Table of Contents

Auto3DEM User Guide

Introduction

Auto3DEM is an automated system for 3D structure determination from images of vitrified particles. The software was specifically developed for icosahedral viruses, but should be able to handle particles of any symmetry as long as the particles are roughly spherical and their images can readily be divided into circular annuli. Even this restriction can be relaxed if auto3dem is run in refine mode from the beginning: if initial orientations for the images are not available, they can be determined using the global search option (see po2r arguments).

The software can be run in either serial or parallel mode, but for best performance the latter is preferred. The underlying programs called by auto3dem have all been parallelized using MPI and you will need to have an MPI implementation (e.g. MPICH or OpenMPI) installed on your computer hardware in order to run in parallel mode.

If a starting model is not available, one can be constructed (only for icosahedral particles) with the aid of the script setup_rmc that is distributed with the software (see Generating a starting model). setup_rmc creates the input files needed to construct multiple random models, run each for a specified number of iterations, and compare the results to identify what is likely the best starting map.

Running auto3dem

Data files and directory structure

Auto3DEM does not require the data files to be in any particular location, but we find it most convenient to place the particle parameter files and boxed image files in directories named dat and pif, respectively. An example directory structure is given below.

Virus/
      dat/
          file1.dat_000
          file2.dat_000
      pif/
          file1_box.pif
          file2_box.pif

To maximize flexibility and avoid having to edit the particle parameter files when calculations are run in different locations, we suggest using relative path names to specify the locations of the corresponding boxed images. For example, the first line of the parameter file file1.dat_000 would contain the line

../pif/file1_box.pif

Launching a new run

Auto3DEM is launched from the Unix/Linux command line or from within a batch script using the following syntax

auto3dem -ncpu ncpu -input infile [-nodefile nfile]

where

ncpu = number of CPUs (can also use -np)
infile = auto3dem input file
nfile = name of file containing list of nodes (optional)

The node file does not generally need to be specified. This option is provided for those users who wish to run on a specific set of nodes. It is also used internally for jobs run on batch systems that use the PBS scheduler.

If launching auto3dem from the command line, you will most likely wish to run the program in the background by appending an ampersand (&) to the end of the line. When running on the same machine where the job was submitted, the CPU and memory usage can be monitored using the Linux top command.

Other than the number of CPUs, all parameters that control the behaviour of auto3dem are set in the input parameter file. The majority of the rest of this document focuses on constructing this file.

Summary file

auto3dem writes out a summary file that keeps track of important reconstruction parameters as a function of iteration number. Example output is shown below

------ AUTO3DEM version v4.05.1 (parallel) ------

 
itr:          iteration number
              0 = starting map constructed from images
mode:         s(n) = search mode (PPFT)  w/ n=binfactor
              r(l) = refine mode (PO2R)  local search
              r(g) = refine mode (PO2R)  global search
              r(m) = refine mode (PO2R)  only magnification
              r(c) = refine mode (PCTFR) only CTF
estres:       estimated resolution of model
              * = FSC never < 0.5
delta:        spacing between solutions tested (degrees/microns)
map undamp:   resolution to which map is computed
map damp:     resolution at which map density damped to zero
time:         wallclock time for iteration
cpu:          number of CPUs (MPI processes)
nptles:       number ptles used to construct map
ntot:         total number ptles in parameter files
nmg:          number of micrographs
defocus       defocus range (microns)
 
All resolutions expressed in Angstroms, times in seconds

                 delta   map    map
itr mode estres  angle undamp  damp   time cpu nptles  ntot  nmg  defocus
--- ---- ------ ------ ------ ------ ----- --- ------ ------ --- ---------
  1 s(2) 21.98    2.07  15.79  13.64    27   2    606    608   5 1.58-4.22
  2 s(2) 18.00    1.70  14.03  12.30    25   2    607    608   5 1.58-4.22
  3 s(2) 18.08    1.51  13.65  12.01    27   2    607    608   5 1.58-4.22
  4 r(l) 14.79    0.74  10.17   9.23    87   2    607    608   5 1.58-4.22
  5 r(l) 12.05    0.55  10.14   9.20    47   2    607    608   5 1.58-4.22

When a new run is launched, a new summary file will be generated with a name based on the current directory (e.g. Virus_summary). If a summary file already exists, it will be copied to a new location (e.g. Virus_summary_backup). For continuation runs (see option auto restart), new results will be appended to the existing summary file.

