Lex Fridman Podcast - #321 – Ray Kurzweil: Singularity, Superintelligence, and Immortality
Episode Date: September 17, 2022Ray Kurzweil is an author, inventor, and futurist. Please support this podcast by checking out our sponsors: - Shopify: https://shopify.com/lex to get 14-day free trial - NetSuite: http://netsuite.com.../lex to get free product tour - Linode: https://linode.com/lex to get $100 free credit - MasterClass: https://masterclass.com/lex to get 15% off - Indeed: https://indeed.com/lex to get $75 credit EPISODE LINKS: Ray's Website: https://kurzweilai.net Ray's Books: The Singularity Is Nearer (pre-order): https://amzn.to/3BNXmGR How To Create A Mind: https://amzn.to/3qqlkBw The Singularity Is Near: https://amzn.to/3DfXP5z The Age of Spiritual Machines: https://amzn.to/3RSjtAX Danielle: https://amzn.to/3Bww2N7 Transcend: https://amzn.to/3RAEYGV PODCAST INFO: Podcast website: https://lexfridman.com/podcast Apple Podcasts: https://apple.co/2lwqZIr Spotify: https://spoti.fi/2nEwCF8 RSS: https://lexfridman.com/feed/podcast/ YouTube Full Episodes: https://youtube.com/lexfridman YouTube Clips: https://youtube.com/lexclips SUPPORT & CONNECT: - Check out the sponsors above, it's the best way to support this podcast - Support on Patreon: https://www.patreon.com/lexfridman - Twitter: https://twitter.com/lexfridman - Instagram: https://www.instagram.com/lexfridman - LinkedIn: https://www.linkedin.com/in/lexfridman - Facebook: https://www.facebook.com/lexfridman - Medium: https://medium.com/@lexfridman OUTLINE: Here's the timestamps for the episode. On some podcast players you should be able to click the timestamp to jump to that time. (00:00) - Introduction (07:06) - Turing test (20:52) - Brain–computer interfaces (32:32) - Singularity (38:51) - Virtual reality (41:31) - Evolution of information processing (47:57) - Automation (57:58) - Nanotechnology (59:52) - Nuclear war (1:01:57) - Uploading minds (1:09:39) - How to think (1:16:09) - Digital afterlife (1:25:29) - Intelligent alien life (1:28:19) - Simulation hypothesis (1:32:31) - Mortality (1:40:11) - Meaning of life
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The following is a conversation with Ray Kurzweil, author, inventor, and futurist, who has
an optimistic view of our future as a human civilization.
Predicting that exponentially improving technologies will take us to a point of a singularity, beyond
which superintelligent artificial intelligence will transform our world in nearly unimaginable
ways. 18 years ago, in the book Singularity is
near, he predicted that the onset of the Singularity will happen in a year 2045. He still holds
to this prediction and estimate. In fact, he's working on a new book on this topic that
will hopefully be out next year.
And now, a quick two second mention of
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And now dear friends, here's Near, you predicted that the singularity will happen
in 2045. So now 18 years later, do you still estimate that the singularity will happen
on 2045 and maybe first what is the singularity, the technological
singularity and when will it happen?
Singularity is where computers really change our view of what's important and change who
we are, but we're getting close to some salient things that will change who we are. A key thing is 2029 when computers will pass the Turing test.
And there's also some controversy
whether the Turing test is valid, I believe it is.
Most people do believe that, but there's
some controversy about that.
But Stanford got very alarmed at my prediction about 2029.
I made this in 1999.
I made my book The Ages, Spiritual Machines.
Right.
And then you repeated the prediction in 2005.
In 2005.
Yeah.
So the held international conference you might have been aware of it,
of AI experts in 1999 to assess this view. So people gave
different predictions, and they took a poll. It was really the first time that AI experts
worldwide were pulled on this prediction. And the average poll was 100 years. 20% believed it would never happen.
And that was the view in 1999.
80% believed it would happen, but not within their lifetimes.
There's been so many advances in AI
that the poll of AI experts has come down over the years.
So a year ago, something called meticulous, which maybe
were assesses different types of experts on the future, they again assessed what AI
experts then felt. And they were saying 2042 for the drawing test for the
training test. So it's coming down. And I was still saying 2029.
A few weeks ago,
they again did another poll
and it was 2030.
So,
AX was now basically agree with me.
I haven't changed at all.
I've stayed with 2029.
And AX was now agree with me,
but they didn't agree with me,
but they didn't agree at first.
So Alan Turing formulated the Turing test.
And.
Right.
Now, what he said was very little about it.
I mean, the 1950 paper where he articulated the Turing test,
there's like a few lines that talk about the touring test.
And it really wasn't very clear how to administer it.
And he said, if they did it in like 15 minutes,
there would be sufficient,
which I don't really think is the case.
These large language models, now,
some people are convinced by it already. I mean, you can
talk to it and have a conversation with you. You can actually talk to it for hours.
So it requires a little more depth that some problems with large language models, which
we can talk about. But some people are convinced by the Turing test.
Now, if somebody passes the Turing test, what are the implications of that?
Does that mean that they're sentient, that they're conscious or not?
It's not necessarily clear what the implications are.
Anyway, I believe 2029, that's six, seven years from now, we'll have something to
pass with the Turing test and a valid Turing test. Meaning it goes for hours, not just a few
minutes. Can you speak to that a little bit? What is your formulation of the Turing test?
You've proposed a very difficult version of the torrent test.
So what does that look like?
Basically, it's just to assess it over several hours.
And also have a human judge that's fairly sophisticated on what computers can do and
can't do.
If you take somebody who's not that sophisticated, or even an average engineer, they may not
really assess various aspects of it.
So you really want the human to challenge the system?
Exactly.
Exactly.
On its ability to do things that common sense reasoning, perhaps.
That's actually a key problem with large language world. So they don't do these kinds of tests that would involve
assessing change of reasoning. But you can lose track of
that. If you talk to them, they actually can talk to you
pretty well. And you can be convinced by it.
But it's somebody that would really convince you that it's a human.
Whatever that takes, maybe it would take days or weeks, but it would really convince
you that it's human.
Language-language models can appear that way. You can read conversations and they appear
pretty good. There are some problems with it. It doesn't do math very well. You can ask how many
legs did 10 elephants have and they'll tell you, well, okay, each elephant has four legs and 10
elephants, so it's 40 legs and you go, okay, that's pretty good. How many legs do eleven elephants have? And they don't
seem to understand the question. Do all humans understand that question? No. That's
the key thing. I mean, how advanced the human do you want it to be? But we do
expect a human to be able to do multi-chain reasoning, to be able to take a few facts
and put them together, not perfectly.
We see that in a lot of polls that people don't do that perfectly at all.
So it's not very well-defined, but it's something where it really would convince you that
it's something where it really would convince you that it's
a human.
Is your intuition that large language models will not be solely the kind of system that
passes the Torrentess in 2029?
Do we need something else?
No, I think it will be a large language model, but they have to go beyond what they're
doing now.
I think we're getting there. And another key issue is if
somebody actually passes the Turing test valedely, I would believe they're conscious. And
not everybody would say that. It's okay, we can pass the Turing test, but we don't really
believe that it's conscious. That's a whole nother issue. But if it really passes the turning test, I
would believe that it's conscious. But I don't believe that of large language models today.
