Lex Fridman Podcast - #293 – Donald Hoffman: Reality is an Illusion – How Evolution Hid the Truth
Episode Date: June 12, 2022Donald Hoffman is a cognitive scientist at UC Irvine and author of The Case Against Reality. Please support this podcast by checking out our sponsors: - Calm: https://calm.com/lex to get 40% off - LMN...T: https://drinkLMNT.com/lex to get free sample pack - InsideTracker: https://insidetracker.com/lex to get 20% off - MasterClass: https://masterclass.com/lex to get 15% off - Indeed: https://indeed.com/lex to get $75 credit EPISODE LINKS: Donald's Twitter: https://twitter.com/donalddhoffman Donald's Website: http://cogsci.uci.edu/~ddhoff/ Documents & Articles: 1. Could a Neuroscientist Understand a Microprocessor?: https://journals.plos.org/ploscompbiol/article?id=10.1371/journal.pcbi.1005268 2. Conscious Agent Networks: https://chrisfieldsresearch.com/CA-circuits-CSR-rev2.pdf 3. The Einstein-Podolsky-Rosen Argument in Quantum Theory: https://plato.stanford.edu/entries/qt-epr/ Books: 1. The Case Against Reality: https://amzn.to/3MhW4Wt 2. Vision: https://amzn.to/3Q4ibTm 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 (08:04) - Case against reality (19:33) - Spacetime (43:57) - Reductionism (1:04:23) - Evolutionary game theory (1:32:46) - Consciousness (2:28:06) - Visualizing reality (2:43:23) - Ephemerality of life (2:51:48) - Simulation theory (2:57:30) - Difficult ideas (3:12:32) - Love (3:16:07) - Advice for young people (3:18:26) - Meaning of life
Transcript
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The following is a conversation with Donald Hoffman, professor of cognitive sciences that
you see Irvine, focusing his research on evolutionary psychology, visual perception, and consciousness.
He is the author of over 120 scientific papers on these topics and his most recent book titled
The Case Against Reality, why evolution hid the truth from our eyes.
I think some of the most interesting ideas in this world, like those of Donald Hoffman's
attempt to shake the foundation of our understanding of reality, and thus, they take a long time
to internalize deeply.
So proceed with caution.
Questioning the fabric of reality can lead you to either madness or the truth. And the funny thing is,
you won't know which is which. Now, a quick you second mention of each sponsor. Check them out
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And now, dear friends, here's Donald Hoffman. In your book, the case against reality, why evolution hid the truth from our eyes?
You make the bold claim that the world we see with our eyes is not real.
It's not even an abstraction of objective reality.
It is completely detached from objective reality.
Can you explain this idea?
Right.
So this is a theorem from evolution of a natural selection.
So the technical question that I and my team asked was,
what is the probability that natural selection would shape
sensory systems to see true properties of objective reality?
And to our surprise, we found that the answer is precisely zero, except for one
one kind of structure that we can go into if you want to but for for any generic structure
that you might think the world might have it. A total order or topology, metric.
The probability is precisely zero that natural selection would shape any
sensory system of any organism to see the aspect of objective reality.
So in that sense, what we're seeing is what we need to see to stay alive long enough to reproduce.
So in other words, we're seeing what we need to guide adaptive behavior. Full stop.
So the evolutionary process, the process that took us from the original life on earth to the humans that we are today, that process does
not maximize for truth, and maximizes for fitness, as you say, fitness beats truth.
And fitness does not have to be connected to truth is the claim.
And that's where you have an approach towards zero of probability that we have evolved human cognition,
human consciousness, whatever it is, the magic that makes our mind work evolved not for
its ability to see the truth of reality, but its ability to survive in the environment.
That's exactly right. So most of us intuitively think that surely
the way that evolution will make our senses more fit is to make them tell us more truths,
or at least the truths we need to know about objective reality, the truths we need in
our niche. That's the standard view, and it was the view I took. I mean, that's sort of
what we're taught or just even assume. It's just sort of like the intelligent assumption that we would all make. But we don't have to
just wave our hands. Evolution of a natural selection is a mathematically precise theory.
John Maynard Smith in the 70s created a evolutionary game theory. And we have a evolutionary graph
theory and even genetic algorithms that we can use to study this. And so we don't have to
wave our hands.
It's a matter of theorem and proof, or simulation before you get the theorems and proofs.
And a couple of graduate students have mine, Justin Mark and Brian Marion, did some wonderful
simulations that tip me off that there was something going on here.
And then I went to a mathematician, Cheyton Prakash, and Maneesh Singh, and some other
friends of mine, Chris Fields,
but Cheyton was the real mathematician behind all this, and he proved several theorems that
uniformly indicate that with one exception, which has to do with probability measures,
there's no probability zero. The reason there's an exception for probability measures, so-called sigma algebraes or sigma additive classes, is that for any scientific theory, there is
the assumption that needs to be made that the whatever structure, whatever probabilistic
structure the world may have, is not unrelated to the probabilistic structure the world may have is not
unrelated to the probabilistic structure of our perceptions. If they were completely unrelated, then no science would be possible.
So, and so this is technically the
map from reality to our senses has to be a so-called measurable map. It has to preserve sigma algebra's. But that means it could be infinite to one and it could collapse all sorts of event information. But other than that, there's no requirement in standard
evolutionary theory for fitness payoff functions, for example, to preserve any specific structures
of objective reality. So you can ask the technical question. This is one of the avenues we took. If you look at all the fitness payoffs from whatever world structure you might want to imagine,
so a world with, say, a total order on it.
So it's got N states, and they're totally ordered.
And then you can have a set of maps from that world into a set of payoffs, say from zero
to a thousand or whatever you want your payoffs to be.
And you can just literally count all the payoff functions.
And just do the combinatorics and count them. And then you can ask a precise question, how many
of those payoff functions preserve the total order? If that's what you're, where how many preserve the topology? And you just count them and divide. So the number that are homomorphisms versus the total number
and then take the limit as the number of states in the world and the number of payoff values
goes very large. And when you do that, you get zero every time. Okay, you've, as a million things
to ask here, but first of all, just in case people are not familiar with your work,
people are not familiar with your work. Let's sort of linger on the big bold statement here, which is the thing we see with our eyes is not some kind of
limited window into reality. It is completely detached from reality, likely
completely detached from reality. You're seeing 100% likely. Okay. So none of this
is real. In the way we think is real. In the way we have this intuition, there's like this
table is some kind of abstraction, but underneath it all, there's atoms. And there's an entire
century of physics that describes the functioning of those atoms and the quirks that make them up. There's many Nobel prizes about particles and fields and
all that kind of stuff that slowly builds up to something that's perceivable to us both
over their eyes, with our different senses as this table. Then there's also ideas of chemistry that over layers of abstraction from DNA
to embryos, the cells that make the human body. So all of that is not real.
It's a real experience and it's a real adaptive set of perceptions. So it's an adaptive set of perceptions.
Full stop. We want to think that perceptions are real. So their perceptions are real as perceptions.
Right. They are, we are having our perceptions, but we've assumed that there's a pretty tight
relationship between our perceptions and reality. If I look up and see the moon, then there is something that exists in
space and time that matches what I perceive. And all I'm saying is that if you take evolution by
natural selection seriously, then that is precluded. That our perceptions are there. They're there to guide adaptive behavior
full stop. They're not there to show you the truth. In fact, the way I think about it is they're
there to hide the truth because the truth is too complicated. It's just like if you're trying to
use your laptop to write an email, right? What you're doing is toggling voltages in the computer.
But good luck trying to do it that way. That's the reason why we have a user interface
is because we don't want to know that quote-unquote truth,
the diodes and resistors and all that terrible hardware.
If you had to know all that truth,
your friends wouldn't hear from you.
So what evolution gave us was perceptions
that guide adaptive behavior,
and part of that process that turns out
means hiding the truth and giving you a eye candy. perceptions that guide adaptive behavior, and part of that process that turns out means
hiding the truth and giving you a eye candy.
So what's the difference between hiding the truth and forming abstractions, layers upon
layers of abstractions over these, over low-level voltages and transistors and chips and programming languages from assembly
to Python that then leads you to be able to have an interface like Chrome where you open
up another set of JavaScript and HTML programming languages that lead you to have a graphical
user interface on which you can then send your friends an email.
Is that completely detached from the zeros and ones that are firing away inside the computer?
It's not.
Of course, when I talk about the user interface on your desktop, there's this whole sophisticated
backstory to it, right, that the hardware and the software that's allowing
that to happen.
Evolution doesn't tell us the backstory, right?
So the theory of evolution is not going to be adequate
to tell you what is that backstory.
It's gonna say that whatever reality is,
and that's the interesting thing,
it says whatever reality is, you don't see it.
You see a user interface, but it doesn't tell you
what that user interface is, how it's built.
Now, we can try to look at certain aspects of the interface,
but already we're gonna look at that and go,
okay, before I would look at neurons,
and I was assuming that I was seeing something
that was at least partially true.
And now I'm realizing it could be like looking at the pixels on my desktop,
or icons on my desktop, and good luck going from that to the data structures, and then the voltages.
And I mean, good luck.
There's just no way.
So what's interesting about this is that our scientific theories are precise enough and rigorous
enough to tell us certain limits, and even limits of the theories themselves. But they're not going
to tell us what the next move is, and that's where scientific creativity comes in. So the stuff
that I'm saying here, for example, is not alien to physicists. The physicists are saying precisely the same
thing that space time is doomed. We've assumed that space time is fundamental, but we've assumed that
for several centuries, and it's been very useful. So all the things that you were mentioning, the
particles and all the work that's been done, that's all been done in space time, but now physicists
are saying space time is doomed. There's no such thing as space time fundamentally in the laws of physics.
And that comes actually out of gravity together with quantum field theory, which just comes right
out of it. It's a theorem of those two theories put together. But it doesn't tell you what's behind
it. So the physicists know that their best theories, Einstein's gravity
and quantum field theory put together in tail that space time cannot be fundamental.
Therefore particles in space time cannot be fundamental. They're just irreducible representations
of the symmetries of space time. That's what they are. So we have, so space time, so we put
the two together. We put together what the physicists are discovering and we can talk
about how they do that. And then we, the new discoveries from evolution of natural selection, both of these
discoveries are really in the last 20 years. And what both are saying is, space time is how to
good ride. It's been very useful. Reductionism has been useful, but it's over. And it's time for
us to go beyond. When you say space time is doomed, is it the space is at the time,
is it the very hard coded specification of four dimensions? Are you specifically referring
to the kind of perceptual domain that humans operate in, which is space time, you think
like there's just 3D, like our world is three dimensional and time progresses
forward. Therefore, three dimensions plus one and four D. What exactly do you mean by
space time? What do you mean by space time is doomed?
Great. So this is by the way, not my quote. This is from, for example, Nima or Connie Hamad,
at the Institute for Advanced Study at Princeton at Witten, also there David Gross
No, we'll prize winners. So this is not just something the cognitive scientists. This is what the physicists were saying
Yeah, the physicists their space time
skeptics
We are they're saying that and I can say exactly why they think it's doomed
But what they're saying is that you you know, because your question was,
what aspect of space time, what are we talking about here? It's both space and time,
their union into space time as a nine-stine theory, that's doomed. And
they're basically saying that even quantum theory, this is Neymar Kaniyam Ed, especially. So,
Hilbert spaces will not be fundamental either.
So that the notion of Hilbert space,
which is really critical to quantum field theory,
quantum information theory,
that's not going to figure in the fundamental
new laws of physics.
So, what they're looking for is some new mathematical structures
beyond space time,
beyond Einstein's four-dimensional space time,
or super symmetric version, geometric algebra,
signature, two comma four kind of,
there are different ways that you can represent it,
but they're finding new structures,
and then by the way, they're succeeding now.
They're finding they found something called the amplitude
of the Hadron, this is Nima and his colleagues,
the cosmological polytopes. These are these like
polytopes, these polyhedra in multi-dimensions, generalizations of simplacies, that are coding
for, for example, the scattering amplitudes of processes in the large hydrogen collider and other
other colliders. So they're finding that if they let go of space time, completely.
They're finding new ways of computing these scattering amplitudes that turn literally billions of terms into one term.
When you do it in space and time, because it's the wrong framework, it's just a user interface,
that's not from the evolutionary point of view, it's just user interface, it's not a deep insight into the nature of reality.
So it's missing deep symmetry, something called a dual conformal symmetry,
which turns out to be true of the scattering data, but you can't see it in space-time.
And it's making the computations way too complicated, because you're trying to compute all the loops
and Feynman diagrams and all the Feynman integrals. So, see, the Feynman approach to the scattering amplitudes is trying to enforce two critical
properties of space-time, locality and unitarity.