Restarting auto3dem

auto3dem writes two restart files for each iteration. The first is written after the new particle origins and orientations are calculated and the second after the new map is generated. The names of the restart files are derived from the name of the directory where auto3dem was launched and are labelled with both the iteration number and either the letter a or b, to indicate the first or second restart file for the iteration. For example:

Virus_restart_1a
Virus restart_1b

The restart files will contain all of the keyword parameters. Default values are supplied as necessary and other parameters are updated to reflect the progress of the reconstruction (e.g. improvements in resolution, naming of particle parameter files to reflect iteration number, etc.)

If auto3dem runs to completion, the restart files are moved to a directory that is automatically created and named using the name of the directory where auto3dem was launched (e.g. Virus_RESTARTS). A continue file is also generated in the run directory (e.g. Virus_continue). The only difference between the continue file and the restart files is that the former will have the number of iterations reset to whatever was used in the initial auto3dem parameter file whereas the latter will be configured to complete the original run.

To restart or continue a run, just launch auto3dem using the appropriate input file. For example:

auto3dem -ncpu ncpu -input Virus_continue
auto3dem -ncpu ncpu -input Virus_restart_5b

As of version 4.05.1, the name of continue file generated at the end of each cycle of iterations will change according to the next iteration number to run. For example, when you run auto3dem for the first 10 iterations with the input file Virus_master, the name of the continue file will be Virus_continue_11.

Auto3dem input file

Auto3dem uses a single keyword-based file for specifying the auto3dem input. We describe below the general rules for the input file and the allowed format for the two types of records: auto3dem control parameter records and data records.

General formatting rules

The following rules apply to the entire input file.

Auto3dem control parameter records

These lines control the overall behavior of both auto3dem and the underlying image reconstruction codes (P3DR, PCTFR, PCUT, PO2R, PPFT, and PSF) that are called by auto3dem. With the exception of the email recipient line, which may contain an arbitrary number of recipients, all records have a three-field format

identifier key value

The first field (identifier) is used to distinguish whether the record contains an auto3dem control parameter or input for one of the image processing programs. The second and third fields form key-value pairs corresponding to the name of the input parameter and its values. The following case-insensitive values are allowed as identifiers:

auto  - auto3dem control parameter         (controls workflow)
p3dr  - P3DR input parameter               (map reconstruction)
pctfr - PCTFR input parameter              (CTF refinement)
pcut  - PCUT input parameter               (map masking)
po2r  - PO2R input parameter               (orientation refinement)
por   - PO2R input parameter               (provided for back compatibility)
ppft  - PPFT input parameter               (orientation search)
psf   - PSF input parameter                (resolution estimation)

The value for each key can be a string, a numerical value, or a flag (0 or 1, like no/false or yes/true).

Data records

All data files are specified using a two-field format.

data filename

The first field in the record must be the keyword data. The data lines can appear anywhere, but as a matter of convenience they are normally located at the end of the file. The file names are case sensitive. It is not necessary to provide full paths to the data files since the directory containing these files is specified using an auto3dem control parameter.

Minimal required input

Default values can be used for the majority of the auto3dem input parameters, but some values must still be supplied. The listing below shows an example of minimal input file.

auto  mode        search      # Search mode (using ppft)
auto  niter       10          # 10 iterations
auto  start_map   start.pif   # Starting map
p3dr  res_min     8.5         # Resolution to which map is computed    
data  file1.dat_000           # At least one data file required

When using the gold standard approach, two additional input parameters are needed, pointing to the two independent maps

auto    start_map_even  start_even.pif
auto    start_map_odd   start_odd.pif

Full input

When launching a new run, it is typically easiest to start with a minimal input file. Restart and continuation files will contain all keywords and can easily be edited.

Better Performance

Auto3DEM can make a reasonable estimate for the inner and outer diameters of the capsid. If these radii are known (e.g. from inspecting the central section of the starting map), higher resolution can sometimes be achieved by specifying the following parameters

auto_freeze_annulus 1 # Keep annulus_low/high, in_rad/out_rad fixed
ppft annulus_low    n # inner radius of capsid (including protrusions)
ppft annulus_high   n # outer radius of capsid (including protrusions)
pcut in_rad         n # inner radius of capsid (excluding protrusions)
pcut out_rad        n # outer radius of capsid (excluding protrusions)

