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Stanford University , officially Leland Stanford Junior University ,   is a private research university in Stanford, California. The campus occupies 8, acres 3, hectares , among the largest in the United States, and enrolls over 17, students. The school admitted its first students on October 1, ,   as a coeducational and non-denominational institution. Stanford University struggled financially after the death of Leland Stanford in and again after much of the campus was damaged by the San Francisco earthquake.
The university is organized around seven schools on the same campus: three schools consisting of 40 academic departments at the undergraduate level as well as four professional schools that focus on graduate programs in law, medicine, education, and business. The university also houses the public policy think tank, the Hoover Institution.
As of April , 85 Nobel laureates , 29 Turing Award laureates, [note 1] and eight Fields Medalists have been affiliated with Stanford as students, alumni, faculty, or staff. President Herbert Hoover , 74 living billionaires, and 17 astronauts.
The institution opened in on Stanford\’s previous Palo Alto farm. Jane and Leland Stanford modeled their university after the great eastern universities, most specifically Cornell University in Ithaca, New York. Stanford was referred to as the \”Cornell of the West\” in due to a majority of its faculty being former Cornell affiliates professors, alumni, or both , including its first president, David Starr Jordan , and second president, John Casper Branner.
Both Cornell and Stanford were among the first to make higher education accessible, non-sectarian, and open to women as well as men. Cornell is credited as one of the first American universities to adopt that radical departure from traditional education, and Stanford became an early adopter as well. From an architectural point of view, the Stanfords, particularly Jane, wanted their university to look different from the eastern ones, which had often sought to emulate the style of English university buildings.
They specified in the founding grant  that the buildings should \”be like the old adobe houses of the early Spanish days; they will be one-storied; they will have deep window seats and open fireplaces, and the roofs will be covered with the familiar dark red tiles\”. This guides the campus buildings to this day. The Stanfords also hired renowned landscape architect Frederick Law Olmsted , who previously designed the Cornell campus, to design the Stanford campus.
When Leland Stanford died in , the continued existence of the university was in jeopardy due to a federal lawsuit against his estate, but Jane Stanford insisted the university remain in operation throughout the financial crisis. During the early 20th century, the university added four professional graduate schools. Stanford University School of Medicine was established in when the university acquired Cooper Medical College in San Francisco;  it moved to the Stanford campus in In the s and s, engineering professor and later provost Frederick Terman encouraged Stanford engineering graduates to invent products and start their own companies.
The next year eight of his employees resigned and formed a competing company, Fairchild Semiconductor. The presence of so many high-tech and semiconductor firms helped to establish Stanford and the mid- Peninsula as a hotbed of innovation, eventually named Silicon Valley after the key ingredient in transistors.
Stanford in the s rose from a regional university to one of the most prestigious in the United States, \”when it appeared on lists of the \”top ten\” universities in America… This swift rise to performance [was] understood at the time as related directly to the university\’s defense contracts…\” .
In the following decades however controversies would damage the reputation of the school. The Stanford prison experiment was criticized as unethical,  and the misuse of government funds from resulted in severe penalties to the school\’s research funding   and the resignation of Stanford President Donald Kennedy in Most of Stanford is on an 8,acre Stanford\’s main campus includes a census-designated place within unincorporated Santa Clara County , although some of the university land such as the Stanford Shopping Center and the Stanford Research Park is within the city limits of Palo Alto.
The central campus includes a seasonal lake Lake Lagunita , actually an irrigation reservoir , home to the vulnerable California tiger salamander. As of Lake Lagunita was often dry and the university had no plans to artificially fill it. It lies within area code Many Stanford faculty members live in the \”Faculty Ghetto,\” within walking or biking distance of campus.
Similar to a condominium , the houses can be bought and sold but the land under the houses is rented on a year lease. Houses in the \”Ghetto\” appreciate and depreciate, but not as rapidly as overall Silicon Valley values. For faculty housing there are some changes that come from the date February 1, Some of the land is managed to provide revenue for the university such as the Stanford Shopping Center and the Stanford Research Park.
