Input/Output¶
Read here to learn how to set input parameters to hophop and how output is written.
Input¶
Parameters are specified in hophop on the command line only. The following is
the output of hophop -h
, that describes all available CLI parameters.
HOP 2.4
This software simulates hopping in disordered semiconductors with hopping on
localized states. It uses Monte-Carlo simulation techniques. See the README.rst
file to learn more.
Usage: HOP [-h|--help] [-V|--version] [-q|--quiet]
[-fSTRING|--conf_file=STRING] [-m|--memreq] [--rseed=LONG]
[-iINT|--nruns=INT] [-P|--parallel] [-tINT|--nthreads=INT]
[-FFLOAT|--field=FLOAT] [-TFLOAT|--temperature=FLOAT]
[-lINT|--length=INT] [-XINT|--X=INT] [-YINT|--Y=INT] [-ZINT|--Z=INT]
[-NINT|--nsites=INT] [-nINT|--ncarriers=INT] [--rc=FLOAT]
[-pFLOAT|--exponent=FLOAT] [-aFLOAT|--llength=FLOAT] [--gaussian]
[--lattice] [--removesoftpairs] [--softpairthreshold=FLOAT]
[--cutoutenergy=FLOAT] [--cutoutwidth=FLOAT]
[-ILONG|--simulation=LONG] [-RLONG|--relaxation=LONG]
[-xINT|--nreruns=INT] [--many] [--be] [--mgmres] [--be_it=LONG]
[--be_oit=LONG] [--tol_abs=FLOAT] [--tol_rel=FLOAT] [--an]
[-BFLOAT|--percolation_threshold=FLOAT]
[-oSTRING|--outputfolder=STRING] [--transitions]
[-ySTRING|--summary=STRING] [-cSTRING|--comment=STRING]
-h, --help Print help and exit
-V, --version Print version and exit
-q, --quiet Don't say anything. (default=off)
-f, --conf_file=STRING Location of a configuration file for the
simulation.
-m, --memreq Estimates the used memory for the specified
parameter set. Print's the information and
exits immediately (default=off)
--rseed=LONG Set the random seed manually.
-i, --nruns=INT The number of runs to average over.
(default=`1')
-P, --parallel If the runs given with the --nruns option
should be executed using mutliple cores and
parallelization. This suppresses any progress
output of the runs but will be very fast on
multicore systems. (default=off)
-t, --nthreads=INT The number of threads to use during parallel
computing. 0 means all there are.
(default=`0')
External physical parameters:
Some external physical quantities.
-F, --field=FLOAT The electric field strength in z-direction.
(default=`0.01')
-T, --temperature=FLOAT The temperature of the simulation.
(default=`0.3')
System information:
Parameters describing the distribution of sites in the system
-l, --length=INT This parameter specifies the length of the
(cubic) sample. If it parameter is set, the
options X,Y,Z are ignored!
-X, --X=INT The x-length of the sample. Right now, only
cubic samples should be used, so rather use
the parameter --length. (default=`50')
-Y, --Y=INT The y-length of the sample. Right now, only
cubic samples should be used, so rather use
the parameter --length. (default=`50')
-Z, --Z=INT The z-length of the sample. Right now, only
cubic samples should be used, so rather use
the parameter --length. (default=`50')
-N, --nsites=INT The number of localized states. This value has
to be bigger than --ncarriers. Deprecated!
Scale the number os states using --length.
(default=`125000')
-n, --ncarriers=INT The number of charge carriers in the system.
(default=`1')
--rc=FLOAT Determines up to which distance sites should be
neighbors. (default=`3')
-p, --exponent=FLOAT The exponent of the DOS g(x) = exp(-(x)^p)
(default=`2.0')
-a, --llength=FLOAT Localization length of the sites, assumed equal
for all of them. (default=`0.215')
--gaussian Use a Gaussian DOS with std. dev. 1. g(x) =
exp(-1/2*(x)^2) (default=off)
--lattice Distribute sites on a lattice with distance
unity. Control nearest neighbor hopping and
so on with --rc (default=off)
--removesoftpairs Remove softpairs. (default=off)
--softpairthreshold=FLOAT The min hopping rate ratio to define a softpair
(default=`0.95')
--cutoutenergy=FLOAT States below this energy will be cut out of the
DOS (default=`0')
--cutoutwidth=FLOAT The width of energies who are cutted.
(default=`0.5')
Monte carlo simulation:
The following options matter only, when the system is simulated using a Monte
Carlo simulation (which is the default)
-I, --simulation=LONG The number of hops during which statistics are
collected. (default=`1000000000')
-R, --relaxation=LONG The number of hops to relax.
(default=`100000000')
-x, --nreruns=INT How many times should the electron be placed at
some random starting position? (default=`1')
--many Instead of using the mean field approach,
simulate multiple charge carriers. (slow!!!)
(default=off)
Balance equations:
These options only matter, when the solution is found by solving the balance
equations. (setting the --be flag)
--be Solve balance equations (default=off)
--mgmres Force use of mgmres instead of lis
(default=off)
--be_it=LONG Max inner iterations after which the
calculation is stopped. (default=`300')
--be_oit=LONG Max outer iterations or restarts of the
algorithm. (default=`10')
--tol_abs=FLOAT absolute tolerance for finding the solution
(default=`1e-8')
--tol_rel=FLOAT relative tolerance for finding the solution
(default=`1e-8')
Analytic calculations:
These options control the analytic calculation of several properties of the
system, like the transport energy or the mobility.
--an Also try to calculate stuff analytically
(default=off)
-B, --percolation_threshold=FLOAT
The percolation threshold. (default=`2.7')
Output:
-o, --outputfolder=STRING The name of the output folder if one wants
output files.
--transitions Save all transitions to a file. (Can be big,
scales with -l^3!) Only valid when
--outputfolder is given (default=off)
-y, --summary=STRING The name of the summary file to which one
summary result line is then written.
-c, --comment=STRING Specify a string that is appended to the line
in the summary file for better overview over
the simulated data.
Output¶
There are three ways to get output from the simulation:
-o, --outputfolder
¶
When the CLI parameter --outputfolder
(or, equivalently, -o
) is
specified, hophop creates a directory with that value and writes results.
The following files are written:
params.conf
:A file with the command line parameters given for that simulation. A simulation can be started from such a file using the CLI parameter
-f, --conf_file
.
1/results.dat
:A column-based text file with some simulation parameters and results. Each simulation is one line. When the file already exists, a new line will be added. The descriptions of the columns are given in the first two lines of the file.
When multiple runs are simulated, with the parameter
-i, --nruns
, then a folder is created for each run, e.g.,1/results.dat
,2/results.dat
etc.
1/sites.dat
:The generated system and the number of times each site was visited. The columns of the file are as follows:
x y z energy times_visited times_visited_upward
times_visited_upward
is the number of times this site was visited in a hop, where the original energy is lower than that of the target site (i.e., the hop is energetically an upward hop).times_visited
andtimes_visited_upward
are only non-zero in KMC mode.When multiple runs are simulated, with the parameter
-i, --nruns
, then a folder is created for each run, e.g.,1/sites.dat
,2/sites.dat
etc.
-y, --summary
¶
Path to a single columnar summary file, in which system parameters and results are written. Each simulation is one line. When the file already exists, a new line will be added. The descriptions of the columns are given in the first two lines of the file.
In BE mode, some columns will be NaN or zero.
stdout¶
Some results will also be written to stdout.