Paul Coddington scite author profile

Monte Carlo simulation is one of the main applications involving the use of random number generators. It is also one of the best methods of testing the randomness properties of such generators, by comparing results of simulations using different generators with each other, or with analytic results. Here we compare the performance of some popular random number generators by high precision Monte Carlo simulation of the 2-d Ising model, for which exact results are known, using the Metropolis, Swendsen-Wang, and Wolff Monte Carlo algorithms. Many widely used generators that perform well in standard statistical tests are shown to fail these Monte Carlo tests.

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A comparison of annealing techniques for academic course scheduling

Elmohamed

Coddington

Fox

1998

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Abstract. In this study we have tackled the NP-hard problem of academic class scheduling (or timetabling) at the university level. We have investigated a variety of approaches based on simulated annealing, including mean-field annealing, simulated annealing with three different cooling schedules, and the use of a rule-based preprocessor to provide a good initial solution for annealing. The best results were obtained using simulated annealing with adaptive cooling and reheating as a function of cost, and a rule-based preprocessor. This approach enabled us to obtain valid schedules for the timetabling problem for a large university, using a complex cost function that includes student preferences. None of the other methods were able to provide a complete valid schedule.

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Analysis and development of Java Grande benchmarks

Mathew

Coddington

Hawick

1999

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FAST: An advanced code system for fast reactor transient analysis

Mikityuk

Pelloni

Coddington

et al. 2005

Annals of Nuclear Energy

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Trends and needs in experimentation and numerical simulation for LWR safety

Yadigaroglu

Andreani

Dreier

et al. 2003

Nuclear Engineering and Design

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Transient experiments from the thermal-hydraulic ADS lead bismuth loop (TALL) and comparative TRAC/AAA analysis

Bubelis

Karbojian

et al. 2006

Nuclear Engineering and Design

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JAPARA - a Java parallel random number generator library for high-performance computing

Coddington

Newell

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Paul Coddington

A study of the performance of void fraction correlations used in the context of drift-flux two-phase flow models

Analysis of Random Number Generators Using Monte Carlo Simulation

A comparison of annealing techniques for academic course scheduling

Analysis and development of Java Grande benchmarks

FAST: An advanced code system for fast reactor transient analysis

Trends and needs in experimentation and numerical simulation for LWR safety

Transient experiments from the thermal-hydraulic ADS lead bismuth loop (TALL) and comparative TRAC/AAA analysis

JAPARA - a Java parallel random number generator library for high-performance computing

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