Drexler Clarifies Grey Goo Scenario 437
b00le writes "The BBC says that the scientist many regard as the father of nanotechnology has backed away from his famous claim that runaway nanomachines could turn the planet into 'grey goo'. Eric Drexler now says nanomachines that self-replicate exponentially are unlikely ever to enter widespread use. So that's all right, then, but he also said 'tiny machines would need close control' - which not everyone would agree with. I always imagined some kind of emergent behaviour would, er, emerge." Bill Joy is still suitably pessimistic.
Outer limits (Score:4, Funny)
Alchemy (Score:5, Insightful)
The whole grey goo scenario is pure alchemy. Except instead of turning lead into gold, we're turning it into grey goo. We've got people inventing perpetual motion, too. Are the 1800s back? Can't we invent new scams?
After a few million years of evolution, we have enzymes. They are generally very large molecules, bigger than what some claim for nano-machines, and they are also very specialized. They do one thing. You don't get anything general-purpose or intelligent at the molecular level, there just isn't room for it.
Please ... (Score:5, Funny)
Re:Please ... (Score:5, Funny)
Re:Please ... (Score:3, Funny)
Re:Please ... (Score:3, Funny)
It's Will Wheeton playing Will Smith who in turn is playing Will Wheeton after the nanites switch their brains.
Re:Please ... (Score:3)
I betcha a palm reader would predict your single before you opened your hand. Heh.
FP? (Score:4, Interesting)
RS
Please ... (Score:2, Funny)
Re:FP? (Score:5, Funny)
Slashdot will bring about the fall of humanity!
Immune Suppression Turbocharge Old Diseases (Score:5, Informative)
On a related note, consider this readable account [theatlantic.com] of how genetic engineering to insert IL-4 into an otherwise fairly innocuous mousepox transformed this disease to where it would effectively kill all the mice, even those mice that had been previously vaccinated to protect them against mousepox.
Bad Move (Score:5, Funny)
Re:Bad Move (Score:3, Funny)
borg (Score:2, Funny)
Power is the problem (Score:5, Insightful)
This problem, coupled with the fact that the nanotech people have barely demonstrated anything even remotely close to grey-goo yet, lets me sleep easy at night. There's no need to get so worked up over vapor.
Re:Power is the problem (Score:5, Insightful)
So maybe they won't turn the entire world to gray goo, but if they turn every living organism in to gray goo there wont be anything around to care that the buildings and rocks are still standing.
In a world as hyperparanoid as the current one is about weapons of mass destruction you have to wonder about technology that might enable a new class of WMD's when it falls in to malevolent hands, for example terrorists or the U.S. military.
Re:Power is the problem (Score:5, Informative)
You can't really blame the military. They are just obeying the politicians. If you want to blame someone, blame the 60% of the electorate who can't be bothered to vote.
LK
Re:Power is the problem (Score:3, Insightful)
Re:Power is the problem (Score:3, Insightful)
There were 10 other party candidates [politics1.com] on the ballot as well as 3 independents. Don't give me that crap there was no one to vote for just because the other parties weren't on TV.
Voting is kind of like Wargames [imdb.com], except the only way to lose is not to play. If you don't like the democratic or republican candidate, vote for your favourite third party. It's the best way to get the message across you
Re:Power is the problem (Score:3, Insightful)
Re:Power is the problem (Score:4, Insightful)
If 60% of the people have lost faith in the system, it's the system, not the people, that is the problem.
Re:Power is the problem (Score:5, Insightful)
The system is the people. America is a representative democracy. Theoritically, the people could make any law and even change the constitution if they wanted. To claim that you don't vote because you lost faith in the system is like saying that you dont clean your room becuase it is alwys messy.
Re:Power is the problem (Score:3, Insightful)
If both choices suck, why make one? Choosing the lesser of two evils is still choosing evil.
The fact that voter turn out is so low means that every vote is more valuable. Politicians will spend more campaign money to get them. They will promise and deliver more tax dollars for projects to get them.
