Running elegant at Mon Mar 30 14:03:13 2020

This is elegant 2020.2.0, Mar 30 2020, by M. Borland, J. Calvey, M. Carla', N. Carmignani, M. Ehrlichman, L. Emery, W. Guo, R. Lindberg, V. Sajaev, R. Soliday, Y.-P. Sun, C.-X. Wang, Y. Wang, Y. Wu, and A. Xiao.
=====================================================================================
Thanks for using elegant.  Please cite the following reference in your publications:
  M. Borland, "elegant: A Flexible SDDS-Compliant Code for Accelerator Simulation,"
  Advanced Photon Source LS-287, September 2000.
If you use a modified version, please indicate this in all publications.
=====================================================================================
Link date: Mar 30 2020 12:35:58, SVN revision: unknown
statistics:    ET:     00:00:00 CP:    0.02 BIO:0 DIO:0 PF:0 MEM:12850
&global_settings
    inhibit_fsync = 0,
    echo_namelists = 1,
    mpi_randomization_mode = 3,
    exact_normalized_emittance = 0,
    SR_gaussian_limit = 3.000000000000000e+00,
    inhibit_seed_permutation = 0,
    log_file = {NULL},
    error_log_file = {NULL},
    share_tracking_based_matrices = 1,
    parallel_tracking_based_matrices = 1,
    mpi_io_force_file_sync = 1,
    mpi_io_read_buffer_size = 0,
    mpi_io_write_buffer_size = 0,
    usleep_mpi_io_kludge = 0,
    tracking_matrix_step_factor = 1.000000000000000e+00,
    tracking_matrix_points = 9.000000000000000e+00,
    tracking_matrix_step_size[0] = 5.000000000000000e-05, 5.000000000000000e-05, 5.000000000000000e-05, 
        5.000000000000000e-05, 5.000000000000000e-05, 5.000000000000000e-05,
&end
statistics:    ET:     00:00:00 CP:    0.02 BIO:0 DIO:0 PF:0 MEM:12853
&run_setup
    lattice = ../cls.lte,
    use_beamline = ringsimple,
    rootname = cls,
    output = {NULL},
    centroid = {NULL},
    sigma = {NULL},
    final = {NULL},
    acceptance = {NULL},
    losses = {NULL},
    losses_include_global_coordinates = 0,
    magnets = {NULL},
    semaphore_file = {NULL},
    parameters = {NULL},
    rfc_reference_output = {NULL},
    combine_bunch_statistics = 0,
    wrap_around = 1,
    final_pass = 0,
    default_order = 2,
    concat_order = 0,
    print_statistics = 0,
    show_element_timing = 0,
    monitor_memory_usage = 0,
    random_number_seed = 123456789,
    correction_iterations = 1,
    echo_lattice = 0,
    p_central = 0.000000000000000e+00,
    p_central_mev = 2.900000000000000e+03,
    always_change_p0 = 0,
    load_balancing_on = 0,
    random_sequence_No = 1,
    expand_for = {NULL},
    tracking_updates = 1,
    search_path = {NULL},
    element_divisions = 0,
    back_tracking = 0,
&end
Seeding random number generators
computed value for QA.K1 is 1.958120724427950e+00
computed value for QB.K1 is 1.433326182104320e+00
computed value for QC.K1 is 2.045296790681960e+00
computed value for SD.K2 is -2.515134568069020e+01
computed value for SF.K2 is 3.924223012578860e+01
length of beamline RINGSIMPLE per pass: 1.708800000000003e+02 m
statistics:    ET:     00:00:00 CP:    0.03 BIO:0 DIO:0 PF:0 MEM:13019
&run_control
    n_steps = 1,
    bunch_frequency = 0.000000000000000e+00,
    n_indices = 0,
    n_passes = 10,
    n_passes_fiducial = 0,
    reset_rf_for_each_step = 1,
    first_is_fiducial = 0,
    restrict_fiducialization = 0,
    reset_scattering_seed = 0,
&end
statistics:    ET:     00:00:00 CP:    0.03 BIO:0 DIO:0 PF:0 MEM:13019
&bunched_beam
    bunch = {NULL},
    n_particles_per_bunch = 10,
    time_start = 0.000000000000000e+00,
    matched_to_cell = {NULL},
    emit_x = 0.000000000000000e+00,
    emit_nx = 0.000000000000000e+00,
    beta_x = 1.000000000000000e+00,
    alpha_x = 0.000000000000000e+00,
    eta_x = 0.000000000000000e+00,
    etap_x = 0.000000000000000e+00,
    emit_y = 0.000000000000000e+00,
    emit_ny = 0.000000000000000e+00,
    beta_y = 1.000000000000000e+00,
    alpha_y = 0.000000000000000e+00,
    eta_y = 0.000000000000000e+00,
    etap_y = 0.000000000000000e+00,
    use_twiss_command_values = 0,
    use_moments_output_values = 0,
    Po = 5.675157210661015e+03,
    sigma_dp = 0.000000000000000e+00,
    sigma_s = 0.000000000000000e+00,
    dp_s_coupling = 0.000000000000000e+00,
    emit_z = 0.000000000000000e+00,
    beta_z = 0.000000000000000e+00,
    alpha_z = 0.000000000000000e+00,
    momentum_chirp = 0.000000000000000e+00,
    one_random_bunch = 1,
    save_initial_coordinates = 1,
    limit_invariants = 0,
    symmetrize = 0,
    halton_sequence[0] = 0, 0, 0,
    halton_radix[0] = 0, 0, 0, 0, 0, 0,
    optimized_halton = 0,
    randomize_order[0] = 0, 0, 0,
    limit_in_4d = 0,
    enforce_rms_values[0] = 0, 0, 0,
    distribution_cutoff[0] = 2.000000000000000e+00, 2.000000000000000e+00, 2.000000000000000e+00,
    distribution_type[0] = gaussian, gaussian, gaussian,
    centroid[0] = 1.000000000000000e-05, 0.000000000000000e+00, 1.000000000000000e-05, 0.000000000000000e+00, 
        0.000000000000000e+00, 0.000000000000000e+00,
    first_is_fiducial = 0,
&end
statistics:    ET:     00:00:00 CP:    0.03 BIO:0 DIO:0 PF:0 MEM:13020
&track
    center_on_orbit = 0,
    center_momentum_also = 1,
    offset_by_orbit = 0,
    offset_momentum_also = 1,
    soft_failure = 1,
    use_linear_chromatic_matrix = 0,
    longitudinal_ring_only = 0,
    ibs_only = 0,
    stop_tracking_particle_limit = -1,
    check_beam_structure = 0,
    interrupt_file = %s.interrupt,
&end
Updating floor coordinates
tracking step 1
generating bunch 1
tracking 10 particles
30 Mar 20 14:03:13: This step establishes energy profile vs s (fiducial beam).
30 Mar 20 14:03:13: Rf phases/references reset.
10 particles present after pass 3        10 particles present after pass 10        
10 particles transmitted, total effort of 100 particle-turns
460800 multipole kicks done

Post-tracking output completed.
Tracking step completed   ET:     00:00:01 CP:    0.43 BIO:0 DIO:0 PF:0 MEM:13286


Finished tracking.
End of input data encountered.
statistics:    ET:     00:00:01 CP:    0.43 BIO:0 DIO:0 PF:0 MEM:13286
=====================================================================================
Thanks for using elegant.  Please cite the following reference in your publications:
  M. Borland, "elegant: A Flexible SDDS-Compliant Code for Accelerator Simulation,"
  Advanced Photon Source LS-287, September 2000.
If you use a modified version, please indicate this in all publications.
=====================================================================================
