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
High performance, optimized chip-scale packaging for millimetre wave and THz integrated circuits. This project aims to revolutionise electronic packaging by depositing a thin, protective layer of diamond on top of high-performance, millimetre-wave and THz integrated circuits. Leveraging existing technology for removing heat from high-powered optical electronics, the project aims to deliver a miniaturised packaged chip, protected from the environment and ready for mounting in a system, without se ....High performance, optimized chip-scale packaging for millimetre wave and THz integrated circuits. This project aims to revolutionise electronic packaging by depositing a thin, protective layer of diamond on top of high-performance, millimetre-wave and THz integrated circuits. Leveraging existing technology for removing heat from high-powered optical electronics, the project aims to deliver a miniaturised packaged chip, protected from the environment and ready for mounting in a system, without seriously degrading the circuit's performance as occurs in current packaging technologies. The project aims to enable cheaper and more energy-efficient applications as wide ranging as wireless HD video, multi-gigabit telecommunications, and black-body passive imaging technologies for security, defence, medical and agricultural applications.Read moreRead less