Design automation for secure, reliable and energy efficient embedded processors. This project seeks to create a methodology to design and generate processors which are both secure, reliable and energy efficient for deployment in Internet of Things (IoT) systems, which require little on-going maintenance. In such systems, both security and reliability are paramount, particularly in medical devices, control devices in critical machinery, financial transactions and automotive electronics. The proje ....Design automation for secure, reliable and energy efficient embedded processors. This project seeks to create a methodology to design and generate processors which are both secure, reliable and energy efficient for deployment in Internet of Things (IoT) systems, which require little on-going maintenance. In such systems, both security and reliability are paramount, particularly in medical devices, control devices in critical machinery, financial transactions and automotive electronics. The project will use an open RISC-V processor which is sufficiently flexible to function as a base processor, with a myriad of tools such as compilers and debuggers available. Reliable computing machinery will enable systems to work in hostile environments and be functionally correct for longer.Read moreRead less
Intermetallic compounds for high reliability electronic interconnections. The aim of the proposal is to develop an entirely new way of joining functional elements of circuit boards using tailored intermetallic joints that replace traditional solders. The outcome will be that electronic devices, from smart phones to smart grids and electric vehicles, will become more reliable and less susceptible to cracking and circuit failure. Electronics will last longer and less E-waste will be generated. Thi ....Intermetallic compounds for high reliability electronic interconnections. The aim of the proposal is to develop an entirely new way of joining functional elements of circuit boards using tailored intermetallic joints that replace traditional solders. The outcome will be that electronic devices, from smart phones to smart grids and electric vehicles, will become more reliable and less susceptible to cracking and circuit failure. Electronics will last longer and less E-waste will be generated. This would revolutionise electronics manufacturing. The project has a high probability of achieving this breakthrough based on unique, world-class expertise in intermetallic compounds and characterisation that has already been established by the international network of Investigators.Read moreRead less
Rainbows on demand: coherent comb sources on a photonic chip. This project aims to create photonic circuit technologies that will generate hundreds of coherent laser lines from a single chip. The emerging industrially scalable silicon nitride on thin-film lithium niobate platform will be advanced to create resonant modulators and nonlinear waveguides with unprecedented efficiency and innovative monitoring and control techniques. When combined, these components will enable highly flexible and rob ....Rainbows on demand: coherent comb sources on a photonic chip. This project aims to create photonic circuit technologies that will generate hundreds of coherent laser lines from a single chip. The emerging industrially scalable silicon nitride on thin-film lithium niobate platform will be advanced to create resonant modulators and nonlinear waveguides with unprecedented efficiency and innovative monitoring and control techniques. When combined, these components will enable highly flexible and robust systems for generating a comb of coherent laser lines. These photonic chip comb sources will be inexpensive, compact and energy efficient with transformative impact in spectroscopy, microscopy, precision measurement, quantum computing and ultra-fast optical fibre communications.Read moreRead less
High-brightness, low-efficiency roll-off materials for augmented realities. The proposal aims to apply new materials design theory to create new classes of highly efficient materials and overcome device efficiency roll-off issue for next-generation transparent electronics. The project expects to advance new see-through technology through new materials and device architectures innovations. Expected key outcomes include novel highly efficient multi-nuclear metal complexes generation, establishment ....High-brightness, low-efficiency roll-off materials for augmented realities. The proposal aims to apply new materials design theory to create new classes of highly efficient materials and overcome device efficiency roll-off issue for next-generation transparent electronics. The project expects to advance new see-through technology through new materials and device architectures innovations. Expected key outcomes include novel highly efficient multi-nuclear metal complexes generation, establishment of new knowledge of materials’ structure-property relationship and fundamental understanding of device physics, creation of new transparent display pixels, new training of young scientists and new IPs generation, which will provide benefits to maximise Australia's competitive advantages and meet with global innovation need.Read moreRead less