“
We do not need to plug a fiber optic cable into our brains in order to access the Internet. Not only can the human retina transmit data at an impressive rate of nearly 10 million bits per second, but it comes pre-packaged with a massive amount of dedicated wetware, the visual cortex, that is highly adapted to extracting meaning from this information torrent and to interfacing with other brain areas for further processing.
”
”
Nick Bostrom (Superintelligence: Paths, Dangers, Strategies)
“
Modern broadcast television, with its digital boxes and fiber optics and orbiting geosynchronous satellites, has become a perfectly engineered slaughterhouse of time.
”
”
Daniel R. Thorne
“
Except I hadn’t brought up fiber optics yet.” “You must have.
”
”
Andy Weir (Artemis)
“
His fingerprints are all over today’s technologies. Photoelectric cells and lasers, nuclear power and fiber optics, space travel, and even semiconductors all trace back to his theories.
”
”
Walter Isaacson (Einstein: His Life and Universe)
“
A speech with magical force. Nowadays, people don't believe in these kinds of things. Except in the Metaverse, that is, where magic is possible. The Metaverse is a fictional structure made out of code. And code is just a form of speech—the form that computers understand. The Metaverse in its entirety could be considered a single vast nam-shub, enacting itself on L. Bob Rife's fiber-optic network.
”
”
Neal Stephenson (Snow Crash)
“
As the Era of Stagnation began, the Soviet scientific establishment lavished resources on the immediate priorities of the state—space exploration, water diversion, nuclear power—while emergent technologies, including computer science, genetics, and fiber optics, fell behind.
”
”
Adam Higginbotham (Midnight in Chernobyl: The Untold Story of the World's Greatest Nuclear Disaster)
“
A really awesome fiber-optic cable.
”
”
Andy Weir (Artemis)
“
The jellies living nearest the surface had transparent bodies, but their edges twinkled and flashed, as though traced by fiber-optic cables, blinking and undulating like neon signs. They were delicate; if you weren’t looking
”
”
Susan Casey (The Devil's Teeth: A True Story of Obsession and Survival Among America's Great White Sharks)
“
Image intensifiers, which ultimately became “night vision” Fiber optics Supertenacity fibers Lasers Molecular alignment metallic alloys Integrated circuits and microminiaturization of logic boards HARP (High Altitude Research Project) Project Horizon (moon base) Portable atomic generators (ion propulsion drive) Irradiated food “Third brain” guidance systems (EBE headbands) Particle beams (“Star Wars” antimissile energy weapons) Electromagnetic propulsion systems Depleted uranium projectiles
”
”
Philip J. Corso (The Day After Roswell)
“
Some technologies take several decades to reach mainstream adaptation because they were waiting on many other things to reach a certain level of maturity or accessibility. For example, in order for video conferencing technologies like Facetime and Zoom to reach mainstream adaptation, it needed the following things to reach greater maturity and accessibility — camera technology, smartphone popularity, computer chip manufacturing, silica mining, copper mining, fiber optic cable distribution, 4G communication technology and more. The magic happens in the convergence.
”
”
Hendrith Vanlon Smith Jr.
“
In 1945, former MIT dean Vannevar Bush, who oversaw U.S. military science during World War II—including the mass production of penicillin and the Manhattan Project—authored a report at the request of President Franklin Roosevelt in which he explained successful innovation culture. It was titled “Science, the Endless Frontier,” and led to the creation of the National Science Foundation that funded three generations of wildly successful scientific discovery, from Doppler radar and fiber optics to web browsers and MRIs. “Scientific progress on a broad front results from the free play of free intellects, working on subjects of their own choice,” Bush wrote, “in the manner dictated by their curiosity for exploration of the unknown.
”
”
David Epstein (Range: Why Generalists Triumph in a Specialized World)
“
Most often, couples who get together after months or years of online infatuation enact a twenty-first-century version of Icarus flying too close to the sun with his waxen wings: the real-life exposure quickly melts the fiber-optic cable that was holding the couple aloft, and they plummet into the sea, where they tend to flail about for a while, trying to rescue their former magic.
”
”
Daniel Jones (Love Illuminated: Exploring Life's Most Mystifying Subject (with the Help of 50,000 Strangers))
“
Like the railroads that bankrupted a previous generation of visionary entrepreneurs and built the foundations of an industrial nation, fiber-optic webs, storewidth breakthroughs, data centers, and wireless systems installed over the last five years will enable and endow the next generation of entrepreneurial wealth. As Mead states, "the hardest thing I ever had to do in my life was to get a company going during the bubble". Now, Mead says, "there's space available; you can get fab runs; you can get vendors to answer the phone. You can make deals with people; you can sit down and they don't spend their whole time telling you how they're a hundred times smarter than you. It's absolutely amazing. You can actually get work done now, which means what's happening now is that the entrepreneurs, the technologists, are building the next generation technology that isn't visible yet but upon which will be built the biggest expansion of productivity the world has ever seen.
”
”
George Gilder (The Silicon Eye: Microchip Swashbucklers and the Future of High-Tech Innovation (Enterprise))
“
our safest bet is that the era of high-technology communication, in the beginning of which we are now immersed, will continue to develop and amplify. We may look forward to more numerous and more versatile communications satellites, laser beams replacing microwaves in space and providing millions of times as many audio and video channels, optical fibers carrying light replacing copper wires carrying electricity, and elaborate computerization making the world more responsive to our needs.