If the images have a small pixel size, often you can speed up the computation by using the following combination of parameters, which starts the search mode calculations using binned image data

auto bin_reduce   1 # Automatically reduce bin_factor if resolution does not improve
ppft bin_factor   2 # Start with 2x2 binning of images

Controlling distribution on CPUs in parallel runs

All the programs capable of running on multiple processors use the Message Passing Interface (MPI) library for parallelization. In these case the processors are assigned automatically at launch by means of a machinefile, a file listing all the nodes assigned to the run. In Auto3DEM it is possible to control how these nodes are assigned and their scheduling method. One control parameter is

auto evod_parallel 0/1

If set to 1, orientation search and reconstructions from even and odd stacks are done at the same time (assuming that the program is running in gold standard mode). Specifically, the processors are divided into two halves, by affinity (i.e. as many processors in the same nodes), and two instances of the programs are launched concurrently.

If the size of the reconstructions is large, compared to the memory available in a single node, then there is a risk that the reconstruction routine could freeze because of insufficient memory, especially when multiple processes are running on one node, therefore sharing the same memory. In this case it could be advantageous to spread the CPUs among separate nodes, so that they don't compete with each other for resources. This can be obtained by setting the parameter

p3dr cpu_sparse

to 1, which distributes the processors among the two concurrent reconstructions according to a round-robin scheduling approach. For example, if you are launching auto3dem on 8 nodes, asking all the processors on each of them, while you limit P3DR to use only 4 cpus (p3dr max_cpu 4), these 4 cpus will be on separate nodes, and the two reconstructions from even- and odd-numbered particles will run at the same time, but each MPI process will be on a different node. Of course, this is kind of best case scenario.

Full listing of auto3dem keywords

auto

For the sake of clarity, the Auto3DEM input parameters are divided into two sets. The first set contains the general parameters, while the second contains the parameters related to particle selection criteria.

general parameters

adapt_angle: controls whether or not the orientation angle step for search/refinement in PPFT/PO2R is adaptively determined from the particle size and the current level of resolution of the reconstruction. Allowed values = (yes,no).

bin_reduce: controls whether or not PPFT bin_factor should be reduced when resolution of reconstruction fails to improve.

boxrad: radius (pixels) of image box.

delete_maps: non-zero value specifies that the maps generated at intermediate stages of the reconstruction should be deleted. Only the map generated at the last of the specified number of iterations (auto niter) will be saved.

estimate_res: non-zero value indicates that resolution estimation is performed.

evod_parallel: non-zero value indicates that the processors are distributed by affinity between the two half sets of particles, which are processed at the same time. This parameter is valid only if the program is compiled for parallel execution (MPI)

flatten_falloff: size (pixels) of soft edge to use when removing background density flag (-1= automatically determined, based on map resolution; 0=hard edge; n=soft edge n pixels width).

flatten_map: flag specifying whether or not background density should be removed from the reference map.

freeze_annulus: non-zero value freezes inner and outer radii of the annulus defining the ordered region of the map. This affects the parameters annulus_low and annulus_high in PPFT and in_rad and out_rad in PCUT.

freeze_res: non-zero value freezes the resolutions used in PPFT, and PO2R (resolution used in P3DR will still be based on the results from PSF).

fsc_cutoff: cutoff value for FSC used in estimating map resolution. If not specified it is set either to 0.143 (gold_standard set to 1) or to 0.5 (gold_standard set to 0).

fsc_hithresh: cutoff value for FSC used to set resolution limits in PPFT and PO2R.

fsc_lothresh: cutoff value for FSC used in filtering the map in P3DR.

gauss_adj: parameter used to set width of Gaussian falloff in P3DR (reciprocal angstroms).

gold_standard: flag (0/1) indicating whether or not to use the gold standard procedure. If set to 1 input even and odd maps are required (start_map_even and start_map_odd).

generate_map: controls whether to generate or not the reconstruction in combination with the alignment of the particles. If the map is not calculated, the parameter niter is forced to one; also, in the new continue file the parameter iter_start will not be updated, and generate_map will be set for calculating the map (mode = ‘only’). If only the map is calculated, the filename of the reconstruction can be changed from the default by using the parameter map_suffix. Allowed values = (yes,no,only).

have_map: non-zero value indicates that starting map is available.

hollow_auto: flag specifying whether or not an optimum value for inner and outer radii should be automatically determined (it requires hollow_map set to 1 and if set it will overwrite the values in hollow_in_rad and hollow_out_rad.

