C-R-Newsletter #54

The latest edition of the C-R-Newsletter has been posted on our main website.

CONTENTS OF THIS ISSUE:

CRN Announces Conference Speakers
Early Bird Discounts
From Basic Nanotech to MM
Visions of the Future
The Future, Actually
Trends in Violence
Talking Nano at WorldFuture 2007
Foresight Names New President
Feature Essay: Figuring Cost for Products of Molecular Manufacturing

Read the whole newsletter here — and sign up for a free subscription here.

Tags: nanotechnology nanotech nano science technology future

Scientific Illiteracy

Okay, everybody, it's game show time!

Welcome to --
SCIENTIFIC ILLITERACY!!

Today's contestants are...

• China
  
• EU (European Union)
  
• Japan
  
• Malaysia
  
• Russia
  
• South Korea
  
• USA

We'll ask ten questions designed to measure literacy in basic scientific facts. Who do you think will do the best? Or the worst?

Here are the questions (answers below):

TRUE or FALSE?

1. Lasers work by focusing sound waves
2. It is the father’s gene which decides whether the baby is a boy or a girl
3. All radioactivity is man-made
4. The center of the Earth is very hot
5. The universe began with a huge explosion
6. Antibiotics kill viruses as well as bacteria
7. Electrons are smaller than atoms
8. Human beings are developed from earlier species of animals
9. The continents have been moving their location for millions of years and will continue to move

   And, finally, the BONUS QUESTION:
   

10. Does the Earth go around the Sun, or does the Sun go around the Earth?

So, which contestant got the most answers right? Which part of the world's residents rate the highest in scientific literacy, and which are the worst?

Average % of correct answers:

63% - EU
60% - South Korea
58% - USA
51% - Japan
50% - Malaysia
39% - Russia
37% - China

Hm, I guess Communism don't work so well, do it? As an American, I'm pleased (and somewhat surprised) that the USA did not do worse. But hats off to those Europeans!

Click here for a chart with all the data, compiled by the National Science Foundation.

*** Finally, do you know the right answers? Here they are:

1. False
2. True
3. False
4. True
5. True
6. False
7. True
8. True
9. True
10. Earth around the Sun - - - D'oh!

Mike Treder

Tags: nanotechnology nanotech nano science technology ethics weblog blog

More on Humans and Violence

Harvard psychology professor Steven Pinker asserts that: "Violence has been in decline over long stretches of history, and today we are probably living in the most peaceful moment of our species' time on earth."

As we discussed last week, this is a highly promising analysis, and Pinker marshals impressive evidence to make his case. Today we'll examine a few points from his essay in more detail, and then consider the conjunction of these trends with the projected impacts of advanced nanotechnology.

After citing studies that show a remarkable reduction in violence "visible at the scale of millennia, centuries, decades, and years," Pinker addresses the probable reaction of his audience: Can this really be true?

The decline of killing and cruelty poses several challenges to our ability to make sense of the world. To begin with, how could so many people be so wrong about something so important?

Partly, it's because of a cognitive illusion: We estimate the probability of an event from how easy it is to recall examples. Scenes of carnage are more likely to be relayed to our living rooms and burned into our memories than footage of people dying of old age.

Partly, it's an intellectual culture that is loath to admit that there could be anything good about the institutions of civilization and Western society.

Partly, it's the incentive structure of the activism and opinion markets: No one ever attracted followers and donations by announcing that things keep getting better.

And part of the explanation lies in the phenomenon itself. The decline of violent behavior has been paralleled by a decline in attitudes that tolerate or glorify violence, and often the attitudes are in the lead. As deplorable as they are, the abuses at Abu Ghraib and the lethal injections of a few murderers in Texas are mild by the standards of atrocities in human history. But, from a contemporary vantage point, we see them as signs of how low our behavior can sink, not of how high our standards have risen.

That's a powerful set of arguments and it fits well with my own interpretation of history and anthropology. In general, human societies today are substantially "better" than at any time in the past: we are smarter, cleaner, healthier, more tolerant, and more humane than even a few generations ago, and the farther back you look, the more striking are the changes.

But if this is so, as it certainly seems to be, the next question is -- why? As Pinker says:

The other major challenge posed by the decline of violence is how to explain it. A force that pushes in the same direction across many epochs, continents, and scales of social organization mocks our standard tools of causal explanation. The usual suspects—guns, drugs, the press, American culture—aren't nearly up to the job. Nor could it possibly be explained by evolution in the biologist's sense: Even if the meek could inherit the earth, natural selection could not favor the genes for meekness quickly enough.

