Today's graphics processing units (GPU) have tremendous resources when it comes to raw computing power. The simulation of large groups of agents in transport simulation has a huge demand of computation time. Therefore it seems reasonable to try to harvest this computing power for traffic simulation. Unfortunately simulating a network of traffic is inherently connected with random memory access. This is not a domain that the SIMD (single instruction, multiple data) architecture of GPUs is known to work well with. In this paper the authors will try to achieve a speedup by computing multi-agent traffic simulations on the graphics device using NVIDIA's CUDA framework
A novel GPU-accelerated simulation model of large-scale fleet deployment, which can run country-wide...
Part 5: Computational SystemsInternational audienceEven given today’s rich hardware platforms, compu...
Agent Based Modelling is a technique for computational simulation of complex interacting systems, th...
Today's graphics processing units (GPU) have tremendous resources when it comes to raw computing pow...
This thesis report is submitted in partial fulfillment of the requirements for the degree of Bachelo...
In order to keep short and acceptable run times of agent-based mobility simulators that are used for...
REACTION 2012. 1st International workshop on Real-time and distributed computing in emerging applica...
This work reports the results of a GPU-based approach for the massive simulation of a dis- tributed...
Traffic simulation is a growing domain of computational physics. Many life and industrial applicatio...
Thesis (Master's)--University of Washington, 2018Agent-based models (ABMs) simulate the actions and ...
Abstract The huge number of cores existing in current Graphics Processor Units (GPUs) provides these...
M.Sc. (Information Technology)The purpose of the research is to investigate agent-based approaches t...
International audienceMulti-Agent System (MAS) is an interesting way to create models and simulators...
International audienceMulti-Agent Systems (MAS) can be used to model systems where the global behavi...
Thesis (M.S.)--Wichita State University, College of Engineering, Dept. of Electrical Engineering and...
A novel GPU-accelerated simulation model of large-scale fleet deployment, which can run country-wide...
Part 5: Computational SystemsInternational audienceEven given today’s rich hardware platforms, compu...
Agent Based Modelling is a technique for computational simulation of complex interacting systems, th...
Today's graphics processing units (GPU) have tremendous resources when it comes to raw computing pow...
This thesis report is submitted in partial fulfillment of the requirements for the degree of Bachelo...
In order to keep short and acceptable run times of agent-based mobility simulators that are used for...
REACTION 2012. 1st International workshop on Real-time and distributed computing in emerging applica...
This work reports the results of a GPU-based approach for the massive simulation of a dis- tributed...
Traffic simulation is a growing domain of computational physics. Many life and industrial applicatio...
Thesis (Master's)--University of Washington, 2018Agent-based models (ABMs) simulate the actions and ...
Abstract The huge number of cores existing in current Graphics Processor Units (GPUs) provides these...
M.Sc. (Information Technology)The purpose of the research is to investigate agent-based approaches t...
International audienceMulti-Agent System (MAS) is an interesting way to create models and simulators...
International audienceMulti-Agent Systems (MAS) can be used to model systems where the global behavi...
Thesis (M.S.)--Wichita State University, College of Engineering, Dept. of Electrical Engineering and...
A novel GPU-accelerated simulation model of large-scale fleet deployment, which can run country-wide...
Part 5: Computational SystemsInternational audienceEven given today’s rich hardware platforms, compu...
Agent Based Modelling is a technique for computational simulation of complex interacting systems, th...