Stanford also has the Stanford Golf Course  and Stanford Red Barn Equestrian Center  used by Stanford athletics though the gold course can also be used by the general public. White Memorial Fountain also known as \”The Claw\” between the Stanford Bookstore and the Old Union is a popular place to meet and to engage in the Stanford custom of \”fountain hopping\”; it was installed in and designed by Aristides Demetrios after a national competition as a memorial for two brothers in the class of , William N.
White and John B. White II, one of whom died before graduating and one shortly after in Hoover Tower , at feet 87 m , the tallest building on campus. The new Stanford Stadium , site of home football games. The Dish , a feet 46 m diameter radio telescope on the Stanford foothills overlooking the main campus.
White Memorial Fountain The Claw. Stanford is a private, non-profit university administered as a corporate trust governed by a privately appointed board of trustees with a maximum membership of The board appoints a president to serve as the chief executive officer of the university, to prescribe the duties of professors and course of study, to manage financial and business affairs, and to appoint nine vice presidents.
As of , the university was organized into seven academic schools. The powers and authority of the faculty are vested in the Academic Council, which is made up of tenure and non-tenure line faculty, research faculty, senior fellows in some policy centers and institutes, the president of the university, and some other academic administrators. But most matters are handled by the Faculty Senate, made up of 54 elected representatives of the faculty for the year of Its elected leadership consists of the Undergraduate Senate elected by the undergraduate students, the Graduate Student Council elected by the graduate students, and the President and Vice President elected as a ticket by the entire student body.
Stanford is the beneficiary of a special clause in the California Constitution , which explicitly exempts Stanford property from taxation so long as the property is used for educational purposes. In , President John L. Funds supported new fellowships for graduate students, new endowed chairs for faculty, and 38 new or renovated buildings.
The new funding also enabled the construction of a facility for stem cell research; a new campus for the business school; an expansion of the law school; a new Engineering Quad; a new art and art history building; an on-campus concert hall; the new Cantor Arts Center; and a planned expansion of the medical school, among other things. Admissions officials consider a student\’s GPA to be an important academic factor, with emphasis on an applicant\’s high school class rank and letters of recommendation.
Stanford follows a quarter system with the autumn quarter usually beginning in late September and the spring quarter ending in mid-June. Stanford\’s admission process is need-blind for U. Stanford is classified among \”R1: Doctoral Universities — Very high research activity. Kathryn Ann Moler are the key person for leading those research centers for choosing problems, faculty members, and students. Funding is also provided for undergraduate and graduate students by those labs, centers, and institutes for collaborative research.
Other Stanford-affiliated institutions include the SLAC National Accelerator Laboratory originally the Stanford Linear Accelerator Center , the Stanford Research Institute an independent institution which originated at the university , the Hoover Institution a conservative  think tank and the Hasso Plattner Institute of Design a multidisciplinary design school in cooperation with the Hasso Plattner Institute of University of Potsdam that integrates product design, engineering, and business management education.
Stanford is home to the Martin Luther King Jr. Knight Fellowship for Professional Journalists and the Center for Ocean Solutions, which brings together marine science and policy to address challenges facing the ocean. It focuses mainly 5 points, such as climate change, overfishing, coastal development, pollution and plastics.
This medical research center is working for designing advanced-level health care units. The Hoover Institution Library and Archives is a research center based on history of 20th century. Books are written about a variety of topics and published books per year and Based on innovative research, currently printed more than 3, books. The main library in the SU library system is Green Library , which also contains various meeting and conference rooms, study spaces, and reading rooms.
Lathrop Library previously Meyer Library , demolished in , holds various student-accessible media resources and houses one of the largest East Asia collections with , volumes. Stanford is home to the Cantor Center for Visual Arts , a museum with 24 galleries, sculpture gardens, terraces, and a courtyard first established in by Jane and Leland Stanford as a memorial to their only child.
The center\’s collection of works by Rodin is among the largest in the world. In , Stanford opened the Anderson Collection, a new museum focused on postwar American art and founded by the donation of works by food service moguls Mary and Harry Anderson.