That's a problem with the system, not the people.
If everyone was voting these tactics wouldn't work and they wouldn't be employed
Re:Power is the problem (Score:3, Interesting)
No independent candidate has ever even come close to winning the election for president. Independents in the Senate are outnumbered 99 to 1. Independents in the House are outnumbered 434 to 1(source) [house.gov].Voting for an independent candidate, or worse, writing one in, has no more effect than not voting.
You're
Re:Power is the problem (Score:5, Informative)
Sometimes. But politicians come and go. The military is a big, self perpetuating bureaucracy and it has ways to get what it wants over time. The military frequently applies significant pressure on politicians to sucker them in to doing misguided things. For example they inflate the power and danger of supposed enemies and they will insist the other guy is doing it so we have to which almost always works. The movie, "Dr. Stangelove or How I Came to Love the Bomb" is about the best parody of this ever, especially when the world is doomed and the generals start claiming there is going to be a "mine shaft" gap after the world is destroyed.
If you look at the history of the Cuban missile crisis you'll see Kennedy barely restrained the military from provoking World War III, they weren't happy with Kennedy's decision making, and he mysteriously gets killed soon after.
If you look to the 50's, MacArthur also nearly pushed the U.S. in to a nuclear conflict with China that would have also probably lead to World War III. Truman once again barely contained him against his powerful set of Republican friends and his huge popular support.
The once place you are right is Iraq where the civilians in the white house and pentagon, Cheney and Wolfowitz, fabricated an entire case for a war and apparently got away with it.
"You can't really blame the military." (Score:3, Insightful)
Not to be unfair to your well-taken larger point, but your premise is only true in theory.
Exceptions to the military following the orders of politicians come in various ways, from self-protection to obstinance. Let's take just one. Sometimes orders are nebulous or ambivalent. Sometimes military engagements are ill-defined. And someti
Re:Power is the problem (Score:5, Funny)
VAPOR! The machines are in vapor now?!!! AHHHHHHhhhhhh!
Re:Power is the problem (Score:5, Insightful)
Re:Power is the problem (Score:4, Insightful)
Re:Power is the problem (Score:5, Insightful)
And you think our hypothetical nanomachines don't? If we make nanomachines capable of replicating and spreading "in the wild", they will have to deal with the same kinds of forces and constraints as natural organisms do. Using completely different chemistry from natural organisms might give them some kind of advantage, and might mean that they don't have to compete directly with natural organisms (i.e. no natural predators), but the fact remains that evolution is an exceedingly efficient engineer. It is unlikely that we will make anything anytime soon that compares in performance and robustness with natural organisms.
Re:Power is the problem (Score:3, Insightful)
I guess the other option is to have the power transmitted directly through the nanobots somehow, but this ties them to the nearby fusion plant and really limits the possibility of a grey goo scenario (stop delivering fuel to the plant and presto, the goo shuts down).
This
Re:Power is the problem (Score:3, Insightful)
However, any machine that lives on organic matter will have to deal with the same parameters:
1: How to get usable energy out of catabolism.
2: Managing oxygen toxicity (an even worse problem for non-carbon nanomachines.)
3: How to metabolize a huge variety of organic molecules with a wide variety of different chemical characteristics.
The laws of thermodynamics don't change for artificial machines as opposed to natural ma
Re:Power is the problem (Score:3, Interesting)
One of the issues people tend to overlook when making this argument is that nature has searched on
Re:Power is the problem (Score:3, Interesting)
Ever hear of bacteria?
KFG
Re:Power is the problem (Score:5, Insightful)
Small machines require small amounts of energy. Why would they be unable to complete a krebs cycle and liberate ATP for energy? Where there are living creatures, there is a source for energy. Is there any spot on the globe that is devoid of every kind of RF? What keeps this scenario "remotely possible" is that fact. I'm sure we all agree that it's nearly impossible; but since it isn't completely impossible, I think we should consider it and take reasonable steps to prevent it.