And so, by when you enforce those, you get all these loops in multiple, you know, different
levels of loops.
And for each of those, you have to add new terms to your computation.
But when you do it outside of space-time, you don't have the notion of unitarity.
You don't have the notion of locality.
You have something deeper and is capturing some symmetries that are actually true of
the data.
But then when you look at the geometry of the facets of these polytopes, then certain of
them will code for unitarity and locality.
So it actually comes out of the structure of these depolytops.
So what we're finding is there's this whole new world.
Now, beyond space time, that is making explicit symmetries
that are true of the data that cannot be seen in space time,
and that is turning the computations from billions of terms
to one or two or a handful of terms.
So we're getting insights into
symmetries and we're all of a sudden the math is becoming simple because we're
not doing something silly. We're not adding up all these loops in space time.
We're doing something far deeper. But they don't know what this world is about.
So you know, they're in an interesting position where we know that space time
is doomed and I should probably tell you why it's doomed, what they're
saying about why it's doomed.
But they need a flashlight to look beyond space time.
What flashlight are we gonna use to look into the dark
beyond space time?
Because Einstein's theory and quantum theory can't tell us
what's beyond them.
All they can do is tell us that when you put us together,
space time is doomed at 10 to the minus 33 centimeters,
10 to the minus 43 seconds.
Beyond that space time doesn't even make sense.
It just has no operational definition.
But it doesn't tell you what's beyond.
They're just looking for deep structures like guessing is really fun.
So these really brilliant guys, generic, brilliant men and women who are doing this work,
physicists, are making guesses about these structures,
informed guesses because they're trying to ask, women who are doing this work, physicists, are making guesses about these structures, informed
guesses, because they're trying to ask, okay, what deeper structure could give us the
stuff that we're seeing in space time, but without certain commitments that we have to make
in space time, like locality and so they make these brilliant guesses, and of course most
of the time you're going to be wrong, but once you get one or two that start to pay off,
and then you get some lucky breaks.
So they got lucky
break back in 1986. A couple of mathematicians named Park and Taylor took the scattering
amplitude for two gluons coming in at high energy and four gluons going out at low energy.
So that kind of scattering thing. So I can apparently for people who are into this, that's
sort of something that happens so often you need to be able to find it and get rid of those because you already know about that and you need to.
So, you need to compute them. It was billions of terms. And they couldn't do it, even for the
supercomputers, couldn't do that for the many billions or millions of times per second they need
to do it. So, they begged, you know, the experimentalist begged the theorist, and please, can you,
you got it? So, Park and Taylor took the billions of terms,
hundreds of pages, and miraculously turned it into nine.
And then a little bit later,
they guessed one term expression that turned out to be equivalent.
So billions of terms reduced to one term
that's so called famous Park Taylor formula, 1986.
And that was like, okay, where did that come from?
What? This is a pointer into a deep realm beyond space and time,
but no one, I mean, what can you do with it?
And they thought maybe it was a one-off,
but then other formulas started coming up.
And then eventually, Nima Arkani,
Hamad and his team found this thing called the Amplitude Heagen,
which really sort of captures the whole, a big part of the whole Bologna.
I'm sure they would say, no, there's plenty more to do.
So I won't say they did it all by any means.
They're looking at the cosmological polytope as well.
So what's remarkable to me is that two pillars of modern science, quantum field theory with
gravity, on the one hand, and evolution
by natural selection on the other.
Just in the last 20 years, have very clearly said, space time has had a good run.
Reductionism has been a fantastic methodology, so we had a great ontology of space time,
a great methodology of productionism.
Now it's time for a new trick.
But now you need to go deeper and show. But by the
way, this doesn't mean we throw away everything we've done, not by a long shot. Every new idea
that we come up with beyond space time must project precisely into space time in it, better
give us back everything that we know and love in space time or generalizations or it's
not going to be taken seriously and it shouldn't be't be. So we have a strong constraint on whatever we're going to do beyond space time.
It needs to project into space time.
And whatever this deeper theory is, it may not itself have evolution on natural selection.
This may not be part of this deeper realm.
But when we take whatever that thing is beyond space time and projected into space time,
it has to look like evolution on natural selection or it's wrong. So that's a strong constraint on this work.
So even the evolution by natural selection and quantum field theory could be interfaces
into something that doesn't look anything like, like you mentioned, I mean, it's interesting to think
that evolution might be a very crappy interface
into something much deeper.
That's right.
They're both telling us that the framework
that you've had can only go so far and it has to stop.
And there's something beyond.
And that framework, the very framework
that is space and time itself.
Now, of course, evolution by natural selection
is not telling us about like Einstein's relativistic space
themselves.
That was now the question you asked a little bit earlier.
It's telling us more about our perceptual space and time,
which we have used as the basis for creating
first a Newtonian space versus time
as a mathematical extension of our perceptions. And then Einstein then took that
and extended even further. So the relationship between what evolution is telling us and what the
physicists are telling us is that in some sense the Newton and Einstein space time are formulated as
sort of rigorous extensions of our perceptual space, making it mathematically
rigorous and laying out the symmetries that they find there.
So that's sort of the relationship between them.
So it's perceptual space time that evolution is telling us is just a user interface effectively.
And then the physicists are finding that even the mathematical extension of that into the
Einsteinian formulation has to be as well not the final story, there's something deeper.
So let me ask you about reductionism and interfaces as we march forward from Newtonian physics
to quantum mechanics.
These are all in your view interfaces. Are we getting closer to objective
reality? How do we know if these interfaces in the process of science, the reason we like
those interfaces is because they're predictive of some aspects, strongly predictive about some aspects of our
reality.
Is that completely deviating from our understanding of that reality or is it helping us get closer
and closer and closer?
Well, of course, one critical constraint on all of our theories is that they are empirically
tested and pass the experiments that we have for them.
So no one's arguing against experiments being important
and wanting to test all of our current theories
and any new theories on that.
So that's all there.
But we have good reason to believe that science will never
get a theory of everything. Everything, everything, everything, everything.
Right, a final theory of everything, right?
I think that my own take is, for what is worth, is that girdles in completeness, they're
sort of points us in that direction, that even with mathematics, any finite axiomitization
that's sophisticated enough to be able to do arithmetic, it's easy to show that there'll be statements that are true that can't be proven, can't be deduced
from within that framework. And if you add the new statements to your axioms, then there'll
be always new statements that are true, but can't be proven with a new axiom system.
And the best scientific theories in the infysics, for example, and also now evolution,
are mathematical.
So our theories are gonna have their own assumptions,
and they'll be mathematically precise.
And there'll be theories, perhaps,
of everything except those assumptions,
because assumptions are, we say,
please grant me these assumptions.
If you grant me these assumptions,
then I can explain this other stuff.
But so you have the assumptions that are like miracles
as far as the theory is concerned,
they're not explained.
They're the starting points for explanation.
And then you have the mathematical structure
of the theory itself, which will have the girdle limits.
And so my take is that reality, whatever it is, is always going to transcend any conceptual
theory that we just come up with.
There's always going to be mystery at the edges, right?
Contradictions and all that kind of stuff.
Okay.
And truths.
So there's this idea that is brought up
in the financial space of settlement of transactions.
It's often talked about in cryptocurrency especially.
So you could do, you know, money cash is not connected
to anything.
It used to be connected to gold, to physical reality, but then you can use
money to exchange, to exchange value trends, to transact. So when it was on the gold standard,
the money would represent some stable component of reality. Isn't it more effective to avoid things like hyperinflation, if we generalize that idea. Isn't it better
to connect your, whatever we humans are doing in the social interaction space with each
other? Isn't it better from an evolutionary perspective to connect it to some degree
to reality, so that the transactions are settled with something that's universal
as opposed to us constantly operating in something that's a complete illusion. Isn't it
easy to hyperinflate that? Like where you really deviate very, very far away from the underlying reality, or do you not never get in trouble for this?
Can you just completely drift far, far away from the underlying reality and never get in trouble?
That's a great question. On the financial side, there's two levels at least that we could take your question.
One is strictly evolutionary psychology of financial systems. And that's pretty interesting.
And there the decentralized idea, the defy kind of idea in cryptocurrencies, may make good
sense from just an evolutionary psychology point of view.
Having human nature being what it is, putting a lot of faith in a few central controllers depends a lot on the veracity of those and trustworthiness of those
few central controllers. And we have ample evidence, time and again, that's often betrayed. So it
makes good evolutionary sense, I would say, to have a decentralized, I mean, democracy is a step
in that direction, right? We don't we don't have a monarch now telling us what to do, we decentralize things, right?
Because if the monarch, if you have Marcus Aurelio
says you're emperor, you're great,
if you have Nero, it's not so great.
And so we don't want that.
So democracy is a step in that direction,
but I think the defy thing is an even bigger step
and is going to even make the democratization even greater.
So that's one level of also the fact that power corrupts and absolute power corrupts absolutely is also an
ever a consequence of evolution. That's also a feature, I think, right?
You can argue from the long span of living organisms, it's nice for power to corrupt for you to
do. So, mad men and women throughout history might be useful to teach us a lesson.
We can learn from our negative example, right?
Exactly. Right, right. Right. So, power does corrupt, and I think that you can think about
that again from an evolutionary point of view.
But I think that your question was a little deeper when that was is
does the evolutionary
interface idea sort of unhinged science from
From some kind of
Important test for the theories, right? We don't want it
Does it mean that anything goes in scientific theory,
but there's no if there if we don't see the truth is there no way to tether our theories and test them.
And and I think
there there's no problem there we we can only test things in terms of what we can measure with our
senses in space and time. So we're going to have to continue to do experiments.
And we're going to understand a little bit differently
what those experiments are.
We had thought that when we see a pointer on some machine
in an experiment, that the machine exists,
the pointer exists, and the values
exist, even when no one is looking at them,
and that they're an objective truth.
And our best theories are telling us no.
The pointers are just pointers,
and that's what you have to rely on for making your judgments.
But even the pointers themselves are not the objective reality.
And I think Gertel is telling us that not that anything goes,
but as you develop new axiom systems,
you will find out what goes within that axiom system
and what testable predictions you can make.
So I don't think we're untethered.
We continue to do experiments.
What I think we won't have that we want
is a conceptual understanding that
gives us a theory of everything that's final and complete.
I think that this is, to put it another way, this is job security for scientists.
Our job will never be done.
It's job security for neuroscience.
Because before we thought that when we looked in the brain, we saw neurons and neural networks
and action potentials and synapses and so forth.
And that was it.
That was the reality.
Now we have to reverse engineer that.
We have to say, what is beyond space time?
What is going on?
What is a dynamical system beyond space time?
That when we project it into Einstein's space time gives us things that look like neurons and neural networks and synapses.
So we have to reverse engineer it, so there's going to be lots more work for neuroscience.
It's going to be far more complicated and difficult and challenging, but that's wonderful.
That's what we need to do.
We thought neurons exist when they are perceived and they don't.
In the same way that if I show you, when I say they don't exist, I should be very, very concrete. If I draw on a piece of paper, a little sketch
of something that is called the Necker cube, it's just a little line drawing of a cube,
right? It's not a flat piece of paper. If I execute it well and I show it to you, you'll
see a 3D cube and you'll see it flip. Sometimes you'll see one face in front, sometimes you'll
see the other face in front. But I've asked you, you know, which face is in front when you don't look? You know,
the answer is, well, neither face is in front because there's no cube. There's this flat piece of
paper. So when you look at the piece of paper, you perceptually create the cube. And when you look
at it, then you fix one face to be in front and one face to be in.
So that's what I mean when I say it doesn't exist. Space time itself is like the cube. It's a data
structure that your sensory systems construct, whatever your sensory systems mean now, because we
now have to even not even take that for granted. But there are perceptions that you construct on the fly.
And they're data structures and the computer sciences
and you garbage collect them when you don't need them.
So you create them and garbage collect them.
But is it possible that it's mapped well
in some concrete, predictable way to objective reality?
The sheet of paper, the studio dimensional space
or we can talk about space time, maps, and some way that we maybe don't
yet understand, but we'll one day understand what that mapping is, but it maps reliably.
It is tethered in that way.
Well, yes.
And so the new theories that the physicists are finding beyond space time have that kind
of tethering.
So they show precisely how you start with an ep hedron and how you project this high dimensional structure into the four dimensions of space
time. So there's a precise procedure that relates to two and they're doing the same thing
with the cosmological polytopes. So they're the ones that are making the most concrete
and fun advances going beyond space-time.
And they're tethering it.
They say this is precisely the mathematical projection from this deeper structure into
space-time.
One thing I'll say about as a non-physicist, what I find interesting is that they're finding
just geometry, but there's no notion of dynamics. Right now, they're just finding these static geometric structures,
which is impressive, so I'm not putting them down.