Extracurricular activities include theater groups such as Ram\’s Head Theatrical Society, the Stanford Improvisors,  the Stanford Shakespeare Company, and the Stanford Savoyards, a group dedicated to performing the works of Gilbert and Sullivan. Stanford is also host to ten a cappella groups , including the Mendicants Stanford\’s first ,  Counterpoint the first all-female group on the West Coast ,  the Harmonics , the Stanford Fleet Street Singers ,  Talisman , Everyday People , and Raagapella.
In United States college ranking measures Stanford ranks high, sometimes first see infoboxes above. Slate in dubbed Stanford as \”the Harvard of the 21st century\”. Globally Stanford is also ranked among the top universities in the world see infoboxes above.
Stanford is one of the most successful universities in creating companies and licensing its inventions to existing companies, and it is often considered a model for technology transfer. The university is described as having a strong venture culture in which students are encouraged, and often funded , to launch their own companies. Stanford enrolled 6, undergraduate  and 10, graduate students  as of the — school year.
Women made up Stanford awarded 1, undergraduate degrees, 2, master\’s degrees, doctoral degrees, and professional degrees in the — school year. As of , fifteen percent of undergraduates were first-generation students. First-year undergraduates are required to live on campus, and all undergraduates are guaranteed housing for all four undergraduate years.
Most student residences are just outside the campus core, within ten minutes on foot or bike of most classrooms and libraries. Some are reserved for freshman, sophomores, or upperclass students and some are open to all four classes. Most residences are co-ed; seven are all-male fraternities , three are all-female sororities , and there is also one all-female non-sorority house, Roth House. In most residences, men and women live on the same floor, but a few dorms are configured for men and women to live on separate floors single-gender floors.
Several residences are considered theme houses. Co-ops or \”Self-Ops\” are another housing option. These houses feature cooperative living, where residents and eating associates each contribute work to keep the house running, such as cooking meals or cleaning shared spaces.
These houses have unique themes around which their community is centered. Many co-ops are hubs of music, art and philosophy. As of around 55 percent of the graduate student population lived on campus.
Stanford also subsidizes off-campus apartments in nearby Palo Alto , Menlo Park , and Mountain View for graduate students who are guaranteed on-campus housing but are unable to live on campus due to a lack of space. As of Stanford had 16 male varsity sports and 20 female varsity sports,  19 club sports  and about 27 intramural sports  In , following a unanimous vote by the Executive Committee for the Associated Students, the athletic department adopted the mascot \”Indian.
Its traditional sports rival is the University of California, Berkeley , the neighbor to the north in the East Bay. Stanford has won at least one NCAA team championship each academic year for 46 consecutive years, starting in —77 and continuing through — No other Division I school is within of Stanford\’s total.
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I do not think there is any thrill that can go through the human heart like that felt by the inventor as he sees some creation of the brain unfolding to success. At the age of five, I had the idea that I would become an inventor. I had the notion that inventions could change the world. When other kids were wondering aloud what they wanted to be, I already had the conceit that I knew what I was going to be.
But at around the time I turned eight, my inventions became a little more realistic, such as a robotic theater with mechanical linkages that could move scenery and characters in and out of view, and virtual baseball games. Having fled the Holocaust, my parents, both artists, wanted a more worldly, less provincial, religious upbringing for me.
We would spend six months studying one religion—going to its services, reading its books, having dialogues with its leaders—and then move on to the next. It became clear to me that the basic truths were profound enough to transcend apparent contradictions. At the age of eight, I discovered the Tom Swift Jr.
The plots of all of the thirty-three books only nine of which had been published when I started to read them in were always the same: Tom would get himself into a terrible predicament, in which his fate and that of his friends, and often the rest of the human race, hung in the balance. Tom would retreat to his basement lab and think about how to solve the problem.
This, then, was the dramatic tension in each book in the series: what ingenious idea would Tom and his friends come up with to save the day? To this day, I remain convinced of this basic philosophy: no matter what quandaries we face—business problems, health issues, relationship difficulties, as well as the great scientific, social, and cultural challenges of our time—there is an idea that can enable us to prevail. Furthermore, we can find that idea.
And when we find it, we need to implement it. My life has been shaped by this imperative. The power of an idea—this is itself an idea. Around the same time that I was reading the Tom Swift Jr.
