Running elegant at Thu Feb  3 21:34:01 2022

This is elegant 2021.4.0 Nov 20 2021, by M. Borland, J. Calvey, M. Carla', N. Carmignani, AJ Dick, Z. Duan, 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.
Parallelized by Y. Wang, H. Shang, and M. Borland.
=====================================================================================
Thanks for using Pelegant.  Please cite the following references in your publications:
  M. Borland, "elegant: A Flexible SDDS-Compliant Code for Accelerator Simulation,"
  Advanced Photon Source LS-287, September 2000.
  Y. Wang and M. Borland, "Pelegant: A Parallel Accelerator Simulation Code for  
  Electron Generation and Tracking", Proceedings of the 12th Advanced Accelerator  
  Concepts Workshop, AIP Conf. Proc. 877, 241 (2006).
If you use a modified version, please indicate this in all publications.
=====================================================================================
Link date: Nov 20 2021 13:09:06, SVN revision: 28201M
MPI library version: Open MPI v2.0.2, package: Open MPI kmuriki@n0007.scs00 Distribution, ident: 2.0.2, repo rev: v2.0.1-348-ge291d0e, Jan 31, 2017
statistics:    ET:     00:00:00 CP:    0.16 BIO:0 DIO:0 PF:0 MEM:144498
&run_setup
    lattice = SR.lte,
    use_beamline = RING,
    rootname = {NULL},
    output = {NULL},
    centroid = {NULL},
    bpm_centroid = {NULL},
    sigma = {NULL},
    final = {NULL},
    acceptance = {NULL},
    losses = %s.lost,
    losses_include_global_coordinates = 0,
    losses_s_limit[0] = -1.797693134862316e+308, 1.797693134862316e+308,
    magnets = %s.mag,
    semaphore_file = {NULL},
    parameters = %s.param,
    suppress_parameter_defaults = 0,
    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 = 202111191033,
    correction_iterations = 1,
    echo_lattice = 0,
    p_central = 0.000000000000000e+00,
    p_central_mev = 2.000000000000000e+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 (mode=3)
computed value for MAINCAV.FREQ is 5.003922312117724e+08
computed value for HCAV.FREQ is 1.501176693635317e+09
computed value for DINJ5.L is 3.448710000000000e-01
computed value for DINJ6.L is 2.625000000000000e-01
computed value for D11.L is 5.145742000000000e-01
computed value for D11A.L is 4.770742000000000e-01
computed value for DX.L is 3.750000000000000e-02
computed value for D15A.L is 1.500000000000000e-01
computed value for D15B.L is 7.500000000000001e-02
computed value for DSEP.L is 1.000000000000000e-01
computed value for DS02A.L is 5.000000000000000e-01
computed value for DS02B.L is 1.535371000000000e+00
computed value for DS04A.L is 4.868750000000001e-01
computed value for DS04B.L is 5.878709999999998e-01
computed value for DS05A.L is 5.499999999999999e-01
computed value for DS05B.L is 8.853710000000001e-01
computed value for DS06A1.L is 5.000000000000000e-01
computed value for DS06B1.L is 3.537100000000004e-02
computed value for DS06A2.L is 4.600000000000000e-01
computed value for DS06A3.L is 4.593750000000000e-01
computed value for DS06B2.L is 3.787100000000021e-02
computed value for DS07A1.L is 5.250000000000000e-01
computed value for DS07B1.L is 3.353710000000000e-01
computed value for DS07A2.L is 4.625000000000000e-01
computed value for DS07B2.L is 5.853710000000000e-01
computed value for DS08A.L is 5.000000000000000e-01
computed value for DS08B.L is 5.353710000000000e-01
computed value for DS09A.L is 5.375000000000000e-01
computed value for DS09B.L is 3.853710000000001e-01
computed value for DS10A.L is 5.000000000000000e-01
computed value for DS10B.L is 5.353710000000000e-01
computed value for DS11A.L is 4.843750000000000e-01
computed value for DS11B.L is 5.978710000000000e-01
computed value for DS12A.L is 5.500000000000000e-01
computed value for DS12B.L is 3.353709999999999e-01
length of beamline RING per pass: 1.965096915599983e+02 m
statistics:    ET:     00:00:00 CP:    0.20 BIO:0 DIO:0 PF:0 MEM:145691
&insert_elements
    name = "QF* BEND1* CenOfStr* SECT*",
    type = {NULL},
    exclude = {NULL},
    skip = 1,
    disable = 0,
    insert_before = 0,
    add_at_start = 0,
    add_at_end = 1,
    s_start = 0.000000000000000e+00,
    s_end = 1.966000000000000e+02,
    element_def = TEST:TSCATTER,
    verbose = 0,
    total_occurrences = 0,
    occurrence[0] = 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 
        0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 
        0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
&end
statistics:    ET:     00:00:00 CP:    0.20 BIO:0 DIO:0 PF:0 MEM:146765
&load_parameters
    filename = test_DA.param,
    filename_list = {NULL},
    include_name_pattern = {NULL},
    include_item_pattern = {NULL},
    include_type_pattern = {NULL},
    exclude_name_pattern = {NULL},
    exclude_item_pattern = {NULL},
    exclude_type_pattern = {NULL},
    edit_name_command = {NULL},
    change_defined_values = 0,
    clear_settings = 0,
    allow_missing_files = 0,
    allow_missing_elements = 0,
    allow_missing_parameters = 0,
    force_occurence_data = 0,
    verbose = 0,
    skip_pages = 0,
    use_first = 0,
&end
Using single filename for parameter loading
Both numerical and string data columns present in file test_DA.param. Will use the latter for actual string quantities only.