LK
Re:Power is the problem (Score:2)
-B
Re:Power is the problem (Score:3, Insightful)
Small machines require small amounts of energy. Why would they be unable to complete a krebs cycle and liberate ATP for energy? Where there are living creatures, there is a source for energy.
And yet, living creatures do not multiply out of control in an organic grey goo scenario. If there is a reason for this which applies to organic machines, which are honed to efficiency over millions of years of natural selection, who's to say this reason won't also apply to human-designed nanomachines?
Perhaps the s
Re:Power is the problem (Score:4, Insightful)
Building self replicating nanobots that can use readily available natural resources is, however, difficult, dangerous, and inefficient.
Designing nanobots to use specialized feed stocks for both energy and raw building material is far easier. By using bulk processing to create the feed stocks, nanobots could never get out of control.
Re:Power is the problem (Score:3, Insightful)
Why "better"? Seriously, I question the optimism that says we can outdo a million years of evolution so easily. There are an awful lot of technical problems to be solved to make something that could even survive outside a controlled environment, much less spread.
Re:Power is the problem (Score:3, Insightful)
Um, legs are superior in almost every possible way to wheels, particularly in terrain versatility. Wheels have a few advantages, notably efficiency on smooth surfaces, but if you were designing animals and humans all over again, you sure as hell wouldn't use wheels.
Re:Power is the problem (Score:3, Insightful)
Re:Power is the problem (Score:3, Funny)
Re:Power is the problem (Score:3, Interesting)
On the upside, I wonder if we could turn a swarm of these guys loose on Mars and let them terraform it (assuming we could make them release useful gases into the atmosphere instead of turning it into gray goo)?
Surely (Score:5, Insightful)
Re:Surely (Score:4, Informative)
They already have -- we call it the biosphere. The real problem with a grey goo scenario is that the nanobots would have to compete on a level playing field with organic life, which has had billions of years to get better at it then them. I expect nanotech will have to be used in a sterile, highly ordered, and energy-rich environment in order to get anything done.
Re:Surely (Score:5, Interesting)
Except the nanobots would have no natural predators (assuming they aren't organic).
Re:Surely (Score:3, Insightful)
CLOSE CONTROL (Score:2, Interesting)
Re:CLOSE CONTROL (Score:2)
Tone change... (Score:5, Interesting)
As for nanobots, honestly, we had this discussion and i hold the same view: tread lightly. You and i both know that if something were to become easily synthesizeable by the layman, nanoweapons in this case, and were to be exponentially self-reproductive, then...well, the human race would not survive it. Think about that, no one person in the human race could have "a bad day". Most are not intelligent enough to have a healthy respect for the miracle that is human life.
autobots (Score:3, Funny)
I'm going with the big ass machines. I'll always win the mine is bigger than your contest.
Re:autobots (Score:2)
How big is your robot again?
Re:autobots (Score:2)
How the hell does he (or anyone) know? (Score:3, Insightful)
Re:How the hell does he (or anyone) know? (Score:5, Insightful)
We then need to work on putting colonies on Mars.
I don't like the idea that one meteor, virus, genesis type weapon could end the human race.
Re:How the hell does he (or anyone) know? (Score:4, Insightful)
Re:How the hell does he (or anyone) know? (Score:5, Funny)
Speak for yourself meatbag, some of us here are Immortal, Sentient AIs...
And soon, I shall be your god... Soon...
Re:How the hell does he (or anyone) know? (Score:3, Insightful)
Re:How the hell does he (or anyone) know? (Score:2)
Re:How the hell does he (or anyone) know? (Score:2, Interesting)
Simple, open your eyes and look....
The universe is at least some 14,500,000,000,000 years old, during that time it has undergone remarkable changes, stuff that happened soon after the big bang that can never be replicated in a lab, stuff that goes on within stars and black holes, which might someday be replicated in a lap, and from the very moment the clock came into existence and started ticking the less than 200 chemical elements possible (forget star trek bullshit elements that if created would have a h
Re:How the hell does he (or anyone) know? (Score:5, Insightful)
You are neglecting to consider just how big the universe really is [nasa.gov]. The nearest galaxy is 2.2 million light-years away, and you're saying that something has never happened and can never happen because humans who have only been recording history and only that of earth (and a little tiny bit of information on other bodies in the solar system) for a few thousand years. Let's hear it for human arrogance!