I'm not sure that's true. As Nicholas Wade points out in a recent New York Times article:

Historians often assume that they need pay no attention to human evolution because the process ground to a halt in the distant past. That assumption is looking less and less secure in light of new findings based on decoding human DNA. . .

The emerging lists of selected human genes may open new insights into the interactions between history and genetics. “If we ask what are the most important evolutionary events of the last 5,000 years, they are cultural, like the spread of agriculture, or extinctions of populations through war or disease,” said Marcus Feldman, a population geneticist at Stanford. These cultural events are likely to have left deep marks in the human genome.

So we should not dismiss the possibility that natural selection can play a role in behavioral and societal changes over the course of a few thousand years. Maybe we are improving as a species not only at the social and cultural level, but at the biological level as well.

Pinker uses the last half of his essay to examine possible reasons, beyond genetics, for the steep and steady decline in violence. Among the four major options he suggests, one is the development of strong governmental structures -- "a state with a monopoly on violence" -- as a deterrent to individual and collective aggression.

This is where the widespread deployment of desktop manufacturing becomes a worry. Unless effective restrictions are in place to prevent dangerous weaponry from proliferating throughout populations, then we may be faced with a true "democratization of violence." The removal of the state's monopoly on force conceivably could plunge civilization into anarchy.

Even more unsettling as a proposed explanation for the continuing decline in violence, when considered in the context of a new economic paradigm brought about by molecular manufacturing, is the assumption that humans value other humans for utilitarian reasons. Pinker says:

As people acquire know-how that they can share cheaply with others and develop technologies that allow them to spread their goods and ideas over larger territories at lower cost, their incentive to cooperate steadily increases, because other people become more valuable alive than dead.

This calculation may lose force if desired goods become cheap and easily acquired, if human labor loses almost all value, and if the need for trust and cooperation dissipates. I'll leave the nasty implications to you for grim contemplation.

But let's try to end on a more hopeful note.

Pinker proposes that: "The decline of violence is a fractal phenomenon, visible at the scale of millennia, centuries, decades, and years." He cites studies that demonstrate this point -- that no matter where you look, there is a clearly detectable curve to the downward trend of violence.

Pinker calls it a "fractal phenomenon," but I think that's not quite the right term. Or, at least, it could be suggested that what he is describing is an exponential curve: no matter where you look, you see the same bend in the line. Of course, that suggests that eventually, perhaps soon, the curve will approach the vertical, arriving at a singularity.

Elsewhere (unconnected to CRN) I have written:

There is much to be happy about, including a century-long trend toward increased freedom and democracy, amazing advancements in health care and longevity, and far higher standards of living for most of the world's people. There is absolutely no reason to believe that these positive trends will not continue. In fact, it can easily be shown that the rate of increase in our overall goodness and caring for each other has been steadily accelerating.

Not only are we headed toward a technological singularity, but also toward a healthy lifespan singularity, a free democratic singularity, and an economic and cultural singularity.

Maybe, just maybe, that is true.

Mike Treder

Tags: nanotechnology nanotech nano science technology ethics weblog blog

Computers Improving Rapidly

Sun microsystems and IBM have announced petaflop computing systems. IBM's machine has "up to 294,912 cores, or 73,728 nodes." It seems to be tightly integrated, custom hardware. But Sun has achieved similar levels of performance with off-the-shelf technology: "Sun's unique approach to petascale computing combines state-of-the-art technology with system level innovation and off-the-shelf components in an open architecture."

Meanwhile, the NVIDIA Tesla puts a C compiler on a 128-core graphics chip, for half-a-teraflop scientific computing. Per chip. They sell two-chip PCI cards that plug into Windows or Linux PCs, as well as four-chip rack-mount configurations. They claim that their systems are "Scalable from one to thousands of GPUs."

Major hat tip to Sander Olson for all of the above.

And on the slightly more theoretical side, Prof. Uzi Vishkin at the University of Maryland is demoing a multicore computer architecture that's easy to program. In fact, it's so easy, Vishkin is letting high school students play with his system. He says it can scale to 1000 cores.

A couple of days ago, I wrote a column for Nanotech-Now.com where I pointed out that hobbyists have recently gained the ability to do serious simulations of molecular machine components--and this can be expected to accelerate molecular manufacturing. With teraflop processors coming to desktop PCs, and petaflop supercomputers being sold by at least two companies (three, if you count NVIDIA's scaling claims), it looks like computing power is about to take a major step forward.