statistics:    ET:     00:00:00 CP:    0.20 BIO:0 DIO:0 PF:0 MEM:146767
&alter_elements
    name = *,
    item = SYNCH_RAD,
    type = KQUAD,
    exclude = {NULL},
    value = 1.000000000000000e+00,
    string_value = {NULL},
    differential = 0,
    multiplicative = 0,
    alter_at_each_step = 1,
    alter_before_load_parameters = 0,
    verbose = 0,
    allow_missing_elements = 0,
    allow_missing_parameters = 0,
    start_occurence = 0,
    end_occurence = 0,
    occurence_step = 1,
    s_start = -1.000000000000000e+00,
    s_end = -1.000000000000000e+00,
    after = {NULL},
    before = {NULL},
&end
statistics:    ET:     00:00:00 CP:    0.21 BIO:0 DIO:0 PF:0 MEM:146767
&alter_elements
    name = *,
    item = SYNCH_RAD,
    type = KSEXT,
    exclude = {NULL},
    value = 1.000000000000000e+00,
    string_value = {NULL},
    differential = 0,
    multiplicative = 0,
    alter_at_each_step = 1,
    alter_before_load_parameters = 0,
    verbose = 0,
    allow_missing_elements = 0,
    allow_missing_parameters = 0,
    start_occurence = 0,
    end_occurence = 0,
    occurence_step = 1,
    s_start = -1.000000000000000e+00,
    s_end = -1.000000000000000e+00,
    after = {NULL},
    before = {NULL},
&end
statistics:    ET:     00:00:00 CP:    0.22 BIO:0 DIO:0 PF:0 MEM:146767
&alter_elements
    name = *,
    item = SYNCH_RAD,
    type = CSBEND,
    exclude = {NULL},
    value = 1.000000000000000e+00,
    string_value = {NULL},
    differential = 0,
    multiplicative = 0,
    alter_at_each_step = 1,
    alter_before_load_parameters = 0,
    verbose = 0,
    allow_missing_elements = 0,
    allow_missing_parameters = 0,
    start_occurence = 0,
    end_occurence = 0,
    occurence_step = 1,
    s_start = -1.000000000000000e+00,
    s_end = -1.000000000000000e+00,
    after = {NULL},
    before = {NULL},
&end
statistics:    ET:     00:00:00 CP:    0.22 BIO:0 DIO:0 PF:0 MEM:146767
&alter_elements
    name = *,
    item = ISR,
    type = KQUAD,
    exclude = {NULL},
    value = 0.000000000000000e+00,
    string_value = {NULL},
    differential = 0,
    multiplicative = 0,
    alter_at_each_step = 1,
    alter_before_load_parameters = 0,
    verbose = 0,
    allow_missing_elements = 0,
    allow_missing_parameters = 0,
    start_occurence = 0,
    end_occurence = 0,
    occurence_step = 1,
    s_start = -1.000000000000000e+00,
    s_end = -1.000000000000000e+00,
    after = {NULL},
    before = {NULL},
&end
statistics:    ET:     00:00:00 CP:    0.22 BIO:0 DIO:0 PF:0 MEM:146767
&alter_elements
    name = *,
    item = ISR,
    type = KSEXT,
    exclude = {NULL},
    value = 0.000000000000000e+00,
    string_value = {NULL},
    differential = 0,
    multiplicative = 0,
    alter_at_each_step = 1,
    alter_before_load_parameters = 0,
    verbose = 0,
    allow_missing_elements = 0,
    allow_missing_parameters = 0,
    start_occurence = 0,
    end_occurence = 0,
    occurence_step = 1,
    s_start = -1.000000000000000e+00,
    s_end = -1.000000000000000e+00,
    after = {NULL},
    before = {NULL},
&end
statistics:    ET:     00:00:00 CP:    0.22 BIO:0 DIO:0 PF:0 MEM:146767
&alter_elements
    name = *,
    item = ISR,
    type = CSBEND,
    exclude = {NULL},
    value = 0.000000000000000e+00,
    string_value = {NULL},
    differential = 0,
    multiplicative = 0,
    alter_at_each_step = 1,
