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The Internet Communications Japan

Japan Achieves 402 TB/s Data Rate - Using Current Fiber Technology (tomshardware.com) 21

Tom's Hardware reports that Japan's National Institute of Information and Communications Technology (working with the Aston Institute of Photonic Technologies and Nokia Bell) set a 402 terabits per second data transfer record — over commercially available optical fiber cables. The NICT and its partners were able to transmit signals through 1,505 channels over 50 km (about 31 miles) of optic fiber cable for this experiment. It used six types of amplifiers and an optical gain equalizer that taps into the unused 37 THz bandwidth to enable the 402 Tb/s transfer speed. One of the amplifiers this was demonstrated with is a thulium-based doped fiber amplifier, which uses C-band or C+L band systems. Additionally, semiconductor optical amplifiers and Raman amplifiers were used, which achieved 256 Tb/s data rate through almost 20 THz. Other amplifiers were also used for this exercise which provided a cumulative bandwidth of 25 THz for up to 119 Tb/s data rate.

As a result, its maximum achievable result surpassed the previous data rate capacity by over 25 percent and increased transmission bandwidth by 35 percent.

"This is achievable with currently available technology used by internet service providers..." the article points out.

"With 'beyond 5G' potential speeds achievable through commercially available cables, it will likely further a new generation of internet services."
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Japan Achieves 402 TB/s Data Rate - Using Current Fiber Technology

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  • That's rather a slow progress from what we were used in technology:
    https://tech.slashdot.org/stor... [slashdot.org]

    At first I thought it was a dupe but I can't find anything else.

  • How big of a convoy of truck-mounted data centers would you need to make a 402 TB/s 50km data mule [wikipedia.org]*, assuming a 30-minute latency (that is, travel time)?

    I would do the math but I'm not up-to-date on the highest-density commercially available storage media.

    * For those whose first response to this post is "challenge accepted," assume that each truck is carrying a shipping-container-sized always-on, self-powered (generator + fuel or fully-charged batteries)** data center that is ready to be plugged into a high

  • Starlink is the only viable way to connect rural people to broadband in either Japan or the USA -- it doesn't matter. Put all communications research on hold and subsidize Starlink instead for about a year or two, then resume funding research. I don't like Elon Musk (he stole the idea of Starlink from WorldVu when they went to him for launch services), but solving rural broadband is more important than hating someone. Logically, Starlink or the is the only way forward for humanity.

  • by Jerrry ( 43027 ) on Saturday June 29, 2024 @01:00PM (#64588001)

    "TB/s" is terabytes per second. "Tb/s" is terabits per second. The headline should read "Japan Achieves 402 Tb/s Data Rate".

  • Meaning cheaper, easier, more reliable, etc.

    I realize service providers have incentives to group lots of customers into fewer, faster lines... But I'd rather have peer to peer between houses with multiple connections to route things through. Heck throw in a few longer distance wireless nodes too (I forget the name of the peer 2 peer product I saw for mesh networks). I can see like 15 networks from my house, and I don't have THAT many close by neighbors (suburbs).

    I get tired of the shenanigans from my 2 o

  • The headline says TB, not Tb. That's a HUGE difference in speed. You might want to correct that.

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