If it appears to be conscious, that's as good as being conscious, at least for you,
in some sense. I mean, consciousness is not something that's scientific. I mean I believe you're conscious
but it's really just to believe when we believe that about other humans that at least appear to be
conscious. When you go outside of shared human assumption like our animals conscious,
some people believe they're not conscious, Some people believe they're not conscious. Some
people believe they are conscious. And would a machine that acts just like a human being
conscious. I mean, I believe it would be. But that's really a philosophical belief.
It's not, you can't prove it. I can't take an entity and prove that it's conscious.
There's nothing that you can do that would be, they would indicate that. It's like saying
a piece of art is beautiful. You can say it. Multiple people can experience a piece of art
is beautiful, but you can't prove it. But it's also an extremely important issue.
I mean, imagine if you had something with nobody's conscious,
the world may as well not exist.
And so some people like, say, Marvin Rinsky said,
well, consciousness is not logical, it's not scientific, and therefore we should dismiss
it and any talk about consciousness is just not to be believed.
But when he actually engaged with somebody who was conscious, he actually acted as if
they were conscious.
He didn't ignore that.
He acted as if consciousness were conscious. He didn't ignore that. He acted as if consciousness does matter.
Exactly.
Whereas he said it didn't matter.
Well, that's Mara Minsky.
Yeah.
He's full of contradictions.
But that's true of a lot of people as well.
But do you consciousness matters?
But to me, it's very important.
But I would say it's not a scientific issue.
It's a philosophical issue. And people have different views.
Some people believe that anything that makes a decision is conscious.
So you like switches conscious. It's level of consciousness is low.
It's not very interesting, but that's a consciousness.
And anything, so a computer that makes a more interesting decision, still out at human
levels, but it's also conscious and at a higher level than your light swadger.
So that's one view.
There's many different views of what consciousness is. So far, a system passes the towing test.
It's not scientific, but in issues of philosophy, things like ethics start to enter the picture. Do you think there would be, we would start contending as a human species about the ethics of turning off such a machine?
about the ethics of turning off such a machine. Yeah, I mean, that's definitely come up.
Hasn't come up in reality yet, but I'm talking about 2029.
It's not that many years from now.
So what are our obligations to it?
It has a different, I mean a computer that's conscious, it has a little bit different
connotations than a human.
We have a continuous consciousness
We're in an entity that
It's not last forever
Now actually a significant portion of humans still exist, and are there for still conscious,
but anybody who is over a certain age doesn't exist anymore, that wouldn't be true of
a computer program.
You could completely turn it off, and the copy of it could be stored and you could recreate
it.
And so it has a different type of validity.
You could actually take it back in time.
You could eliminate its memory and have it go over again.
I mean, it has a different kind of connotation than humans do.
Well, perhaps you can do the same thing with humans.
It's just that we don't know how to do that yet.
Yeah.
It's possible that we figure out all of these things
on the machine first.
But that doesn't mean the machine is unconscious.
I mean, if you look at the way people react, say,
3CPO or other machines that are conscious in movies,
they don't actually present how it's conscious,
but we see that they are a machine, and people will believe that they are conscious, and
they'll actually worry about it if they get in trouble and so on.
So 2029 is going to be the first year when a major thing happens. Right.
That will shake our civilization to start to consider the role of AI.
Well, yes and no.
I mean, this one guy at Google claimed that the machine was conscious.
That's just one person.
Right.
So it starts to happen at scale.
Well, that's exactly right. Because most people have not taken that position. I don't take that position.
I mean, I've used different things like this and they don't appear to me to be conscious.
As we eliminate various problems of these large language models, more and more people will
accept that they're conscious.
So when we get to 2029, I think a large fraction of people will believe that they're conscious.
So it's not going to happen all at once.
I believe they would actually happen gradually and it's already started to happen all at once. I believe it would actually happen gradually and the sort of he started to happen. And so that takes us one step closer to the
singularity. Another step then is in the 2030s when we can actually connect our
neocortex, which is where we do our thinking to computers.
And I mean, just this actually gains a lot
to being connected to computers
that will amplify its abilities.
If this did not have any connection,
it would be pretty stupid.
It could not answer any of your questions.
If you're just listening to this, by the way, Grace, holding up the all-powerful smartphone.
So we're going to do that directly from our brains.
I mean, these are pretty good.
These are already amplified our intelligence.
I'm already much smarter than I would otherwise be
if I didn't have this.
Because I remember I first spoke the age
of Intelligent Genre Machines, there was no way
to get information from computers.
I actually would go to a library, find a book,
find the page that had an information I wanted,
and I go to the copier, and my most significant information
tool was a roll of quarters where I could
feed the copier. So we're already greatly advanced that we have these things.
There's a few problems with it. First of all, I constantly put it down and I
don't remember where I put it. I've actually never lost it, but you have to find
it and then you have to turn it on.
So there's a certain amount of steps. It would actually be quite useful if someone would just
listen to your conversation and say, oh, that's, you know, some so actress and tell you what
you're talking about. So going from active to passive, where it just permeates your whole life.
Yeah, exactly.
The way your brain does when you're awake,
your brain is always there.
Right.
Now, that's something that could actually just about be done
today where we would listen to your conversation,
understand what you're saying,
understand what you're not missing
and give you that information.
But another step is to actually go inside your brain.
And there are some prototypes where you can connect your brain.
They actually don't have the amount of bandwidth that we need.
They can work, but they work fairly slowly.
So if it actually would connect to your neocortex,
and the neocortex which I described and how to create a mind, the neocortex is actually,
it has different levels, and as you go up the levels, it's kind of like a pyramid. The top level is fairly small and that's the level where you want to connect
these
brain extenders
So I believe that will happen in the 2030s. Well, she
So just the way this is
greatly amplified by being connected to the cloud
we can connect our own brain to the cloud.
And just do what we can do by using this machine.
Do you think it would look like the brain computer interface
of like neural link, so would it be?
Well, neural links and attempt to do that.
It doesn't have the bandwidth that we need.
Yeah, right.
Right. But I think, I mean, they're going to get permission
for this because there are a lot of people who absolutely need it,
because they can't communicate.
I know a couple of people like that who have ideas and they cannot,
they cannot move their muscles and so on, they can't communicate.
So for them, this would be very valuable, but we could all use it.
Basically, it would be a furnace into something that would be like we have a phone,
but it would be in our minds, it would
be kind of instantaneous.
And maybe communication between two people would not require this low bandwidth mechanism
of language.
Yes.
A spoken word.
Exactly.
We don't know what that would be, although we do know the computers can share information
like language instantly.
They can share many, many books in a second,
so we could do that as well.
If you look at what our brain does,
it actually can manipulate different parameters.
So we talk about these large language models.
So, we talk about these large language models. I mean, I had written that
it requires a certain amount of information in order to
be effective. And then we would not see
AI really being effective until it got to that level.
