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update osx readme

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Houtan Bastani 2012-08-07 15:45:17 +02:00
parent 53709a3214
commit d2c2fa592b
1 changed files with 10 additions and 8 deletions
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osx/README.txt
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@ -53,13 +53,14 @@ specify a MOD file.
Using Dynare with Octave
------------------------
Dynare is now available for GNU Octave, a free clone of MATLAB (R) (see
Dynare also works on top of GNU Octave, a free clone of MATLAB (R) (see
<http://www.octave.org>).
The recommended Octave distribution is the Octave 3.4
precompiled binaries from Octave Forge, available at:
This version of Dynare is compiled for Octave 3.6.2, and may not work
with other versions of Octave. You can download Octave through the Homebrew
package manager:
http://sourceforge.net/projects/octave/files/Octave%20MacOSX%20Binary/
http://mxcl.github.com/homebrew
Every time you run Octave, you should type the two following commands (assuming
that you have installed Dynare at the standard location, and replacing '4.x.y'
@ -75,10 +76,6 @@ You can test your installation by typing 'dynare' at the Octave prompt. This
should give you an error message complaining that you did not specify a MOD
file.
For more information about Dynare for Octave, go to:
http://www.dynare.org/DynareWiki/DynareOctave
Dynamic Loadable Libraries
--------------------------
@ -91,13 +88,16 @@ If the libraries are correctly detected by MATLAB (R) or Octave, the following s
be displayed when you launch Dynare:
Configuring Dynare ...
[mex] Generalized QZ.
[mex] Sylvester equation solution.
[mex] Kronecker products.
[mex] Sparse kronecker products.
[mex] Local state space iteration (second order).
[mex] Bytecode evaluation.
[mex] k-order perturbation solver.
[mex] k-order solution simulation.
[mex] Quasi Monte-Carlo sequence (Sobol).
On the contrary, if the libraries are not detected, Dynare will fallback on
slower alternatives written in M-files (which exist for some of the libraries),
@ -108,9 +108,11 @@ and display the following:
[m] Sylvester equation solution.
[m] Kronecker products.
[m] Sparse kronecker products.
[m] Local state space iteration (second order).
[no] Bytecode evaluation.
[no] k-order perturbation solver.
[no] k-order solution simulation.
[no] Quasi Monte-Carlo sequence (Sobol).
In this last case, Dynare will run correctly on the basic features,
but with suboptimal speed, and some features will be missing. There