UK to build software brain for giant radio telescope
More than 青瓜视频15million has been awarded to UK institutions, including The University of Manchester, which are delivering the crucial software 青瓜视频榖rain青瓜视频 of the world青瓜视频檚 largest radio telescope.
The Square Kilometre Array Observatory (SKAO) is set to explore the evolution of the early Universe and delve into the role of some the earliest processes in fashioning galaxies like our own Milky Way, among many other science goals.
From its , the SKAO will oversee the delivery and operations of two cutting-edge, complementary arrays with 197 radio telescope dishes located in South Africa and more than 130,000 low-frequency antennas in Western Australia.
Professor Ben Stappers leads the Manchester team developing the Pulsar Search software. This programme will enable some of the most exciting SKAO experiments, testing General Relativity and aiming to detect Gravitational Waves.
The University of Manchester will also lead the development of the software for the Monitor, Control and Calibration System of the SKA-LOW telescope. This telescope will be an array of over 130,000 antennas, which will, amongst other experiments, detect the very first stars to be born in the Universe.
It is no surprise that the UK青瓜视频檚 outstanding scientists are playing such a vital role in shaping the future of this cutting-edge global observatory, backed by 青瓜视频15 million government funding.
As well as providing the foundation for new galaxy-level discoveries, this award will help to guarantee future contracts for UK industry, secure skilled jobs and develop a highly-transferrable technology in the UK 青瓜视频 channelling more money back into the UK economy
Underpinning these incredible instruments is the thinking power of its software system, telling the telescopes where to look and when, diagnosing any issues and translating the telescope signals into useable data from which discoveries can be made.
The UK has already played a vital role in the software for the telescopes during the design phase, and is now set to continue leading this area as the telescopes are constructed.
Science Minister George Freeman said: 青瓜视频淚t is no surprise that the UK青瓜视频檚 outstanding scientists are playing such a vital role in shaping the future of this cutting-edge global observatory, backed by 青瓜视频15 million government funding.
青瓜视频淎s well as providing the foundation for new galaxy-level discoveries, this award will help to guarantee future contracts for UK industry, secure skilled jobs and develop a highly-transferrable technology in the UK 青瓜视频 channelling more money back into the UK economy.
青瓜视频淭his reflects the incredible skill of our science community, who are working hand-in-hand with industry to ensure the UK continues to grow as a global science superpower.青瓜视频
The SKAO headquarters is based at Jodrell Bank, near Manchester, and its expansion was co-funded by the UK Government青瓜视频檚 Department for Business, Energy and Industrial Strategy (BEIS), through STFC.
The UK government, through STFC, is the largest contributor to the SKAO and currently has a commitment to support 15% of the total cost of construction and initial operations from 2021 to 2030.
Professor Mark Thomson, Executive Chair of STFC and member of the SKAO Council, said: 青瓜视频淭he UK continues to play a leading role in the SKAO and the development of its telescopes.
青瓜视频淔or any large scientific endeavour, the linchpin of its success lies in the infrastructure. Without the power to process and organise the vast amounts of information these telescopes will gather, we could not make the important discoveries.
青瓜视频淲ith the skills and expertise of our researchers and colleagues in industry, the UK will deliver the computing brain and nervous system of the telescopes to enable the observations and unlock the science.青瓜视频
Building the next generation of telescopes
The SKAO , which is expected to be completed by the end of the decade, with the telescopes anticipated to operate for over 50 years.
As one of the largest scientific endeavours in history, the SKAO brings together more than 500 engineers and 1,000 scientists in more than 20 countries.
The telescopes will be able to survey the sky much faster than existing radio telescopes, and so will require powerful computing to ingest and process in real time the expected data rate of 8 terabits of data per second and to support the regional processing centres managing more than 700 petabytes a year. At these challenging scales, high performance computing and software design are a cornerstone of the project.
Specialised cutting-edge software is being designed to control and monitor the telescope operations, and to allow detailed calibration and processing the huge amounts scientific data.
Working with industry
As well as utilising the expertise from UK青瓜视频檚 research and academia, software development also relies on vital input from industry partners.
STFC青瓜视频檚 Conrad Graham, UK project manager, said: 青瓜视频淚nvolvement with the SKA project brings significant benefits for the UK, not just in terms of direct economic returns on investment, but also via innovation and technological spin offs, driven by the requirements of the project.
青瓜视频淭he award of new contracts will provide opportunities for UK industry to engage with the project across all areas of SKA software design.
青瓜视频淎s a result of the UK青瓜视频檚 participation and the SKAO青瓜视频檚 policy of fair work return, the UK is leading on seven high-value construction contracts, which will see the creation of significant new opportunities for UK industry.青瓜视频