One was the gracious treatment he received from the Austrians and Germans, the same people who had forced him to flee in The other was a rare opportunity he had been given to touch with his own hands some original manuscripts of Leonardo da Vinci. He described the experience with reverence, as if he had touched the work of God himself. This, then, was the religion that I was raised with: veneration for human creativity and the power of ideas.
In , at the age of twelve, I discovered the computer and became fascinated with its ability to model and re-create the world. I got access to an IBM and began to write programs for statistical analysis and subsequently for music composition.
Indeed, it could do flawlessly in ten seconds what took us ten hours to do manually with far less accuracy. As an inventor in the s, I came to realize that my inventions needed to make sense in terms of the enabling technologies and market forces that would exist when the inventions were introduced, as that world would be a very different one from the one in which they were conceived.
I began to develop models of how distinct technologies—electronics, communications, computer processors, memory, magnetic storage, and others—developed and how these changes rippled through markets and ultimately our social institutions.
Inventing is a lot like surfing: you have to anticipate and catch the wave at just the right moment. My interest in technology trends and their implications took on a life of its own in the s, and I began to use my models to project and anticipate future technologies, innovations that would appear in , , , and beyond.
This enabled me to invent with the capabilities of the future by conceiving and designing inventions using these future capabilities. It seemed like a poignant conclusion, and in any event I personally found it difficult to look beyond so transforming an outcome.
Over the last twenty years, I have come to appreciate an important meta-idea: that the power of ideas to transform the world is itself accelerating. Although people readily agree with this observation when it is simply stated, relatively few observers truly appreciate its profound implications. Within the next several decades, we will have the opportunity to apply ideas to conquer age-old problems—and introduce a few new problems along the way.
During the s, I gathered empirical data on the apparent acceleration of all information-related technologies and sought to refine the mathematical models underlying these observations. I developed a theory I call the law of accelerating returns, which explains why technology and evolutionary processes in general progress in an exponential fashion. Since the publication of ASM , I have begun to reflect on the future of our civilization and its relationship to our place in the universe.
Although it may seem difficult to envision the capabilities of a future civilization whose intelligence vastly outstrips our own, our ability to create models of reality in our mind enables us to articulate meaningful insights into the implications of this impending merger of our biological thinking with the nonbiological intelligence we are creating.
This, then, is the story I wish to tell in this book. The story is predicated on the idea that we have the ability to understand our own intelligence—to access our own source code, if you will—and then revise and expand it. Some observers question whether we are capable of applying our own thinking to understand our own thinking. Think of the lowly giraffe, for instance, whose brain is obviously far below the level required for self-understanding—yet it is remarkably similar to our brain.
Our progress in reverse engineering the human brain, a key issue that I will describe in detail in this book, demonstrates that we do indeed have the ability to understand, to model, and to extend our own intelligence.
This is one aspect of the uniqueness of our species: our intelligence is just sufficiently above the critical threshold necessary for us to scale our own ability to unrestricted heights of creative power—and we have the opposable appendage our thumbs necessary to manipulate the universe to our will. A word on magic: when I was reading the Tom Swift Jr. I enjoyed the delight of my audiences in experiencing apparently impossible transformations of reality.
In my teen years, I replaced my parlor magic with technology projects. I discovered that unlike mere tricks, technology does not lose its transcendent power when its secrets are revealed. I am often reminded of Arthur C. Consider J. These tales may be imaginary, but they are not unreasonable visions of our world as it will exist only a few decades from now. Playing quid-ditch and transforming people and objects into other forms will be feasible in full-immersion virtual-reality environments, as well as in real reality, using nanoscale devices.
More dubious is the time reversal as described in Harry Potter and the Prisoner of Azkaban , although serious proposals have even been put forward for accomplishing something along these lines without giving rise to causality paradoxes , at least for bits of information, which essentially is what we comprise.
See the discussion in chapter 3 on the ultimate limits of computation. Consider that Harry unleashes his magic by uttering the right incantation. Of course, discovering and applying these incantations are no simple matters. Harry and his colleagues need to get the sequence, procedures, and emphasis exactly correct.
That process is precisely our experience with technology. Our incantations are the formulas and algorithms underlying our modern-day magic.
