Advances In Computer Technology Quotes

I doubt that pornography has been good for the advancement of society, but I suspect it’s done wonders for the advancement of computer technology.

Now comes the second machine age. Computers and other digital advances are doing for mental power—the ability to use our brains to understand and shape our environments—what the steam engine and its descendants did for muscle power.

The value we provide at Mayflower-Plymouth exists at the convergence of various technologies and studies including Blockchain, cryptography, quantum computing, permaculture design principles, artificial intelligence, stigmergy, forestry, economics, additive manufacturing, big data, advanced logistics and more.

The value we provide at Mayflower exists at the convergence of various new technologies and studies including Blockchain, cryptography, quantum computing, artificial intelligence, stigmergy, additive manufacturing, big data, advanced logistics and more.

I was even beginning to wonder if the invention of a worldwide social network was actually the “Great Filter” that theoretically caused all technological civilizations to go extinct, instead of nuclear weapons or climate change. Maybe every time an intelligent species grew advanced enough to invent a global computer network, they would then develop some form of social media, which would immediately fill these beings with such an intense hatred for one another that they ended up wiping themselves out within four or five decades. Only time would tell.

Many of today’s foremost Russian mobsters have Ph.D.’s in mathematics, engineering, or physics, helping them to acquire an expertise in advanced encryption and computer technology.

What have the breathtaking advances in communications technology done for the human mind? Beats me. SAT scores among the top tenth of high-school students in the United States, that fraction who are prime candidates for higher education in any period, are lower today than they were in the early 1960s. Believe, if you wish, that computers and the Internet in the classroom will change all that, but I assure you, it is sheer Digibabble.

the brain is limited, lacks bottomless capacity, and isn’t particularly fast relative to computer technology. The technological advances defined by laws of Moore and Metcalfe got married and long since overtook what our brains can handle. And we know now that their union also presents the challenge of addiction, or, at least, serious compulsion. Even allowing for the fact that we can know these devices challenge our limitations, sometimes they are so compelling we can’t stop using them.

All of our advanced technology—cell phones, the internet, computers—is based on quantum mechanics. It works. Yet no one understands how it can be true or why it works. At the subatomic level, on the quantum level, nothing is certain, reality is tenuous.

I found an entry for the Beidr, of the Unon Plane, an aggressive and enterprising people with highly advanced material technologies, who have been in trouble more than once with the Interplanary Agency for interfering on other planes. The tourist guidebook gives them the symbols that mean “of special interest to engineers, computer programmers, and systems analysts.”)

This is echoed by King-scott (1996, 295), who warns that unless technology-related issues are integrated into translator-training programmes, there is a real danger that the university teaching of translation may become so remote from practice that it will be marginalized and consequently be widely perceived as irrelevant to the translation task. Tha gap between technological advances and pedagogical practices must be closed.

Historians are wont to name technological advances as the great milestones of culture, among them the development of the plow, the discovery of smelting and metalworking, the invention of the clock, printing press, steam power, electric engine, lightbulb, semiconductor, and computer. But possibly even more transforming than any of these was the recognition by Greek philosophers and their intellectual descendants that human beings could examine, comprehend, and eventually even guide or control their own thought process, emotions, and resulting behavior. With that realization we became something new and different on earth: the only animal that, by examining its own cerebration and behavior, could alter them. This, surely, was a giant step in evolution. Although we are physically little different from the people of three thousand years ago, we are culturally a different species. We are the psychologizing animal.

The world has been changing even faster as people, devices and information are increasingly connected to each other. Computational power is growing and quantum computing is quickly being realised. This will revolutionise artificial intelligence with exponentially faster speeds. It will advance encryption. Quantum computers will change everything, even human biology. There is already one technique to edit DNA precisely, called CRISPR. The basis of this genome-editing technology is a bacterial defence system. It can accurately target and edit stretches of genetic code. The best intention of genetic manipulation is that modifying genes would allow scientists to treat genetic causes of disease by correcting gene mutations. There are, however, less noble possibilities for manipulating DNA. How far we can go with genetic engineering will become an increasingly urgent question. We can’t see the possibilities of curing motor neurone diseases—like my ALS—without also glimpsing its dangers. Intelligence is characterised as the ability to adapt to change. Human intelligence is the result of generations of natural selection of those with the ability to adapt to changed circumstances. We must not fear change. We need to make it work to our advantage. We all have a role to play in making sure that we, and the next generation, have not just the opportunity but the determination to engage fully with the study of science at an early level, so that we can go on to fulfil our potential and create a better world for the whole human race. We need to take learning beyond a theoretical discussion of how AI should be and to make sure we plan for how it can be. We all have the potential to push the boundaries of what is accepted, or expected, and to think big. We stand on the threshold of a brave new world. It is an exciting, if precarious, place to be, and we are the pioneers. When we invented fire, we messed up repeatedly, then invented the fire extinguisher. With more powerful technologies such as nuclear weapons, synthetic biology and strong artificial intelligence, we should instead plan ahead and aim to get things right the first time, because it may be the only chance we will get. Our future is a race between the growing power of our technology and the wisdom with which we use it. Let’s make sure that wisdom wins.

In the medium term, AI may automate our jobs, to bring both great prosperity and equality. Looking further ahead, there are no fundamental limits to what can be achieved. There is no physical law precluding particles from being organised in ways that perform even more advanced computations than the arrangements of particles in human brains. An explosive transition is possible, although it may play out differently than in the movies. As mathematician Irving Good realised in 1965, machines with superhuman intelligence could repeatedly improve their design even further, in what science-fiction writer Vernor Vinge called a technological singularity. One can imagine such technology outsmarting financial markets, out-inventing human researchers, out-manipulating human leaders and potentially subduing us with weapons we cannot even understand. Whereas the short-term impact of AI depends on who controls it, the long-term impact depends on whether it can be controlled at all.

around the turn of the century. I was even beginning to wonder if the invention of a worldwide social network was actually the “Great Filter” that theoretically caused all technological civilizations to go extinct, instead of nuclear weapons or climate change. Maybe every time an intelligent species grew advanced enough to invent a global computer network, they would then develop some form of social media, which would immediately fill these beings with such an intense hatred for one another that they ended up wiping themselves out within four or five decades.

One day in September 2015, FBI agent Adrian Hawkins placed a call to the Democratic National Committee headquarters in Washington, D.C., and asked to speak to the person in charge of technology. He was routed to the DNC help desk, which transferred the call to Yared Tamene, a young IT specialist with The MIS Department, a consulting firm hired by the DNC. After identifying himself, Hawkins told Tamene that he had reason to believe that at least one computer on the DNC’s network was compromised. He asked if the DNC was aware of this and what it was doing. Tamene had nothing to do with cybersecurity and knew little about the subject. He was a mid-level network administrator; his basic IT duties for the DNC were to set up computer accounts for employees and be on call to deal with any problems. When he got the call, Tamene was wary. Was this a joke or, worse, a dirty trick? He asked Hawkins if he could prove he was an FBI agent, and, as Tamene later wrote in a memo, “he did not provide me with an adequate response.… At this point, I had no way of differentiating the call I received from a prank call.” Hawkins, though, was real. He was a well-regarded agent in the FBI’s cyber squad. And he was following a legitimate lead in a case that would come to affect a presidential election. Earlier in the year, U.S. cyber warriors intercepted a target list of about thirty U.S. government agencies, think tanks, and several political organizations designated for cyberattacks by a group of hackers known as APT 29. APT stood for Advanced Persistent Threat—technojargon for a sophisticated set of actors who penetrate networks, insert viruses, and extract data over prolonged periods of time.

Human beings were never meant to participate in a worldwide social network comprised of billions of people. We were designed by evolution to be hunter-gatherers, with the mental capacity to interact and socialize with the other members of our tribe—a tribe made up of a few hundred other people at most. Interacting with thousands or even millions of other people on a daily basis was way too much for our ape-descended melons to handle. That was why social media had been gradually driving the entire population of the world insane since it emerged back around the turn of the century. I was even beginning to wonder if the invention of a worldwide social network was actually the “Great Filter” that theoretically caused all technological civilizations to go extinct, instead of nuclear weapons or climate change. Maybe every time an intelligent species grew advanced enough to invent a global computer network, they would then develop some form of social media, which would immediately fill these beings with such an intense hatred for one another that they ended up wiping themselves out within four or five decades. Only time would tell.

Artificial Intelligence, deep learning, natural language processing, computer vision, and other related characteristics: super-computing, eventually quantum-computing, and nano and bio technologies; advanced big-data analytics; and other emerging technologies are beginning to offer an entirely new way of war, and at command speeds hitherto unimaginable. The revolution in sensor and command and control technologies is matched and enabled by developments in long-range, hypersonic “intelligent” weaponry and new swarms of killing machines allied to a range of directed-energy weapons. Such a potentially revolutionary change in the character and conduct of war must necessarily impose entirely new ways of defense.

Given the central place that technology holds in our lives, it is astonishing that technology companies have not put more resources into fixing this global problem. Advanced computer systems and artificial intelligence (AI) could play a much bigger role in shaping diagnosis and prescription. While the up-front costs of using such technology may be sizeable, the long-term benefits to the health-care system need to be factored into value assessments. We believe that AI platforms could improve on the empirical prescription approach. Physicians work long hours under stressful conditions and have to keep up to date on the latest medical research. To make this work more manageable, the health-care system encourages doctors to specialize. However, the vast majority of antibiotics are prescribed either by generalists (e.g., general practitioners or emergency physicians) or by specialists in fields other than infectious disease, largely because of the need to treat infections quickly. An AI system can process far more information than a single human, and, even more important, it can remember everything with perfect accuracy. Such a system could theoretically enable a generalist doctor to be as effective as, or even superior to, a specialist at prescribing. The system would guide doctors and patients to different treatment options, assigning each a probability of success based on real-world data. The physician could then consider which treatment was most appropriate.

