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New internet speed record: Download all of Netflix in 1 sec

The world's fastest data transmission rate has been achieved by a team of University College London (UCL) engineers who reached an internet speed a fifth faster than the previous record.

Working with two partner companies, Xtera and KDDI Research, the research team led by Dr. Lidia Galdino (UCL Electronic and Electrical Engineering) achieved a data transmission rate of 178 terabits a second (178,000,000 megabits a second) -- a speed at which it would be possible to download the entire Netflix library in less than a second.

The record, which is double the capacity of any system currently deployed in the world, was achieved by transmitting data through a much wider range of colors of light, or wavelengths, than is typically used in optical fiber. Current infrastructure uses a limited spectrum bandwidth of 4.5 THz. There are 9-THz commercial bandwidth systems entering the market, but the UCL researchers used a bandwidth of 16.8 THz.

University College London's Dr. Lidia Galdino. [Credit: James Tye/UCL]

 

 

To do this, researchers combined different amplifier technologies needed to boost the signal power over this wider bandwidth and maximized speed by developing new Geometric Shaping (GS) constellations (patterns of signal combinations that make best use of the phase, brightness, and polarization properties of the light), manipulating the properties of each individual wavelength. The achievement is described in a new paper in IEEE Photonics Technology Letters.

The benefit of the technique is that it can be deployed cost effectively on already existing infrastructure by upgrading the amplifiers that are located on optical fiber routes at 40- to 100-km intervals. The researchers say upgrading an amplifier would cost £16,000 ($21,361), while installing new optical fibers can, in urban areas, cost up to £450,000 ($600,797) a kilometer.

The new record, demonstrated in a UCL lab, is a fifth faster than the previous world record held by a team in Japan.

At this speed, it would take less than an hour to download the data that made up the world's first image of a black hole (which, because of its size, had to be stored on half a ton of hard drives and transported by plane). The speed is close to the theoretical limit of data transmission proposed by American mathematician Claude Shannon in 1949.

Lead author Galdino, a lecturer at UCL and a Royal Academy of Engineering Research Fellow, said, "While current state-of-the-art cloud data-center interconnections are capable of transporting up to 35 terabits a second, we are working with new technologies that utilize more efficiently the existing infrastructure, making better use of optical-fiber bandwidth and enabling a world record transmission rate of 178 terabits a second."

Since the start of the COVID-19 crisis, demand for broadband communication services has soared, with some operators experiencing as much as a 60% increase in internet traffic compared to before the crisis. In this unprecedented situation, the resilience and capability of broadband networks has become even more critical.

"Independent of the COVID-19 crisis, internet traffic has increased exponentially over the last 10 years, and this whole growth in data demand is related to the cost-per-bit going down," Galdino added. "The development of new technologies is crucial to maintaining this trend towards lower costs while meeting future data rate demands that will continue to increase, with as yet unthought-of applications that will transform people's lives."

Source: University College London

Published September 2020

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