A scalable debugging framework for petascale computers. Supercomputing underpins a wide range of areas of importance to the Australian economy; mining, agriculture, engineering, medical research and pharmaceutical development to name a few. It is of critical importance that software solutions in these areas behave correctly and do not generate erroneous results. This project will develop software tools and techniques that make it possible to detect and locate errors as software is converted to r ....A scalable debugging framework for petascale computers. Supercomputing underpins a wide range of areas of importance to the Australian economy; mining, agriculture, engineering, medical research and pharmaceutical development to name a few. It is of critical importance that software solutions in these areas behave correctly and do not generate erroneous results. This project will develop software tools and techniques that make it possible to detect and locate errors as software is converted to run on the next generation of 'petascale' supercomputers. We will deploy the tools both commercially through our industry partner, and also on national high performance computing facilities.Read moreRead less
Combining mathematical programming and constraint programming to solve large-scale integrated scheduling problems. This project will target major savings in the airline industry, with resulting benefits for others such as tourism. The efficient use of airline fuel, which will be directly addressed in the project, is very important for the environment. The algorithms developed can improve cost and quality of service for Australian transportation, manufacturing and other industries.
The solut ....Combining mathematical programming and constraint programming to solve large-scale integrated scheduling problems. This project will target major savings in the airline industry, with resulting benefits for others such as tourism. The efficient use of airline fuel, which will be directly addressed in the project, is very important for the environment. The algorithms developed can improve cost and quality of service for Australian transportation, manufacturing and other industries.
The solutions developed within the project will be sold by the industrial partner, CTI, into major companies worldwide, and the technology will be used to develop further products.
Finally the project will extend Australia's lead in constraint programming and expertise in optimisation. This creates a major opportunity for the Australian software industry.
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From Tactical Planning to Operational Control - Bridging the Chasm. All organisations plan, and all organisations suffer from the disruptions that occur when plans are put into practice. Few organisations manage to balance operational control with planning to as to maintain both efficiency and flexibility to deal with the unexpected. This project addresses this requirement for the transportation and logistics industries.
The results discovered within the project will enable the industrial ....From Tactical Planning to Operational Control - Bridging the Chasm. All organisations plan, and all organisations suffer from the disruptions that occur when plans are put into practice. Few organisations manage to balance operational control with planning to as to maintain both efficiency and flexibility to deal with the unexpected. This project addresses this requirement for the transportation and logistics industries.
The results discovered within the project will enable the industrial partner, CTI, to develop solutions for major companies worldwide. The technology will be used to build further optimisation products.
Moreover the project will extend Australia's lead in constraint programming and expertise in optimisation. This creates a major opportunity for Australia's software industry.
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Understanding concurrent programs using rely-guarantee thinking. Multi-core processors are standard in computers and devices (e.g. smart phones) but much of the software available for these machines is either unreliable or does not exploit the available hardware parallelism. This project will devise techniques for designing concurrent software that exploits these platforms while delivering dependable operation.
Improving the integrity of complex software systems. Software systems are among the most complex artifacts created today. The problems of reliability and maintenance of complex software systems are well-known. Improving reliability and lowering production cost continues to be an important challenge. The aim of this project is to create software development tools that allow programmers to express more of their intentions about program behaviour, in a way which can be automatically checked, in ord ....Improving the integrity of complex software systems. Software systems are among the most complex artifacts created today. The problems of reliability and maintenance of complex software systems are well-known. Improving reliability and lowering production cost continues to be an important challenge. The aim of this project is to create software development tools that allow programmers to express more of their intentions about program behaviour, in a way which can be automatically checked, in order to find discrepancies between intended and actual behaviour. This will facilitate the construction of software that is more secure, reliable, maintainable and reusable, that is, improve the integrity of complex software systems.
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GriddLeS: Building Grid Applications from Legacy Software. Grid computing is emerging as a major new capability for modern, high performance technical computing. Such Grids couple geographically distributed resources such as high performance computers, workstations, clusters, and scientific instruments. Traditional methods of producing software for Grids are inefficient and error prone, and will not allow the rapid deployment of new applications. This project concerns the development of a tool t ....GriddLeS: Building Grid Applications from Legacy Software. Grid computing is emerging as a major new capability for modern, high performance technical computing. Such Grids couple geographically distributed resources such as high performance computers, workstations, clusters, and scientific instruments. Traditional methods of producing software for Grids are inefficient and error prone, and will not allow the rapid deployment of new applications. This project concerns the development of a tool that will facilitate the construction of complex Grid application using legacy software components. It will test the new ideas with a range of scientific demonstrators, including atmospheric science, geo-science and mechanical engineering.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220101057
Funder
Australian Research Council
Funding Amount
$424,140.00
Summary
Practical Automated Software Bug Fixing via Syntactic and Semantic Analyses. This proposal aims to advance the practical adoption of automated software bug repair, which has recently been adopted by industry, e.g., Facebook. It will produce novel methods that use mining software repositories, program analysis, and human-guided search to help automated repair to scale and be accurate. Expected outcomes include a publicly available automated bug repair framework. This project will help the softwar ....Practical Automated Software Bug Fixing via Syntactic and Semantic Analyses. This proposal aims to advance the practical adoption of automated software bug repair, which has recently been adopted by industry, e.g., Facebook. It will produce novel methods that use mining software repositories, program analysis, and human-guided search to help automated repair to scale and be accurate. Expected outcomes include a publicly available automated bug repair framework. This project will help the software industry deliver to users high quality software with improved reliability and safety, and increase education quality for students learning to code via automated feedback generation.Read moreRead less
A Compositional Model for Verifying and Programming Ecologies of Smart Internet Devices. Emerging in 21st century computing is what we perceive as device ecologies, or collections of devices that can exhibit smart behaviour, automate tasks, interact synergistically with one another, with users and Internet resources, and provide aid and value in daily life and work. Device ecologies will be seen in areas as diverse as e-commerce, health care, home automation, office automation, manufacturing, an ....A Compositional Model for Verifying and Programming Ecologies of Smart Internet Devices. Emerging in 21st century computing is what we perceive as device ecologies, or collections of devices that can exhibit smart behaviour, automate tasks, interact synergistically with one another, with users and Internet resources, and provide aid and value in daily life and work. Device ecologies will be seen in areas as diverse as e-commerce, health care, home automation, office automation, manufacturing, and defense. This project will develop a novel model and language for analyzing and programming device ecologies. This will be an Australian contribution towards techniques for constructing advanced applications that work over the computing infrastructure of the future.Read moreRead less
Model-driven engineering of scientific software for graphical processing units. Novel visual models, model-driven engineering techniques and software engineering tools will be invented to synthesize and optimise graphical processing unit software for scientific applications. These will be validated using large data-centric applications from molecular simulation and astrophysics domains.