    alter_before_load_parameters = 0,
    verbose = 0,
    allow_missing_elements = 0,
    allow_missing_parameters = 0,
    start_occurence = 0,
    end_occurence = 0,
    occurence_step = 1,
    s_start = -1.000000000000000e+00,
    s_end = -1.000000000000000e+00,
    after = {NULL},
    before = {NULL},
&end
statistics:    ET:     00:00:00 CP:    0.22 BIO:0 DIO:0 PF:0 MEM:146767
&run_control
    n_steps = 1,
    bunch_frequency = 0.000000000000000e+00,
    n_indices = 0,
    n_passes = 4000,
    n_passes_fiducial = 0,
    terminate_on_failure = 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:    0.22 BIO:0 DIO:0 PF:0 MEM:146767
&closed_orbit
    output = %s.clo,
    start_from_centroid = 1,
    start_from_dp_centroid = 0,
    closed_orbit_accuracy = 1.000000000000000e-09,
    closed_orbit_accuracy_requirement = 1.000000000000000e-07,
    closed_orbit_iterations = 500,
    fixed_length = 0,
    start_from_recirc = 0,
    verbosity = 1,
    iteration_fraction = 9.000000000000000e-01,
    fraction_multiplier = 1.050000000000000e+00,
    multiplier_interval = 5.000000000000000e+00,
    output_monitors_only = 0,
    tracking_turns = 0,
    disable = 0,
    immediate = 0,
&end
statistics:    ET:     00:00:00 CP:    0.22 BIO:0 DIO:0 PF:0 MEM:146769
&twiss_output
    filename = %s.twi,
    matched = 1,
    output_at_each_step = 1,
    output_before_tune_correction = 0,
    final_values_only = 0,
    statistics = 1,
    radiation_integrals = 1,
    beta_x = 1.000000000000000e+00,
    alpha_x = 0.000000000000000e+00,
    eta_x = 0.000000000000000e+00,
    etap_x = 0.000000000000000e+00,
    beta_y = 1.000000000000000e+00,
    alpha_y = 0.000000000000000e+00,
    eta_y = 0.000000000000000e+00,
    etap_y = 0.000000000000000e+00,
    reference_file = {NULL},
    reference_element = {NULL},
    reference_element_occurrence = 0,
    reflect_reference_values = 0,
    concat_order = 3,
    higher_order_chromaticity = 1,
    higher_order_chromaticity_points = 5,
    higher_order_chromaticity_range = 4.000000000000000e-04,
    quick_higher_order_chromaticity = 0,
    chromatic_tune_spread_half_range = 0.000000000000000e+00,
    cavities_are_drifts_if_matched = 1,
    compute_driving_terms = 1,
    leading_order_driving_terms_only = 0,
    s_dependent_driving_terms_file = {NULL},
    local_dispersion = 1,
    n_periods = 1,
&end
statistics:    ET:     00:00:00 CP:    0.22 BIO:0 DIO:0 PF:0 MEM:146771
&momentum_aperture
    output = %s.mmap,
    x_initial = 1.000000000000000e-06,
    y_initial = 1.000000000000000e-06,
    delta_negative_limit = -4.000000000000000e-02,
    delta_positive_limit = 4.000000000000000e-02,
    delta_negative_start = -1.000000000000000e-02,
    delta_positive_start = 1.000000000000000e-02,
    delta_step_size = 1.000000000000000e-04,
    splits = 0,
    steps_back = 0,
    split_step_divisor = 2,
    skip_elements = 0,
    process_elements = 2147483647,
    s_start = 0.000000000000000e+00,
    s_end = 1.640000000000000e+01,
    include_name_pattern = TEST,
    include_type_pattern = {NULL},
    fiducialize = 0,
    verbosity = 4,
    soft_failure = 1,
    output_mode = 2,
    forbid_resonance_crossing = 0,
    allow_watch_file_output = 0,
&end
1128 matrices (re)computed
Updating floor coordinates
tracking step 1
Tracking fiducial particle (runFiducialParticle)