Transhumanism is Terrorism (The Sonnet) Intelligence comes easy, accountability not so much, Yet intelligence is complex, accountability is simple. Technology comes easy, transformation not so much, Yet technology is complicated, transformation is simple. In olden days there were just nutters of fundamentalism, Today there are nutters of nationalism and transhumanism. Some are obsessed with land, others with digital avatars, While humanity battles age-old crises like starvationism. When too much logic, coldness and pomposity set in, Common sense humanity goes out of the window. Once upon a time religion was the opium of all people, Today transhumanism and singularity are opium of the shallow. To replace the sky god with a computer god isn't advancement. Real advancement is when nobody suffers from scarcity of sustenance.

It is one thing to explain the causal origins of thinking, as science commendably does; it is an entirely different thing to conflate thinking in its formal or rule-governed dimension with its evolutionary genesis. Being conditioned is not the same as being constituted. Such a conflation not only sophistically elides the distinction between the substantive and the formal, it also falls victim to a dogmatic metaphysics that is impulsively blind to its own epistemological and methodological bases qua origins. It is this genetic fallacy that sanctions the demotion of general intelligence as qualitatively distinct to a mere quantitative account of intelligent behaviours prevalent in nature. It should not come as a any surprise that this is exactly the jaded gesture of antihumanism upon whose shoddy pillars today's discourse of posthumanism supports its case. Talk of thinking forests, rocks, worn shoes, and ethereal beings goes hand in hand with the cult of technological singularity, musings on Skynet or the Market as speculative posthuman intelligence, and computers endowed with intellectual intuition. And again, by now it should have become obvious that, despite the seeming antagonism between these two camps - one promoting the so-called egalitarianism of going beyond human conditions by dispensing with the rational resources of critique, the other advancing the speculative aspects of posthuman supremacy on the grounds of the technological overcoming of the human condition - they both in fact belong to the arsenal of today's neoliberal capitalism in its full-on assault on any account of intelligence that may remotely insinuate an ambition for collective rationality and imagination.

The Soviets were not 50% right, they were entirely wrong. They weren’t quantitatively wrong about the amount of variance due to the environment, they were qualitatively wrong about what environmental manipulations could do in the face of built-in universal human machinery. Having said this, though, I now feel no particular impulse to vote Republican. Also, it’s quite possible that someday you could create perfectly unselfish people… if you used sufficiently advanced neurosurgery, drugs, and/or brain-computer interfaces to engineer their brains into a new state that no current human brain occupies. Whether or not this is in fact possible isn’t something that ideology gets to decide. The reasoning errors of past communists can’t prohibit any particular future technological advance from being possible or practical. Having said that, I feel no particular impulse to turn “liberal.

Theta programming, Phillips said, "involved the surgical implantation of sodium/lithium powered high frequency receiver/transducers coupled to a multi-range discharge capacitor that , when signaled by remote control would electronically stimulate designated parts of the brain to signal the victim to respond according to his or her hypnotic program. "These "Delgado" experiments were only partially successful," Phillips said, "with a high mortality and paralysis rate. However, the technical mind control equipment evolution has advanced to levels well beyond the grasp of most people. Non-implanted, non-programmed victims will hold the largest majority since, in the 1990's breakthroughs were made which allow mind control without either implant or trauma base". The new Theta programming," Phillips said, "operates by computer driven satellite directed energy. Now, anybody can become a target of the new technology.

Human beings were never meant to participate in a worldwide social network comprised of billions of people. We were designed by evolution to be hunter-gatherers, with the mental capacity to interact and socialize with the other members of our tribe—a tribe made up of a few hundred other people at most. Interacting with thousands or even millions of other people on a daily basis was way too much for our ape-descended melons to handle. That was why social media had been gradually driving the entire population of the world insane since it emerged back around the turn of the century. I was even beginning to wonder if the invention of a worldwide social network was actually the “Great Filter” that theoretically caused all technological civilizations to go extinct, instead of nuclear weapons or climate change. Maybe every time an intelligent species grew advanced enough to invent a global computer network, they would then develop some form of social media, which would immediately fill these beings with such an intense hatred for one another that they ended up wiping themselves out within four or five decades.

It’s true that in the 1950s many women felt they had to choose between children and career—and for good reason. Birth control was not a surefire thing, for one thing. And technology hadn’t advanced enough to offer women the gift of time. The reason modern women have a better shot at “having it all” isn’t because feminists made it happen. Life simply changed. Technological advances, along with The Pill, did more for the work/family conflict than ten boatloads of feminists could ever hope to do. The effects of The Pill are obvious: safe, reliable birth control means those who want smaller families can have them. And fewer children means more time for women to focus on other things they want to do. The effects of technology are also obvious: they made life at home less taxing. Laborsaving devices, the mechanization of housework, and the tech boom—via electricity, the sewing machine, the frozen food process, the automobile, the washing machine and dryer, the dishwasher, the vacuum cleaner, computers, and the Internet—allowed women, generation by generation, to turn their attention away from the home and onto the marketplace.

I’d finally gained enough distance from my addiction to realize something. Human beings were never meant to participate in a worldwide social network comprised of billions of people. We were designed by evolution to be hunter-gatherers, with the mental capacity to interact and socialize with the other members of our tribe—a tribe made up of a few hundred other people at most. Interacting with thousands or even millions of other people on a daily basis was way too much for our ape-descended melons to handle. That was why social media had been gradually driving the entire population of the world insane since it emerged back around the turn of the century. I was even beginning to wonder if the invention of a worldwide social network was actually the “Great Filter” that theoretically caused all technological civilizations to go extinct, instead of nuclear weapons or climate change. Maybe every time an intelligent species grew advanced enough to invent a global computer network, they would then develop some form of social media, which would immediately fill these beings with such an intense hatred for one another that they ended up wiping themselves out within four or five decades.

Globalization has shipped products at a faster rate than anything else; it’s moved English into schools all over the world so that now there is Dutch English and Filipino English and Japanese English. But the ideologies stay in their places. They do not spread like the swine flu, or through sexual contact. They spread through books and films and things of that nature. The dictatorships of Latin America used to ban books, they used to burn them, just like Franco did, like Pope Gregory IX and Emperor Qin Shi Huang. Now they don’t have to because the best place to hide ideologies is in books. The dictatorships are mostly gone—Brazil, Argentina, Uruguay. The military juntas. Our ideologies are not secrets. Even the Ku Klux Klan holds open meetings in Alabama like a church. None of the Communists are still in jail. You can buy Mao’s red book at the gift shop at the Museum of Communism. I will die soon, in the next five to ten years. I have not seen progress during my lifetime. Our lives are too short and disposable. If we had longer life expectancies, if we lived to 200, would we work harder to preserve life or, do you think that when Borges said, ‘Jews, Christians, and Muslims all profess belief in immortality, but the veneration paid to the first century of life is proof that they truly believe in only those hundred years, for they destine all the rest, throughout eternity, to rewarding or punishing what one did when alive,’ we would simply alter it to say ‘first two centuries’? I have heard people say we are living in a golden age, but the golden age has passed—I’ve seen it in the churches all over Latin America where the gold is like glue. The Middle Ages are called the Dark Ages but only because they are forgotten, because the past is shrouded in darkness, because as we lay one century of life on top of the next, everything that has come before seems old and dark—technological advances provide the illusion of progress. The most horrendous tortures carried out in the past are still carried out today, only today the soldiers don’t meet face to face, no one is drawn and quartered, they take a pill and silently hope a heart attack doesn’t strike them first. We are living in the age of dissociation, speaking a government-patented language of innocence—technology is neither good nor evil, neither progress nor regress, but the more advanced it becomes, the more we will define this era as the one of transparent secrets, of people living in a world of open, agile knowledge, oceans unpoliced—all blank faces, blank minds, blank computers, filled with our native programming, using electronic appliances with enough memory to store everything ever written invented at precisely the same moment we no longer have the desire to read a word of it.

Gadgetry will continue to relieve mankind of tedious jobs. Kitchen units will be devised that will prepare ‘automeals,’ heating water and converting it to coffee; toasting bread; frying, poaching or scrambling eggs, grilling bacon, and so on. Breakfasts will be ‘ordered’ the night before to be ready by a specified hour the next morning. Communications will become sight-sound and you will see as well as hear the person you telephone. The screen can be used not only to see the people you call but also for studying documents and photographs and reading passages from books. Synchronous satellites, hovering in space will make it possible for you to direct-dial any spot on earth, including the weather stations in Antarctica. [M]en will continue to withdraw from nature in order to create an environment that will suit them better. By 2014, electroluminescent panels will be in common use. Ceilings and walls will glow softly, and in a variety of colors that will change at the touch of a push button. Robots will neither be common nor very good in 2014, but they will be in existence. The appliances of 2014 will have no electric cords, of course, for they will be powered by long- lived batteries running on radioisotopes. “[H]ighways … in the more advanced sections of the world will have passed their peak in 2014; there will be increasing emphasis on transportation that makes the least possible contact with the surface. There will be aircraft, of course, but even ground travel will increasingly take to the air a foot or two off the ground. [V]ehicles with ‘Robot-brains’ … can be set for particular destinations … that will then proceed there without interference by the slow reflexes of a human driver. [W]all screens will have replaced the ordinary set; but transparent cubes will be making their appearance in which three-dimensional viewing will be possible. [T]he world population will be 6,500,000,000 and the population of the United States will be 350,000,000. All earth will be a single choked Manhattan by A.D. 2450 and society will collapse long before that! There will, therefore, be a worldwide propaganda drive in favor of birth control by rational and humane methods and, by 2014, it will undoubtedly have taken serious effect. Ordinary agriculture will keep up with great difficulty and there will be ‘farms’ turning to the more efficient micro-organisms. Processed yeast and algae products will be available in a variety of flavors. The world of A.D. 2014 will have few routine jobs that cannot be done better by some machine than by any human being. Mankind will therefore have become largely a race of machine tenders. Schools will have to be oriented in this direction…. All the high-school students will be taught the fundamentals of computer technology will become proficient in binary arithmetic and will be trained to perfection in the use of the computer languages that will have developed out of those like the contemporary “Fortran". [M]ankind will suffer badly from the disease of boredom, a disease spreading more widely each year and growing in intensity. This will have serious mental, emotional and sociological consequences, and I dare say that psychiatry will be far and away the most important medical specialty in 2014. [T]he most glorious single word in the vocabulary will have become work! in our a society of enforced leisure.