This is what they're doing is unbelievably complicated and brilliant
and adventurous, all those things.
And beautiful human aesthetic perspective, because geometry is beautiful. It's all those things. And beautiful, beautiful, yeah, from a human aesthetic perspective, because geometry is beautiful.
It's absolutely.
And it's finding symmetries that are true of the data
that can't be seen in space time.
But I'm looking for a theory beyond space time
that's a dynamical theory.
I would love to find, and we can talk about that
at some point, a theory of consciousness
in which the dynamics of consciousness itself
will give rise to the geometry that the physicist are finding beyond space-time. If we can do
that, then we'd have a completely different way of looking at how consciousness is related
to what we call the brain or the physical world more generally, right? Right now, all of
my brilliant colleagues, 99% of them are trying to...
They're assuming space time is fundamental.
They're assuming that particles are fundamental, quarks, gluons, leptons, and so forth.
Elements, atoms, and so forth are fundamental, and that therefore neurons and brains are part of objective reality. And that somehow when you get matter that's complicated enough, it will somehow
generate conscious experiences by its functional properties. Or if you're pan-psychist, maybe
you, in addition to the physical properties of particles, you add consciousness
property as well. And then you have, you combine these physical and conscious properties to get more complicated ones. But they're all doing it within space time. All of the work that's being done unconsciousness
and this relationship to the brain is all assumed something that our best theories are
telling us is doomed, space time. Why does that particular assumption bother you the most? So you bring up space time.
I mean, that's just one useful interface we've used for a long time.
Surely there's other interfaces.
It's space time, just one of the big ones that you build up people's intuition about the fact that they do assume a lot of things strongly, or is it in fact the fundamental flaw in
the way we see the world?
Well everything else that we think we know are things in space-time.
Sure.
And so, when you say space-time is doomed, this is a shot to the heart of the whole framework, the whole conceptual framework that we've had in science.
Not to the scientific method, but to the fundamental ontology and also the fundamental methodology, the ontology of space-time and its contents.
And the methodology of reductionism, which is that as we go to smaller scales in space time, we will find more and more fundamental laws.
And that's been very useful for space and time for centuries,
reductionism for centuries, but now we realize that that's over.
Reductionism is in fact dead as a space time.
What exactly is reductionism?
What is the process of reductionism that is different
than some of the physicists that you mentioned that are trying to think, trying to let go of the assumption of space time.
What can be on is in that still trying to come up with a simple model that explain this whole thing, isn't it still reducing?
It's a wonderful question because it really helps to clarify two different notions, which is scientific explanation on the one hand, and a
particular kind of scientific explanation on the other, which is the reductionist.
So the reductionist explanation is saying, I will start with things that are
smaller in space time, and therefore more fundamental, and more the laws are more
fundamental. So we go to
just smaller and smaller scales. Whereas in science more generally, we just say like when Einstein
did the special theory of relativity, he's saying, let me have a couple of postulates. I will assume
that the speed of light is universal for all observers in uniform motion and that the loss of physics.
So if you're for uniform motion, that's not a reductionist.
Those are saying, grant me these assumptions.
I can build this entire concept of space time out of it.
It's not a reductionist thing.
You're not going to smaller and smaller scales of space.
You're coming up with these deep, deep principles.
Same thing with his theory of gravity, right?
It's the falling elevator idea, right?
So it's not a reductionist kind of thing.
It's something different.
So simplification is a bigger thing than just reductionism.
Reductionism has been a particularly useful kind of scientific explanation, for example,
in thermodynamics, right?
We're the notion that we have of heat, some macroscopic thing like temperature and heat.
It turns out that, you know, Voltzmann and others discovered, well, hey, you know, if we go to smaller and smaller scales, we find these things called molecules or atoms.
And if we think of them as bouncing around having some kind of energy, then what we call heat is really can be reduced to that.
And so that's a particularly useful kind of reduction, a useful kind of scientific explanation
that works within a range of scales within space time.
But we know now precisely where that has to stop, 10 to the minus 33 centimeters and
10 to the minus 43 seconds. And I would be impressed
if it was 10 to the minus 33 trillion centimeters. I'm not terribly impressed at 10 to the minus 33
centimeters. I don't even know how to comprehend either of those numbers, frankly, just a small aside
because I am a computer science person. I also find Celia
or Tom and are beautiful. Yes. And so you have somebody like Steven Wolfram who
recently has been very excitedly exploring a proposal for a data structure
that could be the numbers that would make you a little bit happier in terms of
scale because they're very, very, very, very tiny.
Do you like this space of exploration of really thinking, letting go of space time, letting
go of everything and trying to think what kind of data structures could be underneath
this whole mess?
That's right.
So, if they're thinking about these as outside of space time, then that's what we have
to do.
That's what our best theories are telling us.
You now have to think outside of space time.
Now, of course, I should back up and say,
we know that Einstein surpass Newton, right?
But that doesn't mean that there's not good work to do a Newton.
There's all sorts of Newtonian physics
that takes us to the moon and so forth.
And there's lots of good problems
that we want to solve with Newtonian physics.
The same thing will be true of space time.
Well, it's not like we're going to stop using spacetime.
We'll continue to do all sorts of good work there.
But for those scientists who are really looking to go deeper,
to actually find the next, you know, just like what Einstein did to Newton,
what are we going to do to Einstein?
How do we get beyond Einstein and quantum theory to something deeper?
Then we have to actually let go and if we're going to do like this,
a Tomatoma kind of approach. It's critical that it's not a Tomatoma in
space time, it's a Tomatoma prior to space time from which we're going to
show how space time emerges. If you're doing a Tomatoma within space time,
well, that might be fun model, but it's not the radical new step that we need.
Yeah, so the space time emerges from that whatever system space-time, well, that might be fun model, but it's not the radical new step that we need.
Yeah, so the space-time emerges from that whatever system you're saying, it's a dynamical
system.
Do we even have to understand what dynamical means when we go beyond?
When you start to think about dynamics, it could mean a lot of things, even causality could mean a lot of things if we realize
that everything is in interface.
Like how much do we really know is an interesting question?
Because you brought up neurons, I got to ask you, get another tangent.
There's a paper I remember a while ago looking at, called the Cure Neuroscientist Understand
a Micro-Processor.
And I just enjoyed that thought experiment that they provided, which is, they basically,
it's a couple of neuroscientists, Eric Jonas and Conrad Cording, who used the tools
of neuroscience to analyze a microprocessor, a so computer chip.
Now, if we leave you in a terrible happens and so forth, and chip. Yeah, if we lesion it here, what happens and so forth.
And if you go and lesion, and a computer, it's very, very clear that lesion experiments
on computers are not going to give you a lot of insight into how it works.
And also the measurement devices and the kind of sort of just using the basic approaches
of neuroscience collecting the data, trying to intuit about the underlying function of it.
And that helps you understand that our scientific exploration
of concepts, depending on the field,
are maybe in the very, very early stages.
I wouldn't say in, least it's a stray, perhaps it
doesn't, but it's not a, it's not anywhere close to some fundamental
mechanism that actually makes the thing work.
I don't know if you can sort of comment on that in terms of using neuroscience to understand
the human mind and neurons.
Are we really far away, potentially, from understanding in the way we understand the transistors
enough to be able to build a computer.
So one thing about understanding is you can understand for fun.
The other one is to understand so you could build things.
And that's when you really have to understand.
Exactly.
In fact, what got me into the field that MIT was worked
by David Mar on this very topic.
So David Mar was professor at MIT,
but he'd done his PhD in neuroscience
studying just the architectures of the brain.
But he realized that his work was on the cerebellum.
He realized that his work, as rigorous as it was, left
him unsatisfied because he didn't know what the cerebellum was for. And why it had that
architecture. So he went to MIT and he was in the AI lab there. And he said, he had this
three level approach that really grabbed my attention. So when I was an undergraduate at UCLA, I read one of his papers in a class and said, who is this guy? Because he said, he had this three level approach that really grabbed my attention. So I was, when I was an undergraduate at UCLA, I read one of his papers in a class and said,
who is this guy?
Because he said, you have to have a computational theory.
What is being computed and why?
An algorithm.
How is it being computed?
What are the prosa algorithms?
And then the hardware.
How does it get instantiated in the hardware?
So to really do neuroscience, he argued, we needed to have understanding at all those
levels.
And I, that really got me.
I loved the neuroscience, but I realized this guy was saying, if you can't build it,
you don't understand it effectively.
And so that's why I went to MIT.
And I had the pleasure of working with David until he died just a year and a half later.
So there's been that idea that, you know, with neuroscience, we have to have, in some
sense, a top-down model of what's being computed and why that we would then go after. And the same
thing with the, you know, trying to reverse engineer a computing system like your laptop, we really
would, we really need to understand what the user interface is about and why we have what are keys on the keyboard
for and so forth.
You need to know why to really understand all the circuitry and what it's for.
Now we don't, evolution of a natural selection does not tell us the deeper question that
we're asking, the answer to the deeper question, which is why?
Why, what's this deeper reality and what's it up to and why?
It all it tells us is that whatever reality is, it's not what you see.
What you see is just an adaptive fiction. So just a linger on this fascinating bold question that shakes you out of your dream state.
Does this fiction still help you in building intuitions, as literary fiction does, about
reality?
The reason we read literary fiction is it helps us build intuitions and an understanding
in indirect way sneak up to the difficult questions of human nature, great fiction.
Same with this observed reality.
Does this interface that we get, this fictional interface, help us build intuition about
deeper truths
of how this whole mess works.
Well, I think that each theory that we propose
will give its own answer to that question, right?
So when the physicists are proposing
these structures like the amplitude,
heedron and cosmological polytope,
associate heedron and so forth, beyond space time,
we can then ask your question
for those specific structures and say, how much information, for example, does evolution
of natural selection and the kinds of sensory systems that we have right now give us about this
deeper reality and why did we evolve this way? We can try to answer that question from within the deeper.
So there's not gonna be a general answer.
I think we're gonna, what we'll have to do
is pause it these new deeper theories
and then try to answer your question
within the framework of those deeper theories,
knowing full well that there'll be an even deeper theory.
So is this paralyzing though?
Because how do we know we're not completely adrift out
to see lost forever from, so like that our theory is
a completely lost.
So if it's all, if we can never truly deeply
introspect to the bottom, if it's always just turtles
on top of turtles infinitely, isn't that paralyzing
for a scientific mind? Well, it's interesting that you say introspect to the bottom.
Because there is that what there is one, I mean, again, this isn't the same spirit of what I said
before, which is it depends on what answer you give to what's beyond space time,
what answer we would give to your question.
So, but one answer that is interesting to explore
is something that spiritual traditions have said
for thousands of years, but haven't said precisely.
So, we can't take it seriously in science
until it's made precise, but we might be able
to make it precise.
And that is that they've also said something
like space and time are fundamental,
they're Maya, they're allusion.
And if you look inside, if you introspect,
and let go of all of your particular perceptions,
you will come to something that's beyond conceptual thought.
And that is, they claim,
being in contact with the deep ground of being that transcends any particular conceptual understanding.
If that is correct, and I'm not saying it's correct,
but I'm not saying it's not correct. I'm just saying, if that's correct,
then it would be the case that as scientists, because we also are in touch with this
ground of being, we would then not be able to conceptually understand ourselves all the way,
but we could know ourselves just by being ourselves. And so there would be a sense in which
there is a fundamental grounding to the whole enterprise because we're not separate from the enterprise.
This is the opposite of the impersonal third person science.
This would make science go be personal.
Personal all the way down.
But nevertheless, scientific because the scientific method would still be
what we would use all the way down for the conceptual understanding.
Unfortunately, you still don't know if you went all the way down.
It's possible that this kind of whatever consciousness is,
and we'll talk about it,
is getting the cliche statement of be yourself.
It is somehow digging at a deeper truth of reality,
but you still don't know when you get to the bottom.
You know, a lot of people, they'll take psychedelic drugs and they'll say,
well, that takes my mind to certain places where it feels like that is
revealing some deeper truth of reality, but you still, it could be interfaces
on top of interfaces.
That's, that's in your view of this.
You really don't know. I mean, it's gaitles and completeness is, you really don't know.
I mean, Gait doesn't completeness is that you really don't know.
My own view on it for what is worth,
because I don't know the right answer,
but my own view on it right now is that it's never ending.
I think that this is great, as I said before,
great job security for science.
And that we, if this is great, as I said before, great job security for science. And that we, if this is true and if consciousness is somehow important or fundamental in the universe,
this may be an important fundamental fact about consciousness itself,
that it's never ending exploration that's going on in some sense.
Well, that's interesting.
You push back on the job security.
Okay.
So maybe as we understand this kind of idea deeper and deeper, we understand that the
pursuit is not a fruitful one.