3 Feb 22 21:34:01: This step establishes energy profile vs s (fiducial beam).
3 Feb 22 21:34:01: Rf phases/references reset.
Determining reference trajectory for CSBEND BEND1#1 at s=3.342871e+00
Determining reference trajectory for CSBEND QF2#1 at s=4.112871e+00
Determining reference trajectory for CSBEND QF3#1 at s=4.732871e+00
Determining reference trajectory for CSBEND BEND2#1 at s=5.072871e+00
Determining reference trajectory for CSBEND QF4#1 at s=5.647871e+00
Determining reference trajectory for CSBEND BEND3#1 at s=6.027871e+00
Determining reference trajectory for CSBEND QF5#1 at s=6.602871e+00
Determining reference trajectory for CSBEND BEND3#2 at s=6.982871e+00
Determining reference trajectory for CSBEND QF6#1 at s=7.557871e+00
Determining reference trajectory for CSBEND BEND3#3 at s=7.937871e+00
Determining reference trajectory for CSBEND QF6#2 at s=8.512871e+00
Determining reference trajectory for CSBEND BEND3#4 at s=8.892871e+00
Determining reference trajectory for CSBEND QF5#2 at s=9.467871e+00
Determining reference trajectory for CSBEND BEND3#5 at s=9.847871e+00
Determining reference trajectory for CSBEND QF4#2 at s=1.042287e+01
Determining reference trajectory for CSBEND BEND2#2 at s=1.080287e+01
Determining reference trajectory for CSBEND QF3#2 at s=1.152787e+01
Determining reference trajectory for CSBEND QF2#2 at s=1.207287e+01
Determining reference trajectory for CSBEND BEND1#2 at s=1.269287e+01
Determining reference trajectory for CSBEND BEND1#3 at s=1.971861e+01
Determining reference trajectory for CSBEND QF2#3 at s=2.048861e+01
Determining reference trajectory for CSBEND QF3#3 at s=2.110861e+01
Determining reference trajectory for CSBEND BEND2#3 at s=2.144861e+01
Determining reference trajectory for CSBEND QF4#3 at s=2.202361e+01
Determining reference trajectory for CSBEND BEND3#6 at s=2.240361e+01
Determining reference trajectory for CSBEND QF5#3 at s=2.297861e+01
Determining reference trajectory for CSBEND BEND3#7 at s=2.335861e+01
Determining reference trajectory for CSBEND QF6#3 at s=2.393361e+01
Determining reference trajectory for CSBEND BEND3#8 at s=2.431361e+01
Determining reference trajectory for CSBEND QF6#4 at s=2.488861e+01
Determining reference trajectory for CSBEND BEND3#9 at s=2.526861e+01
Determining reference trajectory for CSBEND QF5#4 at s=2.584361e+01
Determining reference trajectory for CSBEND BEND3#10 at s=2.622361e+01
Determining reference trajectory for CSBEND QF4#4 at s=2.679861e+01
Determining reference trajectory for CSBEND BEND2#4 at s=2.717861e+01
Determining reference trajectory for CSBEND QF3#4 at s=2.790361e+01
Determining reference trajectory for CSBEND QF2#4 at s=2.844861e+01
Determining reference trajectory for CSBEND BEND1#4 at s=2.906861e+01
Determining reference trajectory for CSBEND BEND1#5 at s=3.609436e+01
Determining reference trajectory for CSBEND QF2#5 at s=3.686436e+01
Determining reference trajectory for CSBEND QF3#5 at s=3.748436e+01
Determining reference trajectory for CSBEND BEND2#5 at s=3.782436e+01
Determining reference trajectory for CSBEND QF4#5 at s=3.839936e+01
Determining reference trajectory for CSBEND BEND3#11 at s=3.877936e+01
Determining reference trajectory for CSBEND QF5#5 at s=3.935436e+01
Determining reference trajectory for CSBEND BEND3#12 at s=3.973436e+01
Determining reference trajectory for CSBEND QF6#5 at s=4.030936e+01
Determining reference trajectory for CSBEND BEND3#13 at s=4.068936e+01
Determining reference trajectory for CSBEND QF6#6 at s=4.126436e+01
Determining reference trajectory for CSBEND BEND3#14 at s=4.164436e+01
Determining reference trajectory for CSBEND QF5#6 at s=4.221936e+01
Determining reference trajectory for CSBEND BEND3#15 at s=4.259936e+01
Determining reference trajectory for CSBEND QF4#6 at s=4.317436e+01