”
”
Isaac Asimov (The Roving Mind)
“
The device had a segmented central spine that appeared to stretch from a wearer’s forehead to the nape of their neck, with a row of ten C-shaped metal bands attached to it. Each band was comprised of jointed, retractable segments, and each segment had a row of circular sensor pads on its underside. This made the whole sensor array adjustable, so that it could fit around heads of all shapes and sizes. A long fiber-optic cable stretched from the base of the headset, with a standard OASIS console plug at the end of it.
”
”
Ernest Cline (Ready Player Two (Ready Player One #2))
“
In the lane behind my house, every night I walk past road gangs of emaciated laborers digging a trench to lay fiber-optic cables to speed up our digital revolution. In the bitter winter cold, they work by the light of a few candles.
It’s as though the people of India have been rounded up and loaded onto two convoys of trucks (a huge big one and a tiny little one) that have set off resolutely in opposite directions. The tiny convoy is on its way to a glittering destination somewhere near the top of the world. The other convoy just melts into the darkness and disappears.
”
”
Arundhati Roy (My Seditious Heart: Collected Nonfiction)
“
Even in a forest, there are loners, would-be hermits who want little to do with others. Can such antisocial trees block alarm calls simply by not participating? Luckily, they can't. For usually there are fungi present that act as intermediaries to guarantee quick dissemination of news. These fungi operate like fiber-optic Internet cables. Their thin filaments penetrate the ground, weaving through it in almost unbelievable density. One teaspoon of forest soil contains many miles of these "hyphae." Over centuries, a single fungus can cover many square miles and network an entire forest. The fungal connections transmit signals from one tree to the next, helping the trees exchange news about insects, drought, and other dangers. Science has adopted a term first coined by the journal Nature for Dr. Simard's discovery of the "wood wide web" pervading our forests. What and how much information is exchanged are subjects we have only just begun to research. For instance, Simard discovered that different tree species are in contact with one another, even when they regard each other as competitors. And the fungi are pursuing their own agendas and appear to be very much in favor of conciliation and equitable distribution of information and resources.
”
”
Peter Wohlleben (The Hidden Life of Trees: What They Feel, How They Communicate: Discoveries from a Secret World)
“
Year of the Depend Adult Undergarment: InterLace TelEntertainment, 932/1864 R.I.S.C. power-TPs w/ or w/o console, Pink2, post-Primestar D.S.S. dissemination, menus and icons, pixel-free InterNet Fax, tri- and quad-modems w/ adjustable baud, post-Web Dissemination-Grids, screens so high-def you might as well be there, cost-effective videophonic conferencing, internal Froxx CD-ROM, electronic couture, all-in-one consoles, Yushityu ceramic nanoprocessors, laser chromatography, Virtual-capable media-cards, fiber-optic pulse, digital encoding, killer apps; carpal neuralgia, phosphenic migraine, gluteal hyperadiposity, lumbar stressae.
”
”
David Foster Wallace (Infinite Jest)
“
PRISM enabled the NSA to routinely collect data from Microsoft, Yahoo!, Google, Facebook, Paltalk, YouTube, Skype, AOL, and Apple, including email, photos, video and audio chats, Web-browsing content, search engine queries, and all other data stored on their clouds, transforming the companies into witting coconspirators. Upstream collection, meanwhile, was arguably even more invasive. It enabled the routine capturing of data directly from private-sector Internet infrastructure—the switches and routers that shunt Internet traffic worldwide, via the satellites in orbit and the high-capacity fiber-optic cables that run under the ocean.
”
”
Edward Snowden (Permanent Record)
“
Every instant of every day we are bombarded by information. In fact, all complex organisms, especially those with brains, suffer from information overload. Our eyes and ears receive lights and sounds (respectively) across the spectrums of visible and audible wavelengths; our skin and the rest of our innervated parts send their own messages of sore muscles or cold feet. All told, every second, our senses transmit an estimated 11 million bits of information to our poor brains, as if a giant fiber-optic cable were plugged directly into them, firing information at full bore. In light of this, it is rather incredible that we are even capable of boredom.
”
”
Tim Wu (The Attention Merchants: The Epic Scramble to Get Inside Our Heads)
“
God said, 'Let there be light.'
Here's a paraphrase:
Let there be electromagnetic radiation with varying wavelengths traveling at 186,282 miles per second. Let there be radiowaves, microwaves, and X-rays. Let there be photosynthesis and fiber optics. Let there be LASIK surgery, satellite communication, and suntans. Oh, and let there be rainbows after rainstorms.
'Let there be light.'
These are God's first recorded words.
This is God's first recorded miracle.
Light is the source of vision; without it we can't see a thing. Light is the key to technology; it's how we can talk to someone halfway around the world without so much as a second's delay because light can circle the globe seven and a half times a second. Light is the first link in the food chain; no photosynthesis equals no food. Light is the basis of health; the absence of light causes everything from vitamin D deficiency to depression. Light is the origin of energy; in Einstein's equation E = MC squared, energy (E) is defined as mass (M) times the speed of light (C) squared. The speed of light is the constant. And light is the measuring stick for space-time; a meter is defined as the distance traveled by light in a vacuum during a time interval of 1/299,792,458 of a second.
Light is the alpha and omega of everything, and that includes you.