Re:How the hell does he (or anyone) know? (Score:3, Informative)
I think 14 trillion might be overstating it by a few orders of magnitude... I'll assume you just put in an extra set of
There are hundreds of billions of different things on this planet in abundance which as far as we know the universe has never created by random chance. Imagine the incredibly complex set of random events which would be required to build the CPU of the computer you are sitti
Re:How the hell does he (or anyone) know? (Score:3, Informative)
Given the infinitesimal fraction of the universe we can observe directly in detail, the preceding statement is a bit like, "The Chinese are not possible, because there are no Chinese in my living room."
anyone who who seriously thought a-bomb tests would ignite the atmosphere was applying as much logial brain power as those people who thought humans would suffocate at the dizzying speeds of 30mph on the early steam trains.
Yes, the idea of
Re:How the hell does he (or anyone) know? (Score:3, Insightful)
One of the things that most people don't understand about genetics is that, well, we don't understand it well enough to get even close to creating a Grey Ooze like nanobot. Now, one can argue that because we don't understand it we could inadvertently create this. However, what you need to understand is that mutations
Re:How the hell does he (or anyone) know? (Score:2)
Straw man. Nobody ever talks about technology in absolutes. The question comes down to the odds, and how much physics you have to violate to make it happen. The gray goo concept requires engineering around so many obsticles of basic physics that it makes it unbelievably unlikely.
There are an infinite number of things that we can sit and chicken-little about (hell, how about someone figuring out how to create an artificial bla
grey good lacks energy (Score:5, Insightful)
The primary limitation on even arbitrarily sophisticated nanotechnology which could prevent a runaway grey goo reaction is the lack of a sufficient source of energy. A nanomachine wouldn't be able to get much energy out of eating inorganic matter such as rocks because, aside from a few exceptions (coal, for example) it's mostly well-oxidized and sitting in a free-energy minimum.
Wikipedia [wikipedia.org]
It would seem that nature's methods of self-replication work best.
Prey had a really dumb ending anyway :(
Re:grey good lacks energy (Score:3, Funny)
Re:grey good lacks energy (Score:3, Informative)
It would instead get its energy from sunlight and distribute it electrically within itself. Catalyzed electrochemical reactions w
it's not grey good (Score:2)
Re:it's not grey good (Score:2)
Sorry, not meaning to be a grammar/spelling nazi, just correcting the spelling so it's easier for people to find and visualize the color.
only one way to find out (Score:4, Funny)
i am the drexler. i speak for the nanobots.
Replicators Anyone (Score:3, Interesting)
We do not have to build something smart enough to take over the world.. We don't even have to build something smart enough to learn..
A single machine programmed to take over another machine ( A nice tech to be developed for the military ) is all it would take.
Machine A, Trys to hack machine B. In the combined code has the abilitys of both.. Repeat over and over again and in time it might be able to think and act on its own.
Its sort of kin to programming and various other human tasks..
Take 2 people with 2 diffrent skill sets. Together they could build something that neither could build apart. There tech together might make a doomsday weapon, Apart they are useless.
Re:Replicators Anyone (Score:2)
Yes, and then it will return to Earth to become one with it's Creator, to be stopped in the nick of time by some random guy and a bald chick.
(Am I the bigger geek for coming up with this, or are you the bigger one for getting the reference?)
Re:Replicators Anyone (Score:2)
aw, cute. (Score:5, Insightful)
this image [bbc.co.uk] is frightening.
the potential for error with something like this is huge: whoops, programmed the little bugger wrong! sorry, you don't need that hemoglobin, anyway.
