virtual void SetUp()
{
f_vector_2d_t momentumVec(n_sections, f_vector_t(N_t + 1));
for (auto &v : momentumVec)
mymath::linspace(v.data(), p_i, p_f, N_t + 1);
f_vector_2d_t alphaVec(n_sections , f_vector_t(alpha_order+1, alpha));
f_vector_t CVec(n_sections, C);
f_vector_2d_t hVec(n_sections , f_vector_t(N_t + 1, h));
f_vector_2d_t voltageVec(n_sections , f_vector_t(N_t + 1, V));
f_vector_2d_t dphiVec(n_sections , f_vector_t(N_t + 1, dphi));
Context::GP = new GeneralParameters(N_t, CVec, alphaVec, alpha_order, momentumVec,
proton);
Context::Beam = new Beams(N_p, N_b);
Context::RfP = new RfParameters(n_sections, hVec, voltageVec, dphiVec);
longitudinal_bigaussian(tau_0 / 4, 0, -1, false);
Context::Slice = new Slices(N_slices);
}
virtual void SetUp()
{
f_vector_2d_t momentumVec(n_sections, f_vector_t(N_t + 1, p_i));
f_vector_2d_t alphaVec(n_sections, f_vector_t(alpha_order + 1, alpha));
f_vector_t CVec(n_sections, C);
f_vector_2d_t hVec(n_sections , f_vector_t(N_t + 1, h));
f_vector_2d_t voltageVec(n_sections , f_vector_t(N_t + 1, V));
f_vector_2d_t dphiVec(n_sections , f_vector_t(N_t + 1, dphi));
Context::GP = new GeneralParameters(N_t, CVec, alphaVec, alpha_order,
momentumVec, proton);
Context::Beam = new Beams(N_p, N_b);
Context::RfP = new RfParameters(n_sections, hVec, voltageVec, dphiVec);
// long_tracker = new RingAndRfSection();
Context::Slice = new Slices(N_slices, 0,
-constant::pi,
constant::pi,
cuts_unit_type::rad);
}
virtual void SetUp()
{
f_vector_2d_t momentumVec(n_sections, f_vector_t(N_t + 1));
for (auto &v : momentumVec)
mymath::linspace(v.data(), p_i, 1.01 * p_i, N_t + 1);
f_vector_2d_t alphaVec(n_sections, f_vector_t(alpha_order, alpha));
f_vector_t CVec(n_sections, C);
f_vector_2d_t hVec(n_sections, f_vector_t(N_t + 1, h));
f_vector_2d_t voltageVec(n_sections, f_vector_t(N_t + 1, V));
f_vector_2d_t dphiVec(n_sections, f_vector_t(N_t + 1, dphi));
Context::GP = new GeneralParameters(N_t, CVec, alphaVec,
momentumVec,
GeneralParameters::particle_t::proton);
auto GP = Context::GP;
auto Beam = Context::Beam = new Beams(GP, N_p, N_b);
auto RfP = Context::RfP = new RfParameters(GP, n_sections, hVec,
voltageVec, dphiVec);
// RingAndRfSection *long_tracker = new RingAndRfSection();
// longitudinal_bigaussian(GP, RfP, Beam, tau_0 / 4, 0, -1, false);
Context::Slice = new Slices(RfP, Beam, N_slices);
}
virtual void SetUp()
{
omp_set_num_threads(1);
f_vector_2d_t momentumVec(n_sections, f_vector_t(N_t + 1, p_i));
f_vector_2d_t alphaVec(n_sections, f_vector_t(alpha_order, alpha));
f_vector_t CVec(n_sections, C);
f_vector_2d_t hVec(n_sections, f_vector_t(N_t + 1, h));
f_vector_2d_t voltageVec(n_sections, f_vector_t(N_t + 1, V));
f_vector_2d_t dphiVec(n_sections, f_vector_t(N_t + 1, dphi));
Context::GP = new GeneralParameters(N_t, CVec, alphaVec,
momentumVec,
GeneralParameters::particle_t::proton);
// Context::Beam = new Beams(N_p, N_b);
auto GP = Context::GP;
auto Beam = Context::Beam = new Beams(GP, N_p, N_b);
Context::RfP = new RfParameters(GP, n_sections, hVec,
voltageVec, dphiVec);
RfP1 = new RfParameters(GP, n_sections, hVec, voltageVec, dphiVec);
RfP2 = new RfParameters(GP, n_sections, hVec, voltageVec, dphiVec);
long_tracker1 = new RingAndRfSection(RfP1);
long_tracker2 = new RingAndRfSection(RfP2);
// long_tracker = new RingAndRfSection(RfP);
// Context::Slice = new Slices(RfP, Beam, N_slices, 0, -constant::pi, constant::pi,
// cuts_unit_type::rad);
}