”
”
Mark Batterson (Whisper: How to Hear the Voice of God)
“
What is most dystopian about all of the digital houses designed for customized consumption is the implication that the entire landscape could be covered with new houses lacking any social or economic neighborhood context. Designers minimize the need for family or neighborhood interaction if they plan for digital surveillance as a route to ordering mass-produced commodities as well as handling work and civic life. If many external activities, such as paid work, exercise, shopping, seeking entertainment, and voting, are able to be done in-house through the various electronic communications systems, reasons for going outside decrease. The residents become isolated, although the house continues to function as a container for mass-produced goods and electronic media. In a landscape bristling with tens of thousands of digital houses and cell towers, where the ground is laced with hundreds of thousands of miles of fiber-optic cable, neighborhoods may not exist. Car journeys involving traffic problems may disappear, although the roads will be clogged with delivery vans.
”
”
Dolores Hayden (Building Suburbia: Green Fields and Urban Growth, 1820-2000)
“
Moore’s Law, the rule of thumb in the technology industry, tells us that processor chips—the small circuit boards that form the backbone of every computing device—double in speed every eighteen months. That means a computer in 2025 will be sixty-four times faster than it is in 2013. Another predictive law, this one of photonics (regarding the transmission of information), tells us that the amount of data coming out of fiber-optic cables, the fastest form of connectivity, doubles roughly every nine months. Even if these laws have natural limits, the promise of exponential growth unleashes possibilities in graphics and virtual reality that will make the online experience as real as real life, or perhaps even better. Imagine having the holodeck from the world of Star Trek, which was a fully immersive virtual-reality environment for those aboard a ship, but this one is able to both project a beach landscape and re-create a famous Elvis Presley performance in front of your eyes. Indeed, the next moments in our technological evolution promise to turn a host of popular science-fiction concepts into science facts: driverless cars, thought-controlled robotic motion, artificial intelligence (AI) and fully integrated augmented reality, which promises a visual overlay of digital information onto our physical environment. Such developments will join with and enhance elements of our natural world. This is our future, and these remarkable things are already beginning to take shape. That is what makes working in the technology industry so exciting today. It’s not just because we have a chance to invent and build amazing new devices or because of the scale of technological and intellectual challenges we will try to conquer; it’s because of what these developments will mean for the world.
”
”
Eric Schmidt (The New Digital Age: Reshaping the Future of People, Nations and Business)
“
Like any place in Reality, the Street is subject to development. Developers can
build their own small streets feeding off of the main one. They can build
buildings, parks, signs, as well as things that do not exist in Reality, such as
vast hovering overhead light shows, special neighborhoods where the rules of
three-dimensional spacetime are ignored, and free-combat zones where people can
go to hunt and kill each other.
The only difference is that since the Street does not really exist -- it's just
a computer-graphics protocol written down on a piece of paper somewhere -- none
of these things is being physically built. They are, rather, pieces of
software, made available to the public over the worldwide fiber-optics network.
When Hiro goes into the Metaverse and looks down the Street and sees buildings
and electric signs stretching off into the darkness, disappearing over the curve
of the globe, he is actually staring at the graphic representations -- the user
interfaces -- of a myriad different pieces of software that have been engineered
by major corporations. In order to place these things on the Street, they have
had to get approval from the Global Multimedia Protocol Group, have had to buy
frontage on the Street, get zoning approval, obtain permits, bribe inspectors,
the whole bit. The money these corporations pay to build things on the Street
all goes into a trust fund owned and operated by the GMPG, which pays for
developing and expanding the machinery that enables the Street to exist.
Hiro has a house in a neighborhood just off the busiest part of the Street. it
is a very old neighborhood by Street standards. About ten years ago, when the
Street protocol was first written, Hiro and some of his buddies pooled their
money and bought one of the first development licenses, created a little
neighborhood of hackers. At the time, it was just a little patchwork of light
amid a vast blackness. Back then, the Street was just a necklace of
streetlights around a black ball in space.
Since then, the neighborhood hasn't changed much, but the Street has. By
getting in on it early, Hiro's buddies got a head start on the whole business.
Some of them even got very rich off of it.
That's why Hiro has a nice big house in the Metaverse but has to share a 20-by-
30 in Reality. Real estate acumen does not always extend across universes.
”
”
Neal Stephenson (Snow Crash)
“
With the introduction of radio, we now had a superfast. convenient, and wireless way of communicating over long distances. Historically, the lack of a fast and reliable communication system was one of the great obstacles to the march of history. (In 490 BCE, after the Battle of Marathon between the Greeks and the Persians, a poor runner was ordered to spread the news of the Greek victory as fast as he could. Bravely, he ran 26 miles to Athens after previously running 147 miles to Sparta, and then, according to legend, dropped dead of sheer exhaustion. His heroism, in the age before telecommunication, is now celebrated in the modern marathon.)
Today, we take for granted that we can send messages and information effortlessly across the globe, utilizing the fact that energy can be transformed in many ways. For example, when speaking on a cell phone, the energy of the sound of your voice converts to mechanical energy in a vibrating diaphragm. The diaphragm is attached to a magnet that relies on the interchangeability of electricity and magnetism to create an electrical impulse, the kind that can be transported and read by a computer. This electrical impulse is then translated into electromagnetic waves that are picked up by a nearby microwave tower. There, the message is amplified and sent across the globe.
But Maxwell's equations not only gave us nearly instantaneous communication via radio, cell phone, and fiber-optic cables, they also opened up the entire electromagnetic spectrum, of which visible light and radio were just two members. In the 166os, Newton had shown that white light, when sent through a prism, can be broken up into the colors of the rainbow. In 1800, William Herschel had asked himself a simple question: What lies beyond the colors of the rainbow, which extend from red to violet? He took a prism, which created a rainbow in his lab, and placed a thermometer below the color red, where there was no color at all. Much to his surprise, the temperature of this blank area began to rise. In other words, there was a "color" below red that was invisible to the naked eye but contained energy.
