Posted on 03/15/2015 5:09:59 AM PDT by NYer
Cables lying on the seafloor bring the internet to the world. They transmit 99 percent of international data, make transoceanic communication possible in an instant, and serve as a loose proxy for the international trade that connects advanced economies.
Their importance and proliferation inspired Telegeography to make this vintage-inspired map of the cables that connect the internet. It depicts the 299 cables that are active, under construction, or will be funded by the end of this year.
In addition to seeing the cables, you'll find information about "latency" at the bottom of the map (how long it takes for information to transmit) and "lit capacity" in the corners (which shows how much traffic a system can send, usually measured in terabytes). You can browse a full zoomable version here.
The cables are so widely used, as opposed to satellite transmission, because they're so reliable and fast: with high speeds and backup routes available, they rarely fail. And that means they've become a key part of the global economy and the way the world connects.
Take, for example, the below map, which lets you slide between a 1912 map of trade routes and Telegeography's map of submarine cables today. The economic interdependence has remained, but the methods and meaning have changed:
The submarine cable map shows economic connections in less-developed countries as well. Cables between South America and Africa, for example, are much more scarce than trans-Atlantic and trans-Pacific routes:
Though cables to developing countries are expanding, they have a lot of work to do before they catch up. And Antarctica is left out completely (scientists down there get their internet from satellites).
The analogy between submarine cables and historic trade routes has a lot of caveats: trade routes were determined by geography as well as economic interests, and economic incentives were a lot different then than they are today. It would also be a mistake to overlook physical goods in favor of the internet (just look at those giant container ships). But both then and now, paths across the ocean require investment, trading partners on both sides, and a willingness to take risks. Sailors took the gamble in the past, and tech companies are taking it now.
These cables carry information for the entire internet, including both corporate and consumer interests. That's why Google invested $300 million in a trans-Pacific cable system consortium to move data, Facebook put money into an Asian cable system consortium, and the finance industry invests just as much to shave a few milliseconds off trade times.
Other consortia regularly lay cables to transmit the consumer internet. Each group's control of a submarine cable is an advantage in the information exchange between countries.
The process for laying submarine cables hasn't changed much in 150 years a ship traverses the ocean, slowly unspooling cable that sinks to the ocean floor. The SS Great Eastern laid the first continually successful trans-Atlantic cable in 1866, which was used to transmit telegraphs. Later cables (starting in 1956) carried telephone signals.
Modern cables are surprisingly thin, considering how long they are and how deep they sink. Each is usually about 3 inches across. They're actually thicker in more shallow areas, where they're often buried to protect against contact with fishing boats, marine beds, or other objects. At the deepest point in the Japan Trench, cables are submerged under water 8,000 meters deep which means submarine cables can go as deep as Mount Everest is high.
The optical fibers that actually carry the information are bundled within the larger shell of the cable:
The components include:
These cables move the videos, trades, gifs, and articles that bring the internet around the world in a matter of milliseconds. And that's the type of advantage any trader digital or analog could appreciate.
WATCH: 'Meet the enormous boats that carry your stuff'
I would gladly go back to dial up than contribute to Communists. :-)
LOL! And installed by a young crew from Colorado.
I hope that Giant Lobster doesn’t eat through the Cables.
I thought repeaters were required for fiber optic?
We are all government laid, so to speak. The cables get better treatment though.
Do you realize that the heat from all of this underwater cables has the potential to raise the temperature of the oceans and perhaps make them boil away into the atmosphere! I’m working on a computer simulation that will show that this is possible right now. And if a computer program and be made to show something is possible, even if one has to manipulate the input, then it will happen.
(In sarcasm to globull warmists)
That’s incredible. Here we have at least three companies that do the “last mile” connection to your home, plus dozens that use at least part of those networks, either as resellers or “hybrids”. My ISP is a hybrid that maintains its own network but uses the major telcos (Bell and Rogers) for the connection to the home. IMO this happy state of affairs is due to the fact that ISPs are not regulated anywhere near as heavily as the telcos.
Still 2/3c for 3000 miles beats full c for 52000.
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