Chris Phoenix

Tags: nanotechnology nanotech nano science technology ethics weblog blog

Visions of the Future

Four different but related future worlds emerged from a recent Oxford University conference sponsored by the UK's Economic and Social Research Council:

The purpose of the conference [was] to consider how technologies might develop and converge. How nanotechnology, genomics, information technology and cognitive science might come together to drive the next rounds of technological developments and what are the social, economic, environmental and other implications.

A quick look at future scenarios envisioned by conference participants:

The World of Gridlock
It is a world of competing world views and groups pitted against each other. Converging technologies have caused alignments of world views to come into a frozen and mutually dysfunctional equilibrium. It is a world of high competition, conflicting values and little co-operation... The traditional left-right alignments are re-organised but refrozen. The Capulets are the future 'enhanced' human beings. The Montagues represent the 'naturals'. They rarely talk to each other. It is a very scary world where you can start to see the outlines of speciation where more than one kind of human walks the earth.

The Competitive but Regulated World
This is a world where the regulations lag rapid innovation. The world is rapid in developing new technologies, but it's slow to learn from them. It has a lot of stop-start dynamics and reinforcing loops of behaviour. It returns to a question of how to regulate or manage what we don't know with uncertain developments in the future and also how to meet the challenges of globalisation.

The Open, Dynamic, Cooperative World
An attempt to show a fast-paced world with open sharing of information and dynamic public-private cooperation... The work of life extension becomes open sourced, and it becomes a multi-trillion industry, with people living well into their 180s... The six-legged horse of the future wins the Royal Ascot, and needy children win [Huh?] ... A neural net, a non-technological human capability, is developed to solve problems like climate change... Global carbon emissions decrease. It is a connection of the human and the technological.

The World of 'No Glue'
This is hyper-competitive world where social connections fray. It's an extremely fluid and dynamic world. The roots of this begin in the late-1970s and early 1980s with something as innocuous as automatic direct debit. Bill payments and direct payments develop complex system. Initially, the systems just carried out your wishes, but the systems began to make decisions for you based on criteria. It caused highly complex, interdependent, fluid world. There is a high level of noise with very little 'signal'. Information bombards you, but it's unclear what is accurate.

Read more about all four UK scenarios here.

* * * * *

In a far less sanguine but certainly more daring portrayal of the future, Dr. Yair Sharan, director of Tel Aviv University's Interdisciplinary Centre for Technology Analysis and Forecasting, foresees:

The World of Terror Horror
Western nations have less than 20 years to prepare for the next generation of terror threats... These could consist of suicide bombers remote-controlled by brain-chip implants and carrying nanotechnology cluster bombs, or biological compounds for which there is no antidote.

Dr. Sharan spoke last week at the Royal United Services Institute conference on Homeland Security:

We get a better-educated class of terrorists these days, he told the conference, while sci/tech advances can quickly find their way into irresponsible hands, or "proliferate" through the forces of globalisation. Not only that, technology is always smaller and cheaper, making it inevitable that bad people are going to get their hands on some bad-ass weaponry.

Most bizarre of all his predictions is "the recruitment of huge numbers of suicidal candidates -- human bombs -- by mind control techniques".

Brain chip implants could create a more obedient servant than conventional techniques like hypnosis: "Imagine that this suicide bomber is remote controlled and cannot give up, even if he wants," warned Sharan.

This might be some way off, though -- Sharan estimated it would be more than ten years. Within five years, however, we might be faced with terrorists armed with powerful new explosives delivered by robot. Even remote controlled toys might be used to deliver dangerous payloads into crowded places like supermarkets, he said.

Some of these payloads, also conceivably within five years, would be constructed using radical nanotechnology that could produce something called the MOAB, or Mother of All Bombs. Nanotechnology, which is made using components one billionth of a metre across, might also give terrorists the means to release malicious nanobots into people's bloodstreams.

Malicious nanobots? Let's hope not. It is probably helpful, though, for someone like Sharan to raise concerns that only a few years ago would be laughed away as 'obviously' science fiction.

* * * * *

CRN's Global Task Force on Implications and Policy is moving forward with our own project to create a series of scenarios depicting various futures in which molecular manufacturing could be developed. Those stories will be made public within the next month or two and will be a major topic of discussion at our "Challenges & Opportunities" nano/bio conference this September in Tucson.

