Processing math: 100%

CP2K Open Source Molecular Dynamics

User Tools

Site Tools

Trace:
exercises:2015_ethz_mmm:c2h2_bond_energy

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revisionPrevious revision
Next revision		Previous revision
exercises:2015_ethz_mmm:c2h2_bond_energy [2015/02/26 14:19] yakutovichexercises:2015_ethz_mmm:c2h2_bond_energy [2020/08/21 10:15] (current) – external edit 127.0.0.1
Line 1: Line 1:
 ====== C2H2 and C2H4 bond energy ====== ====== C2H2 and C2H4 bond energy ======
 <note warning> <note warning>
-Before you start it is **ABSOLUTELY NEСESSARY** to update the function library. So from you $HOME directory please run: +TO USE THE FUNCTION LIBRARY (VERSION UP TO DATE) IN THE INTERACTIVE SHELL: 
-<code> + 
-you@eulerX ~$ ./update_functionlibrary +you@eulerX ~module load courses mmm vmd 
-</code> +  
-** Pay attention to the output of this program. It may give you some helpful information**+you@eulerX ~$ mmm-init 
 +</note>
  
-If you don't have the file "update_functionlibrary" please download it from here {{update_functionlibrary.zip|}} and unzip into your $HOME directory 
-<code> 
-you@eulerX ~$ unzip update_functionlibrary.zip 
-you@eulerX ~$ chmod 755 update_functionlibrary 
-</code> 
-Or if you are working on the remote computer you can also do the following: 
-<code> 
-you@eulerX ~$ wget http://www.cp2k.org/_media/exercises:2015_ethz_mmm:update_functionlibrary.zip 
-you@eulerX ~$ unzip exercises:2015_ethz_mmm:update_functionlibrary.zip 
-you@eulerX ~$ chmod 755 update_functionlibrary 
-</code> 
  
-</note> 
  
-<note important> **REMEMBER** to load the  module for the cp2k program:+<note important> **REMEMBER: this is the command to load the  module for the cp2k program:**
  
 <code> <code>
Line 27: Line 16:
 </code> </code>
  
-**and to submit the job chain:**+**and to submit the job:**
  
 <code> <code>
-you@eulerX ~$ bsub < c2h2.a.chain+you@eulerX ~$ bsub < jobname
 </code>  </code> 
 </note>  </note> 
Line 47: Line 36:
 In this exercise you will test the general AMBER force field, which is suitable for a large class of molecules. In this example you will compute the classical energy of a simple acetylene molecule and apply small variations to the C-C bond lengths.  In this exercise you will test the general AMBER force field, which is suitable for a large class of molecules. In this example you will compute the classical energy of a simple acetylene molecule and apply small variations to the C-C bond lengths. 
  
-Please go to the directory "exercise_2.1/c2h2/"+Then go to the directory "exercise_2.1/c2h2/"
 <code> <code>
 you@eulerX ~$ cd exercise_2.1/c2h2/ you@eulerX ~$ cd exercise_2.1/c2h2/
Line 113: Line 102:
 The script to modify the C-C distance in the input and generate the curve is the following: The script to modify the C-C distance in the input and generate the curve is the following:
  
-<code bash c2h2.amber.chain>+<code bash c2h2.chain>
 # #
 # task 2.1 C2H2 bond strength # task 2.1 C2H2 bond strength
Line 126: Line 115:
 # #
 # loads the functions # loads the functions
-# this script uses the functions: change replace getcolumn add list+# this script uses the functions: m_change m_replace m_getcolumn m_sum m_list
 # #
 module load new cp2k module load new cp2k
-~/Scripts/myfunctions.bash+. /cluster/apps/courses/mmm/m_functions.bash
  
  
Line 141: Line 130:
 # #
  
-for n in `list -5 5`+for n in `m_list -5 5`
 do do
-  dist_cc=`change distcc0n $delta` +  dist_cc=`m_change distcc0n $delta` 
-  c2=`add disthcdist_cc ` +  c2=`m_sum disthcdist_cc` 
-  h2=`add c2dist_hc `+  h2=`m_sum c2dist_hc `
   #   #
   # replaces coordinates in the input   # replaces coordinates in the input
   #   #
-  replace _C1_ $dist_hc < c2h2.amber.inp.templ | replace _C2_ $c2  | replace _H2_ h2>c2h2.dist_cc.inp+  m_replace _C1_ $dist_hc < c2h2.inp.templ | m_replace _C2_ $c2  | m_replace _H2_ h2>c2h2.dist_cc.inp
   #   #
   # Runs cp2k   # Runs cp2k
Line 159: Line 148:
   # gets the energy from the output (in a.u.)   # gets the energy from the output (in a.u.)
   #   #
-  energy=` getcolumn 'ENERGY|' 9 < c2h2.$dist_cc.out `+  energy=` m_getcolumn 'ENERGY|' 9 < c2h2.$dist_cc.out ` 
   echo distccenergy  >> curve.amber.c2h2   echo distccenergy  >> curve.amber.c2h2
 # #
Line 172: Line 161:
 mv c2h2.*.inp c2h2.*.out Logs mv c2h2.*.inp c2h2.*.out Logs
 rm RUN* *restart* rm RUN* *restart*
 +
 +
  