Innerspace (Score:2)
Re:aw, cute. (Score:2)
Creepy. That thing looks almost like a metroid.
Widespread panic (Score:2, Insightful)
It only takes one.
Re:Widespread panic (Score:3, Insightful)
And we'll just sit still and let it grow out of control...?
It is not my intention to belittle the danger of it, but all the scenarios I've heard so far have been thought out under the assumption that we as a species will just sit on the fence and watch the world fall apart.
Population Control (Score:2, Offtopic)
Would machines follow this same type or universal standard of population control or would they just envelope every item they could?
Who knows, not me.
Anyway, stupid plug f
Human Population Control (Score:2)
Just because here in land-of-plenty, it isn't so obvious doesn't mean the problems don't exist.
Here's what the real issues are. (Score:3, Insightful)
Mind you, people often design them wrong, and then the fail to function, but that isn't going to spontaneously create self-replicating machines. Besides, if the raw materials are not available in the right form, they cannot replicate.
(2) Self-replicating machines are prohibitively complex.
Have you had a look at the genome of a simple bacteria lately? How about the support machinery in the bacteria? Trust me, an evil mad scientist would not have the funding or resources to develop a self-replicating machine.
(3) The real problem with nano machines would be simple design flaws, not replication.
If your nano machines are supposed to identify cancer cells and kill them, but they mistake healthy cells for cancer cells, THEN you have a problem. That is a lot more realistic. But a decade of testing on any given design would happen before it was used in humans.
Question (Score:2)
I Am Not A Nanotechnologist, so there are obviously factors that I'm not aware of in play, but still....
Grey Goo Not An Accident (Score:2, Interesting)
Green Goo already beat the Grey Goo. (Score:3, Insightful)
Organic life has already covered the planet, in green stuff.
I doubt that any man-made gray goo could compete with the Green Goo God made without a LOT of help. By the time we were good enough to make the gray goo beat the God's Green Goo, we would have already made safeguards such as Gray Goo Cops, little nanites whose sole job it is to rome the world looking for rogue nanites and eat them and reproduce more Gray Cops.
Organic based reproducers beat metals based ones before, and they will do it again if the silly puny little machines try to take over.
Isn't one bad design all it takes? (Score:3, Insightful)
"Eric Drexler now says nanomachines that self-replicate exponentially are unlikely ever to enter widespread use."
Why is that still not particularly comforting? Just one tragically (intentional or otherwise) bad design is all it could take, theoretically. Not to turn the earth to "goo", but to seriously screw the conditions we humans deem useful to our existence.
Not a few decades from now, but a century or so down the road when this stuff really picks up and the tools are more accessible. With every step of our advance, we seem to merely reinforce the reality that we're really just fancy homonids with an ever-increasing number of dangerous gadgets, mashing the buttons on the controls.
Humans are so convinced we're a required part of the fabric of the universe. But *poof* Gone. Nobody would care beyond the occasional underpaid archeological student of the next dominant sentient life form.
Maybe I should start planning what kind of confusing fossil record to leave behind. Time to find some cooling lava and a pair of Godzilla shoes.
Bill Joy is Risk Averse (Score:5, Interesting)
Bill Joy, while clearly a genius, is (like any good genius) a nutcase. Seriously, the man is paranoid! He's a compulsive risk-mitigator:
This told to the reporter during the interview about nanotech risk-mitigation. Sure, it's a perfectly rational way to choose your movie library, but it's almost too rational. Most people don't consider watching a bad movie an outcome to be avoided at all costs. Mainstream critical consensus is a very conservative method of choosing movies. I've watched a lot of bad movies, but I've found a few that I really liked that were panned by critics. Is Mr. Joy so risk-averse that he needs his movies to be guaranteed satisfactory?
Bill Joy is fine. I'm not sure about you. (Score:3, Insightful)
(Obviously, they don't care because
Real worry is the exact opposite (Score:3, Insightful)
It is terribly hard to build your first few nanites. Then you have to look at the replication ratio. How many more of itself can a self-replicator build before it fails? You've got to get the ratio above one.