Mike Treder

Tags: nanotechnology nanotech nano science technology ethics weblog blog

Creepy, Crazy, or Logical?

From a fascinating piece in the Washington Post by William Saletan:

To make humanized animals really creepy, you'd have to do several things. You'd increase the ratio of human to animal DNA. You'd transplant human cells that spread throughout the body. You'd do it early in embryonic development, so the human cells would shape the animals' architecture, not just blend in. You'd grow the embryos to maturity. And you'd start messing with the brain.

We're doing all of these things. . .

We're not doing these things because they're creepy. We're doing them because they're logical. The more you humanize animals, the better they serve their purpose as lab models of humanity. That's what's scary about species mixing. It's not some crazy Frankenstein project. It's the future of medicine.

Once again, science is taking us into places that will, at first, make certain people a tad squeamish. But, as Saletan suggests, that's not new and it's being done for the right reasons:

We've been transplanting baboon hearts, pig valves and other animal parts into people for decades. We've derived stem cells by inserting human genomes into rabbit eggs. We've created mice that have human prostate glands. We've made sheep that have half-human livers.

Last week, Britain's Academy of Medical Sciences reported that scientists have created "thousands of examples of transgenic animals" carrying human DNA. According to the report, "the introduction of human gene sequences into mouse cells in vitro is a technique now practiced in virtually every biomedical research institution across the world."

Why have we done this? To save lives.

Of course there will be objections from well-meaning people, and they should be evaluated seriously. The cultural "shock and awe" that we discussed last week is likely to increase in the coming years. But let's not forget that at various points in history smallpox vaccination, anesthesia, and blood transfusions all were said to be immoral.

Still, it does give pause when you consider something like this:

Last month, ethicists from Stanford University and the University of Wisconsin detailed a proposal by a Stanford scientist to substitute human brain stem cells for dying neurons in fetal mice. "The result would be a mouse brain, the neurons of which were mainly human in origin," they reported. The payoff, if the fetuses survived, would be "a laboratory animal that could be used for experiments on living, in vivo, human neurons." Imagine that: a humanoid brain network you can treat like a lab animal, because it is a lab animal. . .

When Stanford's ethicists first heard the proposal for humanized mouse brains, they were grossed out. But after thinking it over, they tentatively endorsed the idea and decided that it may not be bad to endow mice with "some aspects of human consciousness or some human cognitive abilities." The British academy and the U.S. National Academy of Sciences have likewise refused to permanently restrict the humanization of animals.

It's essential, we believe, to have open public debates about the value and the propriety of such ethically-charged cutting edge research. Science can't proceed without venturing into new fields, but citizens, who pay for much of this work with tax dollars, deserve to know about it. We're pretty sure that most people, once properly informed, will appreciate the benefits of these new endeavors -- after they get over being stunned, like I was.

Mike Treder

Tags: nanotechnology nanotech nano science technology ethics weblog blog

Adventures in Shopping

Not Necessarily Relevant Quote of the Week:

I tried on some nanopants the other day, but they were just too damn small.

— Anonymous

Tag: quotes

Nanoscale Game-Playing

So I downloaded and played this NANOQUEST game (available free here). It's fairly interesting and fun to play...

The concept is that you, the player, have been shrunk down to nano-size and now you have to build a nanocar (which you get to drive!) and then go fix a quantum computer so you can get back to normal size. It's kind of silly, and not especially helpful in teaching about nanotechnology, but some people will find it enjoyable. The scenes are sometimes excitingly futuristic, and the game plays a bit like Super Mario Bros set in the world of Tron, although it's not quite as much fun.

I'm still waiting for the ultimate nanoscale game, not to mention the ultimate nanotech movie -- maybe someday!

Mike Treder

Tags: nanotechnology nanotech nano science technology ethics weblog blog

Molecular Machine Questions

Michael Anissimov at Accelerating Future has written a thoughtful post on a variety of issues that may have to be solved before molecular manufacturing works as projected. He discusses Richard Jones's challenges; although he agrees that more research is needed on some of them, others appear to be less critical-path. Michael's analysis looks pretty good to me.

Michael also has a couple of other interesting links. One is an expanded and, I think, improved list of challenges, compiled by Robert Freitas. The other is an interesting blog that describes attempts to design molecular "hard machines" with NanoRex's NanoEngineer-1 software.