And we had lots of language models
that were like 10 billion bytes, didn't work very well. They finally got to 100 billion
bytes, and now they work fairly well, and now we're going to a trillion bytes. If you
say Lambda has 100 billion bytes, what does that mean? Well, what if you had something that had one byte, one one parameter
Maybe you want to tell whether or not something's
An elephant or not and so you put in something that would detect its trunk
If it has a trunk, it's an elephant if it doesn't have a trunk. It's not an elephant
Now work fairly well. There's a few problems with it.
It really wouldn't be able to tell what a trunk is, but anyway, and maybe other things other than
elephants have trunks, you might get really confused. Yeah, exactly. I'm not sure which animals have
trunks, but you know, it's how you define a trunk. But yeah, that's one parameter. You can do OK.
So these things have a hundred billion parameters.
So they're able to deal with very complex issues.
All kinds of trunks.
Human beings actually have a little bit more than that, but they're getting to the point
where they can emulate humans. If we were able to connect this to our Neo Cortex, we would basically add more of these
abilities to make distinctions, and it could ultimately be much smaller and also be attached
to information that we feel is reliable.
So that's where we're headed.
So you think that there will be a merger in the 30s, an increasing amount of merging between the
human brain and the AI brain. Exactly. And the AI brain is really an emulation of human beings.
I mean, that's why we're creating them, because human
beings act the same way, and this is basically to amplify them. I mean, this amplifies our
brain. It's a little bit clumsy to interact with, but it definitely is way beyond what we had
15 years ago. But the implementation becomes different, just like a bird versus the
airplane, even though the AI brain is an emulation, it starts adding features we might not otherwise
have, like ability to consume a huge amount of information quickly, like look up
thousands of Wikipedia articles in one take. Exactly. For example, the issues like simulated biology where it can simulate many different things
at once.
We already had one example of simulated biology which is the Moderna vaccine.
And that's going to be now the way in which we create medications.
But they were able to simulate what each example of an mRNA would do to a human being,
and they were able to simulate that quite reliably.
And we actually simulated billions of different mRNA sequences. And they
found the ones that were the best than they created the vaccine. And they did and talked
about doing it quickly. They did that in two days. Now how long would you and being
take to simulate billions of different mRNA sequences? I don't know that we could do it
at all, but it would take many years. They did it in two days. One of the reasons that people didn't like vaccines is because
it was done too quickly. It was done too fast. They actually included the time it took
to test it out, which was ten months. So they figured it took 10 months
to create this. Actually, it took us two days. And we also will be able to ultimately do
the tests in a few days as well.
Well, because we can simulate how the body will respond to it.
Yeah, more and more complicated because the body has a lot of different elements and
we have to simulate all of that, but that's
coming as well. So ultimately we could create it in a few days and then test it in a few
days and it would be done. And we can do that with every type of medical insufficiency that
we have. So, curing all diseases, improving certain functions of the body, supplements, drugs,
for recreation, for health, for performance, for productivity, all that kind of stuff.
Well, that's where we're headed.
Because right now we are very inefficient way of creating these new medications.
But we've already shown it. And the Moderna vaccine is actually the best
of the vaccines we've had.
And it literally took two days to create.
And we'll get to the point where we can test it out
and also quickly.
Are you impressed by alpha fold
and the solution to the protein folding, which essentially
is simulating modeling this primitive building block of life, which is a protein, and it's
3D shape.
It's pretty remarkable that they can actually predict what the 3D shape of these things
are, but they did it with the same type of neural net that one, for example,
the Go test. So it's all the same. It's all the same. They took that same thing and just changed the
rules to chess, and within a couple of days it now played a master's level of chess greater than any human being.
And the same thing then worked for AlphaPhone, which no human had done.
I mean, human beings could do the best humans could maybe do 15, 20% of figuring out what
the shape would be.
And after a few takes, it ultimately did just about 100%.
Do you still think the singularity will happen in 2045?
And what does that look like?
You know, once we can amplify our brain with computers directly, which will happen in
the 2030s, that's going to keep growing.
It's another whole theme, which is the exponential growth of computing power.
Yeah.
So looking at price performance of computation from 1939 to 2021.
Right.
So that starts with the very first computer actually created by German during World War
II. And you might have thought that that might be significant, but actually the Germans didn't
think computers were significant and they completely rejected it. The second one is also the Zeus
II. And by the way, we're looking at a plot with the X-axis being the year from 1935 to 2025.
And on the Y-axis and log scale is competition per second per constant dollar.
So dollar normalize the inflation.
And it's growing linearly on the log scale, which means it's growing exponentially.
The third one was the British computer,
which the Allies did take very seriously.
And it cracked the German code and enables
the British to win the Battle of Britain, which otherwise
absolutely would not have happened if they hadn't cracked
the code using that computer.
But that's an exponential graph.
So a straight line on that graph is exponential growth.
And you see 80 years of exponential growth.
And I would say about every five years,
and this happened shortly before the pandemic,
people saying, well, they call it Moore's Law,
which is not the correct, because that's not all Intel.
In fact, it started decades before Intel was even created.
It wasn't with transistors formed into a grid.
It was not just transistor count or transistor size.
Right.
It was started with real release.
Then went to vacuum tubes.
Then went to individual transistors, and then to
integrated circuits. And integrated circuits actually starts like in the
middle of this graph. And it has nothing to do with Intel. Intel actually was a
key part of this, but a few years ago they stopped making the fastest chips.
But if you take the fastest chip of any technology in that year, you get this kind of graph.
And it's definitely continuing for 80 years.
So you don't think Moore's law broadly defined is dead.
It's been declared dead multiple times.
Throughout this process.
I don't like the term Moore's law because there's nothing to do with Moore or with the
intel.
But yes, the exponential growth of computing is continuing and has never stopped from various
sources. I mean it went through World War
II, it went through global recessions, it's just continuing. And if you continue that out
along with software gains, which is another issue, and they really multiply whatever you get from software gains, you multiply by the computer
gains, you get fast and fast at speed.
This is actually the fastest computer models that have been created, and that actually expands
roughly twice a year, like every six months it expands, but two. So we're looking at a plot from 2010 to 2022 on the x-axis is the publication
data, the model and perhaps sometimes the actual paper associated with it.
And on the y-axis is training compute and flops.
And so basically this is looking at the increase in not transistors, but the computational power
of neural networks.
Yeah, it's the computational power that created these models.
And that's doubled every six months.
Which is even faster than transistor division.
Yeah.
Actually, since it goes faster than the amount of cost, this
has actually become a greater investment to create these. But at any rate, by the time
you get to 2045, we'll be able to multiply our intelligence many millions full. And
it's just very hard to imagine what that will be like.
And that's the singularity where we can't even imagine.
Right, that's why we call it the singularity.
It's the singularity in physics.
Something gets sucked into it's singularity and you can't tell what's going on in there
because no information can get out of it.
There's various problems with that, but that's the idea. It's too much beyond what we can
imagine. Do you think it's possible we don't notice that what the singularity actually feels like
is we just live through it with exponentially increasing cognitive capabilities.
with exponentially increasing
cognitive capabilities.
And we almost, because everything is moving so quickly, don't
aren't really able to introspect that our life has changed.
Yeah, but I mean, we will have that much greater capacity to understand things, so we should be able to look back, looking at history, understand history.
