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Reconfigurable Computing Implementations of Reactive Systems. Reconfigurable computing combines programmable software with programmable hardware and shows real promise as an efficient implementation technology for real-time embedded computing applications. However, its use in real-time systems has been hampered by a lack of rigorous analysis of its benefits, and by a lack of a suitable methodology for the efficient specification, analysis and design of such systems. This project seeks to deve ....Reconfigurable Computing Implementations of Reactive Systems. Reconfigurable computing combines programmable software with programmable hardware and shows real promise as an efficient implementation technology for real-time embedded computing applications. However, its use in real-time systems has been hampered by a lack of rigorous analysis of its benefits, and by a lack of a suitable methodology for the efficient specification, analysis and design of such systems. This project seeks to develop such a methodology, and demonstrate its benefits through several proof-of-concept application implementations.Read moreRead less
Automated pathogen detection using time-gated luminescence microscopy. A rapid and general means of in-situ pathogen identification would benefit the community by ensuring that appropriate treatments can be applied in the early stages of a disease. Patient prognosis is thereby improved and opportunities for multi-drug resistant organisms to arise are limited. Time-gated luminescence microscopy (TgM) exploits persistent luminescence to overcome autofluorescence, a serious problem in pathogen dete ....Automated pathogen detection using time-gated luminescence microscopy. A rapid and general means of in-situ pathogen identification would benefit the community by ensuring that appropriate treatments can be applied in the early stages of a disease. Patient prognosis is thereby improved and opportunities for multi-drug resistant organisms to arise are limited. Time-gated luminescence microscopy (TgM) exploits persistent luminescence to overcome autofluorescence, a serious problem in pathogen detection. Drug-resistant 'Golden Staph' (MRSA) will be used as the model organism to evaluate TgM efficacy. Ultimately however, TgM will be applied for the detection of tuberculosis, a highly contagious disease affecting the respiratory system of more than one-third of the world's population.Read moreRead less
Electronic Auditory Pathway. We will develop electronic building blocks to investigate biological signal processing. In particular, we will investigate the auditory pathway and develop the most accurate electronic model of the biological cochlea and auditory nerve. These will be followed by electronic circuits that model the processing of sensory signals in the brain. Processing signals with neural spikes offers distinct advantages over current analogue and digital signal processing techniques i ....Electronic Auditory Pathway. We will develop electronic building blocks to investigate biological signal processing. In particular, we will investigate the auditory pathway and develop the most accurate electronic model of the biological cochlea and auditory nerve. These will be followed by electronic circuits that model the processing of sensory signals in the brain. Processing signals with neural spikes offers distinct advantages over current analogue and digital signal processing techniques in terms of noise, energy consumption and extraction of temporal information. We will implement the first spike-based models of pitch and timbre perception, and a neural model of speech recognition in noisy environments.Read moreRead less
Designing the Quantum-Classical Interface: Technologies for the Diamond Quantum Co-Processor. Diamond is already seen as the front-runner for practical, high temperature, quantum information processing tasks. This proposal places the technological spotlight firmly on diamond and partnering with Hewlett-Packard will ensure that the promise of diamond is explored in an industrially relevant (rather than just academic) fashion. HP brings enormous experience and infrastructure, as well as a proven ....Designing the Quantum-Classical Interface: Technologies for the Diamond Quantum Co-Processor. Diamond is already seen as the front-runner for practical, high temperature, quantum information processing tasks. This proposal places the technological spotlight firmly on diamond and partnering with Hewlett-Packard will ensure that the promise of diamond is explored in an industrially relevant (rather than just academic) fashion. HP brings enormous experience and infrastructure, as well as a proven path to prototype and market for successful technologies. This proposal is an outstanding opportunity to increase the relevance of Australian academic research, increase the training and employment options for Australian graduates, and to expand Australian funding opportunities by improving access to US research funds.Read moreRead less
FPGA Controller Architectures for Safety Critical Applications. The project industry partner, Invensys Rail Systems, has a major design group in Australia, who work with railway signalling systems throughout the world. Invensys are keen to adopt new technologies to more efficiently and effectively implement signalling functions. However, the safety-critical nature of railway signalling means that any new technology must be analysed in detail to bring it to an acceptable technical readiness lev ....FPGA Controller Architectures for Safety Critical Applications. The project industry partner, Invensys Rail Systems, has a major design group in Australia, who work with railway signalling systems throughout the world. Invensys are keen to adopt new technologies to more efficiently and effectively implement signalling functions. However, the safety-critical nature of railway signalling means that any new technology must be analysed in detail to bring it to an acceptable technical readiness level. The outcomes of this research will be an improved technical readiness level for FPGAs in signalling systems, and this will allow Invensys' Australian design group to develop new technologies and allow them to compete more effectively in the global marketplace.Read moreRead less
A hardware accellerated platform for high-fidelity, high speed simulation of infrared scenes. Missiles present a major military and terrorist threat to aircraft and ships. A possible method to detect them is an infrared imaging system which is sensitive to a missile's spectrally unique rocket propulsion exhaust. It is both dangerous and expensive to conduct field trials; so simulation is used extensively. This project aims to use high performance computing to accelerate the slowest parts of the ....A hardware accellerated platform for high-fidelity, high speed simulation of infrared scenes. Missiles present a major military and terrorist threat to aircraft and ships. A possible method to detect them is an infrared imaging system which is sensitive to a missile's spectrally unique rocket propulsion exhaust. It is both dangerous and expensive to conduct field trials; so simulation is used extensively. This project aims to use high performance computing to accelerate the slowest parts of the industrial partner's existing simulations: the generation of simulated infrared images.