As NanoEngineer-1 becomes available to more people, and computers continue to improve, and designs accumulate, I expect to see a rapid increase in interest and design skill. NanoEngineer-1 can deal with DNA as well as diamondoid, so it also may be useful for investigating hybrid or bootstrapping designs.

Chris Phoenix

Tags: nanotechnology nanotech nano science technology ethics weblog blog

Trends in Violence

Our friend (and charter member of the CRN Global Task Force) David Brin recently posted an excellent three part series (read the whole thing!) on his blog about the correlation between advances in civilization and declines in violence.

Brin quotes extensively from an essay by Steven Pinker called "A HISTORY OF VIOLENCE," in which Pinker debunks the doctrine of the noble savage and asserts that civilization is in fact quite civilizing, producing a strong trend away from violence and toward peace. It's interesting to note the way Pinker's essay, posted at The Edge, is subtitled:

In the decade of Darfur and Iraq, and shortly after the century of Stalin, Hitler, and Mao, the claim that violence has been diminishing may seem somewhere between hallucinatory and obscene. Yet recent studies that seek to quantify the historical ebb and flow of violence point to exactly that conclusion.

Here are some excerpts from Pinker:

The decline of violence is a fractal phenomenon, visible at the scale of millennia, centuries, decades, and years. It applies over several orders of magnitude of violence, from genocide to war to rioting to homicide to the treatment of children and animals. And it appears to be a worldwide trend, though not a homogeneous one. The leading edge has been in Western societies, especially England and Holland, and there seems to have been a tipping point at the onset of the Age of Reason in the early seventeenth century. . .

The criminologist Manuel Eisner has assembled hundreds of homicide estimates from Western European localities that kept records at some point between 1200 and the mid-1990s. In every country he analyzed, murder rates declined steeply—for example, from 24 homicides per 100,000 Englishmen in the fourteenth century to 0.6 per 100,000 by the early 1960s.

On the scale of decades, comprehensive data again paint a shockingly happy picture: Global violence has fallen steadily since the middle of the twentieth century. According to the Human Security Brief 2006, the number of battle deaths in interstate wars has declined from more than 65,000 per year in the 1950s to less than 2,000 per year in this decade. In Western Europe and the Americas, the second half of the century saw a steep decline in the number of wars, military coups, and deadly ethnic riots.

Zooming in by a further power of ten exposes yet another reduction. After the cold war, every part of the world saw a steep drop-off in state-based conflicts, and those that do occur are more likely to end in negotiated settlements rather than being fought to the bitter end. Meanwhile, according to political scientist Barbara Harff, between 1989 and 2005 the number of campaigns of mass killing of civilians decreased by 90 percent.

So, if you accept the evidence (which seems overwhelming) that through the influence of civilization, humankind is rapidly maturing into a nonviolent animal, is that not cause for rejoicing? Why then is CRN so concerned about a new era of arms building and devastating warfare triggered by the advent of molecular manufacturing?

It's been suggested by some observers that in a time of ubiquitous personal nanofactories, the resulting widespread wealth and release from subsistence needs might be a strong contributor to avoidance of conflict. 'Tis a consummation devoutly to be wished.

I worry that although reduction of pressure to acquire more resources could decrease some reasons for conflict, another cause of war may simultaneously be dramatically increased.

As Jürgen Altmann writes (on page 149) in his new book Military Nanotechnology:

MNT would strongly destabilize the military situation [his emphasis] between potential opponents… With its potential for extremely fast increases in military production, MNT would represent the culmination in quantitative technological arms races… Early start could provide decisive advantages, up to — in theory — the capability of world domination… As a consequence, the military powers would be under extreme pressure to go forward as rapidly as possible when MNT drew close… Because of the potentially huge consequences, even political/military partners might not want to rely on the stability of their mutual relations.

Removal of need for conquest to gain wealth does not imply removal of fear of preemptive attacks, and if the only apparent protection against being attacked is to attack first, then devastating wars appear inevitable. If multiple parties/nations have access to MM, then some mechanism will have to be found for avoiding a new arms race that could rapidly spiral out of control.

Or am I wrong? Perhaps current trends will continue and the better angels of our nature will prevail. Perhaps, even in the absence of directed action to avert a buildup of nano arms and a cycle of deadly wars, peace and prosperity will ensue. That may well be the case. But as long as uncertainty lingers, I'm not sure I'm willing to risk it.

Mike Treder

Tags: nanotechnology nanotech nano science technology ethics weblog blog