But we will need people basically like you
and me to actually think about these things. Think about it. But we might be distracted
by all the other sources of entertainment and fun because the exponential power of intellect
is growing, but also the, that would be a lot of fun. The amount of ways you can have, you know, I mean, we
already have a lot of fun with computer games and so on that are really quite remarkable.
What do you think about the digital world, the metaverse virtual reality? Will that have
a component in this or will most of our advancement be in physical? Well, that's a little bit like
second life, although the second life actually didn't work
very well because it couldn't actually handle too many people.
I don't think the metaverse has come to being.
I think there will be something like that that wouldn't necessarily be from that one company.
I mean, there's going to be competitors, but yes, we're going to live increasingly online
and particularly when if our brains are online, I mean, how could we not be online?
Do you think it's possible that given this merger with AI and most of our meaningful
interactions will be in this
virtual world
most of our life we fall in love, we make friends,
we come up with ideas, we do collaborations,
we have fun.
Actually, no somebody who's marrying somebody
that they never met.
I think they just met her briefly before the wedding,
but she actually fell in love with this other person,
never having met them.
And I think the love is real.
So that's a beautiful story.
But do you think that story is one that might be experienced as opposed to by hundreds of
thousands of people, but instead by hundreds of millions of people?
I mean, it really gives you appreciation for these virtual ways of communicating.
And if anybody can do it,
then it's really not such a freak story.
So I think more and more people will do that.
But that's turning our back on our entire history
of evolution, or the old days we used to fall in love
by holding hands and
and sitting by the fire, that kind of stuff. Here you're actually have five patents on where you
can hold hands, even if you're separated. Great. So the touch, the sense, it's all just senses.
It's all just, yeah, I mean, it's not just that you're touching someone or not,
there's a whole way of doing it and it's a very subtle and, but
ultimately we can emulate all of that.
Are you excited by that future? Do you worry about that
future?
I've certain worries about the future, but not that virtual touch
Well, I agree with you you
Describe six stages in the evolution of information processing in the universe as you started to describe
and can you maybe
Talk through some of those stages from the physics and chemistry to DNA and
brains to the very end, to the very beautiful end of this process?
Well, it actually gets more rapid.
So physics and chemistry, that's how we started.
So we have very beginning of the universe.
We have lots of electrons and first things traveling around
And that took a few many billions of years
kind of jumping ahead here
to kind of some of the last stages where we have things like love and creativity
It's really quite remarkable that that happens
but family physics and chemistry created biology and DNA.
And now you had actually one type of molecule that described the cutting edge of this process.
And we go from physics and chemistry to biology. And finally, biology created brains.
We're not all, not everything that's created by biology has a brain,
but eventually brains came along.
And all of this is happening faster and faster.
Yeah. It created increasingly complex organisms.
It created increasingly complex organisms. Another key thing is actually not just brains, but our thumb.
Because there's a lot of animals with brains even bigger than humans.
Elephants have a bigger brain, whales have a bigger brain, but they've not created technology
because they don't have a thumb. So that's one of the really key elements in the evolution
of humans.
This physical manipulator device, that's useful for puzzle solving in the physical's
reality.
So I could think, I could look at a tree and go, oh, I could actually trip that branch
down and eliminate the leaves and carve a tip on it and create technology.
And you can't do that if you don't have a thumb.
So thumbs and created technology and technology also had a memory, and now those memories
are competing with the scale and scope of human beings, and ultimately will go beyond it.
And then we're going to merge human technology with human intelligence and understand how human intelligence works,
which I think we already do, and we're putting that into our human technology.
So create the technology inspired by our own intelligence and then that technology supersedes
us in terms of its capabilities.
And we write along.
Or do you do you ultimately see it as every right along, but a lot of people don't see that
that they say, well, you've got humans and you got machines and there's no way we can
alter the league compete with humans.
And you can already see that leads to doll who Doll, who's like the best go player in the world,
says he's not going to play Go anymore.
Yeah.
Because playing Go for a human,
that was like the ultimate in intelligence,
because no one else could do that.
But now a machine can actually go way beyond him.
And so he says, well, there's no point playing it anymore.
That may be more true for games than it is for life. I think there's a lot of benefit to working together with AI in regular life. So if you were to put a probability on it,
is it more likely that we merge with AI or AI replaces us. A lot of people just think computers come along and they compete with them.
We can't really compete and that's the end of it.
As opposed to them increasing our abilities.
And if you look at most technology, it increases our abilities.
I mean, look at the history of work.
Look at what people did a hundred years ago.
Does any of that exist anymore?
I mean, if you were to predict that all of these jobs would go away,
and it would be done by machines, people would say,
well, there's going to be no one's going to have jobs, and this could be done by machines, people would say, well, no one's going to have jobs. And it's going to be massive unemployment.
But I show in this book, this coming out, the amount of people
that are working, even as a percentage of the population has
gone way up.
We're looking at the X-axis year from 1774 to 2024 and on the Y-axis personal income per capita
in constant dollars and it's growing super linearly. I mean, it's...
2021 constant dollars and it's gone way up. That's not what you were to predict,
given that we were predicted all these jobs would go away. But the reason it's gone up is because we've basically enhanced our own
capabilities by using these machines as opposed to them just competing with us.
That's a key way in which we're going to be able to become far smarter than we are now
by increasing the number of different parameters we can consider
in making a decision.
I was very fortunate. I am very fortunate to be able to get a glimpse preview of your
upcoming book, Singularity's Nearer. And one of the themes outside of just discussing the
increasing exponential growth of technology.
One of the themes is that things are getting better in all aspects of life.
You talk just about this.
One of the things you're saying is with jobs.
Let me just ask about that.
There is a big concern that automation, especially powerful AI, will get rid of jobs.
There are people who lose jobs.
And as you were saying, the senses throughout history of the 20th century automation did
not do that ultimately.
And so the question is, will this time be different?
Right.
That is the question.
Will this time be different? And it really has to do with how quickly we can merge with this type of intelligence.
Whether Lambda GPT-3 is out there, maybe it's overcome some of its, you know, key problems.
And we really have an enhanced human intelligence that might be a negative scenario.
But I mean, that's why we create technologies to enhance ourselves.
And I believe we will be enhanced when I'm just going to sit here with 300 million modules in our neocortex.
We're going to be able to go beyond that.
Because that's useful, but we can multiply that by 10,
100,000 a million.
And you might think, well, what's the point of doing that?
It's like
asking somebody that's never heard music well
What's the value of music? I mean you can't appreciate it until you've created it
There's some worry that there'll be a wealth disparity, you know, a class or
wealth disparity, only the rich people will be basically the rich people will first have
access to this kind of thing. And then because of this kind of thing, because the ability
to merge will get richer exponentially faster. And I say that's just like cell phones. I mean, there's
like four billion cell phones in the world today. In fact, when cell phones first came out,
you had to be fairly wealthy. They weren't very inexpensive. So you'd have some wealth
in order to afford them. Yeah, there were these big, sexy phones. And they didn't work very well. They did almost nothing. So you can only afford these things if you're wealthy at a point where
they really don't work very well. So achieving scale is and making inexpensive as part of
making a thing work well. Exactly. So these are not totally cheap, but they're pretty cheap.
