Overview
Comment: | Added notes on -ae hybrd, rk4, ode2odes.cc, .oct dependencies. |
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a1e26d10febf79dabc028ea1c70cdf1b |
User & Date: | geraint@users.sourceforge.net on 2001-07-23 03:25:02 |
Other Links: | branch diff | manifest | tags |
Context
2001-07-23
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03:35:29 | Updated file structure (mtt/bin). check-in: 30a2b9d6d7 user: geraint@users.sourceforge.net tags: origin/master, trunk | |
03:25:02 | Added notes on -ae hybrd, rk4, ode2odes.cc, .oct dependencies. check-in: a1e26d10fe user: geraint@users.sourceforge.net tags: origin/master, trunk | |
2001-07-22
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19:24:03 | Multiple '-v' increases verbosity. check-in: 61ecb7e23e user: geraint@users.sourceforge.net tags: origin/master, trunk | |
Changes
Modified mttroot/mtt/doc/mtt.texi from [9db1b72ad7] to [def72cc1f0].
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12 13 14 15 16 17 18 19 20 21 22 23 24 25 | @comment %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% @comment Version control history @comment %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% @comment $Id$ @comment $Log$ @comment Revision 1.2 2001/07/03 22:59:10 gawthrop @comment Fixed problems with argument passing for CRs @comment @comment Revision 1.1 2001/06/04 08:18:52 gawthrop @comment Putting documentation under CVS @comment @comment Revision 1.66 2000/12/05 14:20:55 peterg | > > > | 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 | @comment %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% @comment Version control history @comment %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% @comment $Id$ @comment $Log$ @comment Revision 1.3 2001/07/13 03:02:38 geraint @comment Added notes on #ICD, gnuplot.txt and odes.sg rep. @comment @comment Revision 1.2 2001/07/03 22:59:10 gawthrop @comment Fixed problems with argument passing for CRs @comment @comment Revision 1.1 2001/06/04 08:18:52 gawthrop @comment Putting documentation under CVS @comment @comment Revision 1.66 2000/12/05 14:20:55 peterg |
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404 405 406 407 408 409 410 411 412 413 414 415 416 417 418 419 420 421 422 423 424 425 426 427 428 | Simulation * Steady-state solutions:: * Simulation parameters:: * Simulation input:: * Simulation logic:: * Simulation initial state:: * Simulation output:: Steady-state solutions * Steady-state solutions - numerical(odess):: * Steady-state solutions - symbolic (ss):: Simulation parameters * Euler integration:: * Implicit integration:: Simulation output * Viewing results with gnuplot:: * Exporting results to SciGraphica:: Representations | > > > | 407 408 409 410 411 412 413 414 415 416 417 418 419 420 421 422 423 424 425 426 427 428 429 430 431 432 433 434 | Simulation * Steady-state solutions:: * Simulation parameters:: * Simulation input:: * Simulation logic:: * Simulation initial state:: * Simulation code:: * Simulation output:: Steady-state solutions * Steady-state solutions - numerical(odess):: * Steady-state solutions - symbolic (ss):: Simulation parameters * Euler integration:: * Implicit integration:: * Runge Kutta IV integration:: * Hybrd algebraic solver:: Simulation output * Viewing results with gnuplot:: * Exporting results to SciGraphica:: Representations |
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654 655 656 657 658 659 660 661 662 663 664 665 666 667 | * Octave setup:: * Paths:: * File structure:: Octave setup * .octaverc:: Paths * $MTTPATH:: * $MTT_COMPONENTS:: * $MTT_CRS:: * $MTT_EXAMPLES:: | > | 660 661 662 663 664 665 666 667 668 669 670 671 672 673 674 | * Octave setup:: * Paths:: * File structure:: Octave setup * .octaverc:: * .oct file dependencies:: Paths * $MTTPATH:: * $MTT_COMPONENTS:: * $MTT_CRS:: * $MTT_EXAMPLES:: |