hollow_cut_step: number of steps used by masking algorithm when generating a hollow map.

hollow_cut_weight: weight used by masking algorithm when generating a hollow map.

hollow_in_rad: inner radius of hollowed map.

hollow_map: flag specifying whether or not map should be hollowed.

hollow_out_rad: outer radius of hollowed map.

iter_start: starting iteration, i.e. number assigned to first iteration.

map_suffix: string suffix to append to the name of the reconstruction. Used only if generate_map is set to ‘only’. Default is ‘none’, a reserved string indicating that the name is assigned according to the standard rules. :!: Warning ‘none’ implies that for multiple runs of only-reconstructions each one will overwrite the previous result.

mode: AUTO3DEM mode of operation. Allowed values = (search, refine).

new_ptles: flag specifying whether or not new particles should be oriented relative to existing map without updating the map.

niter: maximum number of iterations of AUTO3DEM main loop.

noctf: if true, disables CTF correction. Overrides CTF mode and sets to zero for programs P3DR, PO2R, PPFT, and PCTFR. Used primarily with image sets which have already been CTF corrected.

noise_suppressio: apply Rosenthal and Henderson JMB 333 721-745 (2003) noise suppression algorithm.

outfile: base name used to construct names of log, summary, restart, and continuation files.

partrad: radius (pixels) of particle. Used for some adaptive estimates. This value can be initially set by the user; if not set, its default is the value of the boxrad parameter. After each iteration its value is determined from the radial profile of the latest reconstruction.

per_ptle_ctf: apply CTF correction on a per-particle basis in P3DR, PO2R, PCTFR and PPFT. Setting to one overrides per_ptle_ctf parameter set for individual programs.

quit_early: set to non-zero value to have AUTO3DEM quit if the FSC curve never drops below fsc_hithresh (usual value is fsc_hithresh=0.5). This option is normally only used for random model calculations where it is set automatically by setup_rmc.pl if the resolution-based selection criterion is selected (option –trad).

refine_ctf: refine CTF parameters when running in refine mode, to be performed as the first iteration when set (the flag is automatically re-set to 0 so that the next iteration will be a conventional refinement).

res_adj: additive parameter that determines the higher resolution to which map will be calculated beyond upper resolution limit used in PO2R (reciprocal angstroms).

restart: set to 1 to continue calculation.

rmc: set to 1 to perform a random model computation.

rundir: directory containing input data (maps, images, particle parameters).

start_map: name of starting map used by AUTO3DEM.

start_map_even: name of starting map from even half set used by AUTO3DEM.

start_map_odd: name of starting map from odd half set used by AUTO3DEM.

switch_mode: if true, allows auto3dem to automatically switch from search to refine mode.

symm_code: symmetry code.

term_refine: allow automatic termination of run when in refine mode (functionality not currently active, added as placeholder).

term_search: allow automatic termination of run when in search mode (functionality not currently active, added as placeholder).

particle selection parameters

box_center_offset: maximum allowable distance between the center of the particle and the center of the box; applied separately to each coordinate. Particles with centers too far from center of box are excluded from the model.

cmp_cc_fraction: fraction of images to accept on the basis of the CMP correlation coefficient. Makes sense only when parsing particle parameter files generated in search mode.

cmp_cc_nstd: number of standard deviations to add to the average CMP correlation coefficient when setting cutoff. Negative values are less restrictive, positive values are more restrictive.

global_select: if set to true (non-zero) value, then selection criteria are applied globally across particle parameter files. Otherwise, selection criteria are applied on a per file basis.

nselect_offset: number of selection criteria to evaluate in each ‘direction’ from the central selection criterion. The total number of selection criteria to be evaluated is (2*nselect_offset + 1).

omega1, omega1_tol: select images with omega within omega1_tol of omega1. Must be used together.

omega2, omega2_tol: select images with omega within omega2_tol of omega2. Must be used together.

pft_cc_fraction: fraction of images to accept on the basis of the PFT correlation coefficient. Makes sense only when parsing particle parameter files generated in search mode.

pft_cc_nstd: number of standard deviations to add to the average PFT correlation coefficient when setting cutoff. Negative values are less restrictive, positive values are more restrictive.

phi_reject_lower / phi_reject_upper: range of azimuthal angles (phi_reject_lower < phi < phi_reject_upper) for which images will be excluded from map construction.

