< Return to Video

Discover the physical side of the Internet

  • 0:01 - 0:03
    I've always written primarily about architecture,
  • 0:03 - 0:05
    about buildings, and writing about architecture
  • 0:05 - 0:08
    is based on certain assumptions.
  • 0:08 - 0:11
    An architect designs a building, and it becomes a place,
  • 0:11 - 0:13
    or many architects design many buildings, and it becomes
  • 0:13 - 0:16
    a city, and regardless of this complicated mix of forces
  • 0:16 - 0:19
    of politics and culture and economics that shapes
  • 0:19 - 0:22
    these places, at the end of the day, you can go
  • 0:22 - 0:24
    and you can visit them. You can walk around them.
  • 0:24 - 0:26
    You can smell them. You can get a feel for them.
  • 0:26 - 0:30
    You can experience their sense of place.
  • 0:30 - 0:32
    But what was striking to me over the last several years
  • 0:32 - 0:35
    was that less and less was I going out into the world,
  • 0:35 - 0:39
    and more and more, I was sitting in front of my computer screen.
  • 0:39 - 0:43
    And especially since about 2007, when I got an iPhone,
  • 0:43 - 0:45
    I was not only sitting in front of my screen all day,
  • 0:45 - 0:47
    but I was also getting up at the end of the day
  • 0:47 - 0:50
    and looking at this little screen that I carried in my pocket.
  • 0:50 - 0:53
    And what was surprising to me was how quickly
  • 0:53 - 0:56
    my relationship to the physical world had changed.
  • 0:56 - 0:58
    In this very short period of time, you know, whether you
  • 0:58 - 1:01
    call it the last 15 years or so of being online, or the last,
  • 1:01 - 1:04
    you know, four or five years of being online all the time,
  • 1:04 - 1:07
    our relationship to our surroundings had changed in that
  • 1:07 - 1:09
    our attention is constantly divided. You know,
  • 1:09 - 1:12
    we're both looking inside the screens and we're looking
  • 1:12 - 1:13
    out in the world around us.
  • 1:13 - 1:16
    And what was even more striking to me, and what I really
  • 1:16 - 1:19
    got hung up on, was that the world inside the screen
  • 1:19 - 1:23
    seemed to have no physical reality of its own.
  • 1:23 - 1:26
    If you went and looked for images of the Internet,
  • 1:26 - 1:29
    this was all that you found, this famous image by Opte
  • 1:29 - 1:32
    of the Internet as the kind of Milky Way, this infinite expanse
  • 1:32 - 1:34
    where we don't seem to be anywhere on it.
  • 1:34 - 1:36
    We can never seem to grasp it in its totality.
  • 1:36 - 1:40
    It's always reminded me of the Apollo image of the Earth,
  • 1:40 - 1:43
    the blue marble picture, and it's similarly meant to suggest,
  • 1:43 - 1:45
    I think, that we can't really understand it as a whole.
  • 1:45 - 1:49
    We're always sort of small in the face of its expanse.
  • 1:49 - 1:52
    So if there was this world and this screen, and if there was
  • 1:52 - 1:55
    the physical world around me, I couldn't ever get them
  • 1:55 - 1:58
    together in the same place.
  • 1:58 - 2:01
    And then this happened.
  • 2:01 - 2:04
    My Internet broke one day, as it occasionally does,
  • 2:04 - 2:07
    and the cable guy came to fix it, and he started with
  • 2:07 - 2:09
    the dusty clump of cables behind the couch,
  • 2:09 - 2:12
    and he followed it to the front of my building and into the basement and out to the back yard,
  • 2:12 - 2:15
    and there was this big jumble of cables against the wall.
  • 2:15 - 2:18
    And then he saw a squirrel running along the wire,
  • 2:18 - 2:20
    and he said, "There's your problem.
  • 2:20 - 2:25
    A squirrel is chewing on your Internet." (Laughter)
  • 2:25 - 2:28
    And this seemed astounding. The Internet is
  • 2:28 - 2:31
    a transcendent idea. It's a set of protocols that has changed
  • 2:31 - 2:35
    everything from shopping to dating to revolutions.
  • 2:35 - 2:37
    It was unequivocally not something
  • 2:37 - 2:41
    a squirrel could chew on. (Laughter)
  • 2:41 - 2:43
    But that in fact seemed to be the case.
  • 2:43 - 2:46
    A squirrel had in fact chewed on my Internet. (Laughter)
  • 2:46 - 2:48
    And then I got this image in my head of what would happen
  • 2:48 - 2:50
    if you yanked the wire from the wall and if you started
  • 2:50 - 2:52
    to follow it. Where would it go?
  • 2:52 - 2:55
    Was the Internet actually a place that you could visit?
  • 2:55 - 2:57
    Could I go there? Who would I meet?