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1159 1160 1161 1162 1163 1164 1165 1166 1167 1168 1169 1170 1171 1172 1173 1174 1175 1176 1177 1178 1179 1180 | The available options are: @vtable @code @item -q quiet mode -- suppress MTT banner @item -A solve algebraic equations symbolically @item -D debug -- leave log files etc @item -I prints more information @item -abg start at abg.m representation @item -c c-code generation @item -d <dir> use directory <dir> @item -dc Maximise derivative (not integral) causality @item -dc Maximise derivative (not integral) causality @item -i | > > > > > | | 1166 1167 1168 1169 1170 1171 1172 1173 1174 1175 1176 1177 1178 1179 1180 1181 1182 1183 1184 1185 1186 1187 1188 1189 1190 1191 1192 1193 1194 1195 1196 1197 1198 1199 1200 | The available options are: @vtable @code @item -q quiet mode -- suppress MTT banner @item -A solve algebraic equations symbolically @item -ae <hybrd> solve algebraic equations numerically (this option requires -cc or -oct) @item -D debug -- leave log files etc @item -I prints more information @item -abg start at abg.m representation @item -c c-code generation @item -cc C++ code generation @item -d <dir> use directory <dir> @item -dc Maximise derivative (not integral) causality @item -dc Maximise derivative (not integral) causality @item -i <implicit|euler|rk4> Use implicit, euler or Runge Kutta IVintegration @item -o ode is same as dae @item -oct use oct files in place of m files where appropriate @item -opt optimise code generation @item -p |
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1200 1201 1202 1203 1204 1205 1206 | @item -sub <subsystem> operate on this subsystem @item -t tidy mode (default) @item -u untidy mode (leaves files in current dir) @item -v | | | 1212 1213 1214 1215 1216 1217 1218 1219 1220 1221 1222 1223 1224 1225 1226 | @item -sub <subsystem> operate on this subsystem @item -t tidy mode (default) @item -u untidy mode (leaves files in current dir) @item -v verbose mode (multiple uses increase the verbosity) @item -viewlevel <N> View N levels of hierachy @item --version print version and exit @item --versions print version of mtt and components and exit @end vtable |
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1854 1855 1856 1857 1858 1859 1860 1861 1862 1863 1864 1865 1866 1867 1868 1869 1870 1871 1872 1873 1874 1875 1876 1877 | representations for the purposes of numerical simulation: @ftable @code @item m @code{octave} a high-level interactive language for numerical computation. @item c @code{gcc} a c compiler. @end ftable There are a number solution algorithms available: @itemize @bullet @item explicit solution via the matrix exponential @item backward Euler integration (explicit) @item forward Euler integration (implicit) @c @item @c LSODE (Hindmarsh's ODE solver as implemented in Octave) @c @item @c DASSL (Petzold's DAE solver as implemented in Octave) (Unavailable just now) @end itemize However, all combinations of representation, language and solution | > > > > > > | 1866 1867 1868 1869 1870 1871 1872 1873 1874 1875 1876 1877 1878 1879 1880 1881 1882 1883 1884 1885 1886 1887 1888 1889 1890 1891 1892 1893 1894 1895 | representations for the purposes of numerical simulation: @ftable @code @item m @code{octave} a high-level interactive language for numerical computation. @item c @code{gcc} a c compiler. @item cc @code{g++} a C++ front-end to gcc. @end ftable There are a number solution algorithms available: @itemize @bullet @item explicit solution via the matrix exponential @item backward Euler integration (explicit) @item forward Euler integration (implicit) @item Runge Kutta IV integration (explicit, fixed step) @item Hybrd algebraic solver (MINPACK, Octave fsolve) @c @item @c LSODE (Hindmarsh's ODE solver as implemented in Octave) @c @item @c DASSL (Petzold's DAE solver as implemented in Octave) (Unavailable just now) @end itemize However, all combinations of representation, language and solution |