Then maybe we need to, maybe that's why we don't see aliens everywhere.
As you get smarter and smarter and smarter. You realize that like exploration is,
there's other fun ways to spend your time that exploring.
You could be sort of living maximally in some way
that's not exploration.
There's all kinds of video games you can construct
and put yourself inside of them that don't involve you going outside of the game world
It's you know feeling for my human perspective
What seems to be fun is challenging yourself and overcoming those challenges?
So you can cost the artificially generate challenges for yourself like Sisyphus and his boulder just and
And that's it. So the scientific method that's always reaching out to the stars,
that's always trying to figure out the puzzle on bottom, puzzle, the trick, we're always trying to
get to the bottom turtle. Maybe if we can build more and more the intuition that that's infinite pursuit,
we get, we agree to start deviating from that pursuit, and join the here and now versus the looking out
into the unknown always.
Maybe that's looking out into the unknown
as a early activity for a species that's evolved.
I'm just sort of saying, pushing back,
as you probably got a lot of scientists excited in terms of job security
I could I could envision where it's not job security or scientists become more and more useless
Maybe they're like the holders of the ancient wisdom
That's that allows us to study your own history, but not much more than that, just to get point.
That's good pushback.
I'll put one in there for the scientists again,
but sure, but then I'll take the other side too.
So when Faraday did all of his experiments
with magnets and electricity and so forth,
he came with all this wonderful empirical data
and James Clerk Maxwell looked at it and wrote down a few equations, magnets and electricity and so forth. It came with all this wonderful empirical data
and James Clerk Maxwell looked at it
and wrote down a few equations
which we can now write down in a single equation,
the Maxwell equation if we use geometric algebra,
just one equation.
That opened up unbelievable technologies
where people are zooming and talking to each other
around the world, the whole electronics industry, there was something that transformed our lives in a very positive way.
With the theories beyond space time.
Here's one potential.
Right now, most of the galaxies that we see, we can see them, but we know that we could never get
to them, no matter how fast we traveled.
They're going away from us at the speed of light or beyond, so we can't ever get to them.
So there's all this beautiful real estate that's just smiling and waving at us, and we
can never get to it.
But that's if we go through space time.
But if we recognize that space time is just a data structure, it's not fundamental.
We're not little things inside space time. Space time is a little data structure
in our perceptions, is just the other way around. Once we understand that,
and we get equations for the stuff that's beyond space time,
maybe we won't have to go through space time, maybe we can go around it. Maybe I can go to Proxima Centauri and not go through space. I can just go right there directly.
It's a data structure.
We can start to play with it.
I think that for what is worth, my take would be that the endless sequence of theories that we could contemplate building will lead to an endless sequence of
new remarkable insights into the potentialities, the possibilities that would seem miraculous
to us, and that we will be motivated to continue the exploration partly just for the technological
innovations that come out.
But the other thing that you mentioned though,
what about just being?
What do we want to decide instead of all this doing
and exploring what about being?
My guess is that the best scientists will do both
and that the act of being will be a place
where they get many of their ideas, and that they then pull into the conceptual realm.
And I think many of the best scientists by Einstein comes to mind, right?
Where these guys say, look, I didn't come up with these ideas by a conceptual analysis.
I was thinking in vague images and I was just something
non-conceptual and then it took me a long, long time to pull it out into concepts and then
longer to put it into math, but the real insights didn't come from just slavishly right, you know, playing with equations. They came from a deeper place. And so there may be this going back and forth between the complete non-conceptual
where there's essentially no end to the wisdom and then conceptual systems where there's the
girdle limits that we have to that. And that may be if consciousness is important and fundamental,
that may be what consciousness, at least part of what consciousness is about, is this
discovering itself, discovering
its possibilities, so to speak.
We can talk about what that might mean by going from the non-conceptual to the conceptual
and back and forth.
So you get better and better and better at being.
Right.
Let me ask you, just the Linger on the evolutionary, because you mentioned evolutionary game theory
and that's really where you, the perspective from which you come to form the case against
reality, at which point in our evolutionary history that we started to deviate the most
from reality, is it way before life even originated on earth? Is it in the early
development from bacteria and so on? Or is it when some inklings of what we think of
as intelligence or maybe even complex consciousness started to emerge. So where did this deviation? Just like with the
interfaces in a computer, you start with transistors and then you have assembly and then you have
C, C++ and you have Python and you have GUIs and all that kind of layers upon layers. When did we start the DBA?
Well, David Mar, again, my advisor at MIT, in his book Vision, suggested that the more primitive
sensory systems were less realistic, less theoretical.
But that by the time you got to something as complicated as the humans, we were actually
estimating the true shapes and distances to objects
and so forth.
So his point of view, and I think it was probably,
it's not an uncommon view among my colleagues,
that the sensory systems of lower creatures
may just not be complicated enough to give them
much, much truth.
But as you get to 86 billion neurons,
you can now compute the truth, or at least the parts
of the truth that we need.
When I look at evolutionary game theory,
one of my graduate students, Justin Mark,
did some simulations using genetic algorithms.
So there, he was just exploring,
we've started off with random organisms, random sensory genetics
and random actions.
And the first generation was unbelievably, there was a foraging situation, they were foraging
for resources.
Most of them just set, you know, state in one place didn't do anything important.
But we could then just look at how the genes evolved. And what we found was, what he found was that basically,
you never even saw the truth organisms even come on the stage.
If they came up, they were gone in one generation.
They just weren't, so they came and went, even just in one generation. They just weren't. So they came and got, they came and went, even just
in one generation, they just are not good enough. The ones that were just tracking their
senses, just were tracking the fitness payoffs were far more fit than the truth seekers.
So an answer at one level, I want to to give an answer to deeper level, but just with evolutionary game theory.
Because my attitude as a scientist is, I don't believe any of our theories.
I take them very, very seriously.
I study them.
I look at their implications, but none of them are the gospel.
They're just the latest ideas that we have.
And, you know, so the reason I study evolutionary game theory is because that's the best tool
we have right now in this area.
There's nothing else that competes.
And so as a scientist, it's my responsibility to take the best tools and see what they mean.
And the same thing the physicists are doing, they're taking the best tools and looking at what they entail.
But I don't, I think that science now has enough experience to realize that we should not
believe our theories in the sense that we've now arrived. In 1890, it was a lot of physicists
thought we'd arrived. They were discouraging bright young students from going into physics because
it was all done. And that's precisely the wrong attitude. Yeah. Forever. This is the wrong attitude forever. The attitude we should have is,
I, a century from now, they'll be looking at us and laughing at what we didn't know.
And we just have to assume that that's going to be the case. Just, just know that
everything that we think is so brilliant right now, our final theory of a century
from now, they'll look at us like we look at the physicists of 1890 and go,
how could they have been so dumb? Yeah, so I don't want to make that mistake. So I'm not Dr. Nare about
any of our current scientific theories. I am Dr. Nare about
this. We should use the best tools we have right now.
That's what we've got.
With humility. Well, so let me ask you about Game Theory.
There's, I love Game Theory, I've always been Game Theory, but I'm always suspicious of
it, like economics. When you construct models, it's too easy to construct things that oversimplify
construct things that oversimplify just because we are human brains enjoy the simplification of constructing a few variables that somehow represent organisms or represent people and
running a simulation that then allows you to build up intuition and it feels really
good because you can get some really deep and surprising intuitions. But how do you know your models aren't the assumptions underlying your models on some
fundamentally flawed and because of that, your conclusions are fundamentally flawed.
So I guess my question is, what are the limits in your use of game theory, evolution
game theory, your experience with it?
What are the limits of game theory?
So I've gotten some pushback from professional colleagues and friends who have tried to rerun simulations and try to, I mean, the idea that we don't see the truth is not comfortable,
and so many of my colleagues are very interested in trying to show that we're wrong.
And so the idea would be to say that somehow we did something, as you're suggesting, maybe
something special that wasn't completely general.
We got some little special part of the whole search space in Evolutionary Game Theory in
which this happens to be true, but more generally organisms would evolve to see the truth.
The best pushback we've gotten is from a team at Yale, and they suggested that if you use thousands of payoff functions,
so we, our simulations, we just used a couple, one or two,
because it was our first simulations, right?
So that would be a limit.
We had one or two payoff functions,
we showed the result of those,
at least for the genetic algorithms.
And they said if you have 20,000 of them,
then we can find these conditions in which truth-seeing organisms
would be the ones that evolved and survived.
And so we looked at their simulations.
And it certainly is the case that you
can find special cases in which truth can evolve.
So when I say it's probability zero,
it doesn't mean it can't happen.
It can happen.
In fact, it could happen infinitely often.
It's just probability zero.
So if probability zero things can happen infinitely often.
When you say probability is zero, you mean probability close to zero.
To be very precise, so for example, if I have a unit square on the plane.
And I use a measure in which the probability measure in which the area of a region is
this probability.
Then if I draw a curve in that unit square,
it has measure precisely zero,
precisely not approximately, precisely zero,
and yet it has infinitely many points.
So there's an object that for that probability measure has probability zero and yet there's infinitely
many points on it. So that's what I what I mean what I say that the things
that are probability zero can happen infinitely often in principle. Yeah, but
infinity as far as I and I look outside often I walk around and I look at people
I haven't never seen infinity in real life.
That's an interesting issue I've been looking.
I've been looking, I don't notice it, infinitely small or the infinitely big.
And so the tools and mathematics, you could sort of apply the same kind of criticism that it is,
a very convenient interface and a reality.
That's a big debate in mathematics, The intuitionists versus the ones who take,
for example, the real numbers as real. And that's a fun discussion. Nicholas Geeson has a physicist
that's really interesting work recently on how if you go with intuitionist mathematics,
you could effectively quantize Newton and you find that Newtonian theory and quantum theory aren't that different
once you go with it.
It's funny.
It's really quite interesting.
So the issue he raises is a very, very deep one and one that I think we should take quite
seriously, which is, you know, how should we think about the reality of the conscious
hierarchy? of the conscious hierarchy, A-LIFs, one, A-LIF-2, and all these different infinities, versus
just a more algorithmic approach, right?
So where everything's computable in some sense, everything's finite.
It's big as you want, but nevertheless, finite.
So yeah, ultimately boils down to whether the world is discreet or
continuous in some general sense.
And again, we can't really know, but there's just a mind breaking thought,
just common sense reasoning that something can happen and is yet probably
if it happens is 0%
that doesn't compute for common sense computer.
Right. This is where you have to be a sharp mathematician to really.
And I'm not.
Sharp is one word.
What I'm saying is common sense computer is I mean that
in a very kind of, in a positive sense, because we've been talking about perceptive
systems and interfaces, if we were, if we are to reason about the world, we have to use
the best interfaces we got.
And I'm not exactly sure that game theory is the best interface we got for this.
And application of mathematics, tricks and tools
of mathematics to game theories, the best we got
when we are thinking about the nature of reality
and fitness functions and evolution period.
Well, that's a fair rejoinder,
and I think that that was the tool that we used and if someone says here's a better mathematical tool and here's why this is this mathematical tool better captures the essence of Darwin's idea.
John Maynard Smith didn't quite get it with evolutionary game theory. There's this better this thing. Now there are tools like evolutionary graph theory, which generalize evolutionary game theory.
And then there's quantum game theory.
So you can use quantum tools like entanglement, for example,
as a resource in games, that change the very nature
of the solutions, the optimal solutions of the game theory.
What the work from Yale is really interesting.
It's a really interesting challenge of these ideas where,
if you have a very large number of fitness functions,
or let's say you have a nearly infinite number of fitness functions
or a growing number of fitness functions,
what kind of interesting things start to emerging,
emerging, if you are to be an organism, if to be an organism that adapts means having to
deal with an ensemble of fitness functions.
Right.
And so we've actually redone some of our own work based on theirs.
This is the back and forth that we expect in science, right? And what we found was that they in their
simulations, they were assuming that you couldn't carve the world up into objects that
And so we said, well, let's relax that assumption allow organisms to create data structures that we might call objects and
Then object would be you take you would do hierarchical clustering of your fitness payout functions.
The ones that have similar shapes, you have 20,000 of them.
Maybe these 50 are all very, very similar.
So I can take all the perception, action, fitness stuff and make that into a data structure
and we'll call that a unit or an object.
And as soon as we did that, then all of their results went away.
It turned out they were the special case, and that the organisms that were allowed to only see,
that that that were shaped to see only fitness payoffs were the ones that were. So, so the
idea is that objects then, what are objects from an evolutionary point of view, this bottle,
we thought that when I saw a bottle, it was because I was seeing a true object that existed whether or not it was perceived. Evolutionary theory suggests a different
interpretation. I'm seeing a data structure that is encoding a convenient way of looking
at various fitness pales. I can use this for drinking. I could use it as a weapon, not
very good one. I could beat someone with head with it. If my goal is mating, this is pointless.