A famous British writer is revealed to be the author of an obscure mystery novel. An immigrant is granted asylum when authorities verify he wrote anonymous articles critical of his home country. And a man is convicted of murder when he’s connected to messages painted at the crime scene. The common element in these seemingly disparate cases is “forensic linguistics”—an investigative technique that helps experts determine authorship by identifying quirks in a writer’s style. Advances in computer technology can now parse text with ever-finer accuracy. Consider the recent outing of Harry Potter author J.K. Rowling as the writer of The Cuckoo’s Calling , a crime novel she published under the pen name Robert Galbraith. England’s Sunday Times , responding to an anonymous tip that Rowling was the book’s real author, hired Duquesne University’s Patrick Juola to analyze the text of Cuckoo , using software that he had spent over a decade refining. One of Juola’s tests examined sequences of adjacent words, while another zoomed in on sequences of characters; a third test tallied the most common words, while a fourth examined the author’s preference for long or short words. Juola wound up with a linguistic fingerprint—hard data on the author’s stylistic quirks. He then ran the same tests on four other books: The Casual Vacancy , Rowling’s first post-Harry Potter novel, plus three stylistically similar crime novels by other female writers. Juola concluded that Rowling was the most likely author of The Cuckoo’s Calling , since she was the only one whose writing style showed up as the closest or second-closest match in each of the tests. After consulting an Oxford linguist and receiving a concurring opinion, the newspaper confronted Rowling, who confessed. Juola completed his analysis in about half an hour. By contrast, in the early 1960s, it had taken a team of two statisticians—using what was then a state-of-the-art, high-speed computer at MIT—three years to complete a project to reveal who wrote 12 unsigned Federalist Papers. Robert Leonard, who heads the forensic linguistics program at Hofstra University, has also made a career out of determining authorship. Certified to serve as an expert witness in 13 states, he has presented evidence in cases such as that of Christopher Coleman, who was arrested in 2009 for murdering his family in Waterloo, Illinois. Leonard testified that Coleman’s writing style matched threats spray-painted at his family’s home (photo, left). Coleman was convicted and is serving a life sentence. Since forensic linguists deal in probabilities, not certainties, it is all the more essential to further refine this field of study, experts say. “There have been cases where it was my impression that the evidence on which people were freed or convicted was iffy in one way or another,” says Edward Finegan, president of the International Association of Forensic Linguists. Vanderbilt law professor Edward Cheng, an expert on the reliability of forensic evidence, says that linguistic analysis is best used when only a handful of people could have written a given text. As forensic linguistics continues to make headlines, criminals may realize the importance of choosing their words carefully. And some worry that software also can be used to obscure distinctive written styles. “Anything that you can identify to analyze,” says Juola, “I can identify and try to hide.

The sponge or active charcoal inside a filter is three-dimensional. Their adsorbent surfaces, however, are two-dimensional. Thus, you can see how a tiny high-dimensional structure can contain a huge low-dimensional structure. But at the macroscopic level, this is about the limit of the ability for high-dimensional space to contain low-dimensional space. Because God was stingy, during the big bang He only provided the macroscopic world with three spatial dimensions, plus the dimension of time. But this doesn’t mean that higher dimensions don’t exist. Up to seven additional dimensions are locked within the micro scale, or, more precisely, within the quantum realm. And added to the four dimensions at the macro scale, fundamental particles exist within an eleven-dimensional space-time.” “So what?” “I just want to point out this fact: In the universe, an important mark of a civilization’s technological advancement is its ability to control and make use of micro dimensions. Making use of fundamental particles without taking advantage of the micro dimensions is something that our naked, hairy ancestors already began back when they lit bonfires within caves. Controlling chemical reactions is just manipulating micro particles without regard to the micro dimensions. Of course, this control also progressed from crude to advanced: from bonfires to steam engines, and then generators. Now, the ability for humans to manipulate micro particles at the macro level has reached a peak: We have computers and nanomaterials. But all of that is accomplished without unlocking the many micro dimensions. From the perspective of a more advanced civilization in the universe, bonfires and computers and nanomaterials are not fundamentally different. They all belong to the same level. That’s also why they still think of humans as mere bugs. Unfortunately, I think they’re right.

Lucid Motors was started under the name Atieva (which stood for “advanced technologies in electric vehicle applications” and was pronounced “ah-tee-va”) in Mountain View in 2008 (or December 31, 2007, to be precise) by Bernard Tse, who was a vice president at Tesla before it launched the Roadster. Hong Kong–born Tse had studied engineering at the University of Illinois, where he met his wife, Grace. In the early 1980s, the couple had started a computer manufacturing company called Wyse, which at its peak in the early 1990s registered sales of more than $480 million a year. Tse joined Tesla’s board of directors in 2003 at the request of his close friend Martin Eberhard, the company’s original CEO, who sought Tse’s expertise in engineering, manufacturing, and supply chain. Tse would eventually step off the board to lead a division called the Tesla Energy Group. The group planned to make electric power trains for other manufacturers, who needed them for their electric car programs. Tse, who didn’t respond to my requests to be interviewed, left Tesla around the time of Eberhard’s departure and decided to start Atieva, his own electric car company. Atieva’s plan was to start by focusing on the power train, with the aim of eventually producing a car. The company pitched itself to investors as a power train supplier and won deals to power some city buses in China, through which it could further develop and improve its technology. Within a few years, the company had raised about $40 million, much of it from the Silicon Valley–based venture capital firm Venrock, and employed thirty people, mostly power train engineers, in the United States, as well as the same number of factory workers in Asia. By 2014, it was ready to start work on a sedan, which it planned to sell in the United States and China. That year, it raised about $200 million from Chinese investors, according to sources close to the company.

Globalization has shipped products at a faster rate than anything else; it’s moved English into schools all over the world so that now there is Dutch English and Filipino English and Japanese English. But the ideologies stay in their places. They do not spread like the swine flu, or through sexual contact. They spread through books and films and things of that nature. The dictatorships of Latin America used to ban books, they used to burn them, just like Franco did, like Pope Gregory IX and Emperor Qin Shi Huang. Now they don’t have to because the best place to hide ideologies is in books. The dictatorships are mostly gone—Brazil, Argentina, Uruguay. The military juntas. Our ideologies are not secrets. Even the Ku Klux Klan holds open meetings in Alabama like a church. None of the Communists are still in jail. You can buy Mao’s red book at the gift shop at the Museum of Communism. I will die soon, in the next five to ten years. I have not seen progress during my lifetime. Our lives are too short and disposable. If we had longer life expectancies, if we lived to 200, would we work harder to preserve life or, do you think that when Borges said, ‘Jews, Christians, and Muslims all profess belief in immortality, but the veneration paid to the first century of life is proof that they truly believe in only those hundred years, for they destine all the rest, throughout eternity, to rewarding or punishing what one did when alive,’ we would simply alter it to say ‘first two centuries’? I have heard people say we are living in a golden age, but the golden age has passed—I’ve seen it in the churches all over Latin America where the gold is like glue. The Middle Ages are called the Dark Ages but only because they are forgotten, because the past is shrouded in darkness, because as we lay one century of life on top of the next, everything that has come before seems old and dark—technological advances provide the illusion of progress. The most horrendous tortures carried out in the past are still carried out today, only today the soldiers don’t meet face to face, no one is drawn and quartered, they take a pill and silently hope a heart attack doesn’t strike them first. We are living in the age of dissociation, speaking a government-patented language of innocence—technology is neither good nor evil, neither progress nor regress, but the more advanced it becomes, the more we will define this era as the one of transparent secrets, of people living in a world of open, agile knowledge, oceans unpoliced—all blank faces, blank minds, blank computers, filled with our native programming, using electronic appliances with enough memory to store everything ever written invented at precisely the same moment we no longer have the desire to read a word of it.” ― John M. Keller, Abracadabrantesque

me to be honest about his failings as well as his strengths. She is one of the smartest and most grounded people I have ever met. “There are parts of his life and personality that are extremely messy, and that’s the truth,” she told me early on. “You shouldn’t whitewash it. He’s good at spin, but he also has a remarkable story, and I’d like to see that it’s all told truthfully.” I leave it to the reader to assess whether I have succeeded in this mission. I’m sure there are players in this drama who will remember some of the events differently or think that I sometimes got trapped in Jobs’s distortion field. As happened when I wrote a book about Henry Kissinger, which in some ways was good preparation for this project, I found that people had such strong positive and negative emotions about Jobs that the Rashomon effect was often evident. But I’ve done the best I can to balance conflicting accounts fairly and be transparent about the sources I used. This is a book about the roller-coaster life and searingly intense personality of a creative entrepreneur whose passion for perfection and ferocious drive revolutionized six industries: personal computers, animated movies, music, phones, tablet computing, and digital publishing. You might even add a seventh, retail stores, which Jobs did not quite revolutionize but did reimagine. In addition, he opened the way for a new market for digital content based on apps rather than just websites. Along the way he produced not only transforming products but also, on his second try, a lasting company, endowed with his DNA, that is filled with creative designers and daredevil engineers who could carry forward his vision. In August 2011, right before he stepped down as CEO, the enterprise he started in his parents’ garage became the world’s most valuable company. This is also, I hope, a book about innovation. At a time when the United States is seeking ways to sustain its innovative edge, and when societies around the world are trying to build creative digital-age economies, Jobs stands as the ultimate icon of inventiveness, imagination, and sustained innovation. He knew that the best way to create value in the twenty-first century was to connect creativity with technology, so he built a company where leaps of the imagination were combined with remarkable feats of engineering. He and his colleagues at Apple were able to think differently: They developed not merely modest product advances based on focus groups, but whole new devices and services that consumers did not yet know they needed. He was not a model boss or human being, tidily packaged for emulation. Driven by demons, he could drive those around him to fury and despair. But his personality and passions and products were all interrelated, just as Apple’s hardware and software tended to be, as if part of an integrated system. His tale is thus both instructive and cautionary, filled with lessons about innovation, character, leadership, and values.