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1903 1904 1905 1906 1907 1908 1909 1910 1911 1912 1913 1914 1915 1916 | ``simulated''(@pxref{Steady-state solutions}). @menu * Steady-state solutions:: * Simulation parameters:: * Simulation input:: * Simulation logic:: * Simulation initial state:: * Simulation output:: @end menu @node Steady-state solutions, Simulation parameters, Simulation, Simulation @comment node-name, next, previous, up @section Steady-state solutions @cindex Steady-state solutions | > | 1921 1922 1923 1924 1925 1926 1927 1928 1929 1930 1931 1932 1933 1934 1935 | ``simulated''(@pxref{Steady-state solutions}). @menu * Steady-state solutions:: * Simulation parameters:: * Simulation input:: * Simulation logic:: * Simulation initial state:: * Simulation code:: * Simulation output:: @end menu @node Steady-state solutions, Simulation parameters, Simulation, Simulation @comment node-name, next, previous, up @section Steady-state solutions @cindex Steady-state solutions |
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1985 1986 1987 1988 1989 1990 1991 | Maximum frequency = 10^WMAX @item WSTEPS Number of Frequency steps. @item INPUT The input index for frequency response @end itemize | | > > > > > > > > | 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035 2036 2037 2038 2039 2040 2041 2042 2043 | Maximum frequency = 10^WMAX @item WSTEPS Number of Frequency steps. @item INPUT The input index for frequency response @end itemize There are a number of solution algorithms @itemize @bullet @item Euler basic Euler integration (@pxref{Euler integration}). This method is simple, but not recommended for stiff systems. @item Implicit semi-implicit integration (@pxref{Implicit integration}) - uses the smx representation to give stability. @item Runge Kutta IV fixed step Runge Kutta fourth order integration (@pxref{Runge Kutta IV integration}). @item Hybrd numerical algebraic equation solver @c @item ImplicitS @c Sparse semi-implicit integration (@pxref{Sparse implicit integration}) @c -- takes advantage of the sparsity of the A matrix. @c @item LSODE @c the variable step-size method that comes with Octave (@pxref{Octave}). @end itemize @menu * Euler integration:: * Implicit integration:: * Runge Kutta IV integration:: * Hybrd algebraic solver:: @end menu @node Euler integration, Implicit integration, Simulation parameters, Simulation parameters @comment node-name, next, previous, up @subsection Euler integration @cindex Euler integration Euler integration approximates the solution of the Ordinary Differential Equation |
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2033 2034 2035 2036 2037 2038 2039 | where A is the nxn matrix appearing in @example f(x,u) = Ax + Bu @end example If the system is non linear, the linearised system matrix A should act as a guide to the choice of STEPFACTOR. | | | 2060 2061 2062 2063 2064 2065 2066 2067 2068 2069 2070 2071 2072 2073 2074 | where A is the nxn matrix appearing in @example f(x,u) = Ax + Bu @end example If the system is non linear, the linearised system matrix A should act as a guide to the choice of STEPFACTOR. @node Implicit integration, Runge Kutta IV integration, Euler integration, Simulation parameters @comment node-name, next, previous, up @subsection Implicit integration @cindex Implicit integration Implicit integration approximates the solution of the Ordinary Differential Equation @example dx/dt = f(x,u) @end example |
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2070 2071 2072 2073 2074 2075 2076 2077 2078 2079 2080 2081 2082 2083 | given by: @example (E(x)-A*DT)x := (E(x)-A*DT)x + f(x,u)DT @end example which reduces to the ordinary differential equation case when E(x)=I. The _smx representation includes the E matrix. @c @node Sparse implicit integration, , Implicit integration, Simulation parameters @c @comment node-name, next, previous, up @c @subsection Sparse implicit integration @c @cindex Sparse implicit integration @c This is an experimental approach for large (N>50) systems. | > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > | 2097 2098 2099 2100 2101 2102 2103 2104 2105 2106 2107 2108 2109 2110 2111 2112 2113 2114 2115 2116 2117 2118 2119 2120 2121 2122 2123 2124 2125 2126 2127 2128 2129 2130 2131 2132 2133 2134 2135 2136 2137 2138 2139 2140 2141 2142 2143 2144 2145 2146 2147 2148 2149 2150 2151 2152 2153 2154 2155 2156 2157 2158 2159 2160 2161 2162 2163 2164 2165 2166 2167 2168 2169 2170 2171 | given by: @example (E(x)-A*DT)x := (E(x)-A*DT)x + f(x,u)DT @end example which reduces to the ordinary differential equation case when E(x)=I. The _smx representation includes the E