With just the right sequence, we can get a computer to read a book out loud, understand human speech, anticipate and prevent a heart attack, or predict the movement of a stock-market holding.
If an incantation is just slightly off mark, the magic is greatly weakened or does not work at all. One might object to this metaphor by pointing out that Hogwartian incantations are brief and therefore do not contain much information compared to, say, the code for a modern software program. But the essential methods of modern technology generally share the same brevity. The principles of operation of software advances such as speech recognition can be written in just a few pages of formulas.
Often a key advance is a matter of applying a small change to a single formula. Although chimps are capable of some intellectual feats, that tiny difference in our genes was sufficient for our species to create the magic of technology. For example, the particles composing my brain and body change within weeks, but there is a continuity to the patterns that these particles make. This book, then, is the story of the destiny of the human-machine civilization, a destiny we have come to refer to as the Singularity.
I am not sure when I first became aware of the Singularity. Just as a black hole in space dramatically alters the patterns of matter and energy accelerating toward its event horizon, this impending Singularity in our future is increasingly transforming every institution and aspect of human life, from sexuality to spirituality.
What, then, is the Singularity? Although neither utopian nor dystopian, this epoch will transform the concepts that we rely on to give meaning to our lives, from our business models to the cycle of human life, including death itself. Understanding the Singularity will alter our perspective on the significance of our past and the ramifications for our future.
I can understand why many observers do not readily embrace the obvious implications of what I have called the law of accelerating returns the inherent acceleration of the rate of evolution, with technological evolution as a continuation of biological evolution. After all, it took me forty years to be able to see what was right in front of me, and I still cannot say that I am entirely comfortable with all of its consequences. The key idea underlying the impending Singularity is that the pace of change of our human-created technology is accelerating and its powers are expanding at an exponential pace.
Exponential growth is deceptive. It starts out almost imperceptibly and then explodes with unexpected fury—unexpected, that is, if one does not take care to follow its trajectory.
Seven doublings extended their reach fold. This is the nature of exponential growth. Consider Gary Kasparov, who scorned the pathetic state of computer chess in Yet the relentless doubling of computer power every year enabled a computer to defeat him only five years later.
Moreover, the once narrow applications of computer intelligence are gradually broadening in one type of activity after another. For example, computers are diagnosing electrocardiograms and medical images, flying and landing airplanes, controlling the tactical decisions of automated weapons, making credit and financial decisions, and being given responsibility for many other tasks that used to require human intelligence. The performance of these systems is increasingly based on integrating multiple types of artificial intelligence AI.
But as long as there is an AI shortcoming in any such area of endeavor, skeptics will point to that area as an inherent bastion of permanent human superiority over the capabilities of our own creations.
This book will argue, however, that within several decades information-based technologies will encompass all human knowledge and proficiency, ultimately including the pattern-recognition powers, problem-solving skills, and emotional and moral intelligence of the human brain itself.
Although impressive in many respects, the brain suffers from severe limitations. We use its massive parallelism one hundred trillion interneuronal connections operating simultaneously to quickly recognize subtle patterns. But our thinking is extremely slow: the basic neural transactions are several million times slower than contemporary electronic circuits.
That makes our physiological bandwidth for processing new information extremely limited compared to the exponential growth of the overall human knowledge base.
Our version 1. While human intelligence is sometimes capable of soaring in its creativity and expressiveness, much human thought is derivative, petty, and circumscribed. The Singularity will allow us to transcend these limitations of our biological bodies and brains. We will gain power over our fates. Our mortality will be in our own hands. We will be able to live as long as we want a subtly different statement from saying we will live forever.
We will fully understand human thinking and will vastly extend and expand its reach. By the end of this century, the nonbiological portion of our intelligence will be trillions of trillions of times more powerful than unaided human intelligence.
About this item.Autodesk inventor 2018 black book free
Outstanding Ultra HD performance is assured by the specially designed 43\” class 4K display panel with In-Plane Switching IPSdelivering accurate colors that remain consistent autodesk inventor 2018 black book free wide viewing angles, with four times the resolution of Full HD.