It was called infrared light.
Today, we realize that there is an entire spectrum of electromagnetic radiation, most of which is invisible, and each has a distinct wavelength. The wavelength of radio and TV, for example, is longer than that of visible light. The wavelength of the colors of the rainbow, in turn, is longer than that of ultraviolet and X-rays.
This also meant that the reality we see all around us is only the tiniest sliver of the complete EM spectrum, the smallest approximation of a much larger universe
”
”
Michio Kaku (The God Equation: The Quest for a Theory of Everything)
“
Technology was supposed to bring the latest fiber-optic cables into every house in Celebration. It promised a computerized community network that would let any resident pull up his or her medical records at the hospital, monitor his or her child's network at school and communicate with teachers and administrators, or simply chat with neighbors or order carry out from one of the restaurants.
”
”
Douglas Frantz (Celebration, U.S.A.: Living in Disney's Brave New Town)
“
If you email your friend a document to print, the information may get copied in rapid succession from magnetizations on your hard drive to electric charges in your computer’s working memory, radio waves in your wireless network, voltages in your router, laser pulses in an optical fiber and, finally, molecules on a piece of paper. In other words, information can take on a life of its own, independent of its physical substrate!
”
”
Max Tegmark (Life 3.0: Being Human in the Age of Artificial Intelligence)
“
Here’s something you may not know: every time you go to Facebook or ESPN.com or wherever, you’re unleashing a mad scramble of money, data, and pixels that involves undersea fiber-optic cables, the world’s best database technologies, and everything that is known about you by greedy strangers. Every. Single. Time. The magic of how this happens is called “real-time bidding” (RTB) exchanges, and we’ll get into the technical details before long. For now, imagine that every time you go to CNN.com, it’s as though a new sell order for one share in your brain is transmitted to a stock exchange. Picture it: individual quanta of human attention sold, bit by bit, like so many million shares of General Motors stock, billions of times a day. Remember Spear, Leeds & Kellogg, Goldman Sachs’s old-school brokerage acquisition, and its disappearing (or disappeared) traders? The company went from hundreds of traders and two programmers to twenty programmers and two traders in a few years. That same process was just starting in the media world circa 2009, and is right now, in 2016, kicking into high gear. As part of that shift, one of the final paroxysms of wasted effort at Adchemy was taking place precisely in the RTB space. An engineer named Matthew McEachen, one of Adchemy’s best, and I built an RTB bidding engine that talked to Google’s huge ad exchange, the figurative New York Stock Exchange of media, and submitted bids and ads at speeds of upwards of one hundred thousand requests per second. We had been ordered to do so only to feed some bullshit line Murthy was laying on potential partners that we were a real-time ads-buying company. Like so much at Adchemy, that technology would be a throwaway, but the knowledge I gained there, from poring over Google’s RTB technical documentation and passing Google’s merciless integration tests with our code, would set me light-years ahead of the clueless product team at Facebook years later.
”
”
Antonio García Martínez (Chaos Monkeys: Obscene Fortune and Random Failure in Silicon Valley)
“
Fully functional weapons were being haphazardly passed around by low-level officers and, in two confirmed cases, civilians. One warhead they were watching was currently parked in a retired captain’s storage unit. A recon team had managed to get a fiber optic camera through the ventilation grate and the Agency was now in possession of an honest-to-God picture of a hot nuke sitting next to a set of golf clubs.
”
”
Kyle Mills (Order to Kill (Mitch Rapp, #15))
“
They invited a large investor, Coca-Cola, to take over a plot of land in Pulkovo Heights and install high-capacity power and communications cables, hoping that other companies would follow suit. It worked. After Coca-Cola developed their piece of land, Gillette came, then Wrigley, and then some pharmaceutical companies. An economic zone thus took shape within the city, where total investment now exceeds half a billion dollars. Furthermore, with the Committee’s encouragement, the city’s infrastructure began to be modernized to create the conditions necessary for successful business. The first major deal that Putin supported was the completion of a fiber-optic cable to Copenhagen. This project had been initiated back in the Soviet era but never completed. Now the efforts were successful, providing St. Petersburg with world-class international telephone connections.
”
”
Vladimir Putin (First Person: An Astonishingly Frank Self-Portrait by Russia's President Vladimir Putin)
“
I think we might as well believe in Christ as believe in anything,” Beatrice said. “I mean, Christ makes as much sense and anything else I can think of.” “Like Success,” Rodney said. “Or Self,” I said. “Or Family,” Beatrice said. “Or Woman. Love. Disease. Heartbreak. Death. God. Goals. Reification. Fried food. High fiber optics. Disinvestment. Cancer. AIDS. Genes, skin, tissue, soul.
”
”
Scott Bradfield (The History of Luminous Motion)
“
Radios, vacuum tubes, transistors, televisions, solar cells, coaxial cables, laser beams, microprocessors, computers, cell phones, fiber optics—all these essential tools of modern life descend from ideas originally generated at Bell Labs.
”
”
Steven Johnson (How We Got to Now: Six Innovations That Made the Modern World)
“
Comtex Inc is located at 29 Poplar St, East Rutherford, NJ 07073. For over 60 years, Comtex continues to be a leader in the design, installation and service of business telephone systems, video surveillance CCTV systems, access control and paging systems. We provide all types of cabling, including fiber optic, CAT5e and CAT6e. We offer a FREE on-site evaluation, system demos and a one year guarantee on all systems. While our client base includes national and Fortune 500 companies, our local customer base is in the NJ and NY bi-state area. Our longevity in the industry proves our dedication to our clients and our work product. Our technicians and are highly trained and factory certified and our customer support team is excellent. Call us and see why we have all 5 star Google ratings!