matrix. @node Runge Kutta IV integration, Hybrd algebraic solver, Implicit integration, Simulation parameters @comment node-name, next, previous, up @subsection Runge Kutta IV integration Runge Kutta IV approximates the solution of the Ordinary Differential Equation @example dx/dt = f(x,t) @end example by @example x := x + (DT/6)*(k1 + 2*k2 + 2*k3 + k4) @end example where @example k1 := f(x,t) k2 := f(x+(1/2)*k1,t+(1/2)*DT) k3 := f(x+(1/2)*k2,t+(1/2)*DT) k4 := f(x+k3,t+DT) @end example The @strong{MTT} implementation of Runge-Kutta integration is a fourth order, fixed-step, explicit integration method. For some systems of equations, the increased accuracy of using a fourth order method can allow larger step-lengths to be used than would allowed by the lower order Euler integration method. It should be noted that during the interemediate calculations (k1...k4), the input vector @code{u} is not advanced w.r.t. time; the system inputs are assumed to be constant over the period of the integration step-length. @node Hybrd algebraic solver, , Runge Kutta IV integration, Simulation parameters @comment node-name, next, previous, up @subsection Hybrd algebraic solver The hybrd algebraic solver of @uref{http://www.netlib.org/minpack/hybrd.f,MINPACK}, which is used by Octave in the @code{fsolve} routine, may be used in conjunction with one of the other integration methods to solve semi-explicit, index 1, differential algebraic equations; these may be generated in @strong{MTT} models by use of @code{unknown} SS Components @pxref{SS component labels}. This method requires that compiled simulation code is used; either -cc or -oct. To perform a simulation based on a model @code{sys}, @example mtt -cc -ae hybrd -i euler sys odeso view @c XXX: should be daeso view? @end example @strong{MTT} will attempt to minimise the residual error at each integration time-step using the hybrd routine. This method of simulation is particularly well suited to stiff systems where very fast dynamics are of little interest. Care must be taken to ensure that an acceptable level of convergence is achieved by the solver for the system under investigation. @c XXX: tolerance option @c @node Sparse implicit integration, , Implicit integration, Simulation parameters @c @comment node-name, next, previous, up @c @subsection Sparse implicit integration @c @cindex Sparse implicit integration @c This is an experimental approach for large (N>50) systems. |
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2156 2157 2158 2159 2160 2161 2162 | (defined by t) and parameters For example: @example bounce_ground_1_mtt_switch_logic = bounce_intf_1_mtt3<0; @end example | | | 2244 2245 2246 2247 2248 2249 2250 2251 2252 2253 2254 2255 2256 2257 2258 | (defined by t) and parameters For example: @example bounce_ground_1_mtt_switch_logic = bounce_intf_1_mtt3<0; @end example @node Simulation initial state, Simulation code, Simulation logic, Simulation @comment node-name, next, previous, up @section Simulation initial state @cindex Simulation initial state This is defined in the system_state.txt file. A default file is created automatically by @strong{MTT}. This is done explicitly by @example mtt system state txt |
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2193 2194 2195 2196 2197 2198 2199 | @c @item @c The -ss switch is not present: the states default to zero @c @item @c The -ss switch is present: the states default to those set in the @c sspar.r file. @c @end itemize | > > > > > > > > > > > > > > > > > > > > > > | | 2281 2282 2283 2284 2285 2286 2287 2288 2289 2290 2291 2292 2293 2294 2295 2296 2297 2298 2299 2300 2301 2302 2303 2304 2305 2306 2307 2308 2309 2310 2311 2312 2313 2314 2315 2316 2317 | @c @item @c The -ss switch is not present: the states default to zero @c @item @c The -ss switch is present: the states default to those set in the @c sspar.r file. @c @end itemize @node Simulation code, Simulation output, Simulation initial state, Simulation @comment node-name, next, previous, up @section Simulation code simulation code can be generated by @strong{MTT} in the form of the @code{ode2odes} transformation. This can be produced in a