This project will improve the competitiveness of the manufacturer of infrared threat and warning systems and provide research training in an area of high performance computing.
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The Enhancement of heat transfer in microchannels by microelectomechanical devices. A perennial and extremely important problem in computer chip technology is the provision of adequate cooling. This project is a rare combination of multi-disciplinary activities which will lead to new knowledge in a number of poorly explored areas in heat transfer, whilst at the same time permitting the development of the necessary theoretical and practical fabrication skills for the manufacture of a realistic c ....The Enhancement of heat transfer in microchannels by microelectomechanical devices. A perennial and extremely important problem in computer chip technology is the provision of adequate cooling. This project is a rare combination of multi-disciplinary activities which will lead to new knowledge in a number of poorly explored areas in heat transfer, whilst at the same time permitting the development of the necessary theoretical and practical fabrication skills for the manufacture of a realistic cooling micro devices. The main goal of this project is therefore to design, manufacture and test a very efficient micro-channel cooling device equipped with a micro electro-mechanical systems (MEMS) synthetic jet generator.Read moreRead less
Towards an Information Theory for Communication-Limited Control Systems. In a number of emerging applications in communications, manufacturing and defence, various dynamical systems are measured and controlled by transmitting feedback over digital communication channels. In such situations, the often limited data rate available for transmissions can have a significant negative impact on the overall objectives. This proposal aims to develop techniques for analysing and designing such systems, and ....Towards an Information Theory for Communication-Limited Control Systems. In a number of emerging applications in communications, manufacturing and defence, various dynamical systems are measured and controlled by transmitting feedback over digital communication channels. In such situations, the often limited data rate available for transmissions can have a significant negative impact on the overall objectives. This proposal aims to develop techniques for analysing and designing such systems, and to delineate the fundamental limits to their performance. This has the potential to contribute to a greater understanding of the behaviour of many real systems which combine communications and control in feedback loops.Read moreRead less
Design Automation for Processor Pipelines. Embedded system processors comprise about eighty percent of the processor market. This project targets this particular segment, customising multi-processor system on chips for a particular class of embedded applications, resulting in superior performance, low power and reduced cost. Direct benefits will include clear understanding of architectures and algorithms, research training, better processors for the embedded market, and quality publications. Ind ....Design Automation for Processor Pipelines. Embedded system processors comprise about eighty percent of the processor market. This project targets this particular segment, customising multi-processor system on chips for a particular class of embedded applications, resulting in superior performance, low power and reduced cost. Direct benefits will include clear understanding of architectures and algorithms, research training, better processors for the embedded market, and quality publications. Indirect benefits will be commercialisation and licensing of this technology for use in the embedded systems design industry. Companies which can benefit from this technology exist in Australia and overseas.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668549
Funder
Australian Research Council
Funding Amount
$280,000.00
Summary
Major upgrade of the computing hardware and software for the widely used BioManager bioinformatic service. ANGIS has been an Australian national facility for bioinformatics since 1991, now with over 4000 users across 150 university schools or departments, government departments, hospitals and research institutes. The grant will provide the computer upgrade and software support needed to handle the enormous increases in database size and complexity and expand the service into new areas of bioinfo ....Major upgrade of the computing hardware and software for the widely used BioManager bioinformatic service. ANGIS has been an Australian national facility for bioinformatics since 1991, now with over 4000 users across 150 university schools or departments, government departments, hospitals and research institutes. The grant will provide the computer upgrade and software support needed to handle the enormous increases in database size and complexity and expand the service into new areas of bioinformatics. Bioinformatics is critical to much of modern biology, and the improvements will enhance research and data analysis in many areas of research, leveraging more value from the research being undertaken by users. Read moreRead less