A few weeks ago, I had the opportunity to visit Guizhou, China's National Big Data Comprehensive Pilot Zone. At first blush, the choice of Guizhou seems to be an unusual one. With a population of 38 million, it ranks 17th in the list of administrative divisions and 18th in population density, and it is even further behind in terms of GDP (22nd). From the principle that it is most efficient to conduct compute near where data is located, one would expect that such a data centre would be located in provinces with a greater population and economic activity, such as Guangdong, Jiangsu, or Shandong, or maybe even in accord to scientific output, which would also include Beijing and Shanghai. Instead, Guizhou, with its rugged karst formations and dense forests and lower level of economic development (fourth lowest in GDP per capita in 2020), has been part of a "Big Data Guizhou" strategic plan launched in 2014 which includes a threefold approach; "Big Data", "Big Poverty Reduction", and "Big Ecology" by then governer, Chen Min'er.

With low energy costs and a consistently cool climate, Guizhou has established the Guizhou Cloud, sponsored by the Guizhou Big Data Development Administration and supervised by the Board of Supervisors of Guizhou State-Owned Enterprises. This in turn has attracted major national corporations to its numerous data centers, notably Apple's iCloud China and Huawei's Cloud Service Base, along with Tencent, Alibaba Cloud, the AI firm SenseTime, as well as hosting the annual China International Big Data Industry Expo since 2015. These corporate decisions are notable enough in their own right, but what really makes Guizhou such an attractive place for a national data hub is the presence of the Five-hundred-meter Aperture Spherical Telescope (FAST) which, as is evident from the name, has a 500m diameter dish (I call it a "wok") making it the world's largest single-dish telescope.

Radio telescopes are essentially antennas and receivers for radio waves, with frequencies ranging from around 20 kHz to around 300 GHz, just as an optical telescope collects data from the visible portion of the spectrum. Primary local sources for radio waves include the Sun, Jupiter (due to its magnetosphere), and Jupiter's moon, Ganymede. The Galactic Centre of the Milky Way is an especially powerful source, as are supernova remnants, such as Cassiopeia, and neutron stars, such as pulsars and Rotating Radio Transients (RRATs). Primordial black holes and extraterrestrial intelligence communications are two other speculative, currently unobserved sources. The main point is that to derive information about these radio sources, one needs to collect radio wave data, and the more data you collect, the greater the chance you will find something interesting. Thus, to collect more data, one wants a larger receiver.

FAST is a very big receiver and it collects a lot of data, roughly 100TB per day. Construction began in 2011, testing began in 2016, and it was fully operational in 2020. Even before becoming operational it discovered two pulsars and by 2021 it has discovered an incredible 500. Hardware innovations are continuing; late last year, China Environment for Network Innovation (CENI), announced that they had conducted a (somewhat contrived) data transfer test of 72TB between FAST to Huazhong University of Science and Technology in Central China's Hubei province. The data transfer test, which would normally take 699 days was completed in a mere 1.6 hours. Further, China has announced that it will build an additional 24 radio dishes of 40m diameter around FAST, creating an array that will mimic a massive 10km diameter dish, and boost telescope resolution by 30 times.

Mention must also be made of the rest of the Tianyan Scenic Area, which hosts the FAST system. Apart from the stunning natural beauty of the region, and the FAST Observation Platform (complete with bungy jump during holiday weeks), the site also hosts an impressive Astronomy Experience Hall, the Astronomical Space-Time Tower (at 99.999 metres), the Nan Rendong Memorial Hall (the astronomer who was the main drive for setting up FAST), the Dome Flight Cinema, and a Aerospace Science and Technology Museum. Like many massive engineering projects in China, they have also turned the site into an informative destination for national and international visitors.