Determining reference trajectory for CSBEND BEND2#6 at s=4.355436e+01
Determining reference trajectory for CSBEND QF3#6 at s=4.427936e+01
Determining reference trajectory for CSBEND QF2#6 at s=4.482436e+01
Determining reference trajectory for CSBEND BEND1#6 at s=4.544436e+01
Determining reference trajectory for CSBEND BEND1#7 at s=5.247010e+01
Determining reference trajectory for CSBEND QF2#7 at s=5.324010e+01
Determining reference trajectory for CSBEND QF3#7 at s=5.386010e+01
Determining reference trajectory for CSBEND BEND2B#1 at s=5.420010e+01
Determining reference trajectory for CSBEND QF4B#1 at s=5.477510e+01
Determining reference trajectory for CSBEND BEND3B#1 at s=5.515510e+01
Determining reference trajectory for CSBEND QF5B#1 at s=5.573010e+01
Determining reference trajectory for CSBEND SB#1 at s=5.629271e+01
Determining reference trajectory for CSBEND QF6B#1 at s=5.668523e+01
Determining reference trajectory for CSBEND BEND3B#2 at s=5.706523e+01
Determining reference trajectory for CSBEND QF6B#2 at s=5.764023e+01
Determining reference trajectory for CSBEND SB#2 at s=5.820284e+01
Determining reference trajectory for CSBEND QF5B#2 at s=5.859536e+01
Determining reference trajectory for CSBEND BEND2B#2 at s=5.897536e+01
Determining reference trajectory for CSBEND QF4B#2 at s=5.955036e+01
Determining reference trajectory for CSBEND BEND2B#3 at s=5.993036e+01
Determining reference trajectory for CSBEND QF3#8 at s=6.065536e+01
Determining reference trajectory for CSBEND QF2#8 at s=6.120036e+01
Determining reference trajectory for CSBEND BEND1#8 at s=6.182036e+01
Determining reference trajectory for CSBEND BEND1#9 at s=6.884610e+01
Determining reference trajectory for CSBEND QF2#9 at s=6.961610e+01
Determining reference trajectory for CSBEND QF3#9 at s=7.023610e+01
Determining reference trajectory for CSBEND BEND2#7 at s=7.057610e+01
Determining reference trajectory for CSBEND QF4#7 at s=7.115110e+01
Determining reference trajectory for CSBEND BEND3#16 at s=7.153110e+01
Determining reference trajectory for CSBEND QF5#7 at s=7.210610e+01
Determining reference trajectory for CSBEND BEND3#17 at s=7.248610e+01
Determining reference trajectory for CSBEND QF6#7 at s=7.306110e+01
Determining reference trajectory for CSBEND BEND3#18 at s=7.344110e+01
Determining reference trajectory for CSBEND QF6#8 at s=7.401610e+01
Determining reference trajectory for CSBEND BEND3#19 at s=7.439610e+01
Determining reference trajectory for CSBEND QF5#8 at s=7.497110e+01
Determining reference trajectory for CSBEND BEND3#20 at s=7.535110e+01
Determining reference trajectory for CSBEND QF4#8 at s=7.592610e+01
Determining reference trajectory for CSBEND BEND2#8 at s=7.630610e+01
Determining reference trajectory for CSBEND QF3#10 at s=7.703110e+01
Determining reference trajectory for CSBEND QF2#10 at s=7.757610e+01
Determining reference trajectory for CSBEND BEND1#10 at s=7.819610e+01
Determining reference trajectory for CSBEND BEND1#11 at s=8.522184e+01
Determining reference trajectory for CSBEND QF2#11 at s=8.599184e+01
Determining reference trajectory for CSBEND QF3#11 at s=8.661184e+01
Determining reference trajectory for CSBEND BEND2#9 at s=8.695184e+01
Determining reference trajectory for CSBEND QF4#9 at s=8.752684e+01
Determining reference trajectory for CSBEND BEND3#21 at s=8.790684e+01
Determining reference trajectory for CSBEND QF5#9 at s=8.848184e+01
Determining reference trajectory for CSBEND BEND3#22 at s=8.886184e+01
Determining reference trajectory for CSBEND QF6#9 at s=8.943684e+01
Determining reference trajectory for CSBEND BEND3#23 at s=8.981684e+01
Determining reference trajectory for CSBEND QF6#10 at s=9.039184e+01
Determining reference trajectory for CSBEND BEND3#24 at s=9.077184e+01
Determining reference trajectory for CSBEND QF5#10 at s=9.134684e+01
