Simulation Technology for Modelling Extreme Bushfire Behaviour. Extreme fires cause immeasurable damage to communities through destruction of homes and damage to infrastructure. Large, highly intense fires reduce biodiversity, take decades for recovery, increase greenhouse gas emissions and reduce carbon storage capacity. Climate change is likely to increase the frequency of extreme fire weather increasing the need for reliable fire spread prediction under extreme conditions and to reduce impa ....Simulation Technology for Modelling Extreme Bushfire Behaviour. Extreme fires cause immeasurable damage to communities through destruction of homes and damage to infrastructure. Large, highly intense fires reduce biodiversity, take decades for recovery, increase greenhouse gas emissions and reduce carbon storage capacity. Climate change is likely to increase the frequency of extreme fire weather increasing the need for reliable fire spread prediction under extreme conditions and to reduce impact by preparedness and suppression. Incorporating an evidence-based fire spread model into a fire location forecasting system will give fire agencies early warning of potentially disastrous fires, enable early response to prevent fires and mitigate the consequence to life, property and the environment. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561219
Funder
Australian Research Council
Funding Amount
$1,362,295.00
Summary
Western Australian Supercomputer Program (WASP). The simulation and understanding of real biological and physical systems, at the level enabling significant and usable insights, requires teraflop+ computing. The rate-determining step in the next generation of analysis and modelling calculations requires access to massively parallel supercomputers. In Western Australia, there are a number of critical and unique projects that are totally dependant on such facilities. The Western Australian Supe ....Western Australian Supercomputer Program (WASP). The simulation and understanding of real biological and physical systems, at the level enabling significant and usable insights, requires teraflop+ computing. The rate-determining step in the next generation of analysis and modelling calculations requires access to massively parallel supercomputers. In Western Australia, there are a number of critical and unique projects that are totally dependant on such facilities. The Western Australian Supercomputer Program (WASP) will provide a quantum advance to computationally-intensive scientific research, as well as to world-class visualisation and data-management resources for academic and business communities, both nationally and internationally.Read moreRead less
Real-Time Searches for Gravitational Waves and Identification of Their Radio and Optical Counterparts. The proposed project will directly address the national research priority in development of frontier technologies, directly involve Australians in frontier work in gravitational wave astronomy that will result in break-through sciences and improve the chance of the international Square-Kilometer-Array project being sited at Australia. In addition, it will foster a close collaboration of top int ....Real-Time Searches for Gravitational Waves and Identification of Their Radio and Optical Counterparts. The proposed project will directly address the national research priority in development of frontier technologies, directly involve Australians in frontier work in gravitational wave astronomy that will result in break-through sciences and improve the chance of the international Square-Kilometer-Array project being sited at Australia. In addition, it will foster a close collaboration of top international researchers with an Australian team. The research at The University of Western Australia will attract students from around the world and serve to educate and inspire young people in Australia.Read moreRead less