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Molecular dynamics simulation

Molecular dynamics simulationCS/CME/BioE/Biophys/BMI 279 Oct. 5, 2021 Ron Dror1 Outline Molecular dynamics (MD): The basic idea Equations of motion Key properties of MD simulations Sample applications Limitations of MD simulations Software packages and force fields Accelerating MD simulations Monte Carlo simulation2 Molecular dynamics : The basic idea3 The idea Mimic what atoms do in real life, assuming a given potential energy function The energy function allows us to calculate the force experienced by any atom given the positions of the other atoms Newton s laws tell us how those forces will affect the motions of the atoms4 Energy (U)PositionPositionBasic algorithm Divide time into discrete time steps, no more than a few femtoseconds (10 15 s) each At each time step: Compute the forces acting on each atom, using a Molecular mechanics force field Move the atoms a little bit: update position and velocity o

• Parallelize the simulation across multiple computers • Redesign computer chips to make this computation run faster 33 I want you to understand why simulations are computationally expensive and slow, and to have a sense of the types of things people try to speed them up. You are not responsible for the details of these speed-up methods.

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