Yeah.
I mean, you can get them for a few hundred dollars.
Especially given the kind of things it provides for you,
there's a lot of people in the third world
that have very little, but they have a smartphone.
Yeah, absolutely.
And the same would be true with AI.
I mean, I see homeless
people have their own cell phones. Yeah, so your sense is any kind of advanced technology
will take the same trajectory. Right. It also becomes cheap and will be affordable.
I probably would not be the first person to put something in my brain to connect to computers, because
I think it will have limitations.
But once it's really perfected, at that point, it will be pretty inexpensive.
I think it will be pretty affordable.
So in which other ways, as you online, book, is life getting better? Because I think...
Well, I have, I mean, I have 50 charts in there.
Yeah.
Where everything is getting better.
I think there's a kind of cynicism about...
Like, even if you look at extreme poverty, for example.
For example, this is actually a poll taken on extreme poverty.
And the people who were asked, his poverty got better or worse.
And the options are increased by 50% increased by 25% remain the same, decreased by 25%
decreased by 50%.
If you're watching this or listening to this, try to try to vote for yourself. 70% thought it had gotten worse, and that's the general impression.
88% thought it had gotten worse or it remained the same.
Only 1% thought it decreased by 50%.
And that is the answer.
It actually decreased by 50%.
So only 1% of people got the right optimistic estimate of how poverty is.
Right. And this is the reality.
And it's true of almost everything you look at.
You don't want to go back 100 years or 50 years.
Things were quite miserable then, but we tend not to remember that.
So literacy rate increasing over the past few centuries across all the different nations,
nearly to 100% across many of the nations in the world.
It's gone way up, average years of education have gone way up.
Life expectancy is also increasing.
Life expectancy was 48 in 1900.
And it's over 80 now. It was 48 in 1900.
And it's over 80 now.
And it's going to continue to go off, particularly as we get into more advanced stages of simulated
biology.
For life expectancy, these trends are the same for at birth, age 1, age 5, age 10, so it's
not just the infer mortality.
And I have 50 more graphs in the book about all kinds of things. Even spread of democracy,
which might bring up some sort of controversial issues, it still has gone way up. Well, that one
is gone way up, but that one is a bumpy road, right? Exactly. And somebody might represent democracy and go backwards. But we basically had no democracies
before the creation of the United States, which was over two centuries ago, which is in the scale
of human history, isn't that long. Do you think super intelligent systems will help
would democracy. So what is democracy? Democracy is giving a voice to the populace and having their ideas, having their beliefs, having their views
represented. Well, I hope so. I mean, we've seen social networks can spread conspiracy theories, which have been quite
negative, being, for example, being against any kind of stuff that would help your health.
So those kinds of ideas have, on social media, what you notice is they increase
engagement. So dramatic division increases engagement. Do you
worry about AI systems that will learn to maximize that
division?
I mean, I do have some concerns about this. And I have a
chapter in the book about the perils of Advanced AI, spreading misinformation
on social networks is one of them but there are many others.
What's the one that worries you the most?
That we should think about to try to avoid.
Well, it's hard to choose. We do have the nuclear power that evolved when I was a child.
I remember, and we would actually do these drills against a nuclear war, we'd get under our desks and put our hands behind
our heads to protect us from a nuclear war.
Seem to work, we're still around, so you're protected, but that's still a concern.
And there are key, dangerous situations that can take place in biology.
Someone could create a virus that's very...
I mean, we have viruses that are hard to spread, and they can be very dangerous.
And we have viruses that are easy to spread, but they're be very dangerous. And we have viruses that are easy to spread,
but they're not so dangerous.
Somebody could create something that would be very easy to spread
and very dangerous and be very hard to stop.
And it could be something that would spread
without people noticing, because people could get it, that have no symptoms,
and then everybody would get it, and then symptoms would occur maybe a month later.
That actually doesn't occur normally because if we were to have a problem with that, we wouldn't exist.
So the fact that humans exist means that we don't have viruses that can spread easily
and kill us because otherwise we wouldn't exist.
Yeah, viruses don't want to do that.
They want to spread and keep the host alive somewhat. So you can describe various dangers with biology,
also nanotechnology,
which we actually haven't experienced yet,
but there are people that creating nanotechnology
and it's carved out in the book.
Now you're excited by the possibilities
of nanotechnology, of nanobots,
of being able to do things inside our body, inside our mind that's going to help.
What's exciting, what's terrifying about nanobots?
What's exciting is that that's a way to communicate with our Neo-Cortex,
because each Neo-Cortex is pretty small and you need a small entity that can actually get in there and establish a communication channel.
And that's going to really be necessary to connect our brains to AI within ourselves,
because otherwise it would be hard for us to compete with it.
You know, high bandwidth way.
Yeah.
Yeah.
And that's key actually, because a lot of the things like neural link are really not
high bandwidth here. So nanobots is the way you achieve high bandwidth. How much intelligence
would those nanobots have? Yeah, they don't need a lot. Just enough to basically establish
communication channel to one nanob. So just primarily about communication
Yeah between external computing devices and our biological
thinking machine
What worries you about nanobots is it similar to the devices?
Well, I mean this is the great good channel challenge. Yes
If you have a
an anna-bott
that
Wanted to create any any kind of entity and repeat itself and
Was able to operate in a natural environment
It could turn everything into that
Entity and basically destroy all
biological life. So you mentioned nuclear weapons.
Yeah.
I'd love to hear your opinion about the 21st century and whether you think we might destroy ourselves.
And maybe your opinion, if it has changed by looking at what's going on in Ukraine,
that we could have a hot war with nuclear powers involved,
and the tensions building, and a seeming forgetting of how terrifying and destructive nuclear weapons are.
Do you think humans might destroy ourselves in the 21st century and if we do how?
And how do I avoid it?
I don't think that's going to happen despite the terrors of that war. It is a possibility, but I mean, I don't...
It's unlikely in your mind. Yeah. Even with the tensions we've had, with this one nuclear
power plant that's been taken over, it's very tense, but I don't actually see a lot of people worrying that that's going to
happen.
I think we'll avoid that.
We had two nuclear bombs go off in 45, so now we're 77 years later.
Yeah, we're doing pretty good.
We've never had another one go off through anger.
People forget, people forget the lessons of history. Well, yeah, I mean, I am worried about it.
I mean, that's definitely a challenge. But you believe that we'll make it out and ultimately super intelligent AI will help us make it out as opposed to
distress. I think so, but we do have to be mindful of these dangers and there are other dangers
besides nuclear weapons. So to get back to merging with AI, we'd be able to upload our mind in a computer in a way where we might even transcend
the constraints of our bodies. So copy our mind into a computer and leave the body behind.
Let me describe one thing I've already done with my father.
That's a great story. So we created a technology, this is public, came out
six years ago, where you could ask any question and the release product, which I think is still
on the market, it would read 200,000 books and then find the one sentence in 200,000 books that best answered your question.
It's actually quite interesting.
You can ask all kinds of questions, and you get the best answer in 200,000 books.