So I'm seeing for what I'm coding here is all sorts of actions and the payoffs that I
could get.
When I pick up an apple, now I'm getting a different set of actions and payoffs for.
When I pick up a rock, I'm getting...
So for every object, what I'm getting
is a different set of payoff functions
and act with various actions.
And so once you allow that,
then what you find is once again that truth goes extinct
and the organisms that just get an interface
are the ones that went.
But the question, just sneaking up on this is fascinating,
from where do fitness functions originate? What gives birth to the fitness functions? So
if there's a giant black box that just keeps giving you fitness functions, what are we trying to
optimize? You said that water has different uses than an apple. So there's these objects. What are we trying to optimize?
And why is not reality a really good generator of fitness functions?
So each theory makes its own assumptions and says grant me this and all it's mind that.
So evolutionary game theory says grant me fitness payoffs, right?
And grant me strategies with payoffs,
and I can write down the matrix for this strategy
and the rest with that strategy.
These are the payoffs that come up.
If you grant me that, then I can start to explain a lot of things.
Now you can ask for a deeper question, like,
okay, so how does physics evolve biology
and where do these fitness payoffs come from? Right. Now, that would be a completely different enterprise.
And of course, evolutionary game theory then would be not the right tool for that.
It would have to be a deeper tool that shows where evolutionary game theory comes from. My own take is that there's going to be a problem in doing that,
because space time isn't fundamental.
It's just a user interface.
The distinction that we make between living and non-living
is not a fundamental distinction.
It's an artifact of the limits of our
interface. Right, so this is a new wrinkle and this is an important wrinkle. It's
so nice to take space and time as fundamental because if something looks like it's
inanimate, it's inanimate and we can just say it's not living. Now it's much more
complicated. Certain things are obviously living. I'm talking with you.
I'm obviously interacting with something that's alive and conscious.
I think we've let go of the word obvious in this conversation. I think nothing is obvious.
That's obvious. That's right. But when we get down to like an ant, it's obviously living,
but I'll say it appears to be living.
When we get down to a virus, now people wonder, and when we get down to protons, people say
it is not living.
And my attitude is, look, I have a user interface.
Interface is there to hide certain aspects of reality, and others to explain.
It's an uneven representation, put it that way. Certain things just get completely hidden.
Dark matter and dark energy are most
of the energy and matter that's out there.
Our interface just plain flat out hides them.
The only way we get some hint is
because gravitational things are going wrong within our,
so most things are outside of our interface.
The distinction between living
and non-living is not fundamentals and artifact of our interface.
So, if we really want to understand where evolution comes from, to answer the question, the
deep question you asked, I think the right way we're going to have to do that is to come
up with a deeper theory than space time, in which there may not be the notion of time.
And show that whatever this dynamics of that deeper theory is,
by the way, I'll talk about how you could have dynamics without time, but the dynamics of this
deeper theory, when we project it into, in certain ways, then we do get space time
and we get what appears to be evolution
by natural selection.
So I would love to see evolution by natural selection,
nature red and tooth and claw,
people fighting animals fighting for resources and whole bit,
come out of a deeper theory
in which perhaps it's all cooperation.
There's no limited resources and so forth,
but as a result of projection, you get space and time and as a result of projection, you get nature and time, and as a result of projection,
you get nature, red and tooth and claw, the appearance of it.
But it's all an artifact of the interface.
I like this idea that the line between living and non-living is very important,
because that's the thing that would emerge before you have evolution, the idea of death.
So that seems to be an important component of natural selection. And if that emerged, because that's also asking the question, I guess, that I asked, where do fitness functions come
from? That's asking the old meaning of life question, right?
It's like, what's the why?
Why?
And one of the big underlying why is, okay, you can start with evolution on earth, but without
living, without life and death, without the line between the living and the dead, you
don't have evolution.
So what if underneath it, there's no such thing as the living and the dead. You don't have evolution. So what if underneath it there's no such thing as the living in the dead?
There's no, uh, like this concept of an organism period. There's a living organism that's defined by a volume and space time
that somehow interacts
that over time maintains its integrity somehow
that over time maintains its integrity somehow, it has some kind of history, it has a wall of some kind. The outside world, the environment, and then inside there's an organism.
So you're defining an organism, and also you define that organism by the fact that it can move,
and it can be come alive, which you kind of think of as moving,
combined with the fact that it's keeping itself separate from the environment, so you can point out that thing is living, and then it can also die.
That seems to be of all very powerful components of space time
that enable you to have something like natural selection and evolution.
Well, and there's a lot of interesting works. Some of it by collaborators of Carl Friston and
others where they have Bayes net kind of stuff that they build on in the notion of a Markov blanket.
So you have some states within this network that are inside the blanket, then you have the blanket,
then the states outside the blanket, And the states inside this Markov blanket
are conditionally independent of the states outside the blanket,
conditioned on the blanket.
And what they're looking at is that the dynamics inside
of the states inside the Markov blanket
seem to be trying to estimate properties of the outside
and react to them in a way.
So it seems like you're doing probabilistic inferences
in ways that might be able to keep your life.
So there's interesting work going on in that direction,
but what I'm saying is something slightly different.
And that is, when I look at you,
all I see is skin hair and eyes, right?
That's all I see.
But I know that there's a deeper reality.
I believe that there's a much deeper reality.
There's the whole world of your experiences, your thoughts, your hopes, your dreams.
In some sense, the face that I see is just a symbol that I create, right?
And as soon as I look away, I delete that symbol, but I don't delete you.
I don't delete the conscious experience, the whole world of your... So I'm only deleting an interface symbol,
but that interface symbol is a portal, so to speak. Not a perfect portal, but a genuine portal
into your beliefs, into your conscious experiences, and that's why we can have a conversation.
We genuinely... What your consciousness is genuinely affecting mine. Mine is genuinely affecting yours through these icons,
which I create on the fly.
I mean, I create your face when I look, I delete it.
I don't create you, your consciousness, that's there all the time.
But I do.
So now, when I look at a cat,
I'm creating something that I still call living.
I still think is conscious.
When I look at an ant, I create something that I still call living. And I still think it's conscious. When I look at an ant, I create something
that I still would call living, but maybe not conscious.
When I look at something I call a virus,
now I'm not even sure I would call it living.
And when I look at a proton, I would say,
I don't even think it's not alive at all.
It could be that I'm nevertheless interacting with something that's
just as conscious as you. I'm not saying the proton is conscious. The face that I'm creating
when I look at you, that face is not conscious. That face is a data structure in me. That face
isn't, it's an experience. It's not an experience. Similarly, a proton is, is, is something that
I create, you know, when I look or do a collision in
the large Hadron Clyde or something like that.
But what is behind the entity in space time?
So I've got this space time interface and I've just got this entity that I call a proton.
What is the reality behind it?
Well the physicists are finding these big, big structures, the Amplitude Heedron, the Societhedron,
cause what's behind those could be consciousness,
what I'm playing with.
In which case, when I'm interacting with a proton,
I could be interacting with consciousness, again,
to be very, very clear, because it's easy to,
I'm not saying a proton is conscious.
Just like I'm not saying your face is conscious.
Your face is a symbol I create and then delete as I look.
So your face is not conscious, but I know that that face in my interface, the lex-freedement
face that I create, is an interface symbol that's a genuine portal into your consciousness.
The portal is less clear for a cat, even less clear for an ant, and by the time we get down to a proton,
the portal is not clear at all.
But that doesn't mean I'm not interacting with consciousness.
It just means my interface gave up.
And there's some deeper reality
that we have to go after.
So your question really forces out a big part
of this whole approach that I'm talking about.
So this portal, the consciousness,
I wonder why you can't, your portal is not as good to a cat, to a cat's consciousness. Then it's so human.
Does it have to be, have to do with the fact that you're human and just similar organisms,
organisms, the similar complexity are able to create portals better to each other, or
as you get more and more complex, you get better and better portals.
Well, let me answer one aspect of it that I'm more confident about, and then I'll speculate
on that.
Why is that the portal is so bad with protons?
Well, and elementary particles more generally, so the corks, leptons, and gluons and so
forth.
Well, the reason for that is because those are just
symmetries of space time.
More technically, they're irreducible representations
of the Poincare group of space time.
So they're just literally representations
of the data structure of space time that we're using.
So that's why they're not very much insightful.
They're just almost entirely tied to the data structure itself.
There's not much, they're telling you only something about the data structure,
not behind the data structure.
It's only when we get to higher levels that we're starting to, in some sense,
build portals to what's behind space time.
Sure. Yeah. starting to, in some sense, build portals to what's behind space time.
Sure. Yeah. So there's more and more complexity built on top of the
interface of space time with the cat. So you can actually build a portal,
right? Yeah. Yeah. Right.
Yeah, I this interface of face and hair and so on skin
There's some sinking going on between humans though where we sink like you're you're getting a pretty good representation of the Ideas in my head and starting to get a foggy view of
my memories in my head.
Even though, you know, this is the first time we're talking,
you start to project your own memories.
You start to solve like a giant hierarchy
of puzzles about a human.
Because we're all, there's a lot of similarities,
a lot of it rhymes.
So you start to make a lot of inferences
and you build up this model of a person.
You have a pretty sophisticated model what's going on underneath. Again, I just, I wonder if it's
possible to construct these models about each other and nevertheless be very distant from an
underlying reality. There's a lot of work on this. So there's some interesting work called signaling games where they look at how people
can coordinate and come to communicate.
There's some interesting work that was done by some colleagues and friends of mine, Lewis
Narons, Natalia Comorova and Kimberly Jamison, where they were looking at evolving color words.
So you have a circle of colors, you know, the color circle.
And they wanted to see if they could get people to cooperate
on how they carved the color circle up into units of words.
And so they had a game theoretic kind of thing
that they'd had people do.
And what they found was that when they included, so most people are trichromats, you have three
kinds of cone photoreceptors, but there are some, a lot of men, 7% of men have are dichromats.
They might be missing the red cone photoreceptor.
They found that the dichromats had an outsized influence on the final ways that the whole
space of colors was carved up and labels
attached. You needed to be able to include the dichromats in the conversation, so they had
a bigger influence on how you made the boundaries of the language.
I thought that was a really interesting kind of insight, that there's going to be, again,
a game, perhaps a game where evolutionary or genetic algorithm kind of thing that goes
on in terms of learning to communicate in ways that are useful.
And so, yeah, you can use Game Theory to actually explore that recycling games.
There's a lot of brilliant work on that.
I'm not doing it, but there's work out there.
So if it's okay, let us tackle once more and perhaps several more times after the big
topic of consciousness.
This very beautiful, powerful things that perhaps is the thing that makes us human, what
is it?
What's the role of consciousness in, let's say even just the thing we've been talking
about, which is the formation of this interface, any kind of ways
you want to start talking about it.
Let me say first what most of my colleagues say. 99% are again assuming that space time
is fundamental, particles in space time matter is fundamental. And most are reductionists.
And so the standard approach to consciousness is to figure out
what complicated systems of matter with the right functional properties
could possibly lead to the emergence of consciousness.
That's the general idea, right?
So maybe you have to have neurons.
Maybe only if you have neurons,
but that might not be enough.
They have to certain kinds of complexity
in their organization and their dynamics,
certain kind of network abilities, for example.
So there's, there are those who say, for example,
that consciousness arises from orchestrated collapse
of quantum states of microtubules and neurons.
So this is hemorrhofen kind of rows.
So it's a, you start with something physical, a property of quantum states of neurons,
of microtubules and neurons, and you say that somehow an orchestrated collapse
of those is consciousness or consciousness experiences.
Or integrated information theory.
Again, you start with something physical, and if it has the right kind of functional properties,
it's something they call fee, with the right kind of integrated information, then you
have consciousness. Or you can be a panpsychist, a philc
off, for example, where you might say, well, in addition to the particles in space and
time, those particles are not just matter, they also could have a unit of consciousness.
And so, but once again, you're taking space and time and particles is fundamental, and
you're adding a new property to them.
See, the consciousness and then you have to talk about how when a proton and neutron
or proton and electron get together to form hydrogen, then how those consciousnesses merge
to or interact to create the consciousness of hydrogen and so forth.
There's attention scheme of theory, which again is how neural network
processes representing to the network itself, its attentional processes, that could be consciousness.
There's global workspace theory and neuronal global workspace theory. So there's many, many theories
of this type. What's common to all of them is
They assume that space time is fundamental
They assume the physical processes and space time is fundamental
Panpsychism adds consciousness as an additional thing is almost dualist in that regard and
My attitude is our best science is telling us that space time is not fundamental. So, why is that important here? Well, for centuries, deep thinkers fought of earth, air, fire,
and water as the fundamental elements. It was a reductionist kind of idea. Nothing
was more elemental than those, and you could sort of build everything up from those.