prj_cc_fraction: fraction of images to accept on the basis of the PRJ correlation coefficient. Makes sense only when parsing particle parameter files generated in search mode.

prj_cc_nstd: number of standard deviations to add to the average PRJ correlation coefficient when setting cutoff. Negative values are less restrictive, positive values are more restrictive.

score_fraction: fraction of images to accept on the basis of the score generated by program PO2R.

score_nstd: number of standard deviations to add to the average score when setting cutoff. Negative values are less restrictive, positive values are more restrictive.

select_delta: the size of the ‘step’ to be used when evaluating multiple selection criteria. For standard deviation-based criteria, adds a fixed number of standard deviations; for fraction-based criteria, adds a fixed fraction.

theta_reject_lower / theta_reject_upper: range of inclination angles (theta_reject_lower < theta < theta_reject_upper) for which images will be excluded from map construction.

p3dr

apo_border: width of border region for map apodization (pixels).

bin: name of P3DR binary.

cpu_sparse: a non-zero value indicates that the program tries to spread the processors assigned to each reconstruction among different nodes. This is useful for large maps, so that each process does not have to share the memory on the node with other processes.

ctf_ff1: 1st CTF filter factor.

ctf_ff2: 2nd CTF filter factor.

ctfmode: CTF mode (ctf_mode also accepted).

fsc_file_name: name of FSC file to be used when applying noise suppression algorithm. (File format: line 1 = number of FSC records; subsequent lines = spatial frequency (Å-1) FSC value).

filter: filter mode.

magfactor: magnification factor.

map_dim: map dimension.

max_cpu: maximum number of CPUs to be used by P3DR.

per_ptle_ctf: apply CTF correction on a per-particle basis.

res_max: resolution at end of Gaussian falloff.

res_min: resolution to which map is computed with amplitudes unaltered.

symm_code: symmetry code.

tempfac: temperature factor.

zero_fill: zero fill for background pixels, i.e. padding factor in real space.

pctfr

anastigm: enable/disable enforcing of anastigmatic behavior for the CTF.

bin: name of PCTFR binary.

ctfmode: CTF mode (ctf_mode also accepted).

dangle: CTF astigmatism angle step size, in degrees.

dfocus: CTF defocus step size, in microns.

funcmode: function mode.

funcweight: function weight.

max_cpu: maximum number of CPUs to be used by PCTFR.

nangle: number of steps in CTF astigmatism angles taken in each direction.

ndefocus: number of steps in CTF defocus values taken in each direction.

res_max: maximum resolution used in image/projection comparison.

res_min: minimum resolution used in image/projection comparison.

tempfac: temperature factor.

zero_fill: zero fill for background pixels, i.e. padding factor in real space.

pcut

bin: name of PCUT binary.

cut_step: number of steps used by masking algorithm.

cut_weight: weight used in masking algorithm.

in_rad: inner radius for masking.

max_cpu: maximum number of CPUs to be used by PCUT.

out_rad: outer radius for masking.

po2r

bin: name of PO2R binary.

ctfmode: CTF mode (ctf_mode also accepted).

dangle: angular step size for local mode(delta angle, degrees).

dcenter: spatial step size (delta xy, pixels).

funcmode: function mode.

funcweight: function weight.

gangle: angular step size for global mode.

handtest: enable/disable handedness tests for images.

magref_calibrate: 1 to keep magnification values as obtained by refinement (new map can be at different scale), 0 to adjust them to the same previous average magnification.

magref_reset: 1 to ‘forget’ magnification assigned to data, 0 to refine around the current estimated value.

magref_step: size of magnification refinement step (fraction).

mask_map: name of binary map to use for focused refinement. Only used for modes local and ticos_equiv. Default is ‘none’, a reserved string indicating that no mask is used.

max_cpu: maximum number of CPUs to be used by PO2R

mode: search mode. Allowed values = (local,mag,global,ticos_equiv)*.

local: local refinement (nangle steps of dangle degrees along each direction)
mag: magnification refinement (nmagref steps of magref_step fraction along each direction)
global: global search in one asymmetric unit (on a grid with step of gangle degrees)
ticos_equiv: restricted search to the 60 symmetry related orientations.

nangle: number of angular steps taken in each direction.

ncenter: number of spatial steps taken in each direction.

nmagref: number of magnification factor steps along each direction.

per_ptle_ctf: apply CTF correction on a per-particle basis.

quick_search: implement quick approximate search of orientation space.