Determining reference trajectory for CSBEND BEND3#25 at s=9.172684e+01
Determining reference trajectory for CSBEND QF4#10 at s=9.230184e+01
Determining reference trajectory for CSBEND BEND2#10 at s=9.268184e+01
Determining reference trajectory for CSBEND QF3#12 at s=9.340684e+01
Determining reference trajectory for CSBEND QF2#12 at s=9.395184e+01
Determining reference trajectory for CSBEND BEND1#12 at s=9.457184e+01
Determining reference trajectory for CSBEND BEND1#13 at s=1.015976e+02
Determining reference trajectory for CSBEND QF2#13 at s=1.023676e+02
Determining reference trajectory for CSBEND QF3#13 at s=1.029876e+02
Determining reference trajectory for CSBEND BEND2#11 at s=1.033276e+02
Determining reference trajectory for CSBEND QF4#11 at s=1.039026e+02
Determining reference trajectory for CSBEND BEND3#26 at s=1.042826e+02
Determining reference trajectory for CSBEND QF5#11 at s=1.048576e+02
Determining reference trajectory for CSBEND BEND3#27 at s=1.052376e+02
Determining reference trajectory for CSBEND QF6#11 at s=1.058126e+02
Determining reference trajectory for CSBEND BEND3#28 at s=1.061926e+02
Determining reference trajectory for CSBEND QF6#12 at s=1.067676e+02
Determining reference trajectory for CSBEND BEND3#29 at s=1.071476e+02
Determining reference trajectory for CSBEND QF5#12 at s=1.077226e+02
Determining reference trajectory for CSBEND BEND3#30 at s=1.081026e+02
Determining reference trajectory for CSBEND QF4#12 at s=1.086776e+02
Determining reference trajectory for CSBEND BEND2#12 at s=1.090576e+02
Determining reference trajectory for CSBEND QF3#14 at s=1.097826e+02
Determining reference trajectory for CSBEND QF2#14 at s=1.103276e+02
Determining reference trajectory for CSBEND BEND1#14 at s=1.109476e+02
Determining reference trajectory for CSBEND BEND1#15 at s=1.179733e+02
Determining reference trajectory for CSBEND QF2#15 at s=1.187433e+02
Determining reference trajectory for CSBEND QF3#15 at s=1.193633e+02
Determining reference trajectory for CSBEND BEND2B#4 at s=1.197033e+02
Determining reference trajectory for CSBEND QF4B#3 at s=1.202783e+02
Determining reference trajectory for CSBEND BEND3B#3 at s=1.206583e+02
Determining reference trajectory for CSBEND QF5B#3 at s=1.212333e+02
Determining reference trajectory for CSBEND SB#3 at s=1.217959e+02
Determining reference trajectory for CSBEND QF6B#3 at s=1.221885e+02
Determining reference trajectory for CSBEND BEND3B#4 at s=1.225685e+02
Determining reference trajectory for CSBEND QF6B#4 at s=1.231435e+02
Determining reference trajectory for CSBEND SB#4 at s=1.237061e+02
Determining reference trajectory for CSBEND QF5B#4 at s=1.240986e+02
Determining reference trajectory for CSBEND BEND2B#5 at s=1.244786e+02
Determining reference trajectory for CSBEND QF4B#4 at s=1.250536e+02
Determining reference trajectory for CSBEND BEND2B#6 at s=1.254336e+02
Determining reference trajectory for CSBEND QF3#16 at s=1.261586e+02
Determining reference trajectory for CSBEND QF2#16 at s=1.267036e+02
Determining reference trajectory for CSBEND BEND1#16 at s=1.273236e+02
Determining reference trajectory for CSBEND BEND1#17 at s=1.343493e+02
Determining reference trajectory for CSBEND QF2#17 at s=1.351193e+02
Determining reference trajectory for CSBEND QF3#17 at s=1.357393e+02
Determining reference trajectory for CSBEND BEND2#13 at s=1.360793e+02
Determining reference trajectory for CSBEND QF4#13 at s=1.366543e+02
Determining reference trajectory for CSBEND BEND3#31 at s=1.370343e+02
Determining reference trajectory for CSBEND QF5#13 at s=1.376093e+02
Determining reference trajectory for CSBEND BEND3#32 at s=1.379893e+02
Determining reference trajectory for CSBEND QF6#13 at s=1.385643e+02
Determining reference trajectory for CSBEND BEND3#33 at s=1.389443e+02