But I was also able to take it and not go through 200,000 books, but go through a book that I put together, which
is basically everything my father had written. So everything he had written, I had gathered
and we created a book, everything that Frederick Roosevelt had written. Now, I didn't think this actually would work that well because stuff he'd written
was stuff about how to lay out. I mean, he did, uh, corrected choral groups and music
groups and he would be laying out how the people should, where they should sit and how to fund this and all
kinds of things that really weren't seen that interesting.
And yet, when you ask a question, it would go through it and it would actually give you
a very good answer. So I said, well, you know, who's the most interesting composer?
And he said, well, definitely Brahms.
And he would go on about how Brahms was fabulous and talk about the importance of music education.
And so you could have a sense of, uh, uh, so I have a conversation with him, which was
actually more interesting than talking to
him because if you talk to him, he'd be concerned about how they're going to lay out this
property to give a coral group.
You'd be concerned about the day to day versus the big question exactly.
And you did ask about the meaning of life and he answered love.
Yeah.
You miss him?
Yes, I do.
You know, you get used to missing somebody after 52 years.
And I didn't really have intelligent conversations with him until later in life. In the last few years,
he was sick, which meant he was home a lot, and I was actually able to talk to him about
different things like music and other things. And so I missed that very much.
What did you learn about life from your father?
What what part of him is as with you now?
He was devoted to music and when he would create something to music it put him in a different world
Otherwise, he was very shy
And if people got together he tended not to interact with people just because of his chines.
But when he created music, he was like a different person.
Do you have that in you that kind of light that shines?
I mean, I got involved with technology at age five.
And you found a level that in the same way he did with music?
Yeah.
Yeah.
I remember this actually happened with my grandmother.
She had a manual typewriter, and she wrote a book, One Life is Not Enough.
It's actually a good title for a book, I might write, but...
And it's about a school she had created.
Well, actually her mother created it.
So my mother's mother's mother created the school in 1868.
And it was the first school in Europe
that provided higher education for girls.
It went through 14th grade.
If you were a girl and you were lucky enough
to get an education at all,
it would go through like 9th grade.
And many people didn't have any education as a girl.
This went through 14th grade.
Her mother created it, she took it over.
And the book was about the history of the school
and her involvement with it.
When she presented to me, I was not so interested in the story of the school, but I was totally
amazed with this manual typewriter.
I mean, here is something you could put a blank piece
of paper into and you could turn it into something
that looked like it came from a book.
And you could actually type on it.
It looked like it came from a book.
It was just amazing to me.
And I could see actually how it worked.
And I was also interested in magic.
But in magic, if somebody actually knows how it works,
the magic goes away.
The magic doesn't stay there if you actually understand
how it works.
But he was technology.
I didn't have that word when I was five or six.
And the magic was still there for you?
The magic was still there, even if you knew how it worked.
So I became totally interested in this and then went around, collected little pieces of mechanical
objects from bicycles, from broken radios, go through the neighborhood.
This was an era where you would allow a 5 or 6 year olds to like roam through the neighborhood and do this.
We don't do that anymore, but I didn't know how to put them together.
I said, if I could just figure out how to put these things together, I could solve any problem.
And I actually remember talking to these very old girls, I think they were 10. And telling them, if I could just figure this out, we could fly, we could do anything,
and they said, well, you have quite an imagination.
And then when I was in third grade, so it was like eight, created like a virtual reality theater where people could come
on stage and they could move their arms. And all of it was controlled through one control
box. It was all done with mechanical technology. And it was a big hit in my third grade class.
And then I went on to do things in junior high school, science fairs, and high school
science fairs, one of the western science, talent fairs.
So I mean, I became committed to technology when I was five or six years old.
You've talked about how you use lucid dreaming to think, to come up with ideas as a source of creativity,
because you may be talk through that,
maybe the process of how to,
you've invented a lot of things.
You've came up and thought through some very interesting ideas.
What advice would you give,
or can you speak to the process of thinking,
of how to think, how to think creatively?
Well, I mean, sometimes I will think through in a dream and try to interpret that,
but I think the key issue that I would tell younger people is to put yourself in the position
is to put yourself in the position that what you're trying to create already exists. And then you're explaining how it works.
Exactly.
That's really interesting.
You paint a world that you would like to exist, you think it exists, and reverse it.
And then you actually imagine you're giving a speech about how you created this.
Well, you'd have to then work backwards as to how you would created and not
it and make it work. That's brilliant. And that requires some imagination
to some first principles thinking. you have to visualize that world.
That's really interesting.
And generally when I talk about things we're trying to advance,
I would use the present tense as if it already exists.
Not just to give myself that confidence,
but everybody else is working on it.
We just have to kind of
do all the steps in order to make it actual. How much of a good idea is about timing?
How much is it about your genius versus that it's time has come?
Timing is very important.
I mean, that's really why I got into Futurism.
I didn't, I wasn't inherently a futurist.
That there's not really my goal.
It's really to figure out when things are feasible.
We see that now with large scale models.
The very large scale models like GPT-3, it started two years ago. Four years
ago it wasn't feasible. In fact, they did create GPT-2, which didn't work. So it required
a certain amount of timing having to do with this exponential growth of computing power.
So, futurism in some sense is a study of timing, trying to understand how the world will
evolve.
Yeah.
And when will the capacity for certain ideas, and that's become a thing in itself, and
to try to time things in the future. But really, it's a original purpose was to
time my products. I mean, I did OCR in the 1970s because OCRs doesn't require a lot of
computation. optical character recognition. So we were able to do that in the 70s,
and I waited till the 80s to address speech recognition
since it requires more computation.
So you were thinking through timing when you're developing those things.
Yeah.
Has its time come?
Yeah.
And that's how you've developed that brain power to start to think in a future
of sense when how will the world look like in 2045 and work backwards?
Yeah, and how it gets there, but that has to become a thing in itself because looking
at what things will be like in the future, reflects such dramatic changes in how humans will live,
that was worth communicating also.
So you developed that muscle of predicting the future and then applied broadly and started
to discuss how it changes the world of technology, how it changes the world of human life on earth.
In Danielle, one of your books, you write about someone who has the courage to question
assumptions that limit human imagination to solve problems.
And you also give advice on how each of us can have this kind of courage.
Well, it's good that you picked that quote
because I think that that symbolize what Daniel is about.
Courage.
So how can each of us have that courage
to question assumptions?
I mean, we see that when people can go beyond the kind
realm and create something that's new,
I mean, take Uber, for example.
Before that existed, you never thought that that would be feasible
and it did require changes in the way people work.
Is there practical advice you give in the book
about what each of us can do to be a Daniel?
Well, she looks at the situation and tries to imagine how she can overcome various obstacles
and then she goes for it and she's a very good communicator so she can communicate these
ideas to other people.
And there's practical advice of learning to program
and recording your life and things of this nature.
Become a physicist.
So you list a bunch of different suggestions
of how to throw yourself into this world.
Yeah, I mean, it's a tale of a idea how young people can actually change the world by learning all
of these different skills.
And at the core of that is the belief that you can change the world, that your mind,
your body can change the world.
Yeah, that's right.
And not letting anyone else tell you otherwise.
That's very good, exactly. When we upload, the story you told about your dad and having a conversation
with him, we're talking about uploading your mind to the computer. Do you think we'll have a
future with something you call afterlife? We'll have
avatars and mimic increasingly better and better our behavior, our
appearance, all that kind of stuff. Even those are perhaps not no longer with us.
