Check / prove that integrator test is valid for temperature / pressure coupling #67

ptmerz · 2020-04-28T21:14:35Z

The integrator test analyzes the fluctuations of the constant of motion of a simulation. Theoretically, this is expected to be proportional to dt^2 (since the integrator preserves the constant of motion of the shadow Hamiltonian, but we are observing the constant of motion of the real Hamiltonian...).

We are only advertising to use this in NVE simulations, since we never cleanly proved that it would work with constants of motion of extended systems using temperature or pressure coupling. It shouldn't be too hard to check this & update the documentation accordingly.

ptmerz · 2021-11-04T17:43:29Z

Bumped since this isn't a blocking issue.

ptmerz added the documentation label Apr 28, 2020

ptmerz self-assigned this Apr 28, 2020

ptmerz added this to the Monday Mar 1 milestone Feb 15, 2021

ptmerz modified the milestones: Monday Mar 1, JOSS version Apr 29, 2021

ptmerz modified the milestones: JOSS version, Future Nov 4, 2021

ptmerz closed this as completed Nov 4, 2021

ptmerz reopened this Nov 4, 2021

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Check / prove that integrator test is valid for temperature / pressure coupling #67

Check / prove that integrator test is valid for temperature / pressure coupling #67

ptmerz commented Apr 28, 2020

ptmerz commented Nov 4, 2021

Check / prove that integrator test is valid for temperature / pressure coupling #67

Check / prove that integrator test is valid for temperature / pressure coupling #67

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ptmerz commented Apr 28, 2020

ptmerz commented Nov 4, 2021