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Seth Lloyd [0-0] American
Rank: 103
Educator, Professor


Seth Lloyd is a professor of mechanical engineering and physics at the Massachusetts Institute of Technology. He refers to himself as a "quantum mechanic".
His research area is the interplay of information with complex systems, especially quantum systems. 

Computers, Famous, Death



QuoteTagsRank
Computers are famous for being able to do complicated things starting from simple programs. Computers, Famous
101
One of the things that I've been doing recently in my scientific research is to ask this question: Is the universe actually capable of performing things like digital computations?
102
Nothing in life is certain except death, taxes and the second law of thermodynamics. Death
103
All physical systems can be thought of as registering and processing information, and how one wishes to define computation will determine your view of what computation consists of.
104
Thinking of the universe as a computer is controversial.
105
Of course, one way of thinking about all of life and civilization is as being about how the world registers and processes information. Certainly that's what sex is about; that's what history is about.
106
Something else has happened with computers. Computers
107
What's happened with society is that we have created these devices, computers, which already can register and process huge amounts of information, which is a significant fraction of the amount of information that human beings themselves, as a species, can process. Computers
108
Indeed, as the above calculation indicates, to take full advantage of the memory space available, the ultimate laptop must turn all its matter into energy.
109
Science consists exactly of those forms of knowledge that can be verified and duplicated by anybody.
110
Of course, not everybody's willing to go out and do the experiments, but for the people who are willing to go out and do that, - if the experiments don't work, then it means it's not science.
111
Instead of having to be a member of the Royal Society to do science, the way you had to be in England in the 17th, 18th, centuries today pretty much anybody who wants to do it can, and the information that they need to do it is there.
112
In order to figure out how to make atoms compute, you have to learn how to speak their language and to understand how they process information under normal circumstances.
113
I have not proved that the universe is, in fact, a digital computer and that it's capable of performing universal computation, but it's plausible that it is.
114
According to the standard model billions of years ago some little quantum fluctuation, perhaps a slightly lower density of matter, maybe right where we're sitting right now, caused our galaxy to start collapsing around here.
115
Similarly, another famous little quantum fluctuation that programs you is the exact configuration of your DNA. Famous
116
At some point, Moore's law will break down.
117
The amount of information that can be stored by the ultimate laptop, 10 to the 31st bits, is much higher than the 10 to the 10th bits stored on current laptops.
118
There are considerable advantages to using many degrees of freedom to store information, stability and controllability being perhaps the most important.
119
Every physical system registers information, and just by evolving in time, by doing its thing, it changes that information, transforms that information, or, if you like, processes that information.
120
If you wanted to build the most powerful computer you could, you can't do better than including everything in the universe that's potentially available.
121
Merely by existing and evolving in time - by existing - any physical system registers information, and by evolving in time it transforms or processes that information.
122
It's also a reasonable scientific program to look at the dynamics of the standard model and to try to prove from that dynamics that it is computationally capable.
123
Another feature that everybody notices about the universe is that it's complex.
124
If you take a more Darwinian point of view the dynamics of the universe are such that as the universe evolved in time, complex systems arose out of the natural dynamics of the universe.
125
I would suggest, merely as a metaphor here, but also as the basis for a scientific program to investigate the computational capacity of the universe, that this is also a reasonable explanation for why the universe is complex.
126
In this metaphor we actually have a picture of the computational universe, a metaphor which I hope to make scientifically precise as part of a research program.
201
We have a picture for how complexity arises, because if the universe is computationally capable, maybe we shouldn't be so surprised that things are so entirely out of control.
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