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Scalable nanomechanical information processing. This project aims to build the first scalable computer architecture based on nanoscale motion on a silicon chip. Such nanomechanical computers could extend computing performance in space and earth-orbit applications, and in other environments where intense radiation causes digital electronics to fail. The project intends to utilise recent advances in nanomechanics and nanofabrication to demonstrate all key nanomechanical circuit elements, including ....Scalable nanomechanical information processing. This project aims to build the first scalable computer architecture based on nanoscale motion on a silicon chip. Such nanomechanical computers could extend computing performance in space and earth-orbit applications, and in other environments where intense radiation causes digital electronics to fail. The project intends to utilise recent advances in nanomechanics and nanofabrication to demonstrate all key nanomechanical circuit elements, including transistors, logic gates, memories and analogue-to-digital converters and to deliver a roadmap for commercialisation of the technology in Australia. The expected outcome of this project is the development of the underpinning nanotechnologies, predicted to have wide uses in sensing, health and communications,and which could improve heat management and energy efficiency in future computers. This new approach to computing has potential for near-term commercial impact in the aerospace industry, building on Australian know-how.Read moreRead less
Micro-electro-mechanical Technologies and Tuneable Millimetre-wave Systems. The project aims to develop background theory and microelectromechanical (MEM)-based techniques for monolithic fabrication that integrate highly miniaturised three-dimensional waveguides with MEM systems. These technologies shall be used to design, develop and fabricate reconfigurable millimetre-wave devices. The project aims to bring together micromachining and millimetre-wave circuits to enable the realisation of recon ....Micro-electro-mechanical Technologies and Tuneable Millimetre-wave Systems. The project aims to develop background theory and microelectromechanical (MEM)-based techniques for monolithic fabrication that integrate highly miniaturised three-dimensional waveguides with MEM systems. These technologies shall be used to design, develop and fabricate reconfigurable millimetre-wave devices. The project aims to bring together micromachining and millimetre-wave circuits to enable the realisation of reconfigurable systems on chip. These technologies offer reduced size, cost and power consumption and high functionality, unachievable with conventional millimetre wave technology alone. The planned outcomes of the project are necessary to satisfy the sharply risen requirements for current and future fourth and fifth generation (4G and 5G) wireless communications systems.Read moreRead less