A key characteristic of the engineering culture is that the individual engineer’s commitment is to technical challenge rather than to a given company. There is no intrinsic loyalty to an employer as such. An employer is good only for providing the sandbox in which to play. If there is no challenge or if resources fail to be provided, the engineer will seek employment elsewhere. In the engineering culture, people, organization, and bureaucracy are constraints to be overcome. In the ideal organization everything is automated so that people cannot screw it up. There is a joke that says it all. A plant is being managed by one man and one dog. It is the job of the man to feed the dog, and it is the job of the dog to keep the man from touching the equipment. Or, as two Boeing engineers were overheard to say during a landing at Seattle, “What a waste it is to have those people in the cockpit when the plane could land itself perfectly well.” Just as there is no loyalty to an employer, there is no loyalty to the customer. As we will see later, if trade-offs had to be made between building the next generation of “fun” computers and meeting the needs of “dumb” customers who wanted turnkey products, the engineers at DEC always opted for technological advancement and paid attention only to those customers who provided a technical challenge.

We often act as if we know so much more than those who came before us simply because we have computers, advanced medicine, and the other benefits of the technological revolution. The truth of the matter, however, is that although we might have a greater quantity of known facts at our disposal, we are often sorely lacking in the wisdom of the faithful people of God throughout the generations. Let us seek to learn from those who came before us.

The developing redefinition of higher education should provide benefits that will continue for decades into the future. We will have to adapt as information technology advances. At the same time, we must continually re-evaluate what is inherently different between human and computer learning, and what is practical and useful to students for the long haul. And we will have to face the reality that the “art of living in the world” requires at least some elements of a business education.

SMART (social, mobile, aware, and real time) technologies and other advances, such as cloud computing infrastructure, will enable much of health care to be moved out of hospitals, clinics, and doctors’ offices and into our everyday lives.

Lazesoft Recover home addition: In this inter connected world of information and communication technology.  It is a must that we need to use different email address and passwords associated to those accounts separately. We give a lot of time and attention to manage them all. Because they are the easiest way to communication these days. Nowadays its very common that most of us do have more than one email address in order to use them indifferent purposes. You cannot use the same password so that all the accounts might not get hacked at the same time. That’s an important and not easy task to handle for many of us. In case of it comes to computers with Windows 8 operating system, we have to use different user accounts like Administrator account, guest account, and so on. So, here is also a race for memorizing the passwords associated to all those accounts. Occasionally, we face the problem accessing into our own personal user account and we cannot afford reinstalling the operating system in fear of losing all of our valuable data stored on behalf of that account. If you still can remember the Administrator account’s password then you have the option to reset the other accounts password through the Administrator account. But if the case is not the one we are expecting, I mean you have forgotten the administrative account’s password, and then the Lazesoft Recover home addition software is there to help you get rid of this unwanted problem. Here I am telling you step by step how to do that: Step 1: Download and burn the CD into your USB flash drive or thumb drive from   another computer. Step 2: Insert the flash drive into the target computer and restart the computer. Step 3: up on restart you will see a dialogue box in DOS window. From there, select Mini windows XP and press Enter key. Step 4: After the live CD boots into windows XP, then open the DB CD menu desktop item. Then go into programs menu bar, then select password and keys and then click on windows log on. After that click on NTPW edit. Step 5: you will see a new dialogue box from there you need to locate the path of SAM file. The SAM file will show all the user account available into the computer and from there you need to the account of which you want to reset the password. Step 6: Once you clicked on the account name a dialogue window will open up saying set your password. You can do two things there, a) you can leave the fields blank, therefore the windows will load directly or b) you can set a new password for the account. And then click on the save changes button. Step 7: exit the program and reboot the system removing the USB flash drive. And the windows will boot directly to the windows desktop. Windows password rescuer advance: The password rescuer advance is also a similar type of software for recovering you windows password. It also requires using a USB flash drive. At first you need to purchase and download the software from the internet page

physical sharing and exchange of computer tapes and disks on which the code was recorded. In current Internet days, rapid technological advances in computer hardware and software and networking technologies have made it much easier to create and sustain a communal development style on ever-larger scales. Also, implementing new projects is becoming progressively easier as effective project design becomes better understood, and as prepackaged infrastructural support for such projects becomes available on the Web. Today, an open source software development project is typically initiated by an individual or a small group seeking a solution to an individual's or a firm's need. Raymond (1999, p. 32) suggests that "every good work of software starts by scratching a developer's personal itch" and that "too often software developers spend their days grinding away for pay at programs they neither need nor love. But not in the (open source) world...." A project's initiators also generally become the project's "owners" or "maintainers" who take on responsibility for project management." Early on, this individual or group generally develops a first, rough version of the code that outlines the functionality envisioned. The source code for this initial version is then made freely available to all via downloading from an Internet website established by the project. The project founders also set up infrastructure for the project that those interested in using or further developing the code can use to seek help, provide information or provide new open source code for others to discuss and test. In the case of projects that are successful in attracting interest, others do download and use and "play with" the code-and some of these do go on to create new and modified code. Most then post what they have done on the project website for use and critique by any who are interested. New and modified code that is deemed to be of sufficient quality and of general interest by the project maintainers is then added to the authorized version of the code. In many projects the privilege of adding to the authorized code is restricted to only a few trusted developers. These few then serve as gatekeepers for code written by contributors who do not have such access (von Krogh and Spaeth 2002). Critical tools and infrastructure available to open source software project participants includes email lists for specialized purposes that are open to all. Thus, there is a list where code users can report software failures ("bugs") that they encounter during field use of the software. There is also a list where those developing the code can share ideas about what would be good next steps for the project, good features to add, etc. All of these lists are open to all and are also publicly archived,

He intends only his own gain, and he is in this, as in many other cases, led by an invisible hand to promote an end which was no part of his intention. —Adam Smith, Wealth of Nations Any sufficiently advanced technology is indistinguishable from magic.

Worldwide, the prospects of the fast-advancing quantum computing (r)evolution, will challenge the pre-quantum way of conducting scientific and industrial development by making digital transformation of societies, organizations, and financial markets fundamentally different. Beyond the commercial research and development made possible by global corporations; universities; scientific communities; research laboratories… the nation states, we could presume, are interested the most in practical application of quantum technologies.

What does True Wireless Earbuds Mean Where are my earphones? Ahh!! There they are….and they are tangled (with irksome scream inside your head). There is nothing more frustrating than going on a search operation for your headphones and finally finding them entangled. Well thanks to the advance technology these days one of your daily struggles is gone with the arrival of wireless earphones in the market. No wire means no entanglement. ‘Kill the problem before it kills you’, you know the saying. Right! So what actually truly wireless earbuds are? Why should you replace your old headphones and invest in wireless ones? Without any further delay let’s dig deep into it. image WHAT ARE TRUE WIRELESS EARBUDS? A lot of people misunderstand true wireless earbuds and wireless earphones as the same thing. When it’s not. A true wireless earbuds which solely connects through Bluetooth and not through any wire or cord or through any other source. While wireless earphones are the ones which are connected through Bluetooth to audio source but the connection between the two ear plugs is established through a cable between them. Why true wireless earbuds? Usability: Who doesn’t like freedom! With no wire restrictions, it’s easier to workout without sacrificing your music motivation. From those super stretch yoga asanas to marathon running, from weight training to cycling - you actually can do all those without worrying about your phone safety or the dilemma of where to put them. With no wire and smooth distance connection interface, you have the full freedom of your body movement. They also comes with a charging case so you don’t have to worry about it’s battery. Good audio quality and background noise cancellation: With features like active noise cancellation, which declutter the unwanted background voice giving you the ultimate audio quality. These earbuds has just leveled up the experience of music and prevents you from getting distracted. Comfort and design: These small ear buddies are friendly which snuggles into your ear canal and don’t put too much pressure on your delicate ears as they are light weight. They are style statement maker and are comfortable to use even when you are on move, they stick to your ear and don’t fall off easily. Apart from all that you can easily answer your call on go, pause your music or whatever you are listening, switch to next by just touching your earplugs. image Convenience: You don’t necessarily have to have your phone on you like the wired ones. The farthest distance you could go was the length of the cable. But with wireless ones this is not the case, they could transmit sound waves from 8 meter upto 30 meters varying from model to model. Which allows you multi-task and make your household chores interesting. You can enjoy your podcasts or music or follow the recipe while cooking in your kitchen when your phone is lying in your living room. Voice assistance: How fascinating was it to watch all those detective/ secret agent thriller movies while they are on run and getting directions from their computer savvy buddies. Ethan Hunt from Mission Impossible….. Remember! Many wireless earphones comes with voice assistance feature which makes it easy to go around the places you are new to. You don’t have to stop and look to your phone screen for directions which makes it easier to move either on foot or while driving. Few things for you to keep in mind and compare before investing in a true wireless earphones :- Sound Quality Battery Life Wireless Range Comfort and design Warranty Price Gone are those days when true wireless earbuds were expensive possession. They are quite economical now and are available with various features depending upon different brands in your price range.

