Japan sets new internet speed record of 125,000 gigabytes per second — 4 million times faster than average US speeds
Researchers in Japan say they have set a new world record for the fastest internet speedTransmitting more than 125,000 gigabytes of data per second on 1,120 miles (1,802 kilometers).
This represents about 4 million times the average internet speed in the United States and would allow you to download the full Internet Archives In less than four minutes, according to Some approximate estimates. It is also more than double the Previous world record of 50,250 GbpsPreviously established by another team of scientists in 2024.
To reach this new speed – which has not been verified independently – the team has developed a new form of fiber optics to send information at revolutionary speeds roughly at the distance between New York and Florida.
According to a statement of the Japan National Institute of Information and Communications Technologies.
1,1220 travel miles
The new type of fiber optics is equivalent to 19 standard optical fibers in its data transmission capacity. The new optical fiber is better suited to long-haul transmission than existing cables because the 19 fibers centers interact with light in the same way, so that they encounter less light fluctuation, which leads to less data loss.
The new cable tightens 19 fibers separated into a diameter of five thousandths of inch (0.127 millimeters), which is the same thickness as most existing fiber cables already used. This effort means that the new cable can transmit more data using the existing infrastructure.
In relation: Timeline in the history of the Internet: Arpanet at the World Wide Web
In March 2023, the same team reached similar transmission speeds, but on less than a third of the distance traveled in the new achievement. The biggest obstacles to the increase in the beach have been to further reduce data loss, which can occur over long distances, and determine how to amplify data, according to the press release.
The resolution of these challenges led to an increase in the signal force, which allowed the data to travel a longer distance.
For this demonstration, the data has crossed a transmission system 21 times, finally reaching a data receiver after having traveled the equivalent of 1,120 miles.
This file shows technological progress towards long -distance development, large capacityEvolutionary optical communication systems, which could meet the growing global demand for data, suggests the instruction.
The volume of data traffic worldwide should increase considerably in the near future, therefore a new communication infrastructure may be necessary, suggests the declaration. Then, the team hopes to explore practical applications in the telecommunications sphere.