”
”
Comtex Inc
“
This hybrid of two seemingly unrelated inventions—the concentrated, orderly light of lasers, and the hyper-clear glass fibers—came to be known as fiber optics. Using fiber-optic cables was vastly more efficient than sending electrical signals over copper cables, particularly for long distances: light allows much more bandwidth and is far less susceptible to noise and interference than is electrical energy. Today, the backbone of the global Internet is built out of fiber-optic cables. Roughly ten distinct cables traverse the Atlantic Ocean, carrying almost all the voice and data communications between the continents. Each of those cables contains a collection of separate fibers, surrounded by layers of steel and insulation to keep them watertight and protected from fishing trawlers, anchors, and even sharks.
”
”
Steven Johnson (How We Got to Now: Six Innovations That Made the Modern World)
“
I remember when I first used the internet in the 1990’s that it looked interesting. It was very slow on a dial up modem and frustrating to use. In the 2020’s it had become a staple of life and was really fast on fiber optics!
”
”
Steven Magee
“
Technology would have destroyed the monopoly anyway,” he says. Tanenbaum notes that Bell Labs’ most significant research and development efforts—transistors, microwave towers, digital transmission, optical fiber, cellular telephone systems—all fit a pattern. They took years to be developed and deployed, and soon became essential parts of the network. Yet many of the essential patents were given away or licensed for a pittance. And those technologies that weren’t shared were duplicated or improved upon by outsiders anyway. And eventually, the results were always the same. All the innovations returned, ferociously, in the form of competition.
”
”
Jon Gertner (The Idea Factory: Bell Labs and the Great Age of American Innovation)
“
Nicolas Gisin managed a decisive demonstration of this behavior in 1997. He created pairs of entangled photons and sent them flying apart along optical fibers. When one encountered the researcher’s mirrors and was forced to make a random choice as to whether to go one way or the other, its entangled twin, seven miles away, always made the complementary choice instantaneously.
”
”
Robert Lanza (The Grand Biocentric Design: How Life Creates Reality)
“
Many 401(k) investors load up on their own company’s stock in the apparent belief that they can levitate it all by themselves. “When you own a significant number of shares, you want to work hard and make the company prosper so you can prosper,” said an employee of Global Crossing, the fiber-optic phone network, in 2001. (His hard work, unfortunately, did not keep Global Crossing from going bust and wiping out his retirement savings.)
”
”
Jason Zweig (Your Money and Your Brain)
“
The Russian president’s nuclear bunker, like Site R, presently has electricity, internet, and hardwired telephone service. Underground bunkers are built for redundancy, their critical infrastructure components—including air, heat, and water—duplicated for resilience in emergencies and crises. Multiple high-capacity fiber-optic lines provide uninterrupted communications systems. The backup generators have backup generators.
”
”
Annie Jacobsen (Nuclear War: A Scenario)
“
The United States was not always on top. In fact prior to World War II, the country barely cracked the top thirty list of most influential nations on the globe. Most people attributed the nation’s rise to developing the atomic bomb first. That technological advantage lasted a grand total of four short years; a relative flash in the pan. Ascension from obscurity to superpower took a sustained technological edge for decades that the rest of the world was powerless to match. NASA provided that edge. Computers, integrated circuit boards, metallic alloys, heat shielding, fiber optics, Kevlar, nylon, and the ability to place satellites in orbit all came into commercial use after first being perfected by NASA to serve their needs. Even the program’s failures and useless passion projects, like studying the dust particles trailing behind a comet, led to new materials, new software, better propulsion systems, and the list went on and on.
”
”
Mark Henrikson (Origins)
“
As far as I could see, there weren’t any fiber-optic sensors buried in the ground next to the perimeter fence. That would have been outrageously costly. Unnecessary, too. Instead, the facility was protected by a twelve-foot chain-link fence, six-gauge galvanized steel—extremely difficult to cut through—and topped by coils of razor wire.
”
”
Joseph Finder (Vanished (Nick Heller, #1))
“
Bill Kelley, a Bloomberg employee, waited minutes before replying on his BlackBerry to a relative asking: “Bill, are you OK?” At 9:23 a.m. Kelley sent the last message of his life from the Windows on the World restaurant on top of the World Trade Center. “So far … we’re trapped on the 106th floor, but apparently [the] fire department is almost here.”5 These messages are a sample of a vast collection of e-mails sent on September 11, 2001, and later shared with news media or stored in a 9/11 digital archive owned by the Library of Congress. Many of the e-mails were dispatched by BlackBerrys. For trapped or fleeing workers, BlackBerrys were the only reliable communication link in lower Manhattan. After the first plane knocked out cell towers on top of the World Trade Center, cell and landline circuits were overwhelmed. Paging companies lost many of their frequencies, and phone lines went dead for hundreds of thousands of Verizon customers6 when a call-switching center, several cell towers, and fiber-optic links were smashed by debris from a collapsed building.7
”
”
Jacquie McNish (Losing the Signal: The Untold Story Behind the Extraordinary Rise and Spectacular Fall of BlackBerry)
“
high.
With the same fiber plant loss budget as in APON, to support the high bit rates, higher power transmitters are used in G-PON to meet the power budget requirements. This also implies that G-PON receivers need to handle higher receiver overload powers and therefore larger dynamic ranges. To ease the requirements and implementation of the upstream OLT burst mode receiver, G-PON has specified a power-leveling mechanism for "dynamic" power control (Sect. 8.3, [15]).