  • 2:57 - 3:00
    You know, was there something actually out there?
  • 3:00 - 3:03
    And the answer, by all accounts, was no.
  • 3:03 - 3:06
    This was the Internet, this black box with a red light on it,
  • 3:06 - 3:09
    as represented in the sitcom "The IT Crowd."
  • 3:09 - 3:13
    Normally it lives on the top of Big Ben,
  • 3:13 - 3:16
    because that's where you get the best reception,
  • 3:16 - 3:19
    but they had negotiated that their colleague could borrow it
  • 3:19 - 3:22
    for the afternoon to use in an office presentation.
  • 3:22 - 3:25
    The elders of the Internet were willing to part with it
  • 3:25 - 3:28
    for a short while, and she looks at it and she says,
  • 3:28 - 3:31
    "This is the Internet? The whole Internet? Is it heavy?"
  • 3:31 - 3:35
    They say, "Of course not, the Internet doesn't weigh anything."
  • 3:35 - 3:37
    And I was embarrassed. I was looking for this thing
  • 3:37 - 3:40
    that only fools seem to look for.
  • 3:40 - 3:42
    The Internet was that amorphous blob, or it was a silly
  • 3:42 - 3:45
    black box with a blinking red light on it.
  • 3:45 - 3:47
    It wasn't a real world out there.
  • 3:47 - 3:50
    But, in fact, it is. There is a real world of the Internet out there,
  • 3:50 - 3:52
    and that's what I spent about two years visiting,
  • 3:52 - 3:56
    these places of the Internet. I was in large data centers
  • 3:56 - 3:58
    that use as much power as the cities in which they sit,
  • 3:58 - 4:01
    and I visited places like this, 60 Hudson Street in New York,
  • 4:01 - 4:03
    which is one of the buildings in the world,
  • 4:03 - 4:06
    one of a very short list of buildings, about a dozen buildings,
  • 4:06 - 4:09
    where more networks of the Internet connect to each other
  • 4:09 - 4:10
    than anywhere else.
  • 4:10 - 4:13
    And that connection is an unequivocally physical process.
  • 4:13 - 4:15
    It's about the router of one network, a Facebook or
  • 4:15 - 4:18
    a Google or a B.T. or a Comcast or a Time Warner, whatever it is,
  • 4:18 - 4:20
    connecting with usually a yellow fiber-optic cable up into
  • 4:20 - 4:23
    the ceiling and down into the router of another network,
  • 4:23 - 4:28
    and that's unequivocally physical, and it's surprisingly intimate.
  • 4:28 - 4:31
    A building like 60 Hudson, and a dozen or so others,
  • 4:31 - 4:33
    has 10 times more networks connecting within it
  • 4:33 - 4:35
    than the next tier of buildings.
  • 4:35 - 4:37
    There's a very short list of these places.
  • 4:37 - 4:40
    And 60 Hudson in particular is interesting because it's home
  • 4:40 - 4:43
    to about a half a dozen very important networks,
  • 4:43 - 4:45
    which are the networks which serve the undersea cables
  • 4:45 - 4:47
    that travel underneath the ocean
  • 4:47 - 4:49
    that connect Europe and America and connect all of us.
  • 4:49 - 4:53
    And it's those cables in particular that I want to focus on.
  • 4:53 - 4:57
    If the Internet is a global phenomenon, if we live
  • 4:57 - 4:59
    in a global village, it's because there are cables underneath
  • 4:59 - 5:01
    the ocean, cables like this.
  • 5:01 - 5:04
    And in this dimension, they are incredibly small.
  • 5:04 - 5:07
    You can you hold them in your hand. They're like a garden hose.
  • 5:07 - 5:11
    But in the other dimension they are incredibly expansive,
  • 5:11 - 5:13
    as expansive as you can imagine.
  • 5:13 - 5:16
    They stretch across the ocean. They're three or five
  • 5:16 - 5:18
    or eight thousand miles in length, and
  • 5:18 - 5:21
    if the material science and the computational technology
  • 5:21 - 5:24
    is incredibly complicated, the basic physical process
  • 5:24 - 5:28
    is shockingly simple. Light goes in on one end of the ocean
  • 5:28 - 5:31
    and comes out on the other, and it usually comes
  • 5:31 - 5:34
    from a building called a landing station that's often
  • 5:34 - 5:37
    tucked away inconspicuously in a little seaside neighborhood,
  • 5:37 - 5:40
    and there are amplifiers that sit on the ocean floor
  • 5:40 - 5:42
    that look kind of like bluefin tuna, and every 50 miles
  • 5:42 - 5:46
    they amplify the signal, and since the rate of transmission
  • 5:46 - 5:49
    is incredibly fast, the basic unit is a 10-gigabit-per-second
  • 5:49 - 5:52
    wavelength of light, maybe a thousand times your own
  • 5:52 - 5:55
    connection, or capable of carrying 10,000 video streams,
  • 5:55 - 5:58
    but not only that, but you'll put not just one wavelength of light
  • 5:58 - 6:01
    through one of the fibers, but you'll put maybe
  • 6:01 - 6:04
    50 or 60 or 70 different wavelengths or colors of light
  • 6:04 - 6:07
    through a single fiber, and then you'll have maybe
  • 6:07 - 6:09
    eight fibers in a cable, four going in each direction.
