could emerge within the next twenty years.
Question: You have just returned from AGI 2011. How did that go?
AGI 2011 was a complete success. Peter Norvig, who is the head of research at Google, attended this event, and he literally wrote the book on AI. The large number of presenters and obvious excitement that AGI 2011 generated clearly indicates that interest in this topic is increasing.
Question: Henry Markram's Blue Brain project aims to simulate a human brain within a decade. Do you think these efforts will be successful?
That depends on how one defines "success". Markram is a first-rate researcher, and he is clearly advancing the field. But when he speaks of modeling the human brain, he may mean trying to generically model cortical columns and brain structures. That is quite different than modeling a specific brain, in which each neural circuit is a meaningful consequence of experience. The latter is what whole brain emulation is about.
Question: But couldn't such a generic brain serve as a tabula rasa, on which a specific personality could be mapped?
That might be possible. I don't know if that is Markram's specific plan, but I can imagine that he may be aiming to improve the specificity of his model. That is the type of thing that can be achieved using his method. This field is advancing exponentially, and we are constantly attaining new capabilities that we didn't have before.
Question: Given the staggering complexity of the human brain, wouldn't simulating a fruit fly's brain first make more sense?
Markram didn't start by trying to simulate an entire human brain - he started with a single cortical column from a rat. He had previously done studies on those types of cortical columns, and so was an authority on the subject. You are probably right that a fine-grained, comprehensive simulation of a fruit fly brain would be more feasible. But that doesn't have the same allure, and human brain simulations are always going to be the ultimate goal.
Question: How fine-grained and accurate would a human brain simulation need to be in order to simulate consciousness? What would be the computing requirements?
I don't know what the CPU or memory requirements would be to simulate a whole human brain. I am confident that those requirements could be met today at huge cost, or within a decade at a greatly reduced cost. But the complexity goes up enormously depending on whether you want to model spiking neurons, or if you want to simulate how the membrane potential changes over morphologically correct neurons. If you go down to modeling molecular processes, then that gets even more complex. I make it a point not to speculate on specific technologies and approaches, because before further study jumping on any one path may result in a dead end.
Question: What is the carboncopies foundation?
The carboncopies foundation was founded by Suzanne Gildert and myself in 2010 and is specifically technology agnostic. It has four reasons for existing. First, it aims to create and maintain a network of researchers working in the field. Second, we engage in outreach, to explain about the fundamentals of substrate independent minds. Third, we engage in direct research into the fundamentals of minds. Finally, we are creating a roadmap to achieving substrate independent minds.
Question: How big is carboncopies? How many members does it have?
In addition to the founders, who take care of organizational matters, there are 25 or so researchers who are working with us. There are about 200 people who have expressed their interest in the subject by signing up to our Facebook group. Given how rapidly this field is growing, those numbers should substantially increase.
Question: Is the field of brain science expanding exponentially?
In neuroscience, we are on an exponential curve. For the past 90 years or so the pace of discovery was slow, but new tools are being developed. The process of learning about the brain is becoming automated, and the field of “connectomics” (mapping all the connections in the brain) and emulation of brain circuitry is really taking off. Entirely new fields, such as neuroinformatics, have been created.
Question: And what is neuroinformatics?
Neuroinformatics is broader than brain emulation. Brain emulation is different than simulation, in that emulation strives for a perfect replica. Neuroinformatics is an outgrowth from computational neuroscience. Neuroinformatics begins to deal with vast amounts of brain data, connecting large scale and high resolution information. Neuroinformatics is an attempt to take neuroscience to the same place that bioinformatics has taken the genome.
Question: What is your response to AI skeptics that claim that brain processes cannot be emulated by a digital machine?
They are probably both right and wrong. They are right in that trying to emulate brain processes on a conventional computer would at best be inefficient. The Blue Brain project uses a supercomputer dissipating 10s of kilowatts to simulate biological activities that consume 10s of watts. However, there is no evidence that the activities occurring in the brain are incomputable. Even AI skeptics such as Penrose and Hammerhoff don't argue that the brain's processes are incomputable.
Question: Is the optimal way to AGI to emulate a human brain, or to adopt a different approach, along the lines of Itamar Arel and Ben Goertzel?
Both Arel and Goertzel are being inspired by cognitive models of the brain, so their approaches cannot be considered completely different. Some researchers, however, adopt approaches that are not based on the brain but rather on mathematical models. Marcus Hutter and Juergen Schmidhuber often take a mathematical approach which is unrelated to brain research. I don't know which approach is best, but the brain emulation approach is virtually guaranteed to work, given sufficient resources.
Question: How fine-grained a simulation will be necessary to create a truly sentient machine?
There are many different theories regarding how consciousness emerges and what it is. I personally believe that some degree of consciousness will emerge from generating a model of self within one's environment, senses and actions. I don't think that understanding molecular-level processes is necessarily a prerequisite for that.
Question: Do you think that an x-prize for a high-level simulation of a human brain could be effective in spurring AGI development?
That would certainly help. Prizes serve as an effective pull to draw resources and funding, and companies realize that the value of developing the technology is much greater than the actual prize. I could see a number of x-prizes being useful, including a brain-computer interface prize, a recording from the brain prize, and a prize for emulating smaller and larger brains. So the brain emulation field would definitely benefit from such prizes.
Question: Has there been a writer who has particularly influenced your views on brain emulation?
When I was 13, I read Arthur Clarke's The City and the Stars. In that novel people have multiple 1,000 year lives in turns. After each, they return to the computer, which stores their information, atom by atom. That novel profoundly affected me, because I had already realized that there was no way that I had enough time and capability to do everything that I wanted to do. That novel made me realize that the mind was the crucial element, and inspired me to become a brain researcher.
Question: You also work for Halcyon molecular. How is that work going?
The Andregg brothers (founders of Halcyon) have the same dream that I have to gain time and capability, and eventually to achieve substrate independent minds. They are interested in all the subjects that I am interested in, such as AGI, SENS, cryonics, and nanotechnology. The low-cost DNA sequencing that we are perfecting looks very promising, and we are rapidly overcoming the technical hurdles.
Question: How important is low-cost DNA sequencing to brain emulation?
It is potentially quite important. This capability will allow us to examine DNA in the brain, perhaps even to extract the entire connectome with a new method that uses synthetic DNA tags for connections. So the technologies that Halcyon is developing are directly beneficial to whole-brain emulation.
Question: When will the first "substrate independent mind" emerge?
Creating such a mind would depend on how many resources were put towards it. We are in an acceleration period for fields such as whole brain emulation and the human connectome. New people are entering the field, and mainstream scientists are now openly discussing brain emulation and emulating functions of the brain in computers. These fields should accelerate even further. Although I'd like to think that we could succeed within the next 20-40 years, it all depends on the strength of the effort.
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