I’ll show you how this simple habit is the first step in a system I’ve developed called Building a Second Brain, which draws on recent advancements in the field of PKM—or personal knowledge management.I In the same way that personal computers revolutionized our relationship with technology, personal finance changed how we manage our money, and personal productivity reshaped how we work, personal knowledge management helps us harness the full potential of what we know. While innovations in technology and a new generation of powerful apps have created new opportunities for our times, the lessons you will find within these pages are built on timeless and unchanging principles.

But traveling faster than light would require infinite energy; it is possible on paper, not in practice. More recently, physicists have theorized other ways that physical travel into the past could be achieved, but they are still exotic and expensive. A technological civilization thousands or more years in advance of our own, one able to harness the energy of its whole galaxy, could create a wormhole linking different points in the fabric of spacetime and send a spaceship through it.8 It is an idea explored widely in science fiction and depicted vividly in Christopher Nolan’s 2014 film Interstellar. But all this is academic for our purposes. For Gleick, what we are really talking about with time travel is a thought experiment about the experiencer—the passenger—in a novel, disjointed relationship to the external world. We can readily perform feats of “mental time travel,” or at least simulate such feats, as well as experience a dissociation between our internal subjective sense of time and the flux of things around us and even our own bodies.9 According to Gleick, part of what suddenly facilitated four-dimensional thinking in both popular writing and the sciences was the changing experience of time in an accelerating society. The Victorian age, with its steam engines and bewildering pace of urban living, increased these experiences of dissociation, and they have only intensified since then. Time travel, Gleick argues, is basically just a metaphor for modernity, and a nifty premise upon which to base literary and cinematic fantasies that repair modernity’s traumas. It also shines a light on how confused we all are about time. The most commonly voiced objection to time travel—and with it, precognition—is that any interaction between the future and past would change the past, and thus create a different future. The familiar term is the grandfather paradox: You can’t go back in time and kill your grandfather because then you wouldn’t have been born to go back in time and kill your grandfather (leaving aside for the moment the assumed inevitability of wanting to kill your grandfather, which is an odd assumption). The technical term for meddling in the past this way is “bilking,” on the analogy of failing to pay a promised debt.10 Whatever you call it, it is the kind of thing that, in Star Trek, would make the Enterprise’s computer start to stutter and smoke and go haywire—the same reaction, in fact, that greets scientific claims of precognition. (As Dean Radin puts it, laboratory precognition results like those cited in the past two chapters “cause faces to turn red and sputtering noises to be issued from upset lips.”11) Information somehow sent backward in time from an event cannot lead to a future that no longer includes that event—and we naturally intuit that it would be very hard not to have such an effect if we meddled in the timeline. Our very presence in the past would change things.

As a computer scientist, I make a living helping to advance the cutting edge of the digital world. Like many in my field, I’m enthralled by the possibilities of our techno-future. But I’m also convinced that we cannot unlock this potential until we put in the effort required to take control of our own digital lives—to confidently decide for ourselves what tools we want to use, for what reasons, and under what conditions. This isn't reactionary, it’s common sense.

For many years, video games gave him a person and a place to be, as well as things to do. But an event happens to a pair of eyes after enough hours before a computer screen—they will scan the display and mid-game, shatter. Consoles crack men. It’s massacre. Andrei would thumb plastic so often that his mind would flee reality, as well as the virtual world he was in, and enter a dimension of empty euphoria. But one euphoric day he felt games were a sophisticated way to keep a pig in its own corner. The videogames advanced to become more realistic—but one must not be fooled by decorations. The detail-rich galaxies he found himself investing his life in were in fact the same galaxy as Pacman or Tetris: 1s and 0s.

A typical chip might be designed with blueprints from the Japanese-owned, UK-based company called Arm, by a team of engineers in California and Israel, using design software from the United States. When a design is complete, it’s sent to a facility in Taiwan, which buys ultra-pure silicon wafers and specialized gases from Japan. The design is carved into silicon using some of the world’s most precise machinery, which can etch, deposit, and measure layers of materials a few atoms thick. These tools are produced primarily by five companies, one Dutch, one Japanese, and three Californian, without which advanced chips are basically impossible to make. Then the chip is packaged and tested, often in Southeast Asia, before being sent to China for assembly into a phone or computer.

The Apple Ad to IBM when the IBM computer launched. Welcome to the most exciting and important marketplace since the computer revolution began 35 years ago. Read the opening sentence of Apple's Ad. Putting real computer power in the hands of the individual is already improving the way people work, think, learn, communicate, and spend their leisure hours. Ove the course of the next decade the growth of the personal computer will continue in algorithmic leaps. We look forward to responsible competition in the massive effort to distribute this American technology to the world. And we appreciate the magnitude of your commitment, because what we are doing is increasing social capital by enhancing individual productivity. Apple signed the letter to their new rival with the words, Welcome to the task. Apple was trying to advance a just cause and IBM was going to help them. IBM accepted the challenge.

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Scientists and engineers tend to divide their work into two large categories, sometimes described as basic research and directed research. Some of the most crucial inventions and discoveries of the modern world have come about through basic research—that is, work that was not directed toward any particular use. Albert Einstein’s picture of the universe, Alexander Fleming’s discovery of penicillin, Niels Bohr’s blueprint of the atomic nucleus, the Watson-Crick “double helix” model of DNA—all these have had enormous practical implications, but they all came out of basic research. There are just as many basic tools of modern life—the electric light, the telephone, vitamin pills, the Internet—that resulted from a clearly focused effort to solve a particular problem. In a sense, this distinction between basic and directed research encompasses the difference between science and engineering. Scientists, on the whole, are driven by the thirst for knowledge; their motivation, as the Nobel laureate Richard Feynman put it, is “the joy of finding things out.” Engineers, in contrast, are solution-driven. Their joy is making things work. The monolithic idea was an engineering solution. It worked around the tyranny of numbers by reducing the numbers to one: a complete circuit would consist of just one part—a single (“monolithic”) block of semiconductor material containing all the components and all the interconnections of the most complex circuit designs. The tangible product of that idea, known to engineers as the monolithic integrated circuit and to the world at large as the semiconductor chip, has changed the world as fundamentally as did the telephone, the light bulb, and the horseless carriage. The integrated circuit is the heart of clocks, computers, cameras, and calculators, of pacemakers and Palm Pilots, of deep-space probes and deep-sea sensors, of toasters, typewriters, cell phones, and Internet servers. The National Academy of Sciences declared the integrated circuit the progenitor of the “Second Industrial Revolution.” The first Industrial Revolution enhanced man’s physical prowess and freed people from the drudgery of backbreaking manual labor; the revolution spawned by the chip enhances our intellectual prowess and frees people from the drudgery of mind-numbing computational labor. A British physicist, Sir Ieuan Madlock, Her Majesty’s Chief Science Advisor, called the integrated circuit “the most remarkable technology ever to hit mankind.” A California businessman, Jerry Sanders, founder of Advanced Micro Devices, Inc., offered a more pointed assessment: “Integrated circuits are the crude oil of the eighties.” All

the U.S. barred Huawei from buying advanced computer chips made with U.S. technology. Soon, the company’s global expansion ground to a halt.

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Despite the advantages offered by advances in technology, computers, DNA, serology, and arson science—and the reevaluation of such standard tools as fingerprints and ballistic analysis—there remains no substitution for good gumshoe detective work and investigative analysis.

As technology advances with jet like speed and the world is talking of Artificial Intelligence, Nano Technology, Quantum Computing and 5G, we are busy rewarding regurgitating of facts and dates and our definition of genius is based on remembering facts and dates.

I built my first circuit board, when I was eleven, without all the fancy resources available to the children in the west. But anybody can build a circuit, that's no biggie. Build a circuit that empowers a society - that my friend, is called humanitarian technology. And that’s the kind of technology this world desperately needs.