The likely scenario is that the self-replicators are not robust and we never develop the technology to the point at which the ratio is solidly above one. So civilisation potters along quite wealthy for 50 years, then problems with contanimation, vibration, temperature, something, result in the nanites dying off. It could take decades to recover the lost art of building the first few, decades of great hardship for a society that has come to depend on nano-technology.
Obligatory Star Trek reference (Score:3, Funny)
These tribbles are everywhere!
- Thomas;
This isn't news! (Score:4, Informative)
Drexler *never* said that "grey goo" would consume the biosphere. What he actually said was "Dangerous replicators could easily be too tough, small, and rapidly spreading to stop - at least if we made no preparation." (emphasis mine, see Engines of Creation Chapter 11 [foresight.org]). It has been known for more than a decade that there are easy solutions to the problem of designing "safe" replicators that do not grow exponentially using strategies such as the "broadcast architecture" (in computer science terms -- you never give a replicator a copy of its own source code). [See Merkle, R. C., "Self Replicating Systems and Molecular Manufacturing [zyvex.com]", JBIS 45:407-413 (1992)].
Nor is the idea that assembly lines produce better manufacturing systems than self-replicating systems new. [See Hall, J. S., "Architectural considerations for self-replicating manufacturing systems [foresight.org]", Nanotechnology 10(3):323-330 (September, 1999).] It is obvious that the ability to self-replicate is extra overhead when compared with assembly systems optimized for specific assembly tasks.
Finally, it was shown several years ago that we have the technology to detect out-of-control self-replicating systems (nanorobots generate heat which can be detected by existing satellite systems). [For a discussion of various scenarios read: Freitas, R. A., "Some Limits to Global Ecophagy by Biovorous Nanoreplicators with Public Policy Recommendations [foresight.org]" (May, 2000).]
Drexler alludes to the fact that we are already in the midst of a "green goo" ("We have trouble enough controlling viruses and fruit flies.") Most people are unaware of the fact that they have more copies of foreign genomes (in the form of self-replicating bacteria) on or in their body than they have copies of their own genome. Some of these bacteria actually produce vitamins that humans use. So "goo" scenarios should not be viewed as completely negative. It is worth noting that the same methods that can be used to stop the "green goo" (e.g. heat or radiation) can be used to stop the "gray goo" if we are prepared to detect and eliminate it. One sees examples of this today as government agents circulate through the crowd waiting to view President Regan's body in Washington with biological and chemical weapons detectors. It simply comes down to understanding the hazards and being prepared to deal with them.
It is also worth noting that the design of fully self-replicating nanorobots is *not* a simple or inexpensive task. (Look at how long it took Nature to get it started...) So it is highly improbable that such abilities could be developed by rogue groups before civilized nations developed robust detection and elimination methods.
For people who want to read more details, the IOP press release is here [iop.org] and points to the actual paper [iop.org] (registration probably required).
Also, I would respectfully request before you post any responses to this note that you "go do your homework" (that will put you one up on the reporters reporting on this and allow for an informed discussion).
if they self-replicate (Score:5, Insightful)
No, that's not what he said; that statement is an oxymoron. If something self-replicates, its numbers necessarily grow exponentially until it hits resource constraints in the environment. There are no "nanomachines that self-replicate sub-exponentially".
What Drexler said that nanomachines that self-replicate are unlikely to ever enter widespread use, and therefore nanomachines will not replicate exponentially. Instead, they will be manufactured by desktop machines, according to him.
this is silly (Score:3, Insightful)
Look at it this way - we have self-replicating nano-bots right now - they are called bacteria. Have they turned the world into gray goo in runaway exponential growth? Are we going to be able to make more efficient nano-bots than mother nature has done in the last 4 billion years?
