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Government’s science minister backs Aston University-led neuromorphic computing research

The UK Multidisciplinary Centre for Neuromorphic Computing is headed by the Aston Institute of Photonic Technologies (AIPT).

The consortium of seven universities and 22 non-academic partners was officially launched at the House of Lords

“Neuromorphic computing, inspired by the brain's really remarkable energy efficiency, could fundamentally transform how AI operate” said Lord Patrick Vallance.

A new research centre led by Aston University could be key to tackling the huge consumption of energy by data centres in the UK.

The UK Multidisciplinary Centre for Neuromorphic Computing is headed by the Aston Institute of Photonic Technologies (AIPT) and was officially launched at the House of Lords on 21 October.

Neuromorphic computing seeks to replicate how 

the brain functions and its structure and apply that knowledge to develop future computing systems. Currently scientists lack a deep, system-level understanding of how the human organ computes at cellular and network scales.

The researchers within the consortium of seven universities, alongside 22 non-academic partners, will aim to tackle that challenge directly, blending stem-cell-derived human neuron experiments with advanced computational models, development of new materials, low-power algorithms and novel photonic - or light-based - hardware.

As well as speakers from politics and science, a message from the Minister for Science, Innovation, Research and Nuclear, Lord Patrick Vallance was delivered to the guests at the Houses of Parliament reception. Speaking via video he said that he believed the initiative could be key to tackling the issue of massive energy use by data centres. Current government figures show that they use about 2.5% of the UK's electricity, a figure projected to rise significantly with the further advances in AI.

Lord Vallance said: “Data centres demand enormous energy and water resources and left unchecked. Without thinking about how we can manage this and innovate we would threaten clean energy and net zero ambitions.

He added: “Future computing paradigms offer a potential path to not only more ways of thinking about how to compute but also overcoming some of the traditional limitations of traditional computing, particularly in scenarios where energy efficiency or new capabilities are important. It seems to me the centre embodies that ambition; neuromorphic computing, inspired by the brain's really remarkable energy efficiency, could fundamentally transform how AI operates.”

The centre received £5.6 million funding over four years from the Engineering and Physical Sciences Research Council. However, its director, Professor Sergei Turitsyn of AIPT told launch guests that it is his ambition for the centre to be financially sustainable beyond its initial EPSRC funding period. He also stated that he believes that the centre will be instrumental in putting the UK at the forefront of the neuromorphic computing research.

He said: “The ultimate goal is to build a new UK brand in neuromorphic computing, working closely with the recently funded UK network project NeuMat and the Innovation and Knowledge Centre Neuroware.

“Some people ask ‘what exactly is neuromorphic computing? Arguably, there no universal answer, and this is exactly the point about our centre. Some people tell you it is nature-or brain-inspired, others stress non digital features and some focus on energy saving or analogue signal processing.

"That's why we need researchers from different disciplines to work together and that is why this group of universities and industrial partners will start this broad approach, with neuroscientists, working with experts in material science, algorithms, electronics and photonics.”

The centre will be led by the AIPT and will include world-leading researchers from Aston University, the University of Oxford, the University of Cambridge, the University of Southampton, Queen Mary University of London, Loughborough University and the University of Strathclyde. The centre will be supported by a broad network of industry partners to enhance the centre’s impact on society. These include Microsoft Research, Thales, BT, QinetiQ, Nokia Bell Labs, Hewlett Packard Labs, Leonardo, Northrop Grumman and a number of small to medium enterprises.

Water use in data centres: https://assets.publishing.service.gov.uk/media/688cb407dc6688ed50878367/Water_use_in_data_centre_and_AI_report.pdf

https://www.aston.ac.uk/research/eps/aipt

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Celebrating Ada Lovelace Day – Honouring the World’s First Computer Programmer

Every 14th October, Ada Lovelace Day shines a light on the often-overlooked achievements of women in science, technology, engineering, and mathematics (STEM). 

Named in honour of Ada Lovelace, the visionary mathematician widely regarded as the world’s first computer programmer, this day is an inspiring reminder of how far we’ve come and how much further we can go when equality and curiosity meet innovation.

Who Was Ada Lovelace?

Born Augusta Ada Byron in 1815, Ada Lovelace was the daughter of the poet Lord Byron and mathematician Annabella Milbanke. 

While her father’s fame stemmed from poetry, it was her mother’s passion for mathematics that truly shaped Ada’s destiny.

As a young woman, Ada developed a fascination with machines and mathematics, which led to her collaboration with Charles Babbage on his design for the Analytical Engine, an early mechanical general-purpose computer. In her notes on Babbage’s machine, Ada described how it could be programmed to perform complex calculations, and even generate music and art if given the right data.

These insights, written in the 1840s, predated the first working computers by over a century. Her vision was so far ahead of its time that she’s now celebrated as a pioneer of computing and the first to truly grasp the potential of software.

What Is Ada Lovelace Day?

Founded in 2009 by Suw Charman-Anderson, Ada Lovelace Day is celebrated on the second Tuesday of October each year. It’s a global event that highlights the achievements of women in STEM and aims to encourage more young women and girls to pursue careers in these fields.

The day is marked with talks, workshops, educational programmes, and online celebrations that showcase the vital role women play in advancing science and technology. From physicists and programmers to engineers and innovators, Ada Lovelace Day is about giving recognition and visibility to women who are shaping our future.

Why Ada Lovelace Day Matters

Despite progress in gender equality, women remain underrepresented in STEM industries. Ada Lovelace Day helps to challenge stereotypes, promote role models, and inspire the next generation to dream big. It reminds us that innovation thrives on diversity—and that women have always been part of the story, even when history forgot to write them in.

How You Can Celebrate

Learn About Ada Lovelace – Read about her life, her groundbreaking ideas, and how they continue to influence computing today.

Support Women in STEM – Share stories of female scientists, engineers, and technologists who inspire you.

Attend Events – Look out for Ada Lovelace Day Live events, online talks, and workshops celebrating women in STEM.

Encourage the Next Generation – Support girls’ STEM education initiatives, or simply inspire curiosity through conversation and example.

A Legacy of Imagination and Intelligence

Ada once described her approach to mathematics as “poetical science”, a beautiful blend of logic and creativity. It’s a phrase that perfectly captures why her story still resonates today. She saw machines not as cold mechanisms, but as tools for imagination and human potential.

On Ada Lovelace Day, we celebrate her genius and the countless women who’ve followed in her footsteps, proving that innovation knows no gender, only passion, vision, and perseverance.