + t[1];
57 const T f = TemplatedComputeDistortion(q_0 * q_0 + q_1 * q_1);
59 residuals[1] = y[1] - f * q_1;
132 const T q_1 = sin(theta[0]) * x[0] + cos(theta[0]) * x[1] + t[1];
133 const T r2 = q_0 * q_0 + q_1 * q_1;
137 residuals[1] = y[1] - f * q_1;
207 const T q_1 = sin(theta[0]) * x[0] + cos(theta[0]) * x[1] + t[1];
208 const T r2 = q_0 * q_0 + q_1 * q_1;
212 residuals[1] = y[1] - f * q_1;
274 const T r2 = q_0 * q_0 + q_1 * q_1;
[all …]
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| /dports/math/ceres-solver/ceres-solver-2.0.0/docs/source/ |
| H A D | interfacing_with_autodiff.rst | 56 const T q_1 = sin(theta[0]) * x[0] + cos(theta[0]) * x[1] + t[1];
57 const T f = TemplatedComputeDistortion(q_0 * q_0 + q_1 * q_1);
59 residuals[1] = y[1] - f * q_1;
132 const T q_1 = sin(theta[0]) * x[0] + cos(theta[0]) * x[1] + t[1];
133 const T r2 = q_0 * q_0 + q_1 * q_1;
137 residuals[1] = y[1] - f * q_1;
207 const T q_1 = sin(theta[0]) * x[0] + cos(theta[0]) * x[1] + t[1];
208 const T r2 = q_0 * q_0 + q_1 * q_1;
212 residuals[1] = y[1] - f * q_1;
274 const T r2 = q_0 * q_0 + q_1 * q_1;
[all …]
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| /dports/science/py-cirq-aqt/Cirq-0.12.0/examples/ |
| H A D | qubit_characterizations_example.py | 30 q_1 = cirq.GridQubit(0, 1)
46 simulator, q_0, q_1, num_clifford_range=clifford_range, repetitions=100
56 cir_2q = cirq.Circuit(cirq.H(q_0), cirq.CNOT(q_0, q_1))
57 tomography_2q = cirq.experiments.two_qubit_state_tomography(simulator, q_0, q_1, cir_2q)
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| /dports/science/py-cirq-ionq/Cirq-0.13.1/examples/ |
| H A D | qubit_characterizations_example.py | 30 q_1 = cirq.GridQubit(0, 1)
46 simulator, q_0, q_1, num_clifford_range=clifford_range, repetitions=100
56 cir_2q = cirq.Circuit(cirq.H(q_0), cirq.CNOT(q_0, q_1))
57 tomography_2q = cirq.experiments.two_qubit_state_tomography(simulator, q_0, q_1, cir_2q)
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| /dports/science/py-cirq-pasqal/Cirq-0.13.1/examples/ |
| H A D | qubit_characterizations_example.py | 30 q_1 = cirq.GridQubit(0, 1)
46 simulator, q_0, q_1, num_clifford_range=clifford_range, repetitions=100
56 cir_2q = cirq.Circuit(cirq.H(q_0), cirq.CNOT(q_0, q_1))
57 tomography_2q = cirq.experiments.two_qubit_state_tomography(simulator, q_0, q_1, cir_2q)
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| /dports/science/py-cirq-core/Cirq-0.13.1/examples/ |
| H A D | qubit_characterizations_example.py | 30 q_1 = cirq.GridQubit(0, 1)
46 simulator, q_0, q_1, num_clifford_range=clifford_range, repetitions=100
56 cir_2q = cirq.Circuit(cirq.H(q_0), cirq.CNOT(q_0, q_1))
57 tomography_2q = cirq.experiments.two_qubit_state_tomography(simulator, q_0, q_1, cir_2q)
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| /dports/science/py-cirq-google/Cirq-0.13.0/examples/ |
| H A D | qubit_characterizations_example.py | 30 q_1 = cirq.GridQubit(0, 1)
46 simulator, q_0, q_1, num_clifford_range=clifford_range, repetitions=100
56 cir_2q = cirq.Circuit(cirq.H(q_0), cirq.CNOT(q_0, q_1))
57 tomography_2q = cirq.experiments.two_qubit_state_tomography(simulator, q_0, q_1, cir_2q)
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| /dports/science/tfel/tfel-3.4.0/include/TFEL/Material/ |
| H A D | GursonTvergaardNeedleman1982StressCriterion.ixx | 35 os << "{f_c: " << p.f_c << ", f_r: " << p.f_r << ", q_1: " << p.q_1
75 const auto delta = ((1. / p.q_1) - p.f_c) / (p.f_r - p.f_c);
83 1 / std::max(1 - 2 * p.q_1 * fstar + p.q_3 * fstar * fstar,
89 std::max(2 * p.q_1 * fstar, real(1.e-12));
105 seq2 * x * x + 2 * p.q_1 * fstar * ch - 1 - p.q_3 * fstar2;
150 const auto delta = ((1. / p.q_1) - p.f_c) / (p.f_r - p.f_c);
156 const auto q1q2 = p.q_1 * p.q_2;
171 const auto dS_df = (2 * p.q_1 * ch - 2 * p.q_3 * fstar) * dfstar;
213 const auto delta = ((1. / p.q_1) - p.f_c) / (p.f_r - p.f_c);
219 const auto q1q2 = p.q_1 * p.q_2;
[all …]
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