Edge processing research takes discovery closer to use in artificial intelligence networks
University of Surrey
This is an important step towards using thin-film
transistors as artificial intelligence hardware and moves edge computing
forward, with the prospect of reducing power needs and improving efficiency,
rather than relying solely on computer chips.
The
MMT, first reported by Surrey researchers in 2020, overcomes long-standing
challenges associated with transistors and can perform the same operations as
more complex circuits. This latest research, published in the peer-reviewed
journal Scientific Reports, uses mathematical modelling to prove
the concept of using MMTs in artificial intelligence systems, which is a vital
step towards manufacturing.
Using measured and simulated transistor data, the researchers show that well-designed multimodal transistors could operate robustly as rectified linear unit-type (ReLU) activations in artificial neural networks, achieving practically identical classification accuracy as pure ReLU implementations.
They used both measured and simulated MMT data to train an artificial neural network to identify handwritten numbers and compared the results with the built-in ReLU of the software. The results confirmed the potential of MMT devices for thin-film decision and classification circuits. The same approach could be used in more complex AI systems.
Unusually, the research was led by Surrey undergraduate Isin Pesch, who worked on the project during the final year research module of her BEng (Hons) in Electronic Engineering with Nanotechnology.
Covid meant she had to study remotely from her
home in Turkey, but she still managed to spearhead the development,
complemented by an international research team, which also included collaborators
in the University of Rennes, France and UCL, London.
Isin
Pesch, lead author of the paper, which was written before she graduated in July
2021, said:
"There
is a great need for technological improvements to support the growth of low
cost, large area electronics which were shown to be used in artificial
intelligence applications. Thin-film transistors have a role to play in
enabling high processing power with low resource use. We can now see that MMTs,
a unique type of thin-film transistor, invented at the University of Surrey,
have the reliability and uniformity needed to fulfil this role."
Dr
Radu Sporea, Senior Lecturer at the University of Surrey's Advanced Technology
Institute, said:
"These
findings are a reminder of how Surrey is a leader in AI research. Many of my
colleagues focus on people-centred AI and how best to maximise the benefits for
humans, including how to apply these new concepts ethically. Our research at
the Advanced Technology Institute takes forward the physical implementation, as
a stepping stone towards powerful yet affordable next-generation hardware. It's
fantastic that collaboration is resulting in such successes with researchers
involved at all levels, from undergraduates like Isin when she led this
research, to seasoned experts."