In the power-leveling mechanism, the OLT tries to balance the power it received from different ONUs by instructing ONUs to increase or decrease the launched power. Consequently, an ONU which is closer to the OLT and seeing less loss, will launch at a smaller power than an ONU which is further apart and experiencing more loss. Such concepts of power-leveling or power control have long existed in cellular networks to deal with the near-far cross talk effect and save cellular device battery power.
”
”
Cedric F. Lam (Passive Optical Networks: Principles and Practice)
“
The sexual map we acquire in youth includes body image, masturbatory guilt, sexual preferences and more. From what turns us on to what turns us off. From attitudes about menstruation to the right of women to wear certain clothing. But using this guilt- and shame-ridden map as a guide to sexuality is like using a map of an ancient city sewer system to locate the fiber optic network. What if the only map we had of a city was made 2,000 years ago? How useful would it be today? My city was an open prairie 2,000 years ago with no roads and maybe a few animal paths. A map of that reality would be of little use today.
”
”
Darrel Ray (Sex & God: How Religion Distorts Sexuality)
“
Microwave technology allowed the transmission of data in 4.13 milliseconds, 95 percent of the theoretical speed of light. The chain of towers would replace the existing fiber-optic cables, which transferred data at just 65 percent light speed.
”
”
Mark E. Russinovich (Rogue Code)
“
Although tapping into underground fiber-optic lines is much more difficult than tapping into a copper cable, the technique has been perfected by the NSA. For cables buried in foreign countries, the task of gaining access to them was given to a unique covert organization named the Special Collection Service (SCS), which combined the clandestine skills of the CIA with the technical capabilities of the NSA. Its purpose is to put sophisticated eavesdropping equipment—from bugs to parabolic antennas—in difficult-to-reach places. It also attempts to target for recruitment key foreign communications personnel, such as database managers, systems administrators, and IT specialists. The
”
”
James Bamford (The Shadow Factory: The Ultra-Secret NSA from 9/11 to the Eavesdropping on America)
“
is a little-known fact that nearly 95 percent of communications traffic between continents—including e-mail, phone calls, videos, and financial transfers—travels not by air or through space but via underwater fiber-optic cable—close to one million miles of it. And the demand is growing.
”
”
Jeffrey E. Garten (From Silk to Silicon: The Story of Globalization Through Ten Extraordinary Lives)
“
Greatest engineering achievements of 20th century ranked by National Academy of Engineering:
1. Electrification
2. Automobile
3. Airplane
4. Water supply and distribution
5. Electronics
6. Radio and Television
7. Mechanization of agriculture
8. Computers
9. The telephone system
10. Air-Conditioning and Refrigeration
11. Highways
12. Spacecraft
13. The Internet
14. Imaging
15. Household appliances
16. Health technologies
17. Petroleum and Petrochemical Technologies
18. Lasers and Fiber-optics
19. Nuclear technologies
20. High performance materials
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Henry Petroski (The Essential Engineer: Why Science Alone Will Not Solve Our Global Problems)
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The first thing Harvath removed was a sand-colored, modified Palafox 9mm SIG Sauer P226 pistol. It had bright green TRUGLO Tritium/Fiber-Optic Day/Night sights that allowed for fast target acquisition regardless of light conditions. Portions of the slide had been milled away to lessen the weapon’s weight. It also helped to reduce muzzle flip and better assist recoil management. Accompanying the pistol was a Sticky-brand inside-the-waistband holster, spare magazines, and several boxes of TNQ frangible 9mm ammunition
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Brad Thor (Foreign Agent (Scot Harvath, #15))
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Both Bellcore (the Bell Telephone research company in Livingstone, New Jersey) and Philips (the company that owns Polygram, U2’s label) have set up crude working prototypes of home music delivery systems by hooking up recordable CD players to fiber-optic telephone lines.
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Bill Flanagan (U2 at the End of the World)
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The same problems of distribution arise in computer networks. As networks get bigger and as the machines that make them up become more equal, the whole approach to moving information around changes from centralized to distributed. The packet-switching system that makes things like the Internet work would be immediately familiar to the Chinese. Instead of requisitioning a hunk of optical fiber between Point A and Point B and slamming the data down it in one big shipment, the packet data network breaks the data down into tiny pieces and sends them out separately, just as a Chinese enterprise might break a large shipment down into small pieces and send each one out on a separate bicycle, knowing that each one might take a different route but that they’d all get there eventually.
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Neal Stephenson (Some Remarks: Essays and Other Writing)
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When I watched the limping mouse refuse the lever, I was reminded yet again of what it means to be reborn, made new, saved, which is just another way of saying of needing those outstretched hands of your fellows and the grace of God. That saving grace, amazing grace , is a hand and a touch, a fiber- optic implant and a lever and a refusal, and how sweet, how sweet it is.
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Yaa Gyasi (Transcendent Kingdom)
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something to take before the board. I need to start getting my ducks in a row.” Before enrolling in college, I started knocking down all kinds of trades. Electronics technician. Fiber optics. Masonry. Plumbing. Janitorial. I was learning trades I never thought I’d be interested in doing out in the free world, but I wanted to
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Ice-T (Split Decision: Life Stories)
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He is no longer connected to the network by a fiber-optic cable, and so all his communication with the outside world has to take place via radio waves,
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Neal Stephenson (Snow Crash)
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First Facebook, then the iPhone: compulsive communicating and connecting—supported by mysterious, almost magical innovations in radio modulation and fiber-optic routing—swept our culture before anyone had the presence of mind to step back and re-ask Thoreau’s fundamental question: To what end?