When we got the periodic table of elements, we realized that of course we want to study Earth,
air, fire, and water. There's combustion science for fire. There's sciences for all these other
things, water and so forth. So we're gonna do science with these things, but fundamental?
No, no, if you're looking for something fundamental,
those are the wrong building blocks.
Earth has many, many different kinds of elements
that project into the one thing that we call earth.
If you don't understand that there's silicon,
that there's iron, that there's all these different kinds
of things that project into what we call earth,
you're hopelessly lost. You're not fundamental. You're not going to get there.
And then after the periodic table, then we came up with quarks, leptons, and gluons,
the particles of the standard model of physics. And so we actually now know that if you really
want to get fundamental,
the periodic table isn't it.
It's good for chemistry. And it's wonderful for chemistry.
But if you're trying to go deep fundamental, what is the fundamental science?
That's not it. You're going to have to go to quarks, leptons and gluons and so forth.
Well, now we've discovered space time itself is doomed.
Quarks, leptons and gluons are just irreducible representations of the symmetries of space time.
So, the whole framework on which consciousness research is being based right now is doomed.
And for me, these are my friends and colleagues that are doing this.
They're brilliant.
They're absent. They're brilliant. My feeling is, I'm so sad that they're stuck with this old framework because if they
weren't stuck with earth, air, fire and water, you could actually make progress. It doesn't
matter how smart you are. If you start with earth, air, fire and water, you're not going to
get anywhere, right? It can actually just, because the word doomed is so interesting.
Let me give you some options, multiple choice quiz.
It's space time.
We could say it's reality the way we perceive it.
Dumed, wrong, or fake.
wrong or fake because doomed just means it could still be right and we're now ready to go deeper.
It would be that.
So it's not wrong.
It's not a complete deviation from a journey toward the truth.
Right.
It's like earth air, fire and water is not wrong This is like earth air, fire and water is not
wrong. There is earth air, fire and water. That's a useful framework, but it's not fundamental.
Right. Well, there's also wrong, which is they used to believe as I recently learned that George
Washington was the president, the first president in the United States was blood to death
for something that could have been easily treated because it was believed that you can get, actually, I need to look into this
further, but I guess you get toxins out or demons out. I don't know why you're getting out with
the bleeding of a person, but so that ended up being wrong, but widely believed as a medical tool. So it's also possible that our assumption
of the spacetime is not just doomed, but it's wrong.
Well, if we believe that it's fundamental, that's wrong.
But if we believe it's a useful tool, that's right.
But it could see, but bleeding somebody to death
was believed to be a useful tool.
That's wrong.
It wasn't just not fundamental.
It was very, I'm sure there's cases in which bleeding somebody
would work, but it would be a very tiny, tiny, tiny percentage
of cases.
So it could be that it's wrong.
Like it's a side road that's ultimately
leading to a dead end, as opposed to a truck stop
or something
that you can get off of.
My feeling is that the dead end kind of thing,
I think that what the physicists are finding
is that there are these structures beyond space time,
but they project back into space time.
And so space time, when they say space time is doomed,
they're explicit, they're saying it's doomed
in the sense that we thought it was fundamental,
it's not fundamental. It's not fundamental.
It's a useful, absolutely useful and brilliant data structure, but there are deeper data structures, like cosmological polytope, and and and space time is not fundamental. What is doomed in the sense that it's wrong is
is reductionism, which is saying space time is fundamental.
Right. Right. The idea that that somehow
being smaller in space and time or space time is a fundamental nature of reality.
That's just wrong. It turned out to be a useful heuristic for thermodynamics and so forth,
and several other places, reductionism has been very useful. But that is some sense, an artifact of how we use our interface.
Yes, you're saying size doesn't matter. Okay, this is very important for me to write down ultimately.
Ultimately, right. It's useful for theories like thermodynamics and also for understanding brain networks in terms of
individual neurons and neurons in terms of chemical
systems inside cells. That's all very very useful
but but the idea that we're getting to the more fundamental nature of reality
No, when you get all the way down in that direction you get down to the corks and gluons Which you realize is what you've gotten down to is not fundamental reality, just the irreducible representations of a data structure.
That's all you've gotten down to. So you're always stuck inside the data structure.
So you seem to be getting closer and closer. I went from neural networks to neurons to
chemistry, chemistry to particles, particles to clorx and gluons.
I'm getting closer and closer to the real... No, I'm getting closer and closer to the actual structure
of the data structure of a space and time, the irreducible representations. That's what you're
getting closer to, not to a deeper understanding of what's beyond space time.
We'll also refer, we'll return again to this question of dynamics because you keep saying that
space time is doomed, but mostly focusing on the space part of that.
It's very interesting to see why time gets the bad cred too, because how do you have dynamics with all time?
Is the thing I'd love to talk to you a little bit about.
But let us return.
Your brilliant world wind overview of the different theories of consciousness that are out there.
What is consciousness outside of space time?
If we think that we want to have a model of consciousness, we as scientists then have to say
what do we want to write down? What kind of mathematical model are we going to write down?
And if you think about it, there's lots of things that you might want to write down about consciousness. For all the complicated subject. So most of my colleagues
are saying, let's start with matter, or neurons, and see what properties of matter could
create consciousness. But I'm saying that whole thing is out. Space time is doomed. That
whole thing is out. We need to look at consciousness, qua consciousness. In other words, not as something that arises in space and time, but perhaps as something
that creates space and time as a data structure.
So what do we want?
And here, again, there's no hard and fast rule, but what you, as a scientist, have to do,
is to pick what you think are the minimal assumptions that are going to allow you to boot
up a comprehensive theory. That is the trick.
So what do I want? So what I chose to do was to have three things.
I said that there are conscious experiences, feeling of headache, the smell of garlic,
experiencing the color red. Those are conscious. so that's the primitive of a theory.
And the reason I want few primitives, why?
Because those are the miracles of the theory, right?
The primitives, the assumptions of the theory,
or the things you're not going to explain.
Those are the things you assume.
And those experiences, you particularly mean
there is a subjectiveness to them.
That's what's the thing when people refer to the hard problem of consciousness,
is it feels like something to look at the color red.
Okay. Exactly. It feels like something to have a headache or to feel upset to your stomach.
It feels like something. And so, I'm going to grant that in this theory, there are experiences
and they're fundamental in some sense.
So conscious experience, so they're not derived from physics, they're not functional properties of particles,
they are sewage enters, they exist.
Just like we assume space time exists, I'm now saying space time is just a data structure,
it doesn't exist independent conscious experiences.
Sorry to interrupt once again, but should we be focusing in your thinking on humans alone?
Or is there something about in relation to other kinds of organisms that have a sufficiently high level of complexity?
Or is there some kind of generalization of the panpsychos idea that all consciousness per
me, it's all matter outside of the usual definition of what matter is inside space time?
So beyond human consciousness, human consciousness, from my point of view, would be one of a countless
variety of consciousnesses.
And even within human consciousness, there's countless variety of consciousnesses. And even within human consciousness, there's
countless variety of consciousnesses within us. You have your left and right hemisphere.
And apparently, if you split the corpus close, the personality of the left hemisphere and the
religious belief of the left hemisphere can be very different from the right hemisphere.
And their conscious experiences can be disjoint. One could have one conscious experience. They can play
20 questions. The left hemisphere can have an idea in his mind and the right hemisphere has to guess.
And it might not get it. So even within you, there is more than just one consciousness. It's
lots of consciousnesses. So the general theory of consciousness that I'm after is not just human
consciousness. It's going to be just consciousness consciousness and I presume human consciousness is a tiny drop in the bucket of the infinite
variety of consciousness.
That said, I should clarify that the black hole of consciousness is the home cat.
I'm pretty sure cats, lack, is the embodiment of even and lack all capacity for consciousness or
Compassion. So I just want to lay that on to but that's the theorem work. I don't have any good evidence
The black cap into it. There's just a shout out
Sorry to distract so that's the first assumption the first assumption
That's right. The second assumption is that these experiences have consequences
So I'm going to say that conscious experiences can trigger other conscious experiences,
somehow. So really, in some sense, there's two basic assumptions.
There's some kind of causality.
Is there is a chain of causality?
Does this relate to dynamics?
I'll say there's a probabilistic relationship.
Okay. those are related dynamics. I'll say there's a probabilistic relationship. So I'm trying to be as non-specific to begin with and see where it leaves me. So what I can
write down are probability spaces, so a probability space which contains the conscious experiences
that this consciousness can have. So I'll, I call this a conscious agent.
This technical thing, you know, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I, I to say that I use the term conscious agent merely as a technical term. There is no notion of self in my fundamental definition of a conscious agent.
There are only experiences and probabilistic relationships of how they trigger other experiences.
So the agent is the generator of the conscious experience.
The agent is a mathematical structure that includes a probability measure, a probability space of
possible conscious experiences, and what an Omarcovian kernel, which describes how, if
this agent has certain conscious experiences, how that will affect the experiences of other
conscious agents, including itself.
But you don't think of that as a self.
No there is no notion of a self here
There's no notion of really of an agent
But is there a locality
Is there no organization?
So this is this is these are conscious
Units conscious entities, but they're distinct
That's some way because they have to interact
Well, so here's the interesting thing when we write down the mathematics conscious entities, but they're distinct in some way because they have to interact.
Well, so here's the interesting thing. When we write down the mathematics,
when you have two of these conscious agents interacting, the pair satisfy a definition of a conscious agent. So they are a single conscious agent. So there is one conscious agent.
Yeah. But it has a nice analytic decomposition into as many conscious agents as a nice interface.
It's a very useful scientific interface. It's a scale-free, or if you like a fractal
like, approach to it, in which we can use the same unit of analysis at all scales in
studying consciousness. But if I want to talk about, so there's no notion of learning,
memory, problem solving, intelligence, self, agency, so none of that is fundamental.
And the reason I did that was because I want to assume as little as possible. Everything I
assume is a miracle in the theory. It's not something you explain is something you assume.
So I have to build networks of conscious agents.
If I want to have a notion of itself, I have to build a self. I have to build learning, memory, problem solving, intelligence, and planning, all these different things.
I have to build networks of conscious agents to do that. It's a trivial theorem that networks of conscious agents
are computationally universal. That's trivial. So anything that we can do with neural networks or,
you know, automata, you can do with networks of conscious agents. That's trivial. What,
which you can also do more, the events in the probability space need not be computable. So the
Markovian dynamics is not restricted to computable functions,
because the very events themselves need not be computable. So this can capture any computable theory.
Anything we can do with neural networks, we can do with conscious agent networks.
But it leaves open the door for the possibility of non-computable
interactions between conscious agents.
So we have to, if we want a theory of memory,
we have to build it.
And there's lots of different ways you could build.
We've actually got a paper, Chris Fields took the lead on this
and he, we have a paper called conscious agent networks
where Chris takes the lead and shows how to use
these networks of conscious agents to build memory
and to build primitive kinds of learning.
But can you provide some intuition of what conscious networks, network of conscious,
networks of conscious agents helps you, first of all, what that looks like.
And I don't just mean mathematically, of course, maybe that might help build up intuition,
but that helps us potentially solve the hard problem of consciousness.
Right.
Or is that baked in, that that exists?
I, is that the, can you solve the hard problem of consciousness?
Why it tastes delicious when you eat a delicious ice cream with networks of conscious agents,
or is that taken as an assumption?
So the standard way the hard problem is thought of is
we're assuming space and time in particles,
or neurons, for example.
These are just physical things that have no consciousness.
And we have to explain how they conscious experience
of the taste of chocolate could emerge from those,
so that's the physical hard problem of consciousness
is that problem, right?
How do you boot up the taste of chocolate,
the experience of the taste of chocolate
from neurons, say, or the right
kind of artificial intelligence circuitry?
How do you boot that up?
That's typically what the hard problem of consciousness means to researchers.
Notice that I'm changing the problem.
I'm not trying to boot up conscious experiences from the dynamics of neurons or silicon or
something like that.
I'm saying that that's the wrong problem.
My hard problem would go in the other direction.
If I start with conscious experiences,
how do I build up space and time?
How do I build up what I call the physical world?
How do I build up what we call brains?
Because I'm saying consciousness is not something
that brains do.
Brains are something that consciousness makes up.
It's among the experience,
it's an experimental experience an ephemeral experience in
consciousness. I look inside so up to be
very, very clear. Right now, I have no
neurons. If you looked, you would see
neurons. That's a data structure that you
would create on the fly. And it's a very
useful one. As soon as you look away, you
garbage collect that data structure, just
like that necrocub that I was talking
about on the piece of paper. When you look, you see a 3D cube,
you created on the fly. As soon as you look away, that's gone. When you say you, you mean human being scientists right now, that's right.
