Next generation garbage collection: discovery, design, and development. This project aims to improve the performance of programming languages used by millions of Australians every day, such as Java, JavaScript and PHP by developing improved memory-management algorithms. These languages use what is referred to as “garbage collection” to ensure memory is managed without data loss, but do so conservatively and consequently cause performance challenges and energy overheads. This project expects to p ....Next generation garbage collection: discovery, design, and development. This project aims to improve the performance of programming languages used by millions of Australians every day, such as Java, JavaScript and PHP by developing improved memory-management algorithms. These languages use what is referred to as “garbage collection” to ensure memory is managed without data loss, but do so conservatively and consequently cause performance challenges and energy overheads. This project expects to provide these languages with improved memory-management algorithms, and provides researchers and industry with a framework for innovation. This project will enable safe software that is more efficient on today's hardware and able to exploit emerging hardware. This project should lead to better performance and energy savings for server applications, phones, watches, and smart appliances, while ensuring memory safety.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190101152
Funder
Australian Research Council
Funding Amount
$404,000.00
Summary
Micro/nano-mechanical testing methodologies for interfacial adhesion. This project aims to develop reliable approaches for measuring the toughness of a variety of metal/polymer interfaces integral to contemporary flexible devices. Adhesion between metal thin film conductors and polymer substrates is a critical factor influencing the reliability of the emerging polymer-based flexible electronics. This project will develop new methodologies for understanding the behaviour of these metal/polymer in ....Micro/nano-mechanical testing methodologies for interfacial adhesion. This project aims to develop reliable approaches for measuring the toughness of a variety of metal/polymer interfaces integral to contemporary flexible devices. Adhesion between metal thin film conductors and polymer substrates is a critical factor influencing the reliability of the emerging polymer-based flexible electronics. This project will develop new methodologies for understanding the behaviour of these metal/polymer interfaces. This project will be a crucial enabler to accelerating the development of new flexible microelectronic technologies, from solar panels to electronic skin. This innovation will enable Australia to maintain an important connection to the rapidly-evolving international microelectronic industry and add significant value to Australian manufacturing industries.Read moreRead less
Microperimetry is a clinical tool for measuring central visual function whilst the retina is continuously monitored and retinal testing locus adjusted for eye movements. Regulatory authorities are now considering outcomes of microperimetry as a valid clinical trials endpoint in certain retinal conditions because visual acuity does not always reflect disease progression. This project will validate various types of microperimeters and determine how they should be used to monitor macular diseases.