res_max: maximum resolution used in image/projection comparison.

res_min: minimum resolution used in image/projection comparison.

symm_code: symmetry code.

tempfac: temperature factor.

zero_fill: zero fill for background pixels, i.e. padding factor in real space.

ppft

The PFTsearch/PPFT input parameters pftrads_filename, pftres1_filename, and pftres2_filename are not read from the input parameter file since they are set by AUTO3DEM. They are assigned the values ppft_iter_n.rads, ppft_iter_n.res1, and ppft_iter_n.res2, respectively, where n is the iteration number.

annulus_high: outer radius of annulus for image/projection comparison.

annulus_low: inner radius of annulus for image/projection comparison.

bin: name of PPFT binary.

bin_factor: binning factor.

ctf_mode: CTF mode (ctfmode also accepted).

delta_theta: step size for inclination angle theta (degrees).

filter_factor_1: 1st filter factor.

input_mode: input mode.

jcut: minimum order Bessel function (Jn), default strongly recommended!

mag_cen: midpoint for magnification scale search.

mag_norm: switch used to normalize the MAG scale factors so that the average MAG is 1.0.

mag_num: extent of magnification search window.

mag_step: grid size of magnification scale search.

max_cpu: maximum number of CPUs to be used by PPFT.

per_ptle_ctf: apply CTF correction on a per-particle basis.

pft_filename: name of PFT file.

pftrad_hi: outer PFT radius.

pftrad_lo: inner PFT radius.

pftrad_step: PFT radius step size.

prj_filename: file name for prj output.

quick_omega: perform fast approximate search for omega.

resolution_high: upper resolution limit.

resolution_low: lower resolution limit.

sigcut: threshold for variance mask when filtering PFT data, default strongly recommended!

symm_code: alternative for specifying symmetry code (symmetry also accepted)

temperature_factor: temperature factor

verbose: verbose factor (controls level of output)

psf

The PSF input parameters pixel_size is not read from the input parameter file since it is obtained by parsing the first line of the particle parameter files.

bin: name of PSF binary.

max_cpu: maximum number of CPUs to be used by PSF.

res_max: maximum resolution used in FSC calculation.

res_min: minimum resolution used in FSC calculation.

res_step: resolution step size.

Auto3dem keyword default values

The following tables list the auto3dem input parameters along with their default values. A missing default value means that no default is used. Required input shown in bold red.