This book is a compilation of interesting ideas that have strongly influenced my thoughts and I want to share them in a compressed form. That ideas can change your worldview and bring inspiration and the excitement of discovering something new. The emphasis is not on the technology because it is constantly changing. It is much more difficult to change the accompanying circumstances that affect the way technological solutions are realized. The chef did not invent salt, pepper and other spices. He just chooses good ingredients and uses them skilfully, so others can enjoy his art. If I’ve been successful, the book creates a new perspective for which the selection of ingredients is important, as well as the way they are smoothly and efficiently arranged together. In the first part of the book, we follow the natural flow needed to create the stimulating environment necessary for the survival of a modern company. It begins with challenges that corporations are facing, changes they are, more or less successfully, trying to make, and the culture they are trying to establish. After that, we discuss how to be creative, as well as what to look for in the innovation process. The book continues with a chapter that talks about importance of inclusion and purpose. This idea of inclusion – across ages, genders, geographies, cultures, sexual orientation, and all the other areas in which new ways of thinking can manifest – is essential for solving new problems as well as integral in finding new solutions to old problems. Purpose motivates people for reaching their full potential. This is The second and third parts of the book describes the areas that are important to support what is expressed in the first part. A flexible organization is based on IT alignment with business strategy. As a result of acceleration in the rate of innovation and technological changes, markets evolve rapidly, products’ life cycles get shorter and innovation becomes the main source of competitive advantage. Business Process Management (BPM) goes from task-based automation, to process-based automation, so automating a number of tasks in a process, and then to functional automation across multiple processes andeven moves towards automation at the business ecosystem level. Analytics brought us information and insight; AI turns that insight into superhuman knowledge and real-time action, unleashing new business models, new ways to build, dream, and experience the world, and new geniuses to advance humanity faster than ever before. Companies and industries are transforming our everyday experiences and the services we depend upon, from self-driving cars, to healthcare, to personal assistants. It is a central tenet for the disruptive changes of the 4th Industrial Revolution; a revolution that will likely challenge our ideas about what it means to be a human and just might be more transformative than any other industrial revolution we have seen yet. Another important disruptor is the blockchain - a distributed decentralized digital ledger of transactions with the promise of liberating information and making the economy more democratic. You no longer need to trust anyone but an algorithm. It brings reliability, transparency, and security to all manner of data exchanges: financial transactions, contractual and legal agreements, changes of ownership, and certifications. A quantum computer can simulate efficiently any physical process that occurs in Nature. Potential (long-term) applications include pharmaceuticals, solar power collection, efficient power transmission, catalysts for nitrogen fixation, carbon capture, etc. Perhaps we can build quantum algorithms for improving computational tasks within artificial intelligence, including sub-fields like machine learning. Perhaps a quantum deep learning network can be trained more efficiently, e.g. using a smaller training set. This is still in conceptual research domain.

the Millennium Project, founded after a three-year feasibility study with the United Nations University, Smithsonian Institution, and the Futures Group International, where synthetic biologists affirm that “as computer code is written to create software to augment human capabilities, so too genetic code will be written to create life forms to augment civilization.”[24] Furthermore, as biotech, infotech, nanotech, and cognotech breakthroughs quickly migrate with appropriate synergies to create widespread man-machine adaptation within society, a “global collective intelligence system [hive supermind] will be needed to track all these science and technology advances,” the report goes on to say.

is well known that increases in computer power and speed have been exponential. But exponential growth sneaks up on you in a way that isn’t intuitive. Start with a penny and double your money every day, and in thirty-nine days you’ll have over two billion dollars. But the first day your wealth only increases by a single penny, an amount that’s beneath notice. On the thirty-ninth day, however, your wealth will increase from one billion to two billion dollars—now that is a change impossible to miss. So like a hockey stick, the graph of exponential growth barely rises from the ground for some time, but when it reaches the beginning of the handle, watch out, because you suddenly get an explosive rise that is nearly vertical. It’s becoming crystal clear that we are entering the hockey-stick phase of progress with computers and other technologies. Yes, progress in artificial intelligence has been discouraging. But if we don’t self-destruct, does anyone imagine that we won’t develop computers within a few hundred years that will make the most advanced supercomputers of today seem like a toddler counting on his or her fingers? Does anyone doubt that at some point a computer could get so powerful it could direct its own future evolution? And given the speed at which such evolution would occur, does anyone doubt that a computer could become self-aware within the next few centuries? Visionaries like Ray Kurzweil believe this will happen well within this century, but even the most conservative among us must admit the likelihood that by the time the USS Enterprise pulls out of space dock, either our computers will have evolved into gods and obsoleted us, or, more likely, we will have merged with our technology to reach almost god-like heights of intelligence ourselves. And while this bodes well for these far-future beings, it isn’t so great for today’s science fiction writers.

While AI technology has reached important levels of performances in narrow settings, the missing part concerns exactly the study of how to create artificial companions (embodied and disembodied) able to integrate different skills in order to help humans in their everyday activities. Similarly, computational cognitive science is interested in individuating how the brain and the mind works as integrated systems. This renewed convergence is, in my view, a necessity driven by the fact that modern and future AI and CogSci research will be again disciplines interested in the same topic: namely the discovery of the mechanisms enabling multitasking intelligence. In order to advance the scientific knowledge in their respective field, in fact, they need to evolve and become sciences (of the artificial) studying the mysteries of "integrated intelligence". Time seems mature for a renewed collaboration.

Because any line out is also a line in. The government could use it to access our computers.” “That’s not true,” I argued. “It is! That’s how SPYDER accesses the government’s computers.” This bit of news was disturbing to me, but not exactly a surprise. SPYDER was a subversive and technologically advanced organization. Frankly, it would have been more startling to hear that they hadn’t accessed the government’s computers.

Aren’t fears of disappearing jobs something that people claim periodically, like with both the agricultural and industrial revolution, and it’s always wrong?” It’s true that agriculture went from 40 percent of the workforce in 1900 to 2 percent in 2017 and we nonetheless managed to both grow more food and create many wondrous new jobs during that time. It’s also true that service-sector jobs multiplied in many unforeseen ways and absorbed most of the workforce after the Industrial Revolution. People sounded the alarm of automation destroying jobs in the 19th century—the Luddites destroying textile mills in England being the most famous—as well as in the 1920s and the 1960s, and they’ve always been wildly off the mark. Betting against new jobs has been completely ill-founded at every point in the past. So why is this time different? Essentially, the technology in question is more diverse and being implemented more broadly over a larger number of economic sectors at a faster pace than during any previous time. The advent of big farms, tractors, factories, assembly lines, and personal computers, while each a very big deal for the labor market, were orders of magnitude less revolutionary than advancements like artificial intelligence, machine learning, self-driving vehicles, advanced robotics, smartphones, drones, 3D printing, virtual and augmented reality, the Internet of things, genomics, digital currencies, and nanotechnology. These changes affect a multitude of industries that each employ millions of people. The speed, breadth, impact, and nature of the changes are considerably more dramatic than anything that has come before.

1. As the Industrial Revolution proceeded, modern society created for itself a self-congratulatory myth, the myth of “progress”: From the time of our remote, ape-like ancestors, human history had been an unremitting march toward a better and brighter future, with everyone joyously welcoming each new technological advance: animal husbandry, agriculture, the wheel, the construction of cities, the invention of writing and of money, sailing ships, the compass, gunpowder, the printing press, the steam engine, and, at last, the crowning human achievement—modern industrial society! Prior to industrialization, nearly everyone was condemned to a miserable life of constant, backbreaking labor, malnutrition, disease, and an early death. Aren’t we so lucky that we live in modern times and have lots of leisure and an array of technological conveniences to make our lives easy? Today I think there are relatively few thoughtful, honest and well-informed people who still believe in this myth. To lose one’s faith in “progress” one has only to look around and see the devastation of our environment, the spread of nuclear weapons, the excessive frequency of depression, anxiety disorders and psychological stress, the spiritual emptiness of a society that nourishes itself principally with television and computer games…one could go on and on.

MORAL AND QUESTIONS: The speculative public is incorrigible. In financial terms it cannot count beyond 3. It will buy anything, at any price, if there seems to be some “action” in progress. It will fall for any company identified with “franchising,” computers, electronics, science, technology, or what have you, when the particular fashion is raging. Our readers, sensible investors all, are of course above such foolishness. But questions remain: Should not responsible investment houses be honor-bound to refrain from identifying themselves with such enterprises, nine out of ten of which may be foredoomed to ultimate failure? (This was actually the situation when the author entered Wall Street in 1914. By comparison it would seem that the ethical standards of the “Street” have fallen rather than advanced in the ensuing 57 years, despite all the reforms and all the controls.) Could and should the SEC be given other powers to protect the public, beyond the present ones which are limited to requiring the printing of all important relevant facts in the offering prospectus? Should some kind of box score for public offerings of various types be compiled and published in conspicuous fashion? Should every prospectus, and perhaps every confirmation of sale under an original offering, carry some kind of formal warranty that the offering price for the issue is not substantially out of line with the ruling prices for issues of the same general type already established in the market? As we write this edition a movement toward reform of Wall Street abuses is under way. It will be difficult to impose worthwhile changes in the field of new offerings, because the abuses are so largely the result of the public’s own heedlessness and greed. But the matter deserves long and careful consideration.

Deep work is not some nostalgic affectation of writers and early-twentieth-century philosophers. It’s instead a skill that has great value today. There are two reasons for this value. The first has to do with learning. We have an information economy that’s dependent on complex systems that change rapidly. Some of the computer languages Benn learned, for example, didn’t exist ten years ago and will likely be outdated ten years from now. Similarly, someone coming up in the field of marketing in the 1990s probably had no idea that today they’d need to master digital analytics. To remain valuable in our economy, therefore, you must master the art of quickly learning complicated things. This task requires deep work. If you don’t cultivate this ability, you’re likely to fall behind as technology advances.

Description As one of the high level programming languages, Python is considered a vital feature for data structuring and code readability. Developers need to learn python 1 ,2 & 3 to qualify as experts. It is object-oriented and taps the potential of dynamic semantics. As a scripting format it reduces the costs of maintenance and lesser coding lines due to syntax assembly. Job responsibilities Writing server side applications is one of the dedicated duties of expected from a skilled worker in this field. If you enjoy working backend, then this is an ideal job for you. It involves: · Connecting 3rd party apps · Integrating them with python · Implement low latency apps · Interchange of data between users and servers · Knowledge of front side technologies · Security and data protection and storage Requisites to learn There are several training courses for beginners and advanced sessions for experienced workers. But you need to choose a really good coaching center to get the skills. DVS Technologies is an enabled Python Training in Bangalore is considered as one of the best in India. You will need to be acquainted with: · Integrated management/ development environment to study · A website or coaching institute to gather the knowledge · Install a python on your computer · Code every day to master the process · Become interactive Course details/benefits First select a good Python Training institute in Bangalore which has reputed tutors to help you to grasp the language and scripting process. There are several courses and if you are beginner then you will need to opt for the basic course. Then move on to the next advanced level to gain expertise in the full python stack. As you follow best practices, it will help you to get challenging projects. Key features of certification course and modules · Introduction to (Python) programming · Industry relevant content · Analyze data · Experiment with different techniques · Data Structures Web data access with python · Using database with this program DVS Technology USP: · Hands-on expert instructors: 24-hour training · Self-study videos · Real time project execution · Certification and placements · Flexible schedules · Support and access · Corporate training

Dylan Patel, a skilled computer engineer hailing from Jellico, has set his sights on revolutionizing the automotive industry. With personal life goals centered around programming vehicles for a leading car company, Dylan is driven by his passion for technological advancements.