More generally it'll be conscious agents because as you pointed out, am I asking for a theory of conscience? Only about humans, no, it's consciousness,
which human consciousness is just a tiny sliver.
So, but you are saying that there is,
that the useful data structure,
how many other data structures are there?
That's why I said you human.
If there's another earth,
if there's another alien civilization
and doing these kinds of investigations,
would they come up with similar data structures?
Probably not. What is the space of data structures? I guess is what I'm asking.
My guess is that if consciousness is fundamental,
consciousness is all there is.
Then the only thing that mathematical structure can be about is possibilities of consciousness.
And that suggests to me that there could be an infinite variety of consciousnesses.
And a vanishingly small fraction of them use space-time data structures and the kinds of
structures that we use. There's an infinite variety of data structures.
Now this is very similar to something that Max Teigmark has said, but I want to distinguish
it.
He has this level for multiverse idea.
He thinks that mathematics is fundamental.
And so that's the fundamental reality.
And since there's an infinite variety of endless variety of mathematical structures, there's
an infinite variety of multiverses in his view.
I'm saying something similar in spirit but importantly different. There's an infinite variety of mathematical structures, absolutely. But mathematics isn't the fundamental reality
in this framework. Consciousness is, and mathematics is to consciousness like bones are to an organism.
The mathematics is to consciousness, like bones are to an organism. You need the bones.
Mathematics is not divorced from consciousness, but it's not the entirety of consciousness
by any means.
There's an infinite variety of consciousnesses and signaling games that consciousnesses
could interact via. And therefore, common worlds, data structures that they can use to communicate.
So space and time is just one of an infinite variety. And so I think that what we'll find is that
as we go outside of our little space-time bubble, we will encounter utterly alien forms of conscious experience that we may not be able to really
comprehend in the following sense, if I ask you to imagine a color that you've never
seen before.
Does anything happen?
Right, nothing happens.
Nothing happens.
Nothing happens.
And that's just one color. I'm asking if we're just a color. Right, nothing happens. Right. And nothing happens.
And that's just one color I'm asking for just a color.
We actually know by the way that there, apparently there are women called tetrafams who have four color receptors, not just three.
And Kimberly Jamison and others who've studied these women have good evidence that they apparently have a new dimension of color experience
that the rest of us don't have.
So these women are apparently living in a world of color
that you and I can't even concretely imagine.
No man can imagine them.
Yeah.
And yet they're real color experiences.
And so in that sense, I'm saying now take that little baby step
or oh, there are women who have color experiences
that I could never have.
Well, that's shocking.
Now take that infinite.
There are consciousnesses where every aspect
of their experiences is like that new color.
It's something utterly alien to you.
You have nothing like that.
And yet these are all possible varieties of conscious experience.
And when you say there's a lot of consciousness as a singular consciousness,
basically the set of possible experiences you can have in that subjective way,
as opposed to the underlying mechanism. Because you say that, you know,
having extra color receptor, you know, ability to have new experiences
that somehow a different consciousness,
is there a way to see that as all the same consciousness,
the subjectivity itself?
Right, because when we have two of these agents
interacting, the mathematics,
they actually satisfy the definition of a conscious agent.
So in fact, they are a single conscious agent. So in fact, one way to think about what I'm saying, I'm
postulating with my colleagues, the Cheeton and Chris and others, Robert
Brentner and so forth, there is one big conscious agent, infinitely complicated.
But fortunately, we can, for analytic purposes, break it down all the way to, in
some sense, the simplest conscious agent consciously which has one conscious experience, one, I, this one agent can
experience red 35, that's it, that's what it, that's what it experiences. You can get
all the way down to that. So you think it's possible, the consciousness, whatever
that is, is much more, is fundamental, or at least much more in the direction of the
fundamental than is space time as we perceive it.
That's the proposal.
And therefore, what I have to do in terms of the hard problem of consciousness is to show
how dynamical systems of conscious agents could lead to what we call space and time and neurons and
brain activity. In other words, we have to show how you get space time and physical objects
entirely from a theory of conscious agents outside of space time with the dynamics outside of space time.
So that's that's and I can tell you how we plan to do that,
but that's the idea.
Okay, the magic of it, that chocolate is delicious.
So there's a mathematical kind of thing that we could say here,
how it can emerge within the system of networks of conscience agents.
But is there going to be at the end of the proof why chocolate is so delicious?
Or no? I guess I'm going to ask different kinds of dumb questions to try to sneak up.
Oh, well, that's the right question.
And when I say that I took conscious experiences as fundamental,
what that means is in the current version of my theory,
I'm not explaining conscious
experiences where they came from. That's the miracle. That's one of the miracles. So I have two
miracles in my theory. There are conscious experiences like the taste of chocolate and that there's
a probabilistic relationship when certain conscious experiences occur, others are more likely to occur.
as experiences occur, others are more likely to occur. Those are the two miracles that are possible to get beyond that and somehow start to chip away at the miracleness of that miracle. That chocolate
is still delicious. I hope so. I've got my hands full with what I'm doing right now, but I can just say at top level how we think about that. That would get at this
consciousness without form. This is really tough because consciousness without form versus the
various forms that consciousness takes for the experiences that it has.
the various forms that consciousness takes for the experiences that it has. Right.
Right.
So there's, so when I write down a probability space for these conscious experiences, I say,
here's a probability space for the possible conscious experiences.
Right.
It's just like when I write down a probability space for an experiment, like I'm going to flip
a coin twice, right?
And I want to look at the probabilities of various outcomes.
So I have to write down a probability space.
There could be heads, heads, tails, tails, tails, tails.
So you before, as any class of probability, you're told write down your probability space.
If you don't write down your probability space, you can't get started.
So here's my probability space for consciousness.
How do I want to interpret that structure?
The structure is just sitting there.
There's going to be a dynamics that happens on it, right?
Experiences appear and let it disappear.
Just like heads appears and disappears.
So one way to think about that fundamental probability space
is that corresponds to consciousness without any content.
The infinite consciousness that transcends any particular content.
Who do you think of that as a mechanism, as a thing, like the rules that govern the dynamics
of the thing outside of space time?
Isn't that, if you think consciousness fundamentalism, isn't it essentially getting like, it is solving the hard problem, which is like from where does this thing pop up,
which is the mechanism of the thing popping up, whatever the consciousness is, the different
kinds, it was so on, that mechanism. And also the question I want to ask is how tricky do you think it is
to solve that problem? You solved a lot of difficult problems throughout the history of humanity.
There's probably more problems to solve left than we've solved by like an infinity,
left than we've solved by like an infinity, but along that long journey of intelligent species, when will we solve this consciousness one, which is one way to measure the difficulty
of the problem. So I'll give two answers. There's one problem I think we can solve, but
we haven't solved yet. And that is the reverse of what my colleagues
called a hard problem.
The problem of how do you start with conscious experiences
in the way that I've just described them,
and the dynamics, and build up space and time and brains?
That, I think, is a tough, technical problem,
but some principle solvable.
So I think we can solve that.
So we would solve the hard problem,
not by showing how brains create consciousness,
but how networks of conscious agents create what we call the symbols that we call brains.
So that I think, but does that allow you to, that's interesting, that's an interesting
idea, consciousness creates the brain, not the brain creates consciousness, but does
that allow you to build the thing?
My guess is that it will enable unbelievable technologies.
Once, and I'll tell you why, I think it plugs into the work that the physicists are doing.
So this theory of consciousness will be even deeper than the structures that the physicists
are finding like the amplitude heat room.
But the other answer to your question is less positive.
As I said earlier, I think that there is no such thing as a theory of everything.
So that I think that the theory that my team is working on, this conscious agent theory,
is just a 1.0 theory.
We're using probability spaces and Markovian curls.
I can easily see people now saying, well, we
can do better if we go to category theory. And we can get a deeper, perhaps more interesting.
And then someone will say, well, now I'll go to topoi theory. And then there'll be, so
I imagine that there'll be, you know, conscious agents five, ten, three trillion, point
out. But I think it will never end. I think ultimately this
question that we sort of put our fingers on of how does the formless give birth
to form to the taste, the wonderful taste of chocolate. I think that we will
always go deeper and deeper, but we will never solve that.
That in some sense, that will be a primitive. I hope I'm wrong.
Maybe it's just the limits of my current imagination.
So I'll just say my imagination right now
doesn't peer that deep.
Hopefully, so I don't, by the way, I'm saying this,
I don't want to
discourage some brilliant 20 year old who then later on proves me dead wrong. I hope
to be proven dead wrong.
Just like you said, essentially from now, everything we're saying now, everything you're
saying, all your theories will be laughing stock. They will respect the puzzle solving
abilities and how much we were able to do was so little, but outside
of that, you will all be just, the silliness will be entertainment for teenager.
Especially the silliness.
When we thought that we were so smart and we knew it all.
So, it would be interesting to explore your ideas by contrasting, you mentioned Anika Harris, you mentioned Phil Gough.
So, outside of, if you're not allowed to say the fundamental disagreement is the fact that
space time is fundamental, what are interesting distinctions between ideas of consciousness,
between you and Anika for example. You guys have, you've been on a podcast together. I'm sure in
in in in private, you guys have some incredible conversation. So what where are some sticking interesting sticking points? Some interesting
disagreements. Let's say with the Anika first, maybe there'll be a few other people. Well, Anika and I just had a conversation this morning,
where we were talking about our ideas and what we discovered really in our conversation was that
We're pretty much on the same page. It was really just
Consciousness. It's not consciousness. Yeah, we're our ideas about consciousness are pretty much on the same page
She rightly has cautioned me to when I talk about conscious agents to point out that the notion of agency is not fundamental
in my theory. The notion of self is not fundamental. That's absolutely true. I can use this network
of conscious agents, I now use as a technical term, conscious agents is a technical term
for that probability space with the Markovian dynamics. I can use that to build models of a self and to build
models of agency, but they're not fundamental. So she has really been very helpful in helping
me to be a little bit clear about these ideas and not say things that are misleading.
Sure. The word, I mean, this is the interesting thing about language actually is that language, quite obviously, is an interface to truth.
It's so fascinating that individual words can have so much ambiguity and the, and the
slight, the specific choices of a word within a particular sentence within the context
of a sentence can have so much such a difference in meaning.
It's quite fascinating, especially when you're talking about topics like consciousness,
because it's a very loaded term.
It means a lot of things to a lot of people and the entire concept is shrouded in mystery.
So combination of the fact that it's a loaded term, and that
there's a lot of mystery, people can just interpret it in all kinds of ways. And so you have
to be both precise and help them avoid getting stuck on some kind of side road of miscommunication,
lost in translation, because you use the wrong word. That's interesting. I mean, because for a lot of people consciousness is ultimately connected to itself. I mean, that's
our experience of consciousness is very connected to this ego. I mean, I just, I mean, what
else could it possibly be? I can't even,
how do you begin to comprehend it, to visualize, to conceptualize a consciousness that's not connected
to like this particular organism? Well, I have a way of thinking about this whole problem now that's
that's that comes out of this, this framework that's different. So, we can imagine a dynamics of consciousness,
not in space and time, just abstractly.
It could be cooperative, for all we know.
It could be very friendly, I don't know.
And you can set up a dynamics, a macovian dynamics,
that is so-called stationary.
And that's a technical term, which means that the entropy,
effectively, is not increasing. There is some entropy, but it's constant technical term, which means that the entropy effectively
is not increasing. There is some entropy, but it's constant. So there's no increasing entropy.
And in that sense, the dynamics is timeless. There is no entropic time.
But it's a trivial theorem, three-line proof, that if you have a stationary Markovian
dynamics, any projection that you make of that dynamics
by conditional probability, and if you want,
I can state a little more mathematically precisely
for some readers or listeners.
But if any projection you take by conditional probability,
the induced image of that Markov chain
will have increasing entropy.
You will have entropic time. So I'll be very, very precise. I have a mark of chain x1 x2 through xn, where xn n goes to infinity,
right? The entropy h capital h of xn is equal to the entropy h of xn minus 1 for all n. So the entropy is the same. But it's
a theorem that h of xn, say given x sub 1, is greater than or equal to h of xn minus 1,
given x1. Sure, what is the greater come from?
Because the three line proof,
h of xn given x1 is greater than or equal to
h of xn given x1 and x2,
because conditioning reduces.
But then h of xn minus 1 given x1, x2 is equal to h of xn given x2, xn minus 1 given x2 by the mark
of property. And then because it's stationary, it's equal to h of x, I have to write it down.
It's a sure, sure.
I have to write them anyway, but there's a three line proof.
Sure.
So what the assumption of stationarity,
we're using a lot of terms that people will understand.
Right.
Doesn't matter.
