Author Info
Name
Affiliation
Papers
SIMON PORTEGIES ZWART
Section Computational Science, University of Amsterdam, Amsterdam, The Netherlands
34
Collaborators
Citations 
PageRank 
46
192
23.58
Referers 
Referees 
References 
411
380
224
Search Limit
100411
Title
Citations
PageRank
Year
Non-intrusive hierarchical coupling strategies for multi-scale simulations in gravitational dynamics00.342020
Creating A Reusable Cross-Disciplinary Multi-Scale And Multi-Physics Framework: From Amuse To Omuse And Beyond00.342019
Development Of The Omuse/Amuse Modeling System00.342018
Numerical verification of the microscopic time reversibility of Newton's equations of motion: Fighting exponential divergence.10.362018
OMUSE: Oceanographic multipurpose software environment00.342016
Creating the Virtual Universe.00.342016
From Thread to Transcontinental Computer: Disturbing Lessons in Distributed Supercomputing10.392015
Sapporo2: A versatile direct $N$-body library10.362015
Using GPUs to Enable Simulation with Computational Gravitational Dynamics in Astrophysics20.432015
On the minimal accuracy required for simulating self-gravitating systems by means of direct N-body methods.30.482014
24.77 Pflops on a gravitational tree-code to simulate the Milky Way Galaxy with 18600 GPUs130.892014
MPWide: a light-weight library for efficient message passing over wide area networks.30.422013
The Astronomical Multipurpose Software Environment and the Ecology of Star Clusters.00.342013
Multi-physics simulations using a hierarchical interchangeable software interface.151.002013
A sparse octree gravitational N-body code that runs entirely on the GPU processor493.292012
Bonsai: A GPU Tree-Code20.532012
High-Performance Distributed Multi-Model / Multi-Kernel Simulations: A Case-Study in Jungle Computing60.522012
High Performance Gravitational N-body Simulations on a Planet-wide Distributed Supercomputer60.512011
High performance cosmological simulations on a grid of supercomputers20.392011
Simulating the universe on an intercontinental grid of supercomputers30.502010
A platform independent communication library for distributed computing00.342010
The Living Application: a Self-Organizing System for Complex Grid Tasks10.372010
Simulating the Universe on an Intercontinental Grid30.442010
A Light-Weight Communication Library for Distributed Computing10.372010
Gravitational tree-code on graphics processing units: implementation in CUDA90.982010
SAPPORO: A way to turn your graphics cards into a GRAPE-6192.242009
On the Origin of Grid Species: The Living Application50.502009
Simulating N-Body Systems on the Grid Using Dedicated Hardware10.362008
Regular Paper: Interactive N-Body Simulations On the Grid: HLA Versus MPI40.432007
A parallel gravitational N-body kernel20.482007
High-performance direct gravitational N-body simulations on graphics processing units212.652007
Distributed N-body simulation on the grid using dedicated hardware20.422007
Performance analysis of direct N-body algorithms for astrophysical simulations on distributed systems161.552007
Performance of a parallel astrophysical n-body solver on pan-european computational grids10.372005