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Canadian ingenuity crafts game-changing technology for CHIME telescope

CHIME, the revolutionary Canadian radio telescope inaugurated today in British Columbia, incorporates creative technology that will enable it to simultaneously tackle major astrophysics and cosmology topics -- including studying the nature of 鈥渄ark energy鈥 by making unprecedented maps of the distant Universe, and determining the origin of the mysterious phenomenon known as Fast Radio Bursts.

Unlike traditional telescopes, CHIME (short for the ) has no moving parts. The telescope, produced by 50 scientists from the University of British Columbia, the University of Toronto, 成人VR视频, and the National Research Council of Canada "sees" the radio sky in a novel way: It uses over a thousand antennas to record the information from all the radio waves falling across its surface.听

The radio signals are converted to digital data at a rate of 13 terabits per second - comparable to the entire world鈥檚 mobile data rate. This amount of information can鈥檛 be stored, so it is processed in real time. With these techniques, CHIME is able to digitally 鈥減oint鈥 anywhere within a wide stripe of sky overhead, making traditional telescope steering unnecessary.听 More importantly, it is able to look in many different directions simultaneously.听

Low-cost, high-powered signal processing

The innovation that has led to CHIME was made possible by creative new technology developed at universities across Canada, allowing this telescope to be built with $16 million (Canadian) in federal and provincial funding -- a fraction of the cost of other world-class radio telescopes.

At the heart of CHIME is a sophisticated digital network and signal-processing "brain," known as the correlator, where the massive amount of information from radio waves is processed into an image of the overhead sky. The correlator developed by the team is unparalleled in the world in terms of raw networking and processing rate, and low cost. To achieve this, the team had to develop new, custom innovations integrated with market-driven commercial technologies.

鈥淵ou can鈥檛 just go out and buy the world鈥檚 largest radio correlator鈥, explains 成人VR视频's Matt Dobbs, 鈥渋t needs to be carefully developed by a team who knows the science objectives in detail and is able to engineer the technology.鈥 In doing this, Dobbs explains, 鈥渨e鈥檙e building both a novel instrument and a team of experts in Canada with the know-how to innovate world-class scientific instruments. Working with the amazing team of engineers, postdocs and students who together have realized this project has been inspiring.鈥

The custom-designed-and-built circuit boards convert radio signals detected by the antennas into digital data. They split these data into about a thousand different radio frequencies, much like a glass prism separates different colours of light. The data are then passed through a giant custom-built data network.听

A supercomputer built from computer-gaming gear

The second crucial component of the CHIME correlator was built by assembling a huge array of Graphics Processor Units (GPUs) -- technology driven by the computer gaming industry -- into a specialized supercomputer built for this application. By cleverly reprogramming the GPUs, researchers at the University of Toronto were able to use this supercomputer to construct cosmic sky maps while simultaneously enabling听a sensitive search for Fast Radio Bursts.

"My university wondered why I was using grant money to buy so many gaming cards," laughs University of Toronto researcher Keith Vanderlinde. "By building this supercomputer with commercially available GPUs, and developing a software that images the sky, we were able to build a world-leading, yet affordable, telescope.听This lays the foundations for building even more powerful telescopes in the future." 听

CHIME's foundation is an array of four large cylinders resembling snow-board half-pipes, with total area equivalent to five hockey rinks. Each听 cylinder focuses radio waves onto a line of 256 radio antennas per cylinder that turn celestial signals into electrical signals. "CHIME's radio signals are sent through custom-designed analog circuitry that is based on commercially available and inexpensive filters and amplifiers developed for the cell-phone industry, says University of British Columbia researcher Gary Hinshaw. 鈥淲ith CHIME, we have made market forces work for game-changing scientific progress.鈥澨

A search engine for Fast Radio Bursts

A sensitive instrument to detect Fast Radio Bursts is also being developed for CHIME.听 Consisting of 128 compute nodes, this instrument can search continually for fast radio transients in the entire area of sky viewable by CHIME.听 Sophisticated algorithms and software pipelines have been developed to sift through 130 billion bits of data per second in real time. 鈥淏y making smarter computer algorithms we have prepared CHIME to be the world鈥檚 most efficient Fast Radio Burst search engine,鈥 says researcher Kendrick Smith of the Perimeter Institute, one of several other institutions contributing to the project.听

CHIME, now in its commissioning phase in preparation for science operations, was built at the Dominion Radio Astrophysical Observatory (DRAO) near Penticton, B.C., with funding from the Canada Foundation for Innovation, the governments of British Columbia, Quebec and Ontario, and the Canadian Institute for Advanced Research.听

More information on CHIME can be found at

Photo 1. The CHIME telescope. 听
Photo 2. CHIME graduate student researcher Juan Mena with the custom electronics from the CHIME correlator
Photo 3. Nolan Denman (UofT PhD student) at the CHIME telescope, inspecting one of the 256 processing nodes which make up the signal processing backend. (PHOTO: Keith Vanderlinde)



Press release

CONTACT:

Chris Chipello,
成人VR视频 Media Relations Office
514-398-4201

chris.chipello [at] mcgill.ca

Chris Sasaki
Dunlap Institute for Astronomy & Astrophysics, University of Toronto
416-978-6613

csasaki [at] dunlap.utoronto.ca

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