number of languages, including .m, .oct, C and C++ @pxref{Languages}. To generate simulation code in C: @example mtt -c [options] sys ode2odes c @end example Similarly, to generate C++ code: @example mtt -cc [options] sys ode2odes cc @end example To generate an executable based on the C++ representation: @example mtt -cc [options] sys ode2odes exe @end example @node Simulation output, , Simulation code, Simulation @comment node-name, next, previous, up @section Simulation output @cindex Simulation output The view (@pxref{Views}) representation provides a graphical representation of the results of a simulation; the postscript language provides the same thing in a form that can be included in a document. |
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4351 4352 4353 4354 4355 4356 4357 4358 4359 4360 4361 4362 4363 4364 | # Generated by MTT at Mon Jun 16 15:10:17 BST 1997 # %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% # %% Version control history # %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% # %% $Id$ # %% $Log$ # %% Revision 1.2 2001/07/03 22:59:10 gawthrop # %% Fixed problems with argument passing for CRs # %% # %% Revision 1.1 2001/06/04 08:18:52 gawthrop # %% Putting documentation under CVS # %% # %% Revision 1.66 2000/12/05 14:20:55 peterg | > > > | 4461 4462 4463 4464 4465 4466 4467 4468 4469 4470 4471 4472 4473 4474 4475 4476 4477 | # Generated by MTT at Mon Jun 16 15:10:17 BST 1997 # %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% # %% Version control history # %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% # %% $Id$ # %% $Log$ # %% Revision 1.3 2001/07/13 03:02:38 geraint # %% Added notes on #ICD, gnuplot.txt and odes.sg rep. # %% # %% Revision 1.2 2001/07/03 22:59:10 gawthrop # %% Fixed problems with argument passing for CRs # %% # %% Revision 1.1 2001/06/04 08:18:52 gawthrop # %% Putting documentation under CVS # %% # %% Revision 1.66 2000/12/05 14:20:55 peterg |
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5739 5740 5741 5742 5743 5744 5745 | @node Octave setup, Paths, REDUCE setup, Administration @comment node-name, next, previous, up @section Octave setup @cindex Octave setup Octave is available at various web sites including: | < | < > | > > > > > > > > > > > > > > > > | 5852 5853 5854 5855 5856 5857 5858 5859 5860 5861 5862 5863 5864 5865 5866 5867 5868 5869 5870 5871 5872 5873 5874 5875 5876 5877 5878 5879 5880 5881 5882 5883 5884 5885 5886 5887 5888 5889 5890 5891 5892 5893 5894 5895 5896 5897 5898 5899 5900 5901 5902 5903 5904 | @node Octave setup, Paths, REDUCE setup, Administration @comment node-name, next, previous, up @section Octave setup @cindex Octave setup Octave is available at various web sites including: @uref{http://www.octave.org} @menu * .octaverc:: * .oct file dependencies:: @end menu @node .octaverc, .oct file dependencies, Octave setup, Octave setup @comment node-name, next, previous, up @subsection .octaverc @vindex .octaverc The @file{.octaverc} file should contain the following lines: @example %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% Startup file for Octave for use with MTT %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% implicit_str_to_num_ok = 1; empty_list_elements_ok = 1; @end example @node .oct file dependencies, , .octaverc, Octave setup @comment node-name, next, previous, up Additionally, it is necessary to @subsection .oct file dependencies Successful compilation of .oct code requires that Octave has been configured to use dynamically linked libraries and that the Octave library @code{liboctave} and the Octave modified version of @code{libkpathsea} are available on the system. This can be acheived by compiling Octave from the source code, configured with the options @code{--enable-shared} and @code{--enable-dl}. Further information on configuring and installing Octave to handle dynamic libraries (DLDs) can be found in the @uref{http://www.octave.org/docs.html,Octave documentation}. @node Paths, File structure, Octave setup, Administration @comment node-name, next, previous, up @section Paths @cindex paths @cindex mttrc |
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