M. Chaimovich scite author profile

M. Chaimovich

5Publications

54Citation Statements Received

278Citation Statements Given

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275

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Tel Aviv University

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Relative Resolution: A Computationally Efficient Implementation in LAMMPS

Chaimovich¹,

Chaimovich

2021

J. Chem. Theory Comput.

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Recently, a novel type of a multiscale simulation, called Relative Resolution (RelRes), was introduced. In a single system, molecules switch their resolution in terms of their relative separation, with near neighbors interacting via fine-grained potentials yet far neighbors interacting via coarse-grained potentials; notably, these two potentials are analytically parameterized by a multipole approximation. This multiscale approach is consequently able to correctly retrieve across state space, the structural and thermal, as well as static and dynamic, behavior of various nonpolar mixtures.Our current work focuses on the practical implementation of RelRes in LAMMPS, specifically for the commonly used Lennard-Jones potential. By examining various correlations and properties of several alkane liquids, including complex solutions of alternate cooligomers and block copolymers, we confirm the validity of this automated LAMMPS algorithm.Most importantly, we demonstrate that this RelRes implementation gains almost an order of magnitude in computational efficiency, as compared with conventional simulations. We thus recommend this novel LAMMPS algorithm for anyone studying systems governed by Lennard-Jones interactions.

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Solving dense subset-sum problems by using analytical number theory

Chaimovich¹,

Freiman²,

Galil³

1989

Journal of Complexity

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Fast exact and approximate algorithms for k-partition and scheduling independent tasks

Chaimovich

1993

Discrete Mathematics

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Subset-sum problems with different summands: computation

Chaimovich

1990

Discrete Applied Mathematics

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On exceptions to Szegedy's theorem

Chaimovich¹,

Freimann²,

Schönheim³

1987

Acta Arith.

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M. Chaimovich

Relative Resolution: A Computationally Efficient Implementation in LAMMPS

Solving dense subset-sum problems by using analytical number theory

Fast exact and approximate algorithms for k-partition and scheduling independent tasks

Subset-sum problems with different summands: computation

On exceptions to Szegedy's theorem

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