We can see now that information is what our world runs on: the blood and the fuel, the vital principle. It pervades the sciences from top to bottom, transforming every branch of knowledge. Information theory began as a bridge from mathematics to electrical engineering and from there to computing. What English speakers call “computer science” Europeans have known as informatique, informatica, and Informatik. Now even biology has become an information science, a subject of messages, instructions, and code. Genes encapsulate information and enable procedures for reading it in and writing it out. Life spreads by networking. The body itself is an information processor. Memory resides not just in brains but in every cell. No wonder genetics bloomed along with information theory. DNA is the quintessential information molecule, the most advanced message processor at the cellular level—an alphabet and a code, 6 billion bits to form a human being. “What lies at the heart of every living thing is not a fire, not warm breath, not a ‘spark of life,’ ” declares the evolutionary theorist Richard Dawkins. “It is information, words, instructions.… If you want to understand life, don’t think about vibrant, throbbing gels and oozes, think about information technology.” The cells of an organism are nodes in a richly interwoven communications network, transmitting and receiving, coding and decoding. Evolution itself embodies an ongoing exchange of information between organism and environment.

there are significant advances on the horizon, such as the graphics-processor unit, which uses parallel computing to create massive increases in performance, not only for graphics, but also for neural networks, which constitute the architecture of the human brain.

To replace the sky god with a computer god isn't advancement. Real advancement is when nobody suffers from scarcity of sustenance.

If our cognitive skills are what separate us from animals, our character skills are what elevate us above machines. Computers and robots can now build cars, fly planes, fight wars, manage money, represent defendants in court, diagnose cancer, and perform cardiac surgery. As more and more cognitive skills get automated, we’re in the midst of a character revolution. With technological advances placing a premium on interactions and relationships, the skills that make us human are increasingly important to master.

Women turn up at the beginning of every important wave in technology. We're not ancillary; we're central, often hiding in plain sight. Some of the most wondrous contributions . . . .bloomed in the grubby medians of the information superhighway. Before a new field developed its authorities, and long before there was money to be made, women experimented with new technologies and pushed them beyond their design. Again and again, women did the jobs nobody thought were important, until they were. Even computer programming was initially passed off onto the girls hired to patch cables and nothing more - until the cables became patterns, and the patterns became language, and suddenly programming was something worth mastering.

The advance of computerization and automation technologies has meant that many medium-skilled jobs—clerks, travel agents, bookkeepers, and factory workers—have been replaced with new technologies. New jobs have arisen in their place, but those jobs are often one of two types: either they are high-skilled jobs, such as engineers, programmers, managers, and designers, or they are lower-skilled jobs such as retail workers, cleaners, or customer service agents. Exacerbating the trends caused by computers and robots are globalization and regionalization. As medium-skilled technical work is outsourced to workers in developing nations, many of those jobs are disappearing at home. Lower-skilled jobs, which often require face-to-face contact or social knowledge in the form of cultural or language abilities, are likely to remain. Higher-skilled work is also more resistant to shipping overseas because of the benefits of coordination with management and the market. Think of Apple’s tagline on all of its iPhones: “Designed in California. Made in China.” Design and management stay; manufacturing goes.

...there is no certainty that as scientific progress accelerates and leisure increases, and as the world shrinks on our computer and television screens, there is any corresponding advance in wisdom or morality, much less radical improvement in innate human nature.

The advances in computing power that Perry’s vision required seemed like science fiction to many critics, who assumed guided missile technology would improve slowly because tanks and planes changed slowly, too. Exponential increases, which Moore’s Law dictated, are rarely seen and hard to comprehend. However, Perry wasn’t alone in predicting a “ten to a hundredfold” improvement. Intel was promising the very same thing to its customers. Perry grumbled that his congressional critics were “Luddites,” who simply didn’t understand how rapidly chips were changing.

Isaac Asimov’s short story “The Fun They Had” describes a school of the future that uses advanced technology to revolutionize the educational experience, enhancing individualized learning and providing students with personalized instruction and robot teachers. Such science fiction has gone on to inspire very real innovation. In a 1984 Newsweek interview, Apple’s co-founder Steve Jobs predicted computers were going to be a bicycle for our minds, extending our capabilities, knowledge, and creativity, much the way a ten-speed amplifies our physical abilities. For decades, we have been fascinated by the idea that we can use computers to help educate people. What connects these science fiction narratives is that they all imagined computers might eventually emulate what we view as intelligence. Real-life researchers have been working for more than sixty years to make this AI vision a reality. In 1962, the checkers master Robert Nealey played the game against an IBM 7094 computer, and the computer beat him. A few years prior, in 1957, the psychologist Frank Rosenblatt created Perceptron, the first artificial neural network, a computer simulation of a collection of neurons and synapses trained to perform certain tasks. In the decades following such innovations in early AI, we had the computation power to tackle systems only as complex as the brain of an earthworm or insect. We also had limited techniques and data to train these networks. The technology has come a long way in the ensuing decades, driving some of the most common products and apps today, from the recommendation engines on movie streaming services to voice-controlled personal assistants such as Siri and Alexa. AI has gotten so good at mimicking human behavior that oftentimes we cannot distinguish between human and machine responses. Meanwhile, not only has the computation power developed enough to tackle systems approaching the complexity of the human brain, but there have been significant breakthroughs in structuring and training these neural networks.

Gise had deep experience in the way the government worked and was privy to some of the most advanced and secretive technology of his day. During those summers on the ranch, Bezos says that his grandfather would tell him stories about the missile defense systems he worked on during the Cold War with the Soviet Union. That made a deep impression on the young Bezos. Today, among the Silicon Valley titans, he is one of the most pro-government CEOs. Amazon’s cloud computing business has won multibillion-dollar contracts from the Pentagon and the CIA. The significance of that business to Amazon is one reason why, in 2018, Bezos put his new second headquarters in northern Virginia, near Washington, D.C., and why he paid $23 million for an old textile museum in D.C.’s swish Kalorama area—his neighbors are the Obamas and Jared Kushner and Ivanka Trump

We expect the cybereconomy to evolve through several stages. 1. The most primitive manifestations of the Information Age involve the Net simply as an information medium to facilitate what are otherwise ordinary industrial-era transactions. At this point, the Net is no more than an exotic delivery system for catalogues. Virtual Vineyards, for example, one of the first cybermerchants, simply sells wine from a page on the World Wide Web. Such transactions are not yet directly subversive of the old institutions. They employ industrial currency, and take place within identifiable jurisdictions. These uses of the Internet have little such megapolitical impact. 2. An intermediate stage of Internet commerce will employ information technology in ways that would have been impossible in the industrial era, such as in long-distance accounting or medical diagnosis. More examples of these new applications of advanced computational power are spelled out below. The second stage of Net commerce will still function within the old institutional framework, employing national currencies and submitting to the jurisdiction of nation-states. The merchants who employ the Net for sales will not yet employ it to bank their profits, only to earn revenues. These profits made on Internet transactions will still be subject to taxation. 3. A more advanced stage will mark the transition to true cybercommerce. Not only will transactions occur over the Net, but they will migrate outside the jurisdiction of nation-states. Payment will be rendered in cybercurrency. Profits will be booked in cyberbanks. Investments will be made in cyberbrokerages. Many transactions will not be subject to taxation. At this stage, cybercommerce will begin to have significant megapolitical consequences of the kind we have already outlined. The powers of governments over traditional areas of the economy will be transformed by the new logic of the Net. Extraterritorial regulatory power will collapse. Jurisdictions will devolve. The structure of firms will change, and so will the nature of work and employment.

There’s no better case study showing how connectivity and computing power will turn old products into digitized machines than Tesla, Elon Musk’s auto company. Tesla’s cult following and soaring stock price have attracted plenty of attention, but what’s less noticed is that Tesla is also a leading chip designer. The company hired star semiconductor designers like Jim Keller to build a chip specialized for its automated driving needs, which is fabricated using leading-edge technology. As early as 2014, some analysts were noting that Tesla cars “resemble a smartphone.” The company has been often compared to Apple, which also designs its own semiconductors. Like Apple’s products, Tesla’s finely tuned user experience and its seemingly effortless integration of advanced computing into a twentieth-century product—a car—are only possible because of custom-designed chips. Cars have incorporated simple chips since the 1970s. However, the spread of electric vehicles, which require specialized semiconductors to manage the power supply, coupled with increased demand for autonomous driving features foretells that the number and cost of chips in a typical car will increase substantially.

To compare the rate of progress of the biological evolution of intelligence to that of technological evolution, consider that the most advanced mammals have added about one cubic inch of brain matter every hundred thousand years, whereas we are roughly doubling the computational capacity of computers every year

Science will provide the material basis for a spiritually mature technologically advanced civilisation, it will achieve its higher spiritual purpose of evolving all of humanity. No other spiritual, mystical or religious institution has ever been able to do this and never will.

