Search results for: PARALLEL CROWD SIMULATION

• Multi-agent large-scale parallel crowd simulation

  Publication

  • A. Malinowski
  • P. Czarnul
  • K. Czuryƚo
  • M. Maciejewski
  • P. Skowron

  - Year 2017

  This paper presents design, implementation and performance results of a new modular, parallel, agent-based and large scale crowd simulation environment. A parallel application, implemented with C and MPI, was implemented and run in this parallel environment for simulation and visualization of an evacuation scenario at Gdansk University of Technology, Poland and further in the area of districts of Gdansk. The application uses a...

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• Multi-agent large-scale parallel crowd simulation with NVRAM-based distributed cache

  Publication

  • A. Malinowski
  • P. Czarnul

  - Journal of Computational Science - Year 2019

  This paper presents the architecture, main components and performance results for a parallel and modu-lar agent-based environment aimed at crowd simulation. The environment allows to simulate thousandsor more agents on maps of square kilometers or more, features a modular design and incorporates non-volatile RAM (NVRAM) with a fail-safe mode that can be activated to allow to continue computationsfrom a recently analyzed state in...

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• Efficient parallel implementation of crowd simulation using a hybrid CPU+GPU high performance computing system

  Publication

  • J. Skrzypczak
  • P. Czarnul

  - SIMULATION MODELLING PRACTICE AND THEORY - Year 2023

  In the paper we present a modern efficient parallel OpenMP+CUDA implementation of crowd simulation for hybrid CPU+GPU systems and demonstrate its higher performance over CPU-only and GPU-only implementations for several problem sizes including 10 000, 50 000, 100 000, 500 000 and 1 000 000 agents. We show how performance varies for various tile sizes and what CPU–GPU load balancing settings shall be preferred for various domain...

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• Simulation of Parallel Applications on Large-scale Distributed Systems

  Publication

  • P. Rościszewski
  • P. Sidorczak

  - Year 2014

  This chapter has a form of a review article in the field of simulating High-Performance Computing systems. We justify the need for a new versatile simulator considering heterogeneity, energy efficiency and reliability of HPC systems. We sketch the problems that need to be solved by such simulator and rationalize using discrete-event simulation for this purpose. Based on a review of existing discrete-event HPC simulation solutions...

• Simulation of parallel similarity measure computations for large data sets

  Publication

  • P. Czarnul
  • P. Rościszewski
  • M. Matuszek
  • J. Szymański

  - Year 2015

  The paper presents our approach to implementation of similarity measure for big data analysis in a parallel environment. We describe the algorithm for parallelisation of the computations. We provide results from a real MPI application for computations of similarity measures as well as results achieved with our simulation software. The simulation environment allows us to model parallel systems of various sizes with various components...

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• Using GPUs for Parallel Stencil Computations in Relativistic Hydrodynamic Simulation

  Publication

  • S. Cygert
  • D. Kikoła
  • J. Porter-Sobieraj
  • J. Sikorski
  • M. Słodkowski

  - Year 2014

  This paper explores the possibilities of using a GPU for complex 3D finite difference computation. We propose a new approach to this topic using surface memory and compare it with 3D stencil computations carried out via shared memory, which is currently considered to be the best approach. The case study was performed for the extensive computation of collisions between heavy nuclei in terms of relativistic hydrodynamics.

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• Molecular Diffusion Simulation on ARUZ – Massively-parallel FPGA-based Machine

  Publication

  • R. Kielbik
  • K. Halagan
  • K. Rudnicki
  • P. Polanowski
  • G. Jablonski
  • J. Jung

  - Year 2021

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• MERPSYS: An environment for simulation of parallel application execution on large scale HPC systems

  Publication

  • P. Czarnul
  • J. Kuchta
  • M. Matuszek
  • J. Proficz
  • P. Rościszewski
  • J. Szymański
  • M. Wójcik

  - SIMULATION MODELLING PRACTICE AND THEORY - Year 2017

  In this paper we present a new environment called MERPSYS that allows simulation of parallel application execution time on cluster-based systems. The environment offers a modeling application using the Java language extended with methods representing message passing type communication routines. It also offers a graphical interface for building a system model that incorporates various hardware components such as CPUs, GPUs, interconnects...

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• Modeling and Simulation for Exploring Power/Time Trade-off of Parallel Deep Neural Network Training

  Publication

  • P. Rościszewski

  - Procedia Computer Science - Year 2017

  In the paper we tackle bi-objective execution time and power consumption optimization problem concerning execution of parallel applications. We propose using a discrete-event simulation environment for exploring this power/time trade-off in the form of a Pareto front. The solution is verified by a case study based on a real deep neural network training application for automatic speech recognition. A simulation lasting over 2 hours...

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• ACM SIGSIM Conference on Principles of Advanced Discrete Simulation (ACM/IEEE/SCS Workshop on Parallel and Distributed Simulation)

  Conferences