Determining reference trajectory for CSBEND QF6#14 at s=1.395193e+02
Determining reference trajectory for CSBEND BEND3#34 at s=1.398993e+02
Determining reference trajectory for CSBEND QF5#14 at s=1.404743e+02
Determining reference trajectory for CSBEND BEND3#35 at s=1.408543e+02
Determining reference trajectory for CSBEND QF4#14 at s=1.414293e+02
Determining reference trajectory for CSBEND BEND2#14 at s=1.418093e+02
Determining reference trajectory for CSBEND QF3#18 at s=1.425343e+02
Determining reference trajectory for CSBEND QF2#18 at s=1.430793e+02
Determining reference trajectory for CSBEND BEND1#18 at s=1.436993e+02
Determining reference trajectory for CSBEND BEND1#19 at s=1.507251e+02
Determining reference trajectory for CSBEND QF2#19 at s=1.514951e+02
Determining reference trajectory for CSBEND QF3#19 at s=1.521151e+02
Determining reference trajectory for CSBEND BEND2#15 at s=1.524551e+02
Determining reference trajectory for CSBEND QF4#15 at s=1.530301e+02
Determining reference trajectory for CSBEND BEND3#36 at s=1.534101e+02
Determining reference trajectory for CSBEND QF5#15 at s=1.539851e+02
Determining reference trajectory for CSBEND BEND3#37 at s=1.543651e+02
Determining reference trajectory for CSBEND QF6#15 at s=1.549401e+02
Determining reference trajectory for CSBEND BEND3#38 at s=1.553201e+02
Determining reference trajectory for CSBEND QF6#16 at s=1.558951e+02
Determining reference trajectory for CSBEND BEND3#39 at s=1.562751e+02
Determining reference trajectory for CSBEND QF5#16 at s=1.568501e+02
Determining reference trajectory for CSBEND BEND3#40 at s=1.572301e+02
Determining reference trajectory for CSBEND QF4#16 at s=1.578051e+02
Determining reference trajectory for CSBEND BEND2#16 at s=1.581851e+02
Determining reference trajectory for CSBEND QF3#20 at s=1.589101e+02
Determining reference trajectory for CSBEND QF2#20 at s=1.594551e+02
Determining reference trajectory for CSBEND BEND1#20 at s=1.600751e+02
Determining reference trajectory for CSBEND BEND1#21 at s=1.671008e+02
Determining reference trajectory for CSBEND QF2#21 at s=1.678708e+02
Determining reference trajectory for CSBEND QF3#21 at s=1.684908e+02
Determining reference trajectory for CSBEND BEND2#17 at s=1.688308e+02
Determining reference trajectory for CSBEND QF4#17 at s=1.694058e+02
Determining reference trajectory for CSBEND BEND3#41 at s=1.697858e+02
Determining reference trajectory for CSBEND QF5#17 at s=1.703608e+02
Determining reference trajectory for CSBEND BEND3#42 at s=1.707408e+02
Determining reference trajectory for CSBEND QF6#17 at s=1.713158e+02
Determining reference trajectory for CSBEND BEND3#43 at s=1.716958e+02
Determining reference trajectory for CSBEND QF6#18 at s=1.722708e+02
Determining reference trajectory for CSBEND BEND3#44 at s=1.726508e+02
Determining reference trajectory for CSBEND QF5#18 at s=1.732258e+02
Determining reference trajectory for CSBEND BEND3#45 at s=1.736058e+02
Determining reference trajectory for CSBEND QF4#18 at s=1.741808e+02
Determining reference trajectory for CSBEND BEND2#18 at s=1.745608e+02
Determining reference trajectory for CSBEND QF3#22 at s=1.752858e+02
Determining reference trajectory for CSBEND QF2#22 at s=1.758308e+02
Determining reference trajectory for CSBEND BEND1#22 at s=1.764508e+02
Determining reference trajectory for CSBEND BEND1#23 at s=1.834766e+02
Determining reference trajectory for CSBEND QF2#23 at s=1.842466e+02
Determining reference trajectory for CSBEND QF3#23 at s=1.848666e+02
Determining reference trajectory for CSBEND BEND2B#7 at s=1.852066e+02
Determining reference trajectory for CSBEND QF4B#5 at s=1.857816e+02
Determining reference trajectory for CSBEND BEND3B#5 at s=1.861616e+02
Determining reference trajectory for CSBEND QF5B#5 at s=1.867366e+02
Determining reference trajectory for CSBEND SB#5 at s=1.872992e+02
