“I'm personally convinced that computer science has a lot in common with physics. Both are about how the world works at a rather fundamental level. The difference, of course, is that while in physics you're supposed to figure out how the world is made up, in computer science you create the world. Within the confines of the computer, you're the creator. You get to ultimately control everything that happens. If you're good enough, you can be God. On a small scale.”

— Linus Torvalds

2000s, (2001)

Adopted from Wikiquote. Last update June 3, 2021. History

Help us to complete the source, original and additional information

Do you have more details about the quote "I'm personally convinced that computer science has a lot in common with physics. Both are about how the world works at …" by Linus Torvalds?

Linus Torvalds 150

Finnish-American software engineer and hacker 1969

Related quotes

“[Computer science] is not really about computers -- and it's not about computers in the same sense that physics is not really about particle accelerators, and biology is not about microscopes and Petri dishes…and geometry isn't really about using surveying instruments. Now the reason that we think computer science is about computers is pretty much the same reason that the Egyptians thought geometry was about surveying instruments: when some field is just getting started and you don't really understand it very well, it's very easy to confuse the essence of what you're doing with the tools that you use.”

Hal Abelson (1947) computer scientist

Source: Introductory lecture to Structure and Interpretation of Computer Programs http://www.youtube.com/watch?v=zQLUPjefuWA

“Computer science research is different from these more traditional disciplines. Philosophically it differs from the physical sciences because it seeks not to discover, explain, or exploit the natural world, but instead to study the properties of machines of human creation. In this it as analogous to mathematics, and indeed the "science" part of computer science is, for the most part mathematical in spirit. But an inevitable aspect of computer science is the creation of computer programs: objects that, though intangible, are subject to commercial exchange.”

Dennis M. Ritchie (1941–2011) American computer scientist

Reflections on Software Research (1984)

“In my vision, space-age objects, in the form of small computers, will cross these cultural barriers to enter the private worlds of children everywhere. They will do so not as mere physical objects. This book is about how computers can be carriers of powerful ideas and of the seeds of cultural change, how they can help people form new relationships with knowledge that cut across the traditional lines separating humanities from sciences and knowledge of the self from both of these. It is about using computers to challenge current beliefs about who can understand what and at what age. It is about using computers to question standard assumptions in developmental psychology and in the psychology of aptitudes and attitudes. It is about whether personal computers and the cultures in which they are used will continue to be the creatures of "engineers" alone or whether we can construct intellectual environments in which people who today think of themselves as "humanists" will feel part of, not alienated from, the process of constructing computational cultures.”

Seymour Papert book Mindstorms: Children, Computers, and Powerful Ideas

Introduction
Mindstorms: Children, Computers, and Powerful Ideas (1980)

“To quote computer graphics pioneer Ivan Sutherland who said in 1965: "The ultimate display would, of course, be a room within which the computer can control the existence of matter. A chair displayed in such a room would be good enough to sit in. Handcuffs displayed in such a room would be confining, and a bullet displayed in such a room would be fatal."”

Newton Lee American computer scientist

Sutherland's futuristic vision sounds just like Star Trek’s holodeck!
Digital Da Vinci: Computers in the Arts and Sciences, 2014

“If you think about things that happen, as being computations... a computation in the sense that it has definite rules... You follow them many steps and you get some result. ...If you look at all these different computations that can happen, whether... in the natural world... in our brains... in our mathematics, whatever else, the big question is how do these computations compare. ...Are there dumb ...and smart computations, or are they somehow all equivalent? ...[T]he thing that I ...was ...surprised to realize from ...experiments ...in the early 90s, and now we have tons more evidence for ...[is] this ...principle of computational equivalence, which basically says that when one of these computations ...doesn't seem like it's doing something obviously simple, then it has reached this ...equivalent layer of computational sophistication of everything. So what does that mean? ...You might say that ...I'm studying this tiny little program ...and my brain is surely much smarter ...I'm going to be able to systematically outrun [it] because I have a more sophisticated computation ...but ...the principle ...says ...that doesn't work. Our brains are doing computations that are exactly equivalent to the kinds of computations that are being done in all these other sorts of systems. ...It means that we can't systematically outrun these systems. These systems are computationally irreducible in the sense that there's no ...shortcut ...that jumps to the answer.”

Stephen Wolfram (1959) British-American computer scientist, mathematician, physicist, writer and businessman

Stephen Wolfram: Fundamental Theory of Physics, Life, and the Universe (Sep 15, 2020)

“The thing that worries me about the computer age is the fact that people know so much about you. It's an incredible invasion of privacy. And no matter where you are in the world people can monitor you if you're using your credit card. I heard this weird rumor on the Internet about how the military is funding this great big research project and basically, they believe that in the future, the balance of power won't be determined by who has the most nuclear weapons, but by who has all the information. I'm not afraid of being taken over by computers though, because the thing is, computers cannot resist. You can always smash 'em up, and they're totally defenseless. All we need are more people with hammers.”

Thom Yorke (1968) English musician, philanthropist and singer-songwriter

source http://radiohead1.tripod.com/band/thomquotes.htm

“I know what good morals are,
but you're supposed to disregard good morals when you're living in a crazy, bad world. If you're in hell, how can you live like an angel? You're surrounded by devils, trying to be an angel? That's like suicide.”

Tupac Shakur (1971–1996) rapper and actor

Source: Resurrection, 1971-1996

“I can’t be as confident about computer science as I can about biology. Biology easily has 500 years of exciting problems to work on. It’s at that level.”

Donald Ervin Knuth (1938) American computer scientist

Computer Literacy Bookshops Interview http://karthikr.wordpress.com/2006/04/06/donald-knuth-%e2%80%94-computer-literacy-bookshops-interview-1993/ Computer Literacy Bookshops Interview (1993)
On why bioinformatics is very exciting

“Now the salient characteristic of the decision tools employed in management science is that they have to be capable of actually making or recommending decisions, taking as their inputs the kinds of empirical data that are available in the real world, and performing only such computations as can reasonably be performed by existing desk calculators or, a little later electronic computers. For these domains, idealized models of optimizing entrepreneurs, equipped with complete certainty about the world - or, a worst, having full probability distributions for uncertain events - are of little use. Models have to be fashioned with an eye to practical computability, no matter how severe the approximations and simplifications that are thereby imposed on them…
The first is to retain optimization, but to simplify sufficiently so that the optimum (in the simplified world!) is computable. The second is to construct satisficing models that provide good enough decisions with reasonable costs of computation. By giving up optimization, a richer set of properties of the real world can be retained in the models… Neither approach, in general, dominates the other, and both have continued to co-exist in the world of management science.”

Herbert A. Simon (1916–2001) American political scientist, economist, sociologist, and psychologist

Source: 1960s-1970s, "Rational decision making in business organizations", Nobel Memorial Lecture 1978, p. 498; As cited in: Arjang A. Assad, ‎Saul I. Gass (2011) Profiles in Operations Research: Pioneers and Innovators. p. 260-1.

“I think you're the only person who gets me. When I'm with you, the world doesn't feel like a problem I can't figure out. Please come to the dance, because you're my music.”

Jodi Picoult book House Rules

Source: House Rules

Help us to complete the source, original and additional information

Linus Torvalds 150

Related quotes

Related topics