Yes, I mean we need some information about them. I mean, I think about my father. I have what he wrote.
Now, he didn't have a word processor. So he didn't actually write that much.
And our memories of him aren't perfect. So how do you even know if you've created
something that's satisfactory? Now, you could do a break, a Frederick Kurswell Turing test. It seems like
Frederick Kurswell to me. But the people who remember him,
like me, don't have a perfect memory.
Is there such a thing as a perfect memory? Maybe the
whole point is for him to make you feel a certain way.
Yeah. Well, I think that would be the call.
That's the connection we have with loved ones. It's not really based on
very strict definition of truth. It's more about the experiences we share.
Yeah. And they get more through memory. But ultimately, they make a smile.
I think we definitely can do that that and that would be very worthwhile
So do you think we'll have a world of replicants?
Of copies would there be a bunch of rakeurs while as
Like I could hang out with one I can download it for five bucks and have a best friend Ray and
You the original copy wouldn't even know about it.
Is that, do you think that world is,
first of all, do you think that world is feasible
and do you think there's ethical challenges there?
Like, how would you feel about me hanging out
with Ray Kurzweil and you not knowing about it?
Just to strike me as a problem. Which you original? Would you strike with that cause
a problem for you? No, I enjoy. I would really very much enjoy it. No, not just hanging
out with me, but if somebody hanging out with you, a replicant into view. Well, I think I would start, it sounds exciting, but then what if they start doing better
than me and take over my friend group?
And then, because they may be an imperfect copy, or there may be more social, or all these
kinds of things.
And then I become like the old version that's not nearly as exciting.
Maybe there a copy of the best version of me on a good day.
But if you hang out with a replicant of me, and that turned out to be successful,
I'd feel proud of that person because it was based on me.
I feel proud of that person because it's based on me. So it's, but it is a kind of death of this version of you.
Well, not necessarily.
I mean, you can still be alive, right?
But, and you would be proud.
Okay. So it's like having kids and you're proud that they've done even more than you were able to do.
Yeah, exactly.
and you're proud that they've done even more than you were able to do. Exactly.
It does bring up new issues, but it seems like an opportunity.
Well, that replicant should probably have the same rights as you do.
Well, that gets into a whole issue,
because when a replicant occurs, they're not necessarily going to have your rights. And if a replicant occurs to somebody who's already dead, do they have all the obligations and that the original person had?
Do they have all the agreements that they had? So I think you're going to have to have laws that say yes. There has to be, if you want to create
a replicant, they have to have all the same rights as human rights. Well, you don't know. So I'm
going to create a replicant, say, well, it's a replicant, but I didn't bother getting their rights.
And so, but that would be illegal. I mean, like if you do that, you have to do that in the black market.
Yes, if you want to get an official replicate, that's not so easy.
It's supposed to create multiple replicants.
The original rights, maybe for one person and not for a whole group of people.
Sure. Maybe for one person and not for a whole group of people Sure, so
So there has to be at least one and then all the other ones kind of share the rights
Yeah, I just don't I don't think that that's very difficult to conceive for us humans
The idea that we don't create a replicant that has certain
I mean, I've talked to people about this, including
my wife, who would like to get back her father.
And she doesn't worry about who has rights to what.
She would have somebody that she could visit with and give her some satisfaction. And she wouldn't care about any of these other
rights. What does your wife think about multiple
or eight course walls? Have you had that discussion? I've run the dress that weather. I think ultimately
that's an important question. Love the ones how they feel about. There's something about love.
Well, that's the key thing, right?
If the loved ones rejected, it's not going to work very well.
So the loved ones really are the key determinant,
whether or not this works or not.
But there's also ethical rules.
We have to contend with the idea.
And we have to contend with that idea with AI.
But what's going to motivate it is, I mean, I talk to people who really miss people who are gone and they would love to get something back, even if it isn't perfect.
And that's what's going to motivate this.
And that's what's going to motivate this. And that person lives on in some form.
And the more data we have, the more we're able to reconstruct that person and allow them
to live on.
And eventually as we go forward, we're going to have more and more of this data because
we're going to have nanobots that are inside our neocortex.
And we're going to collect a lot of data.
In fact, anything that's data is always collected.
There is something a little bit sad, which is becoming, or maybe it's hopeful, which is more and more common these days, which when
a person passes away, you have their Twitter account, you know, and you have the last tweet
they tweeted, like something they can read.
And you can recreate them now with large language models and so on.
I mean, you can create somebody that's just like them and can actually continue to communicate.
I think that's really exciting because I think in some sense, like if I were to die today,
in some sense, I would continue on if I continued tweeting.
I tweet therefore I am.
Yeah.
Well, I mean, that's one of the advantages of a replicant that can recreate the communications
of that person.
Do you hope, do you think do you hope humans will become a multi-planetary species?
You've talked about the phases, the six epochs, and one of them is reaching out into the
stars in part. Yes, but the kind of attempts for making now to go to all this planetary objects
doesn't excite me that much, because it's not really advancing anything.
It's not efficient enough yeah we're also putting out other
human beings which is a very inefficient way to explore these other objects
but I'm really talking about in the six-separ universe wakes up
it's where we can spread our superintelligence throughout the universe.
And that doesn't mean sending a very soft squishy creatures like humans.
The universe wakes up.
I mean, we would send intelligence masses of nanobots which can then go out and colonize these other parts of the universe.
Do you think there is intelligent alien civilizations out there that our bots might meet?
My hunch is no.
Most people say yes, absolutely.
I mean, the you're too big. And they'll cite the Drake equation.
And I think in singularities near,
I have two analyses of the Drake equation,
both with very reasonable assumptions.
And one gives you thousands of advanced civilizations in each galaxy.
And another one gives you one civilization, and we know of one.
A lot of the analyses are forgetting the exponential growth of computation.
Because we've gone from where the fastest way I could send a message to somebody was with
a pony, which was what, like a century and a half ago, to the event civilization we have today,
and if you've accepted what I've said, go forward a few few decades you can have absolutely fantastic amount of civilization
compared to a pony and that's in a couple hundred years.
Yeah the speed and the scale of information transfer is growing exponentially.
So a blink of an eye. Now think about these other civilizations. They're going to be spread out at cosmic times. So if something
is like ahead of us or behind us, it could be ahead of us or behind us by maybe millions
of years, which isn't that much. I mean, the world is billions of years old, 14 billion or something. So even a thousand years, if two or three hundred years is enough to go from a pony to fantastic
amount of civilization, we would see that.
So of other civilizations that have occurred, some might be behind us, but some might be
ahead of us. If they're ahead of us, they're ahead of us by thousands, millions of years, and there
would be so far beyond us, they would be doing galaxy-wide engineering.
But we don't see anything doing galaxy-wide engineering.
So either they don't exist, or this very universe is a construction of an alien species.
We're living inside a video game.
Well, that's another explanation that yes, you've got some teenage kids in another simulation.
Do you find compelling the simulation hypothesis as a thought experiment that we're living
in a simulation?
The universe is computational. So we are an example in a computational world. Therefore, it is a simulation.