identifier key value
auto adapt_angle yes
auto bin_reduce 0
auto boxrad extracted from PIF (see note 1)
auto box_center_offset boxrad/2
auto cmp_cc_fraction
auto cmp_cc_nstd
auto delete_maps 1
auto estimate_res 1
auto evod_parallel 1
auto flatten_falloff -1 (automatic)
auto flatten_map 0
auto freeze_annulus 0
auto freeze_res 0
auto fsc_cutoff 0.143 if gold_standard=1, 0.5 otherwise
auto fsc_hithresh 0.5
auto fsc_lothresh 0.3
auto gauss_adj 0.01
auto generate_map yes
auto global_select 1
auto gold_standard 0
auto have_map 1
auto hollow_auto 1
auto hollow_cut_step 12
auto hollow_cut_weight 0.001
auto hollow_in_rad required if hollow_map=1, updated automatically if hollow_auto=1
auto hollow_map 0
auto hollow_out_rad required if hollow_map=1, updated automatically if hollow_auto=1
auto iter_start 1
auto map_suffix none (reserved string)
auto mode
auto new_ptles 0
auto niter
auto noctf 0
auto noise_suppression 0
auto nselect_offset 0
auto omega1 0
auto omega1_tol 360
auto omega2 0
auto omega2_tol 0
auto outfile current working directory
auto partrad initially: same as boxrad; later: from map stats (see note 2)
auto per_ptle_ctf 0
auto pft_cc_fraction 1
auto pft_cc_nstd
auto phi_reject_lower 360
auto phi_reject_upper -360
auto prj_cc_fraction
auto prj_cc_nstd
auto quit_early 0
auto refine_ctf 0
auto res_adj 0.01
auto restart 0
auto rmc 0
auto rundir dat
auto score_fraction 1
auto select_delta 0
auto start_map see note 3
auto start_map_even see note 3
auto start_map_odd see note 3
auto switch_mode 1
auto symm_code overrides values set for po2r, ppft, p3dr
auto term_refine 0 (not used)
auto term_search 0 (not used)
auto theta_reject_lower 360
auto theta_reject_upper -360
pcut bin PCUT
pcut cut_step 12
pcut cut_weight 0.001
pcut in_rad boxrad/3
pcut max_cpu 8
pcut out_rad boxrad - 10
p3dr apo_border 12
p3dr bin P3DR
p3dr cpu_sparse 0
p3dr ctf_ff1 1
p3dr ctf_ff2 0.1
p3dr ctfmode 1
p3dr fsc_file_name
p3dr filter 1
p3dr magfactor 1.0
p3dr map_dim 0
p3dr max_cpu 256
p3dr per_ptle_ctf 0
p3dr res_max 1/(1/p3dr{res_min} + auto{gauss_adj}) (see note 4)
p3dr res_min
p3dr symm_code 532
p3dr tempfac 0
p3dr zero_fill 1
pctfr anastigm 0
pctfr bin PCTFR
pctfr ctf_ff1 0.5
pctfr ctf_ff2 0.1
pctfr ctfmode 1
pctfr dangle 1 (degrees)
pctfr dfocus 0.05 (microns)
pctfr funcmode 3 (recommended)
pctfr funcweight 0 (ignored for funcmode values 4 and 5)
pctfr max_cpu 256
pctfr nangle 4
pctfr nfocus 4
pctfr per_ptle_ctf 0
pctfr res_max 1/(1/p3dr{res_min} + auto{res_adj})
pctfr res_min (2∙boxrad∙pixel_size)/5
pctfr tempfac 0
pctfr zero_fill 1
po2r bin POR
po2r ctfmode 2
po2r dangle (1/2)∙ppft{delta_theta} - ignored if ‘auto adapt_angle’ set to yes.
po2r dcenter 0.1
po2r funcmode 4
po2r funcweight 1 (ignored for funcmode values 4 and 5)
po2r gangle 2
po2r global_por 0 (obsolete)
po2r handtest 1
po2r magref_calibrate 0
po2r magref_reset 1
po2r magref_step 0.005
po2r mask_map none (reserved string)
po2r max_cpu 256
po2r nangle 4
po2r ncenter 4
po2r nmagref 10
po2r per_ptle_ctf 0
po2r quick_search 1
po2r res_max 1/(1/p3dr{res_min} + auto{gauss_adj})
po2r res_min (2∙boxrad∙pixel_size)/5
po2r symm_code 532
po2r tempfac 0
po2r ticos_equiv 0 (obsolete)
po2r zero_fill 1
ppft annulus_high boxrad/3
ppft annulus_low boxrad – 10
ppft bin PPFT
ppft bin_factor 1
ppft ctf_mode 3
ppft delta_theta 0.5 (degrees, ignored if ‘auto adapt_angle’ set to yes)
ppft filter_factor_1 0.1
ppft input_mode 2
ppft jcut 1
ppft mag_cen 1
ppft mag_norm 1
ppft mag_num 1
ppft mag_step 0
ppft max_cpu 256
ppft model_filename auto{start_map}
ppft per_ptle_ctf 0
ppft pft_filename pft.pfts
ppft pftrad_hi auto{boxrad}
ppft pftrad_lo 1
ppft pftrad_step 1
ppft prj_filename pft.prjs
ppft quick_omega 1
ppft resolution_high 1/(1/p3dr{res_min} + auto{res_adj})
ppft resolution_low (2∙boxrad∙pixel_size)/5
ppft sigcut 0
ppft symmetry 532 (obsolete)
ppft symm_code 532
ppft temperature_factor 0
ppft verbose -1
psf bin PSF
psf max_cpu 8
psf res_max p3dr{res_min} (see note 5)
psf res_min 60
psf res_step 50 (see note 6)

Notes

1) Boxrad is normally extracted from the PIF file header field packRadius. The option to specify boxrad in the auto3dem parameter file is provided for use in those cases where this information is missing from the PIF header.

2) Adaptive value: can be set arbitrarily in the continue file, but that value is only used for the first iteration, while it is changed for the subsequent iterations.

3) If the have_map flag is false, then starting map is not required. start_map_even and start_map_odd are required if gold_standard is set to 1.

4) Subject to Nyquist condition that resolution is not less than twice the pixel size.

5) Subject to condition that value is not more than three times the pixel size.

6) Values defined by user are ignored, since the number of steps are adaptively determined starting from resolution range, pixel size and particle radius.