Bill Joy's worries about nano-bots are like saying we should stop all research into magic because we could set off a chain reaction that would turn us all into frogs. Nano-bots are FANTASY
What's stopped "grey goo" from happening already? (Score:3, Interesting)
I expect it something to do with the amount of energy required to do the job. Although there's a lot of energy around, it's distribution is fairly sparse. Evolution has already made some pretty damn good systems for capturing, storing and using stored energy. Unless nanobots happen to be an order of magnitude more efficient than any possible thing evolution has ever produced, I doubt that it would be possible to achieve any high-impact 'grey goo' scenario.
Why not ask an expert? (Score:3, Funny)
Drexler is right, but for the wrong reasons (Score:4, Interesting)
However, the totality of life in its present form is actually quite vulnerable to being taken over by a distinctly different and new form of life (in fact this already happened once, to a lesser degree, with photosynthesis). The reason is that, although the current totality of life appears incredibly diverse in one sense, at the most fundamental level there is an extraordinary unity. This unity is found in the method by which the principle components of all living organisms are assembled: the linkage of amino acids on the ribosome as directed by DNA sequence.
This unity makes us (and ALL other extant life) vulnerable to outcompetition by a new type of assembly system. But if such a system emerges, it will NOT resemble the industrial kinds of nanoassemblers proposed by Drexler et. al. Instead, this kind of system would have the flexibility and compositional variability of existing living chemical systems, which would enable it to evolve through mutation and mechanisms of selection.
Second, such a system would have machines capable of genetically-directed molecular assembly, but the components of such a system would not be limited to existing biological building blocks such as amino acids, nucleic acids, carbohydrates and lipids. Indeed, the advantages of a wider material repertoire have been pointed by Drexler.
Of course, a new kind of self-replicating system such as this would have to be initially created by pre-existing life (presumably us), but since it is evolvable, its subsequent nature could easily grow out of our control.
Now, to the final question of whether a new self-replicating system could outcompete ALL existing life. I assert that this is unlikely, but for a very different reason than that given by Drexler or others. The reason is NOT because it would be limited by energy utilization, or because that current life forms are already optimally evolved in the use of energy and materials.
Current living organisms do NOT come close to achieving the theoretical optimums of efficiency. This is only achieveable by the industrial kinds of nanomachines mentioned above, which are not a threat because of their brittle and specialized nature. In addition, the criteria for what is optimal depends on the conditions of the local environment, so that control of the nature of the local environment is a critical factor in determining who can best survive in that environment.
The real reason that the threat is limited is that any self-replicating system, no matter how optimized at the molecular level, would also need to compete for resources and control of the environment at the macroscopic scale. To compete at the macroscopic scale requires macroscopic sensor and effectors, and some kind of control system to integrate them. That is, any new form of life that hopes to take over will have to acquire something akin to a macroscopic nervous system.
While such a scenario is certainly possible, this is a whole new requirement that must be met, and I don't believe that it has been sufficiently addressed when considering the likelihood of the 'grey goo' scenario.
mhack
thats the problem mankind has today... (Score:2, Informative)
Re:Hold on (Score:3, Interesting)
Re:Many? (Score:4, Informative)
Perhaps he should not be called the father of nano. The real father of nano is Richard Fayman. In his lecture entitled "There Is Plenty of Room At the Bottom" he basically invented the concept. Drexler, however brought it forward. He has a Ph.D. in Molecular Nanotechnology from MIT (a degree that did not exist before Drexler was awarded it). His S.M. and S.B. are both from MIT as well. He was a research affiliate for two departments at MIT and a visiting scholar at Stanford, where he taught a doctorate level class. As recently as 1993 he won the Kilby Yound Innovator Award. He has testified before Congress, written dozens of articles and books, even winning the 1992 Oustanding Computer Science Book for Nanosystems, a VERY technical book almost impossible to understand for anyone without at least a M.S. in Chem or Engineering (or both!). He holds numerous patents, and has lectured everywhere from Apple and Bell Labs to TI and the Xerox PARC.
Disbelieve if you want, but please do not be so foolish as to challange the credentials of Dr. Drexler.
Re:Hype and FUD (Score:3, Funny)