It doesn't necessarily mean an experiment by some high school kid in another world, but nonetheless
is taking place in a computational world, and everything that's going on is basically
a form of computation.
So you really have to define what you mean by this whole world being a simulation?
Well, then it's the teenager that makes the video game.
Us humans with our current limited cognitive capability have strived to understand ourselves and we have created religions, we think of God, whatever that is, do you
think God exists? And if so, who is God?
I alluded to this before, and we started out with lots of particles going around. And there's nothing that represents love and creativity.
In some way, we've gotten into a world where love actually exists
and then has to do with consciousness because you can't have love without consciousness.
So to me, that's God, the fact that we have something where love where you can be devoted
to someone else and really feel that love, that's God.
And if you look at the Old Testament, it was actually created by several different ribonets in there. I think
they've identified three of them. One of them dealt with God as a person that you can make deals with and they get angry and he wrecks vengeance on various people.
But two of them actually talk about God as a symbol of love and peace and harmony and
so forth.
That's how they describe God.
So that's my view of God, not as a person in the sky that you can make deals with.
It's whatever the magic that goes from basic elements to things that consciousness and love.
Do you think one of the things I find extremely beautiful and powerful is cellular automata,
which you also touch on? Do you think whatever the heck
happens in Celia Atomina where interesting complicated objects emerge, God is in there too?
The emergence of love in this seemingly primitive...
Well, that's the goal, Earth.
Of creating a replicant is that they would love you and you would love them. There
wouldn't be much point of doing it if that didn't happen. But all of it, I guess
what I'm saying about Cylia Atomura is it's a primitive building blocks and
they somehow create beautiful things. Is there some deep truth to that about how our universe works?
Is the emergence from simple rules, beautiful complex objects can emerge? Is that the thing that
made us as we went through all the six phases of reality? That's a good way to look at it.
of reality. That's a good way to look at it. It just makes some point to the whole value of having a universe. Do you think about your own mortality? Are you afraid of it? Yes,
but I keep going back to my idea of being able to expand human life quickly enough in advance of our getting
there longevity escape velocity.
Which were not quite that yet, but I think we're actually pretty close, particularly with
for example doing simulated biology. I think we can probably
get there within, say, by the end of the decade. And that's my goal.
Do you hope to achieve the longevity escape velocity? Do you hope to achieve immortality?
Well, immortality is hard to say. I can't really come on your program saying I've done it.
I've achieved immortality because it's never forever.
A long time, a long time of living well.
But we'd like to actually advance human life expectancy, advance my life expectancy more than
a year, every year. I think we can get there within by the end of this decade.
How do you think we do it?
So there's practical things in transcend the nine steps to living while forever your book.
You describe just that.
There's practical things like health, exercise, all those things.
And then there's something.
I mean, we live in a body that doesn't last forever.
There's no reason why it can't, though.
And we're discovering things that I think that will extend it.
But you do have to deal with, I mean, I've got various issues.
Went to Mexico 40 years ago to develop Salmonella,
like created pancreatitis,
which gave me a strange form of diabetes.
It's not type one diabetes,
because that's an autoimmune disorder
that destroys your pancreas. I don't have that
But it's also not type two diabetes because type two diabetes
It's your pancreas works fine, but your cells start to absorb the insulin well. I don't have that either
The pancreas I had
partially damaged my
pancreas, but it was a one-time thing. It didn't continue. And
I've learned now how to control it. But so that's just something that I had to do in order
to continue to exist.
This is your particular biological system. You have to figure out a few hacks and the
ideas that science would need to to do that much better actually.
So I mean, I do spend a lot of time just tinkering with my own body to keep it going.
So I do think I'll last till the end of this decade and I think we'll achieve longevity
escape velocity.
I think that will start with people who are very diligent about this.
Eventually it will become sort of routine that people will be able to do it.
So if you're talking about kids today, or even people in the 20s or 30s,
it's really not a very serious problem,
I've had some discussions with relatives who were like almost a hundred and say,
well, we're working on it as quickly as possible, but I don't know if that's going to work.
Is there a case, this is a difficult question, but is there a case to be made against living forever, that a finite life, that mortality is a feature, not a bug,
that living a short, so dying makes ice cream taste delicious, makes life intensely beautiful,
more than, uh, people believe that way, except if you present a death of anybody they care about or love,
they find that them back.
So I mean, death is not something to celebrate, but we've lived in a world where people just accept this.
Well, life is short. You see it all the time on TV. Life's short. You have to take advantage of it.
And nobody accepts the fact that you could actually go beyond normal lifetimes.
But anytime we talk about death or a death of a person, even one death is a terrible tragedy,
if you have somebody that lives to a hundred years old, we still love them in return. And there's no limitation to that. In fact, these kinds of trends are going
to provide greater and greater opportunities for everybody, even if we have more people.
So let me ask about an alien species or a super intelligent AI 500 years from now that will look back. And remember
Ray Kurzweil version zero. Before the replicant spread, how do you hope they remember you?
In a Hitchhiker's Guide to the Galaxy summary of Ray Kurzweil, what do you hope your legacy
is? Well, I mean, I do hope to be around.
So that's some version of you.
Yes.
So, um, do you think you'll be the same person around?
I think I'm either the same person I was when I was 20 or 10.
You would be the same person in that same way, but yes, we're different.
We're doing.
All we have of that, all you have of that
person is your memories, which are probably distorted in some way. Maybe you just remember
the good parts, depending on your psyche. You might focus on the bad parts, my focus on
the good parts. Right. But I mean, I still have a relationship to the way I was when I was earlier, when I was younger.
How will you and the other super intelligent AI's remember you of today from 500 years ago?
What do you hope to be remembered by this version of you before the singularity.
Well, I think it's expressed well in my books, trying to create some new realities that
people will accept.
I mean, that's something that gives me great pleasure and greater insight into what makes humans valuable.
I'm not the only person who's tempted to comment on that, but...
And optimism that permeates your work, optimism about the future,
is ultimately that optimism paves the way for building a better future.
I agree with them. So you asked your dad about the meaning of life and he said,
love, I may ask you the same question, what's the meaning of life? Why are we here? There's beautiful journey there were on in phase four,
reaching for phase five of this evolution and information processing. Why?
I think I'd give the same answers as my father, because if there were no love and we didn't care about anybody, there'd be no point existing.
Love is the meaning of life.
The AI version of your dad had a good point.
Well, I think that's a beautiful way to end it.
Right?
Thank you for your work.
Thank you for being who you are.
Thank you for dreaming about a beautiful future and creating it along
the way. And thank you so much for spending your really valuable time with me today. This
was awesome.
This was my pleasure and you have some great insights both into me and into humanity as
well. So I appreciate that.
Thanks for listening to this conversation with Ray Kurzweil. To support this podcast, please check out our sponsors in the description.
And now, let me leave you with some words from Isaac Asimov.
It is change, continuous change, inevitable change, that is the dominant factor in society
today.
No sensible decision could be made any longer without taking into account
not only the world as it is, but the world as it will be. This in turn means that our
statesmen, our businessmen, our every man must take on a science-fictional way of thinking.
Thank you for listening and hope to see you next time.