  • 6:09 - 6:13
    And they're tiny. They're the thickness of a hair.
  • 6:13 - 6:15
    And then they connect to the continent somewhere.
  • 6:15 - 6:17
    They connect in a manhole like this. Literally,
  • 6:17 - 6:20
    this is where the 5,000-mile cable plugs in.
  • 6:20 - 6:25
    This is in Halifax, a cable that stretches from Halifax to Ireland.
  • 6:25 - 6:28
    And the landscape is changing. Three years ago,
  • 6:28 - 6:30
    when I started thinking about this, there was one cable
  • 6:30 - 6:33
    down the Western coast of Africa, represented
  • 6:33 - 6:36
    in this map by Steve Song as that thin black line.
  • 6:36 - 6:40
    Now there are six cables and more coming, three down each coast.
  • 6:40 - 6:43
    Because once a country gets plugged in by one cable,
  • 6:43 - 6:45
    they realize that it's not enough. If they're going to build
  • 6:45 - 6:48
    an industry around it, they need to know that their connection
  • 6:48 - 6:50
    isn't tenuous but permanent, because if a cable breaks,
  • 6:50 - 6:52
    you have to send a ship out into the water, throw
  • 6:52 - 6:55
    a grappling hook over the side, pick it up, find the other end,
  • 6:55 - 6:58
    and then fuse the two ends back together and then dump it over.
  • 6:58 - 7:03
    It's an intensely, intensely physical process.
  • 7:03 - 7:07
    So this is my friend Simon Cooper, who until very recently
  • 7:07 - 7:10
    worked for Tata Communications, the communications wing
  • 7:10 - 7:13
    of Tata, the big Indian industrial conglomerate.
  • 7:13 - 7:16
    And I've never met him. We've only communicated
  • 7:16 - 7:19
    via this telepresence system, which always makes me
  • 7:19 - 7:23
    think of him as the man inside the Internet. (Laughter)
  • 7:23 - 7:26
    And he is English. The undersea cable industry
  • 7:26 - 7:30
    is dominated by Englishmen, and they all seem to be 42.
  • 7:30 - 7:33
    (Laughter) Because they all started at the same time
  • 7:33 - 7:36
    with the boom about 20 years ago.
  • 7:36 - 7:39
    And Tata had gotten its start as a communications business
  • 7:39 - 7:42
    when they bought two cables, one across the Atlantic
  • 7:42 - 7:45
    and one across the Pacific, and proceeded to add pieces
  • 7:45 - 7:48
    onto them, until they had built a belt around the world,
  • 7:48 - 7:50
    which means they will send your bits to the East or the West.
  • 7:50 - 7:53
    They have -- this is literally a beam of light around the world,
  • 7:53 - 7:55
    and if a cable breaks in the Pacific, it'll send it around
  • 7:55 - 7:58
    the other direction. And then having done that,
  • 7:58 - 8:02
    they started to look for places to wire next.
  • 8:02 - 8:04
    They looked for the unwired places, and that's meant
  • 8:04 - 8:07
    North and South, primarily these cables to Africa.
  • 8:07 - 8:11
    But what amazes me is Simon's incredible geographic imagination.
  • 8:11 - 8:14
    He thinks about the world with this incredible expansiveness.
  • 8:14 - 8:17
    And I was particularly interested because I wanted to see
  • 8:17 - 8:20
    one of these cables being built. See, you know, all the time
  • 8:20 - 8:22
    online we experience these fleeting moments of connection,
  • 8:22 - 8:26
    these sort of brief adjacencies, a tweet or a Facebook post
  • 8:26 - 8:30
    or an email, and it seemed like there was a physical corollary to that.
  • 8:30 - 8:32
    It seemed like there was a moment when the continent
  • 8:32 - 8:34
    was being plugged in, and I wanted to see that.
  • 8:34 - 8:36
    And Simon was working on a new cable,
  • 8:36 - 8:39
    WACS, the West Africa Cable System, that stretched
  • 8:39 - 8:41
    from Lisbon down the west coast of Africa,
  • 8:41 - 8:44
    to Cote d'Ivoire, to Ghana, to Nigeria, to Cameroon.