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Cal Newport (Digital Minimalism: Choosing a Focused Life in a Noisy World)
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Okay, quiet down, everybody. Quiet down!” Kat shouts from the front of the amphitheater. She looks up to address the crowd of scholars gathered on the stone steps: “So, I’m Kat Potente, the PM for this project. I’m glad you’re all here, but there are a few things you should know. First, you can use the Wi-Fi, but the fiber optics are for Google employees only.” I glance across the assembled mass of the fellowship. Tyndall has a pocket watch connected to his pants with a long chain, and he’s checking the time. I don’t think this is going to be a problem. Kat glances down at a printed-out checklist. “Second, don’t blog, tweet, or live-stream anything you see here.” Imbert is adjusting an astrolabe. Seriously: not a problem. “And third”—she grins—“this isn’t going to take long, so don’t get too comfortable.
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Robin Sloan (Mr. Penumbra's 24-Hour Bookstore (Mr. Penumbra's 24-Hour Bookstore, #1))
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The father was a labor officer for the customs department of a shipping company. “My son has been living abroad for two years,” the man’s father said, “earning a Ph.D. in Boston, researching in the field of fiber optics.” Ashima had never heard of Boston, or of fiber optics.
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Jhumpa Lahiri (The Namesake)
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Pierce understood that the big new ideas—satellites, transistors, lasers, optical fibers, cellular telephony—could create an entirely new industry. “You may find a lot of controversy over how Bell Labs managed people,” John Mayo, the former Bell Labs president, says. “But keep in mind, I don’t think those managers saw it that way. They saw it as: How do you manage ideas? And that’s very different from managing people.
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Jon Gertner (The Idea Factory: Bell Labs and the Great Age of American Innovation)
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The strength of Bell Labs, Baker declared, was in its links with other parts of the monopoly. It was what allowed the Labs’ scientists and engineers to “think of new digital networks, or new telephone instruments, of new modes of distribution like satellites and fiber optics.” It was, Baker added with a typical flourish, what allowed “human creativity [to be] converted to human benefits.” The arrangement must continue.
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Jon Gertner (The Idea Factory: Bell Labs and the Great Age of American Innovation)
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Kao hadn’t said that pure glass would replace wires or waveguides immediately. He had only concluded it was possible. He was also liberated to some extent from the pressures that shaped the views of the Bell Labs scientists. Labs upper management had bet the future on waveguides, but Kao had not. The fiber optic historian Jeff Hecht would later point out that Kao (unlike the accountants at AT&T) had no incentive to make years of investment, in both time and effort, pay off.
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Jon Gertner (The Idea Factory: Bell Labs and the Great Age of American Innovation)
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The fundamental goal in making transistor materials is purity; the fundamental goal in making fiber materials is clarity. Only then can light pass through unimpeded; or as optical engineers say, only then can “losses” of light in the fiber be kept to an acceptable minimum. Two problems stand in the way of this objective, and both plagued early fiber makers. When a fiber shows too much “absorption,” it means that too much light is being lost thanks to traces of impurities—metals such as nickel and iron—within the glass. The other problem is called “scattering.” A more complicated phenomenon, scattering often arises from imperfections—infinitesimal bubbles or cracks, for instance—in the glass crystal itself.
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Jon Gertner (The Idea Factory: Bell Labs and the Great Age of American Innovation)
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Grant was torn loose from his foot restraints and went sailing across the bridge, optic fibers popping loose.
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Ben Bova (Jupiter (The Grand Tour #9))
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We’re not rational. We like to think we are, but we’re not. First and foremost, we’re emotional. We think with our hearts, not our heads. We feel rather than think. And we’ll go with what we feel is right regardless of the evidence. This has been the case for tens of thousands of years. Superstitions, religions, myths, biases, prejudices—these dominate our history, not science. Science is an outlier. Science is a latecomer. Science is the exception, not the norm in society. Misinformation travels at the speed of light through fiber optics and satellite connections while scientists are still analyzing data.
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Peter Cawdron (Ghosts)
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Boscow squinted. “We’ve played around on paper. Penn State, the Applied Research Lab, I mean. Wire guidance, or fiber optic, but there’s that fucking jet back there.
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David Poyer (The Weapon (Dan Lenson, #11))
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As for algorithms, they are not predictions, nor some kind of magic, nor reading stars and horoscopes, nor any of the superstitions, but rather they are something else, more scientific than all our sciences. Just give them the basic information, and once they have identified what is required, follow it, they put into your hands the identity that it does not know about itself, in the form of graphs on the imaginary timeline, its feelings, attitudes, psychological fluctuations, thoughts, everything about it, with astonishing accuracy, as well as general expectations. They have predicted everything accurately, not just human emotions, though these are the most serious things that they have presented.
Before they could connect them in the form of supercomputer systems, they were giving results, in a primitive way, as if they were a magic crystal from the centuries of darkness, they soon discovered that magic does not exist in them, but rather they are a crystal made of a huge number of tiny optical fibers, made of a material that there is no equal to it on earth.
Somehow, they kept inside them all the cosmic events, everything, from the motions of galaxies, and explosions, to the flapping of the wings of a butterfly, linked together by non-mathematical equations, something we do not know, incomprehensible symbols, they could not decipher, but they were able to interpret their sequence of results as algorithms.