Corporate interests raised a nearly unified voice heralding automation as a certain and universal beneficial advancement. However, some observers saw the new technology as a cause for concern and cautioned that the final word on automation would depend on the choices that industry and the nation made in the face of difficult questions regarding the pace of automation’s implementation, the uses of the new productivity, and the fate of displaced workers as well as depleted or eliminated job classifications, communities, and even industries. Norbert Wiener, for example, a prominent MIT mathematician and pioneer in the science of cybernetics, emphasized the potentially calamitous economic and social consequences of the new production technology. Wiener had begun to express concerns about the impacts of automation on labor and the entire society during World War II, and he authored two books in the immediate Cold War years warning that potentially disastrous unemployment and related social problems may come from industry’s drive toward automation. He characterized automation and computer controls in the production process as the “modern” or “second” industrial revolution, which even more than the first held “unbounded possibilities for good and evil.” 104 In particular, Wiener feared that the larger impact of the changes caused by automation would be a massive displacement of workers, compounded by the profit-driven indifference of industry. “The automatic machine … will produce an unemployment situation, in comparison with which the present recession and even the depression of the thirties will seem a pleasant joke.” 105

Thus have computational improvements in weather forecasting delivered a body blow to an industry as seemingly immune to technology advances as Buenos Aires car wash operators.

The creation groans from all the pain and sorrow that surrounds us. We have a strong sense that life is not the way it’s supposed to be.[4] We cry out at injustices, rail against inequalities, long for things to get fixed. The long march for racial, gender, and economic equality is an ongoing struggle. Progress is rare. When it comes to electronics, the advances seem to arrive on a regular basis. Every holiday season, we’re greeted by upgrades, by a new network from 3G to 4G to 5G. Products make progress seem easy and inevitable. The hard work of design and engineering is hidden. Yet, even the latest, greatest technology breaks down. Unfortunately, we don’t know how to fix our gadgets. The mechanics that drive our devices often defy our comprehension. We toss out our old computers and cell phones, and we embrace the new and improved. Replacing isn’t the same as redeeming.

Though it has become a naturalized part of music-making since the first one was built in 1710, the pianoforte (its name means “soft-loud”) was a technical marvel for its time, a machine that changed music in ways that are hard to imagine. Computer pioneer Alan Kay once observed that any technological advance is “technology only for people who are born before it was invented,” and in the case of the piano, this applies to no one alive today. Seymour Papert, the MIT researcher, concluded, “That’s why we don’t argue about whether the piano is corrupting music with technology.

technological progress has even led to what's being called the Race to Zero in cloud computing, where technological advances and increasing competition are driving down cloud processing and storage prices.

urban computing is about to tackle cities’ challenges by using big data and advanced computing technology,

Isabella Di Fabio - Completing this program can lead to a better understanding of HTML, CSS, JavaScript and other programming languages. With increasing experience as a web developer, he can acquire knowledge in web development, web design and web engineering as well as other aspects of programming. Strictly speaking, HTML and CSS are not programming languages, but a web designer who knows them can create a website with a large amount of content and a high level of user experience. Web Developer, on the other hand, takes web page design and actually makes it a functioning website. He writes the pages using HTML or CSS and uses a combination of HTML, CSS, JavaScript and other programming languages to bring the design files to life. If he works for a small business, he has to write the content of the page himself. There are a lot of web developers looking for advanced and specialized knowledge, as well as those who are already familiar with the computer technology of the industry but want to shift their focus to web development. Isabella Secret Story - Depending on the subject, web developers can be web developers in a number of different fields such as web design, programming, HTML5, CSS, JavaScript, etc.

Every machine has artificial intelligence. And the more advanced a machine gets, the more advanced artificial intelligence gets as well. But, a machine cannot feel what it is doing. It only follows instructions - our instructions - instructions of the humans. So, artificial intelligence will not destroy the world. Our irresponsibility will destroy the world.

Thus in his 2009 Encyclopedia of Schizophrenia, the historian and clinical psychologist Richard Noll lamented “the tragic years of psychoanalysis” before declaring that “it took major advances in medical technology, specifically the computer revolution and the rise of new techniques in neuroimaging, genetics research, and psychopharmacology to swing the pendulum back to Kraepelin’s search for the biological causes of the psychotic disorders.

In a technologically advanced world, the most powerful nation is not the one with nuclear power, but the one with coding power.

Humanizing AI (The Sonnet) You can code tasks, But not consciousness. You can code phony feelings, But definitely not sentience. Nobody can bring a machine to life, No matter how complex you make it. But once a machine is complex enough, It might develop awareness by accident. So let us focus on humanizing AI, By removing biases from algorithms, Rather than dehumanizing AI, By aiming for a future without humans. Rich kids with rich dreams make good movies. Be human first and use AI to equalize communities.

SSDs are noticeably faster than traditional hard drives, as they use more advanced controllers, some use faster data transfer technology, and they don’t house moving parts, hence the name- SOLID state drive.

In the past decade, the historically consistent division in the United States between the share of total national income going to labor and that going to physical capital seems to have changed significantly. As the economists Susan Fleck, John Glaser, and Shawn Sprague noted in the U.S. Bureau of Labor Statistics’ Monthly Labor Review in 2011, “Labor share averaged 64.3 percent from 1947 to 2000. Labor share has declined over the past decade, falling to its lowest point in the third quarter of 2010, 57.8 percent.” Recent moves to “re-shore” production from overseas, including Apple’s decision to produce its new Mac Pro computer in Texas, will do little to reverse this trend. For in order to be economically viable, these new domestic manufacturing facilities will need to be highly automated. Other countries are witnessing similar trends. The economists Loukas Karabarbounis and Brent Neiman have documented significant declines in labor’s share of GDP in 42 of the 59 countries they studied, including China, India, and Mexico. In describing their findings, Karabarbounis and Neiman are explicit that progress in digital technologies is an important driver of this phenomenon: “The decrease in the relative price of investment goods, often attributed to advances in information technology and the computer age, induced firms to shift away from labor and toward capital. The lower price of investment goods explains roughly half of the observed decline in the labor share.

Our ability to arrange atoms lies at the foundation of technology. We have come far in our atom arranging, from chipping flint for arrowheads to machining aluminum for spaceships. We take pride in our technology, with our lifesaving drugs and desktop computers. Yet our spacecraft are still crude, our computers are still stupid, and the molecules in our tissues still slide into disorder, first destroying health, then life itself. For all our advances in arranging atoms, we still use primitive methods. With our present technology, we are still forced to handle atoms in unruly herds. But the laws of nature leave plenty of room for progress, and the pressures of world competition are even now pushing us forward. For better or for worse, the greatest technological breakthrough in history is still to come. —ERIC DREXLER, ENGINES OF CREATION:THE COMING ERA OF NANOTECHNOLOGY, 1986

Now comes the second machine age. Computers and other digital advances are doing for mental power—the ability to use our brains to understand and shape our environments—what the steam engine and its descendants did for muscle power. They’re

It wasn’t until five years after the first 360 hardware was introduced in 1964 that all of its software ran well. By then, IBM had spent nearly as much writing the software as designing the hardware. This astonished the company’s managers and vividly highlighted “the greatest impediment to advances in computer technology,” the problem of managing large software projects. At

In the one hundred thirty years since Petrie published his seminal studies of the pyramids and temples of Egypt, the hand tools and building and sculpting tools used by men and women have improved exponentially in capability and efficiency and hard drives are better known as integral devices in a computer. Yet we are taught that during the three thousand years that the ancient Egyptians flourished on this planet, the tools used by men and women did not change. How could this be? The finely crafted and precise boxes inside the pyramids at Giza were supposedly created in the fourth dinasty, 2500 BCE, or forty-five hundred years ago. The finely crafted and precise boxes inside the rock tunnels of the Serapeum were supposedly created in the eighteenth dynasty, 1550-1200 BCE, or thirty-five hundred years ago. We are asked to believe that in a one-thousand-year span, the ancient Egyptians did not make any significant improvement in their tools and methods for cutting hard igneous rock. We, however, have examined the results of their labor, and it is clear that the Egyptians were not stupid people. In fact, they were geniuses in their accomplishments, yet we are to accept that while they tapped into the awesome power of the human spirit and creativity, they did not ask, over the course of a full millennium, how they could do their job better--how they could demand less pain and strain from their workforce, how they could do more with less effort, how they could reduce injuries and provide workers with more time off. If there is any mystery to ancient Egypt, it is why a paradigm that was established one hundred thirty years ago still holds force among many Egyptologists and archaeologists.

fourth epoch, driven by technological advances such as cognitive computing. Whereas the previous eras developed efficiencies in an established process, the technologies available or in development today enable us fundamentally to rethink the process. Rather than simply replicating the established methods of managing wealth, they offer an opportunity to augment these in new ways. We are at a point where advances in computing power and lower computing costs enable us to apply artificial intelligence, machine learning, natural language processing, neural networks and a host of other tools to everyday tasks. The opportunities for wealth management are genuinely epoch-making.

Conversely, with sufficiently advanced scanning technology and abundant computing power, it might be possible to brute-force and emulation even with a fairly limited understanding of the brain.

Sometimes I have used Kindle eBook reading device and it’s best due to specially Amazon Kindle eBook reader is compatible with Word Wise Enabled, Screen Reader Supported (as like VoiceView, VoiceOver, TalkBack, NVDA, ALT text), Enhanced Typesetting Enabled which is faster reading with less eye strain with beautiful page layout visibility, Page Flip Enabled, Text to Speech and others modern or advanced technological facilities inbuilt. But most of times I use my smart phone and computer as well to eReading at online & offline.