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
Automatic Co-Processor Synthesis for Application Specific Instruction Set Processors. Embedded system processors comprise of about eighty percent of the processor market. This project targets this particular segment, customising processors for a particular embedded application, 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 ....Automatic Co-Processor Synthesis for Application Specific Instruction Set Processors. Embedded system processors comprise of about eighty percent of the processor market. This project targets this particular segment, customising processors for a particular embedded application, 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 processor design industry. Read moreRead less
Low Power Architectures for the Wavelet Transform and JPEG2000. Recently a new international standard for image compression has been proposed, JPEG2000. This new method updates the well established JPEG standard and will be incorporated into digital cameras, web pads, etc.
In this project we will investigate low power architectures for the wavelet transforms used in this standard, and combine this with an embedded processor core to deliver a complete system on a chip solution for low power JPEG ....Low Power Architectures for the Wavelet Transform and JPEG2000. Recently a new international standard for image compression has been proposed, JPEG2000. This new method updates the well established JPEG standard and will be incorporated into digital cameras, web pads, etc.
In this project we will investigate low power architectures for the wavelet transforms used in this standard, and combine this with an embedded processor core to deliver a complete system on a chip solution for low power JPEG2000.Read moreRead less
Reliable Truly Deep Sub-micron VLSI Computational Systems. The phenomenal growth of the digital integrated circuits is founded on the fundamental assumption of reliable operation of logic gates on silicon chip. In the Deep Sub-Micron domain this fundamental assumption can no longer be guaranteed. This project, in association with with Dongshin University, Korea with strong links to the semiconductor industry, will develop design techniques for the reliable computational hardware, in the presence ....Reliable Truly Deep Sub-micron VLSI Computational Systems. The phenomenal growth of the digital integrated circuits is founded on the fundamental assumption of reliable operation of logic gates on silicon chip. In the Deep Sub-Micron domain this fundamental assumption can no longer be guaranteed. This project, in association with with Dongshin University, Korea with strong links to the semiconductor industry, will develop design techniques for the reliable computational hardware, in the presence of unreliable circuit fabric. This significant research, with potential for generation of IP, will raise the profile of Australian research in integrated circuits design in the global community and will result in significant publicity for the research team and, through them, for Australian industry.Read moreRead less
Optimisation-based analysis and synthesis of sparse systems in signal processing and communication. This project will make onceptual advances in the areas of signal processing and communication. A major benefit of this project will be its direct applications to digital industry - perhaps the major electrical industry of our era. The project will also aim to build a world class research activity at the University of New South Wales to focus attention on low-cost signal processing and communicatio ....Optimisation-based analysis and synthesis of sparse systems in signal processing and communication. This project will make onceptual advances in the areas of signal processing and communication. A major benefit of this project will be its direct applications to digital industry - perhaps the major electrical industry of our era. The project will also aim to build a world class research activity at the University of New South Wales to focus attention on low-cost signal processing and communication, increase capacity for contract research, enhance nternational collaboration with leading researchers in the area, and produce quality PhD graduates in the field of signal processing and communication.Read moreRead less
The Enhancement of Heat Transfer in Micro-Chips by MEMS actuator: Parametric Study. This challenging project has the potential of introducing a new technology for cooling micro-devices. Since the computer industry is sensitive to innovation it is necessary to develop the theoretical and practical skill for manufacturing the cooling devices. This will help Australian industry to greatly enhance its capabilities in this very important area of economy. The present project is a rare combination ....The Enhancement of Heat Transfer in Micro-Chips by MEMS actuator: Parametric Study. This challenging project has the potential of introducing a new technology for cooling micro-devices. Since the computer industry is sensitive to innovation it is necessary to develop the theoretical and practical skill for manufacturing the cooling devices. This will help Australian industry to greatly enhance its capabilities in this very important area of economy. The present project is a rare combination of multi-disciplinary studies and will result in a better understanding of the complex thermal and fluid flow phenomena in micro channels, and the design and fabrication techniques for the next generation of micro-chips. Read moreRead less
Enhancement of heat transfer by micro-electro-mechanical devices: numerical and experimental study. The main goal of the present project is to approach a completely new concept for cooling electronic-micro-devices (EMD). We will integrate the cooling system in the EMD by mean of built micro-electro-mechanical systems (MEMS). The area of application is so innovative, that there is no engineering experience for modelling heat transfer at such small physical scales. The first goal of this project ....Enhancement of heat transfer by micro-electro-mechanical devices: numerical and experimental study. The main goal of the present project is to approach a completely new concept for cooling electronic-micro-devices (EMD). We will integrate the cooling system in the EMD by mean of built micro-electro-mechanical systems (MEMS). The area of application is so innovative, that there is no engineering experience for modelling heat transfer at such small physical scales. The first goal of this project is to fill this lack of knowledge and to validate the possible numerical procedure using experimental data obtained from experiments, also planned for the present project. Once a suitable procedure has been established for evaluating heat fluxes , we will optimized configurations for heat transfer enhancers in micro devices.Read moreRead less
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
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