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--- exercises:2015_cecam_tutorial:urea [2015/08/19 14:59] – tmueller
+++ exercises:2015_cecam_tutorial:urea [2015/08/20 13:57] – replace angstrom html entity with utf-8 character tmueller
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-In the ''[[inp>FORCE_EVAL/MM/FORCEFIELD]]'' section we specify the same AMBER topology file, specified for the connectivity, since it stores the force-field information as well. In FIST (which is the classical module) the non-bonded potential is mapped on splines and in the spline section above, we specify the cutoff for these interactions (in this case 9 &#8491;).
+In the ''[[inp>FORCE_EVAL/MM/FORCEFIELD]]'' section we specify the same AMBER topology file, specified for the connectivity, since it stores the force-field information as well. In FIST (which is the classical module) the non-bonded potential is mapped on splines and in the spline section above, we specify the cutoff for these interactions (in this case 9 Å).
 The core of the evaluation in a classical run, is the evaluation of the electrostatic. We can adjust these parameters in the ''[[inp>FORCE_EVAL/MM/POISSON]]'' section (similarly to the DFT calculations). For classical runs we can employ either standard EWALD summations, Particle-Mesh Ewald (PME) sums or Smooth-Particle-Mesh Ewald ones (SPME).