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Ahmad I. AlKhalel (Zero Moment: Do not be afraid, this is only a passing novel and will end (Son of Chaos Book 1))
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Leading MSO in India
Fastway group is pioneer in digital entertainment services and dominant market leader in this space. Fastway has an internet arm Netplus Broadband which is 100% subsidiary of Fastway group and fastest growing ISP in the region providing Next-Gen Services.
Netplus Services Includes:
Service reach in 300+ cities over 10000 KM of underground & 16000 KM last mile FTTH network.
Service reach by 14K+ channel partners.
Netplus services are available in Punjab, Himachal Pradesh, Haryana, Chandigarh, Rajasthan, Uttar Pradesh, Uttarakhand and Jammu & Kashmir.
High-speed broadband services.
Fastest growing broadband service provider with 3 lac customers and 300+ towns launched.
1st service provider to launch 1000 Gig plan and smart telephony services in the region.
State of art NOC with peering and cashing with all major content providers.
Leading 2000+ Enterprise customers.
We are recognized organization directly involved in providing Wi-Fi solution under govt. Smart city projects.
Netplus Core Strengths:
Next-Gen Services including Broadband , IPTV | OTT & Voice.
Truly unlimited plans.
Affordable & economical pricing.
Service reach – 14K+ channel partners.
Technology:
Fiber to the home – (FTTH)
FTTH is the installation and use of optical fiber from a central point directly to individual residences, apartment buildings to provide unprecedented high-speed Internet access. FTTH increases the connection speeds available to computer users. FTTH promises speeds up to 1000 Mbps and can deliver a multitude of digital information -- video, data, more efficiently.
Fixed Line Services – Smart Telephony
Netplus Next Gen “Smart Telephony Services” works over broadband Network and will offer Unlimited local & STD Calling. This service offers customers HD quality voice calls along with faster call set up time and host of new features.USP of this service is that calls can be received both from Fixed line and Mobile.Including Freedom of Movement within WIFY.
IPTV & OTT Services
The Only organization giving Quad Play experience to users across North India. IPTV stage gives quick access to many channels, combined with alternatives and imaginative administrations, for example, Video-on-Demand and Catch Up TV for watchers who need to watch a program post-communicate. One of the areas where Netplus is going to emphasize on with its new offerings is the use of Smart Home Solutions. Using the FTTH services, users will be able to take hold of their Surveillance Cameras, smart connected Speakers, IP TV, Smart Plugs, Alarms , Video Doorbells and more.
5th floor OPP GURDEV HOSPITAL THE GRAND MALL H BLOCK Ludhiana 141012
Telephone: +91-70875-70875
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Netplus Broadband
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In 2011, a 75-year-old woman sliced through a fiber-optic cable, cutting 2 entire countries off the internet.
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Michael Gonzalez (Amazing Facts You Don't Know: 1,100 Unbelievable Trivia Facts)
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Before 2010, market news between Chicago and New York was transmitted fastest on cables that ran along the rights-of-way of roads and railways. But that year, a company called Spread Networks spent hundreds of millions of dollars to build a high-speed fiber-optic cable that went in a much straighter line and cut round-trip transmission of information and orders from 16 milliseconds to just 13. That 3-millisecond differential basically meant that only traders who used the new cable could make a profit by trading on momentary price differences between Chicago and New York.
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Alvin E. Roth (Who Gets What — and Why: The New Economics of Matchmaking and Market Design)
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Back in 1956, they had one-way broadcast radio communications for voice and limited black and white video that were limited by transmission power and two-way communications either by line of sight radio or copper wires. The best speed of communications for the next seventy-five years was the speed of light by radio, laser, or fiber optic. Even after sending probes to Jupiter and Saturn it would take more than a day for a single still image to be received on Earth. Today, we have the Ansible, utilizing applied quantum entanglement; providing near-instantaneous communication at bandwidth and distances that back then only science fiction authors dreamed of achieving.
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Eric Klein (The One: A Cruise Through the Solar System)
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there are fungi present that act as intermediaries to guarantee quick dissemination of news. These fungi operate like fiber-optic Internet cables. Their thin filaments penetrate the ground, weaving through it in almost unbelievable density. One teaspoon of forest soil contains many miles of these “hyphae.”8 Over centuries, a single fungus can cover many square miles and network an entire forest. The fungal connections transmit signals from one tree to the next, helping the trees exchange news about insects, drought, and other dangers. Science has adopted a term first coined by the journal Nature for Dr. Simard’s discovery of the “wood wide web” pervading our forests.
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Peter Wohlleben (The Hidden Life of Trees: What They Feel, How They Communicate — Discoveries from a Secret World)
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The company is a Johnny-One-Note, relying on one customer (or a handful) for most of its revenues. In October 1999, fiber-optics maker Sycamore Networks, Inc. sold stock to the public for the first time. The prospectus revealed that one customer, Williams Communications, accounted for 100% of Sycamore’s $11 million in total revenues. Traders blithely valued Sycamore’s shares at $15 billion. Unfortunately, Williams went bankrupt just over two years later. Although Sycamore picked up other customers, its stock lost 97% between 2000 and 2002.
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Benjamin Graham (The Intelligent Investor)
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Billions of dollars were sunk into cables spanning six continents and three oceans, and a web of optical fiber engulfed the world. When the operation peaked in 1991, fiber was being rolled out, globally, at over 5,000 miles per hour, or nine times the speed of sound: Mach 9.
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George Dyson (Turing's Cathedral: The Origins of the Digital Universe)