Difference between revisions of "Task 10: Molecular Dynamics Analysis"
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gmxcheck -f 1J8U_nosol_after_SCWRL_no_h_merged_crystal_water_md.xtc |
gmxcheck -f 1J8U_nosol_after_SCWRL_no_h_merged_crystal_water_md.xtc |
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+ | '''How many frames are in the trajectory file and what is the time resolution?''' |
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+ | We observed 2001 frames with a time resolution of 5ps. |
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+ | '''How long did the simulation run in real time (hours), what was the simulation speed (ns/day) and how many years would the simulation take to reach a second?''' |
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+ | The simulation ran 4h00:39 and had a simulation speed of 59.835 ns/day. To calculate 1 second we would need (1 / (59 * (10^(-9)))) / 365 = '''46 436.0344 years''' |
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==P281L== |
==P281L== |
Revision as of 13:54, 4 September 2011
In this task we are going to analyze the results of the molecular dynamics simulations of task 8. A detailed task description can be found here. The analysis focuses on this tutorial.
Native
A BRIEF CHECK OF RESULTS
In order to verify that our simulation ran successfully we used the command line tool gmxcheck. we executed it as follows for our .xtc file:
gmxcheck -f 1J8U_nosol_after_SCWRL_no_h_merged_crystal_water_md.xtc
How many frames are in the trajectory file and what is the time resolution?
We observed 2001 frames with a time resolution of 5ps.
How long did the simulation run in real time (hours), what was the simulation speed (ns/day) and how many years would the simulation take to reach a second?
The simulation ran 4h00:39 and had a simulation speed of 59.835 ns/day. To calculate 1 second we would need (1 / (59 * (10^(-9)))) / 365 = 46 436.0344 years