Uncertainty estimation for molecular dynamics and sampling

Machine-learning models have emerged as a very effective strategy to sidestep time-consuming electronic-structure calculations, enabling accurate simulations of greater size, time scale, and complexity. Given the interpolative nature of these models, the reliability of predictions depends on the position in phase space, and it is crucial to obtain an estimate of the error that derives from the finite number of reference structures included during model training. When using a machine-learning potential to sample a finite-temperature ensemble, the uncertainty on individual configurations translates into an error on thermodynamic averages and leads to a loss of accuracy when the simulation enters a previously unexplored region. Here, we discuss how uncertainty quantification can be used, together with a baseline energy model, or a more robust but less accurate interatomic potential, to obtain more resilient simulations and to support active-learning strategies. Furthermore, we introduce an on-the-fly reweighing scheme that makes it possible to estimate the uncertainty in thermodynamic averages extracted from long trajectories. We present examples covering different types of structural and thermodynamic properties and systems as diverse as water and liquid gallium.

Wärmepumpe mit Zwischeneinspritzung bei Scrollkompressoren.

Daniel Favrat, Michele Zehnder

This project is evaluating a heat pump cycle with midstage injection at scroll compressors. The injected refrigerant is evaporated partially by an internal heat exchanger (fig. 2.1). A glycol-water heat pump with 12 kW heat capacity at B-5/W50 was built and tested in the laboratory at several conditions (B- 5/0/5 at W35/50 and B-10/W60). The refrigerant is R407C. For the theoretical analysis the exact geometry of the injection wholes is determined. The results are discussed in the hypothesis of a monovalent heating implementation in the market of retrofitting fuel based heating systems. Measurements at stationary test conditions with injection show an increase of the heat output by 15% compared to the values without injection (fig 4.2 and 4.5). The heat output is not affected by the position of the manually regulated injection valve. The end of compression temperature can be controlled by the amount of injected refrigerant. The application range for this heat pump is enlarged and at the point B-10/W60 the maximum system temperature has been reduced from 110°C to 75°C. The coefficient of performance (COP) with and without injection is comparable at the major part of the tested points (fig. 4.1 and 4.4). The only available compressor type with the possibility of injection has a geometry which is not adapted for saturated vapor. The resulting reduction in performance is equivalent to the gain by the better thermodynamic concept. The optimum COP is reached with an injection rate issued by a thermostatic valve control. With higher injection rate, the COP is decreasing linearly and a reduction up to 15% is achieved at B-10/W60. Two injection configurations (the injected refrigerant is separated before and after the economizer exchanger) have been compared and show equivalent results. The simulation model has been developed considering the test results. For the compression phase during injection a correction factor has been introduced. The simulation can be used to analyse of the qualitative behavior. A high potential of performance improvement can be achieved by reducing the injection pressure level (table 5.2). Shifting the position of the injection wholes in higher pressure regions does not affect the performances but can keep the compression curve away from the saturation limit.

2000

Adaptive conformational sampling based on replicas

Jérémy Curuksu

Computer simulations of biomolecules such as molecular dynamics simulations are limited by the time scale of conformational rearrangements. Several sampling techniques are available to search the multi-minima free energy landscape but most efficient, time-dependent methods do generally not produce a canonical ensemble. A sampling algorithm based on a self-regulating ladder of searching copies in the dihedral subspace is developped in this paper. The learning process using short-and long-term memory functions allows an efficient search in phase space while combining a deterministic dynamics and stochastic swaps with the searching copies conserves a canonical limit. The sampling efficiency and accuracy are indicated by comparing the ansatz with conventional molecular dynamics and replica exchange simulations.

Springer-Verlag2012

Prion versus Doppel Protein Misfolding: New Insights from Replica-Exchange Molecular Dynamics Simulations

Ursula Röthlisberger, Ivano Tavernelli

The doppel (Dpl) and prion (PrP) proteins share a very similar fold (three helices and two short beta-strands), while they differ significantly in sequence (only 25% homologous) and in disease-related beta-rich conformations that occur for PrP only. In a previous study [Baillod, P., et al. (2012) Biochemistry 51, 9891-9899], we investigated the misfolding and rare, beta-rich folds of monomeric PrP with replica-exchange molecular dynamics (REMD) simulations. In the work presented here, we perform analogous simulations for Dpl with the aim of comparing the two systems and characterizing possible specificities of PrP for misfolding and amyloidogenesis. Our extensive simulations, which allow us to overcome high energy barriers via the REMD approach, sample several beta-rich folds, some of which are stable at room temperature, for both proteins. Per residue secondary structure propensities reveal that novel beta-sheets of Dpl and PrP are formed by amino acids belonging to the helices that are the least stable in the respective native structure, H1 for Dpl and H2 and H3 for PrP, in agreement with experimental data. Using a specific clustering method that allows discrimination against different beta-strand arrangements, seven beta-rich folds could be characterized for PrP and five for Dpl, which are clearly distinct and share only one single similar fold. A major difference between the two proteins is found in the free energy barriers leading to misfolded structures: they are approximately 3 times higher for Dpl than for PrP. This suggests that the difference in amyloidogenic behavior between PrP and Dpl might be due to kinetic reasons.

American Chemical Society2013

Wärmepumpe mit Zwischeneinspritzung bei Scrollkompressoren.

Daniel Favrat, Michele Zehnder

2000