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Enjoy what\’s on the screen with sound produced by the monitor\’s two 10 watt speakers with Rich Bass. Customer Reviews, including Product Star Ratings help customers to learn more about the product and decide whether it is the right product for them. Instead, our system considers things like how recent a review is and if the reviewer bought the item on Amazon. It also analyzed reviews to verify trustworthiness.
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Images in this review. Reviews with images. See all customer images. Top reviews Most recent Top reviews. Top reviews from the United States. There was a problem filtering reviews right now. Please try again later. I wrote this same review on a few other sites in case you are looking around, but they had character limits, so this review is a bit more in depth.
Well, here\’s my review of this LG 43\”. Let me set the stage so you can understand the context of where I\’m coming from for this review. I\’ve been running 4x Samsung SyncMaster Bs since 19\”, ; yes, that\’s 12 years on the same monitors.
They were good for what they were and served me well. However, I finally updated my 8 year old workstation to a new Ryzen build and the time was right for a display update. I autodesk inventor 2018 black book free doing 4x 27\” displays in portrait, 3x 32\” in portrait, or 2x 43 in autodesk inventor 2018 black book free.
I put together over 30 monitor models into a spreadsheet with every data spec and leveraged them against each other to find the optimal buy for my situation. I spent 18 months going back and forth slowly narrowing it down. In the end, due to some dimensional constraints in my studio, the 3x 32\” would not fit and I wasn\’t sure I wanted to have 4x 27\” since I was coming from 4x 19\”.
It just felt redundant and didn\’t eliminate some of the issues I wanted to overcome, such as changing inputs manually on each monitor to signal a different box. The Acer and Viewsonic used autodesk inventor 2018 black book free same TP Vision panel that seemed to have some issues with image retention, red-orange splotchy lag, and a few others.
What sold me was two points: 1. So, I ordered my two LG\’s and waited a week for them to arrive. First impression: This monitor is BIG. I felt a little ridiculous when the poor UPS driver had to lug these to какие free download adobe photoshop portable cs6 имеет door. They are the size of a medium TV really I took them up to my studio and took one out.
It still is HUGE. I loaded into Win10 and it was a magnificent feeling. I\’m going to say it one more time, this monitor is HUGE. I\’ve been using my two displays for about two months now. They no longer seem huge, but just right. Having to use anything smaller is a struggle now. So, some technical information about this display. I work a day job but run my own side business.
I do a lot and need essentially a monitor that could handle it all. It handles that perfectly fine. This card has 4x DP1. It is a professional card made for heavy work. However, it can function perfectly fine in this role. The monitors came pre-calibrated with a certificate sheet in each box.
I only had to do a little bit of tweaking to get them to where I needed. I also adjusted the contract and brightness down. I keep the brightness at about 30 at night and 60 during the daytime. I\’m so used to using bad TN panels over the past two decades, that I calibrate autodesk inventor 2018 black book free monitors and design working space for my project specific needs, illuminating the need for autodesk inventor 2018 black book free http://replace.me/1469.txt in my work.
It wasn\’t worth it for me. HDMI is a proprietary input and there is a royalty that the end-user ends up paying to have it. Additionally, it\’s an entertainment input; I\’m guessing this monitor is geared more towards the consumer than the creator.
I\’m using one of them now for an auxiliary box and it\’s pretty laggy. Luckily I don\’t care about that machine, but it\’s still annoying. The stand does not have any height adjustment but functions fine and does its job; I tried it briefly before storing them as these displays are wall-mounted for my use. Speakers, it has stereo sound. Perfect for the dings and pings of your operating system. Good enough for telephony, VOIP, voice audio. But if you want music or entertainment, get real speakers; in-monitor speakers are not for that.
I\’m happy with the speakers for OS sounds. Surprisingly, these speakers are pretty good. I\’ve heard some pretty bad monitor speakers over the years, but you can actually enjoy music out of these. They also are very loud, unlike most monitor speakers. Don\’t forget, they are monitor speakers and not stand alone, so the quality will нажмите чтобы узнать больше be lacking, but I\’m really impressed with them; the best monitor speakers I\’ve ever heard.
It\’s a little dongle under the monitor. I\’m not crazy about it and wish there was just a few buttons on the front bezel or back instead; oh well.