 </code> </code>
Line 179: Line 170:
  
 <code> <code>
-you@brutusX mmm_exercise_2.1$ module load new cp2k +you@eulerX c2h2$ module load new cp2k 
-you@brutusX mmm_exercise_2.1$ bsub < c2h2.a.chain+you@eulerX c2h2$ bsub < c2h2.chain
 </code> </code>
  
Line 188: Line 179:
  
 <code> <code>
-you@brutusX mmm_exercise_2.1$ gnuplot fit.triple.gnu+you@eulerX c2h2$ gnuplot fit.gnu
 </code> </code>
  
-<code - fit.triple.gnu>+<code - fit.gnu>
 #!/usr/bin/gnuplot #!/usr/bin/gnuplot
 f(x)=k*(x-x0)*(x-x0)+e0         # definition of the function to be fitted f(x)=k*(x-x0)*(x-x0)+e0         # definition of the function to be fitted
Line 232: Line 223:
  
 Now, perform the same exercise in another directory for the molecule C2H4. Now, perform the same exercise in another directory for the molecule C2H4.
 +<code>
 +you@eulerX c2h2$ cd ../c2h4
 +</code>
  
-    * The input c2h4.amber.inp.templ is similar to the previous one, only with different project name (C2H4) and coordinates:+    * The new input c2h4.inp.templ is similar to the previous one, only with different project name (C2H4) and coordinates:
  
 <code coo.ch4> <code coo.ch4>
Line 246: Line 240:
    * The script to modify the bond lengths changes slightly as well    * The script to modify the bond lengths changes slightly as well
  
-<code bash c2h4.a.chain>+<code bash c2h4.chain>
 # #
 # task 2.2 C2H4 bond strength # task 2.2 C2H4 bond strength
Line 259: Line 253:
 # #
 # loads the functions # loads the functions
-# this script uses the functions: change replace getcolumn add list+# this script uses the functions: m_change m_replace m_getcolumn m_sum m_list
 # #
 module load new cp2k module load new cp2k
-. ~/Scripts/myfunctions.bash+#. ~/Scripts/myfunctions.bash 
 +. /cluster/apps/courses/mmm/m_functions.bash
  
  
Line 274: Line 269:
 # #
  
-for n in `list -5 5`+for n in `m_list -5 5`
 do do
-  dist_cc=`change distcc0n $delta` +  dist_cc=`m_change distcc0n $delta` 
-  c2=`add disthcxdist_cc` +  c2=`m_sum disthcxdist_cc` 
-  h3=`add c2dist_hcx `+  h3=`m_sum c2dist_hcx `
   #   #
   # replaces coordinates in the input   # replaces coordinates in the input
   #   #
-  replace _C1_ $dist_hcx < c2h4.amber.inp.templ | replace _C2_ $c2  | replace _H3_ h3>c2h4.dist_cc.inp+  m_replace _C1_ $dist_hcx < c2h4.inp.templ | m_replace _C2_ $c2  | m_replace _H3_ h3>c2h4.dist_cc.inp
   #   #
   # Runs cp2k   # Runs cp2k
Line 291: Line 286:
   # gets the energy from the output (in a.u.)   # gets the energy from the output (in a.u.)
   #   #
-  energy=` getcolumn 'ENERGY|' 9 < c2h4.$dist_cc.out ` +  energy=` m_getcolumn 'ENERGY|' 9 < c2h4.$dist_cc.out `
   echo distccenergy  >> curve.amber.c2h4   echo distccenergy  >> curve.amber.c2h4
 # #
Line 304: Line 299:
 mv c2h4.*.inp c2h4.*.out Logs mv c2h4.*.inp c2h4.*.out Logs
 rm RUN* *restart* rm RUN* *restart*
-                                                                                                                                                                        + 
 +                                                                                                                                                  
 </code> </code>
  
Line 312: Line 308:
 <note tip>Assignment:  <note tip>Assignment: 
   - Report the values of the bond length and force constants in all cases.    - Report the values of the bond length and force constants in all cases. 
-  - Discuss these values in view of the kind of molecules we are simulating+  - Discuss these values in view of the kind of molecules we are simulating
 +</note>
exercises/2015_ethz_mmm/c2h2_bond_energy.1424960369.txt.gz · Last modified: 2020/08/21 10:14 (external edit)