  • 8:44 - 8:46
    And he said there was coming soon, depending
  • 8:46 - 8:48
    on the weather, but he'd let me know when,
  • 8:48 - 8:51
    and so with about four days notice, he said to go
  • 8:51 - 8:54
    to this beach south of Lisbon, and a little after 9,
  • 8:54 - 8:58
    this guy will walk out of the water. (Laughter)
  • 8:58 - 9:02
    And he'll be carrying a green nylon line, a lightweight line,
  • 9:02 - 9:05
    called a messenger line, and that was the first link
  • 9:05 - 9:08
    between sea and land, this link that would then be
  • 9:08 - 9:11
    leveraged into this 9,000-mile path of light.
  • 9:11 - 9:14
    Then a bulldozer began to pull the cable in from this
  • 9:14 - 9:17
    specialized cable landing ship, and it was floated
  • 9:17 - 9:20
    on these buoys until it was in the right place.
  • 9:20 - 9:23
    Then you can see the English engineers looking on.
  • 9:23 - 9:26
    And then, once it was in the right place, he got back
  • 9:26 - 9:29
    in the water holding a big knife, and he cut each buoy off,
  • 9:29 - 9:31
    and the buoy popped up into the air, and the cable
  • 9:31 - 9:33
    dropped to the sea floor, and he did that all the way out
  • 9:33 - 9:35
    to the ship, and when he got there,
  • 9:35 - 9:38
    they gave him a glass of juice and a cookie,
  • 9:38 - 9:40
    and then he jumped back in, and he swam back to shore,
  • 9:40 - 9:47
    and then he lit a cigarette. (Laughter)
  • 9:47 - 9:50
    And then once that cable was on shore,
  • 9:50 - 9:53
    they began to prepare to connect it to the other side,
  • 9:53 - 9:56
    for the cable that had been brought down from the landing station.
  • 9:56 - 9:59
    And first they got it with a hacksaw, and then they start
  • 9:59 - 10:02
    sort of shaving away at this plastic interior with a --
  • 10:02 - 10:04
    sort of working like chefs, and then finally they're working
  • 10:04 - 10:07
    like jewelers to get these hair-thin fibers to line up
  • 10:07 - 10:09
    with the cable that had come down,
  • 10:09 - 10:12
    and with this hole-punch machine they fuse it together.
  • 10:12 - 10:15
    And when you see these guys going at this cable with a hacksaw,
  • 10:15 - 10:18
    you stop thinking about the Internet as a cloud.
  • 10:18 - 10:21
    It starts to seem like an incredibly physical thing.
  • 10:21 - 10:24
    And what surprised me as well was that as much as this
  • 10:24 - 10:27
    is based on the most sophisticated technology, as much
  • 10:27 - 10:30
    as this is an incredibly new thing, the physical process
  • 10:30 - 10:33
    itself has been around for a long time, and the culture is the same.
  • 10:33 - 10:35
    You see the local laborers. You see the English engineer
  • 10:35 - 10:39
    giving directions in the background. And more importantly,
  • 10:39 - 10:41
    the places are the same. These cables still connect
  • 10:41 - 10:44
    these classic port cities, places like Lisbon, Mombasa,
  • 10:44 - 10:47
    Mumbai, Singapore, New York.
  • 10:47 - 10:52
    And then the process on shore takes around three or four days,
  • 10:52 - 10:56
    and then, when it's done, they put the manhole cover
  • 10:56 - 10:59
    back on top, and they push the sand over that,
  • 10:59 - 11:02
    and we all forget about it.
  • 11:02 - 11:04
    And it seems to me that we talk a lot about the cloud,
  • 11:04 - 11:06
    but every time we put something on the cloud,
  • 11:06 - 11:08
    we give up some responsibility for it.
  • 11:08 - 11:12
    We are less connected to it. We let other people worry about it.
  • 11:12 - 11:13
    And that doesn't seem right.
  • 11:13 - 11:16
    There's a great Neal Stephenson line where he says
  • 11:16 - 11:20
    that wired people should know something about wires.
  • 11:20 - 11:22
    And we should know, I think, we should know
  • 11:22 - 11:25
    where our Internet comes from, and we should know
  • 11:25 - 11:30
    what it is that physically, physically connects us all.
  • 11:30 - 11:32
    Thank you. (Applause)
  • 11:32 - 11:35
    (Applause)
  • 11:35 - 11:38
    Thanks. (Applause)
Title:
Discover the physical side of the Internet
Speaker:
Andrew Blum
Description:

When a squirrel chewed through a cable and knocked him offline, journalist Andrew Blum started wondering what the Internet was really made of. So he set out to go see it -- the underwater cables, secret switches and other physical bits that make up the net.
more » « less
Video Language:
English
Team:
closed TED
Project:
TEDTalks
Duration:
11:59

English subtitles

Revisions Compare revisions

Our website uses cookies for analysis purposes.