Determining reference trajectory for CSBEND QF6B#5 at s=1.876917e+02
Determining reference trajectory for CSBEND BEND3B#6 at s=1.880717e+02
Determining reference trajectory for CSBEND QF6B#6 at s=1.886467e+02
Determining reference trajectory for CSBEND SB#6 at s=1.892093e+02
Determining reference trajectory for CSBEND QF5B#6 at s=1.896018e+02
Determining reference trajectory for CSBEND BEND2B#8 at s=1.899818e+02
Determining reference trajectory for CSBEND QF4B#6 at s=1.905568e+02
Determining reference trajectory for CSBEND BEND2B#9 at s=1.909368e+02
Determining reference trajectory for CSBEND QF3#24 at s=1.916618e+02
Determining reference trajectory for CSBEND QF2#24 at s=1.922068e+02
Determining reference trajectory for CSBEND BEND1#24 at s=1.928268e+02
Tracking fiducial particle completed.
Starting point for closed orbit
0.000000e+00, 0.000000e+00, 0.000000e+00, 0.000000e+00, 0.000000e+00, 0.000000e+00
closed orbit: 
-4.70097973e-06 1.74098715e-06 -1.13112377e-05 3.03015046e-06 0.00000000e+00 0.00000000e+00 
periodic Twiss parameters (chromaticity valid for fully second-order calculation only!):
         beta          alpha           nu           eta          eta'       dnu/d(dp/p)   dbeta/(dp/p)     accept.
          m                          1/2pi           m                         1/2pi            m          mm-mrad
--------------------------------------------------------------------------------------------------------------------
  x:  2.031888e+00  1.931753e-02  4.135755e+01  2.097479e-04 -4.821846e-04  2.041068e+00  2.156045e+01  8.157384e-01
ave:  1.967879e+00 -1.562539e-04                1.040830e-02 -2.236009e-06
min:  2.588288e-01 -1.016640e+01               -2.337356e-03 -6.442006e-02
max:  5.847062e+00  1.011302e+01                4.291077e-02  6.401903e-02
  y:  2.939990e+00  3.995441e-02  2.035161e+01 -5.494591e-04  6.572132e-04  1.460577e+00 -4.618924e+01  8.904701e-01
ave:  3.564975e+00 -1.578940e-05                9.557577e-05 -2.238003e-07
min:  2.307477e-01 -2.424789e+01               -5.716733e-03 -7.875484e-03
max:  1.602620e+01  2.430681e+01                5.279939e-03  9.835523e-03
x acceptance limited to 8.157384e-07 by APERI4 ending at 1.945817e+02 m
y acceptance limited to 8.904701e-07 by APERS08 ending at 1.126305e+02 m
Saving lattice parameters to test_MA.param...done.
Warning: In parallel version, limited intermediate information will be provided
Branching multiple particle mode
Started multi-particle  LMA algorithm
Warning: The number of working processors (23) does not evenly divide into the number of particles (nDelta=601, nElem=17)
nTotal = 10217, n_working_processors = 23, nDelta = 601, deltaStep = 1.000000e-04, nElements = 17, nEachProcessor = 445
Fiducial particle tracked.
Fiducalization completed (2).
Waiting for tracking to complete
Lost-particle gather done
Returning from LMA search main routine.
Finished all tracking steps.
Finished momentum aperture search.
End of input data encountered.
Terminating run with 24 total processors
statistics:    ET:     00:34:57 CP: 2098.01 BIO:0 DIO:0 PF:0 MEM:151663
=====================================================================================
Thanks for using Pelegant.  Please cite the following references in your publications:
  M. Borland, "elegant: A Flexible SDDS-Compliant Code for Accelerator Simulation,"
  Advanced Photon Source LS-287, September 2000.
  Y. Wang and M. Borland, "Pelegant: A Parallel Accelerator Simulation Code for  
  Electron Generation and Tracking", Proceedings of the 12th Advanced Accelerator  
  Concepts Workshop, AIP Conf. Proc. 877, 241 (2006).
If you use a modified version, please indicate this in all publications.
=====================================================================================
