### Merge branch 'docu_fixes' of gitlab.mpcdf.mpg.de:ift/nifty-dev into docu_fixes

 ... @@ -103,7 +103,7 @@ and the measurement equation is linear in both, signal and noise, ... @@ -103,7 +103,7 @@ and the measurement equation is linear in both, signal and noise, with :math:{R} the measurement response, which maps the continous signal field into the discrete data space. with :math:{R} the measurement response, which maps the continous signal field into the discrete data space. This is called a free theory, as the information Hamiltonian This is called a free theory, as the information Hamiltonian associate professor .. math:: .. math:: \mathcal{H}(d,s)= -\log \mathcal{P}(d,s)= \frac{1}{2} s^\dagger S^{-1} s + \frac{1}{2} (d-R\,s)^\dagger N^{-1} (d-R\,s) + \mathrm{const} \mathcal{H}(d,s)= -\log \mathcal{P}(d,s)= \frac{1}{2} s^\dagger S^{-1} s + \frac{1}{2} (d-R\,s)^\dagger N^{-1} (d-R\,s) + \mathrm{const} ... @@ -181,10 +181,10 @@ The reconstruction of a non-Gaussian signal with unknown covarinance from a non- ... @@ -181,10 +181,10 @@ The reconstruction of a non-Gaussian signal with unknown covarinance from a non- +-------------------------------------------------+ +-------------------------------------------------+ | .. image:: images/getting_started_3_setup.png | | .. image:: images/getting_started_3_setup.png | | :width: 100 % | | :width: 30 % | +-------------------------------------------------+ +-------------------------------------------------+ | .. image:: images/getting_started_3_results.png | | .. image:: images/getting_started_3_results.png | | :width: 100 % | | :width: 30 % | +-------------------------------------------------+ +-------------------------------------------------+ | Output of tomography demo getting_started_3.py. | | Output of tomography demo getting_started_3.py. | | **Top row:** Non-Gaussian signal field, | | **Top row:** Non-Gaussian signal field, | ... ...