So there's some kind of some, my COVID dynamics
is basically trying to model some kind of system with some probabilities. And there's agents and they interact in some kind of some my coven dynamics is basically trying to model some kind of system
with some probabilities and there's agents and they interact in some kind of way and you
can say something about that system as it evolves stationarity.
So stationary system is one that has certain properties in terms of entropy very well.
But we don't know if it's stationary
not. We don't know what the properties should have to kind of take assumptions and see,
okay, what is the systems to behave like under these different properties? The more constraints,
the more assumptions you take, the more predictive, the more interesting, powerful things you
can say, but sometimes they're limiting.
That said, we're talking about consciousness here. Right.
How does that, you said cooperative, okay, competitive.
It just, I like chocolate.
I'm sitting here, I have a brain, I'm wearing a suit.
I'm sure as hell feels like I'm a self.
Right.
Now, what am I tuning in and am I plugging
into something? Am I a projection, a simple trivial projection into space time from some
much larger organism that I can't possibly comprehend? How the hell, you're saying some,
yes, you're building up mathematical intuitions fine great but I'm just I'm having
an existential crisis here and I'm going to die soon we'll all die pretty quickly so I I want
to I want to figure out what chocolate so delicious so help me out here so let's just keep sneaking
up to this right so the whole technical technical thing to say this, even if the dynamics of consciousness
is stationary, so that there is no entropic time.
Any projection of it, any view of it, will have the artifact of entropic time.
That's a limited resource.
Limited resources.
So that the fundamental dynamics may have no limits, limited resources, whatsoever.
Any projection will have certainly time as a limited resource, and probably a lot of other limited resources.
Hence, we could get competition and evolution and nature, red and tooth and claw,
as an artifact of a deeper system in which those aren't fundamental and and in fact I take it as
Something that this theory must do
At some point is to show how networks of conscious agents even if they're not
Resource limited give rise to evolution of a natural selection via a projection
Yeah, but you're saying
I'm trying to understand how the limited resources that give rise to,
so first the thing gives rise to time, it gives rise to the limited resource, it gives rise to
evolution by natural selection, how that has to do with the fact that chocolate is delicious.
Well, well, it's not going to do that directly, it's going to get to this notion of self.
So, oh, it's going to get to this notion of self. Oh, it's going to give you the notion of the evolution gives you the notion of
self and also of a self separate from other selves.
So, so the idea would be the competition has life and death and all those kinds of
things. That's right. So it won't, I don't think, as I said, I don't think that I can
tell you how the formless gives rise to the experience of chocolate.
Right now, my current theory says that's one of the miracles I'm assuming.
So my theory can't do it.
And the reason my theory can't do it is because Hoffman's brain can't do it right now.
But the notion of self, yes, the notion of self can be an artifact of the projection of
it. So there's one conscious agent,
because anytime conscious agents interact,
they form a new conscious agent.
So there's one conscious agent.
Any projection of that one conscious agent
gives rise to time, even if there wasn't any time
in that one conscious agent.
And it gives rise, I want to, now I have an provenness.
So this is, so now this is me guessing where the theory's going to go.
I haven't done this.
There's no paper on this yet.
So now I'm speculating.
My guess is I'll be able to show, or my brighter colleagues
working with me will be able to show that we will get
evolution of a natural selection, the notion of individual
cells, individual physical objects, and so forth coming
out as a projection of this thing.
And at the self, this then will be really interesting in terms of how it starts to interact with
certain spiritual traditions, right, where they will say that there is a notion of self that
needs to be let go, which is this finite self that's competing with other selves to get more
money and prestige and so forth.
That self in some sense has to die, but there is a deeper self, which is the timeless being
that precedes, not precludes, but precedes any particular conscious experiences, like
the ground of all experience, that there's that notion of a deep capital self,
but our little,
capital, lowercase S,
selves could be artifacts of projection.
And it may be that what consciousness is doing
in this framework is, right,
it's projected itself down into a self
that calls itself dawn and a self that calls itself Lex.
And through conversations like this, it's trying to find out about itself and eventually
transcend the limits of the Don and Lex little icons that it's using and that little projection
of itself through this conversation is somehow it's learning about itself.
So that thing dressed me up today, in order to understand itself. And in some sense, you and I
are not separate from that thing and we're not separate from each other. Yeah. Well, I have to question
the fashion choices on my end. All right. So you mentioned you agree on in terms of consciousness and a lot of things with
onica. Is there somebody friend or friendly foe that you disagree with in some nuanced interesting
way or some major way about consciousness about these topics of reality that you return to. Often it's like
Christopher Hitchens with the rabbi David Walpy have had interesting conversations through years
that added to the complexity and the beauty of their friendship. Is there somebody like that
that over the years has been a source
of disagreement with you that's strengthened your ideas?
Hmm. My ideas have been really shaped by several things. One is the physicalist framework
that my scientific colleagues, almost to a person, have adopted and that I adopted too.
And Tali, the reason I walked away from it was because I, it became clear that we couldn't
start with unconscious ingredients and boot up consciousness.
Can you define physicalists with a physical interest to reduction in this?
So a physicalist, I would say as someone who takes
space time and the objects within space time as ontologically
fundamental. Right. And then reductionist is saying the smaller
the more fundamental, that's a methodological thing that's
that's saying within space time, as you go to smaller and smaller
scales in space, you get deeper and deeper laws, more and more fundamental laws.
And the reduction of temperature to particle movement wasn't an example of that, but I
think that the reason that worked was almost an artifact of the nature of our interface.
That was for a long time, and your colleagues, including yourself, or physicalists, and now
you broke away.
Broke away because I think you can't start with unconscious ingredients and boot up
consciousness.
And so even with Roger Penrose, where there's like a gray area.
Right.
And here's the challenge I would put to all of my friends and colleagues who give one specific conscious experience that you
can boot up.
So, if you think that it's integrated information, and this I've asked this of Julia to know
me a couple times back in the 90s and then just a couple years ago, ask Julia, okay, so
great integrated information.
So, we're all interested in explaining some specific conscious experiences.
So what is, you know, pick one, the taste of chocolate.
What is the integrated information, precise structure
that we need for our chocolate?
And why does that structure have to be for chocolate?
And why is it that it could not possibly be vanilla?
Is there any, last time, is there any one specific
conscious experience that you can account for? Because notice, they've set themselves
the task of booting up conscious experiences from physical systems. That's the task. They've
set themselves. But that doesn't mean they're, I understand your intuition, but that doesn't mean
they're wrong just because they can't find a way to boot it up yet. That's right. No, that doesn't mean they're wrong just because they can't find a way to boot it up yet. That's right.
It doesn't mean that they're wrong.
It just means that they haven't done it.
I think it's principled.
The reason is principled, but I'm happy that they're exploring it.
But the fact is the remarkable fact is there's not one theory.
So integrated information theory, orchestrated collapse of microtubules, global workspace theory.
These are all theories of consciousness.
These are all theories of consciousness.
There's not a single theory that can give you a specific conscious experience that they
say, here is the physical dynamics or the physical structure that must be the taste of chocolate
or whatever one they want.
So you're saying it's impossible, they're saying it's just hard. Yeah, my attitude is okay, no one said you had to start with neurons
or physical systems and boot up consciousness. You guys did just take it back. You chose that
problem. So since you chose that problem, how much progress have you made? Well, when you've
not been able to come up with a single specific conscious experience, and you've had these brilliant people working on it for decades now, that's not really good progress.
Let me ask you to play devil's advocate. Can you try to steal man,
steal man, meaning argue the best possible case for reality, the opposite of your book title. So, um, or maybe just sticking to consciousness, can you take the physicalist view?
Can you steal man the physicalist view for a brief moment, playing devil's advocate to
or, um, steal man, the person you used to be, right?
Right.
The physicalist.
What's, what's a good, like saying that you might be wrong right now.
What would be a convincing argument for that?
Well, I think the argument I would give and that I believed was, look, when you have
very simple physical systems, like a piece of dirt, there's not much evidence of life
for consciousness.
It's only when you get really complicated physical systems like net-have brains.
And really, the more complicated the brains, the more it looks like there's consciousness,
and the more complicated that consciousness is.
Surely that means that simple physical systems don't create much consciousness,
or if maybe not any, or maybe, if pan-psychists, they create the most elementary kinds of simple
conscious experiences. But you need more complicated physical systems to boot up, to create
more complicated consciousnesses. I think that's the intuition that drives most of my colleagues.
And you're saying that this concept of complexity is ill-defined when you grounded to space-time.
Well, I think it's well-defined within the framework of space-time, right?
No, it's ill-defined relative to what you need to actually understand consciousness
because you're grounding complexity in space-time.
Oh, got you.
Right.
Yeah, what I'm saying is, if it were true, that space time was fundamental.
Then I would have to agree that if there is such a thing as consciousness, given the
data that we've got, that complex brains have consciousness and dirt doesn't, that somehow
is the complexity of the dynamics or organization, the function of the physical system that somehow is creating
the consciousness.
So under those assumptions, yes, but when the physicists themselves are telling us that
space time is not fundamental, then I can understand.
See, then the whole picture starts to come into focus.
Why my colleagues are brilliant, right?
These are really smart people.
I mean, Francis Crick worked on this
for the last 20 years of his life.
These are not stupid people.
These are brilliant, brilliant people.
The fact that we've come up with not a single specific
conscious experience that we can explain.
And no hope.
There's no one that says, oh, I'm really close.
So I'll have it for you in a year.
No, there's just like, there's this fundamental gap. So much so
that Steve Pinker in one of his writings says, look, he likes the global workspace theory. But he
says the last dollop of the theory in which there's something it's like to, he said, we may have to
just stipulate that as a as a brute fact. I mean, he that's, I mean, that, and Pinker is brilliant, right?
He understands to say to play on this problem of the hard problem of conscience, starting
with physical assumptions and then trying to boot up consciousness, or you've set yourself
the problem.
I'm starting with physical stuff that's not conscious.
I'm trying to get the taste of chocolate out as maybe some kind of function of the dynamics
of that.
We've not been able to do that.
And so, Pinker is saying, we may have to punt.
We may have to just stipulate that last bit, because of the last dollop, and just say,
stipulate it as a bare fact of nature that there is something that's like, well, from
my point of view, the whole point, the whole promise of the physicalist
was we wouldn't have to stipulate.
I was gonna start with the physical stuff
and explain where the consciousness came from.
If I'm gonna stipulate consciousness,
why don't I just stipulate consciousness
and not stipulate all the physical stuff too?
So I'm stipulating less.
I'm saying, okay, I agree.
The panpsych is perspective.
Well, it's actually what I call the conscious realist,
perspective. Conscious of the physical. Panpsych is perspective. Well, it's actually what I call the conscious realist perspective.
Conscious, the opposite.
Panpsychists are effectively dualists, right?
They're saying there's physical stuff that really is fundamental and then consciousness
stuff.
So I would go with pinker and say, look, let's just stipulate the consciousness stuff,
but I'm not going to stipulate the physical stuff.
I'm going to actually now show how to boot up the physical stuff from just the consciousness
stuff.
So I'll stipulate less. Is it possible? So if you stipulate less, is it possible for our limited brains to
visualize reality? As we go deeper and deeper and deeper, is it possible to visualize somehow?
With the tools of math, with the tools of computers, with the tools of our mind,
are we hopelessly lost?
You said there's ways to intuit what's true using mathematics and probability and sort
of a Markovian dynamics, all that kind of stuff, but that's not visualizing. That's what's
the kind of building intuition, but is it possible to visualize in a way we visualize so nicely
in space time and four dimensions and two and three dimensions? Sorry. Well, we really
are looking through a two dimensional screen until what we intuit to be a three-dimensional world and also inferring dynamic stuff, making
it 4D anyway, is it possible to visualize some pretty pictures that give us a deeper sense of
the truth of reality? I think that we will incrementally be able to do that. I think that for example,
incrementally, and be able to do that. I think that, for example, the picture that we have of
electrons and photons interacting and scattering, it may have not been possible until Faraday did all of his experiments and then Maxwell wrote down his equations, and we were then
sort of forced by his equations to think in a new way.
And then when Plunk in 1900,
you know, desperate to try to solve the
the problem of black body radiation, what they call the ultraviolet catastrophe, where Newton was predicting infinite energies,
where they're not infinite energies in the black body radiation.
And he in desperation proposed
packets of energy.
Then once once you've done that and then you have a nine-sided couple long five years later and show how that explains the photoelectric
photoelectric effect and then
then eventually in 1926, you get quantum theory.
And then you get this whole new way of thinking
that was from the Newtonian point of view,
completely contradictory and counterintuitive, certainly.
And maybe if Geeson is right, not contradictory,
maybe if you use intuition as math,
they're not contradictory, but still,
certainly you wouldn't have gone there. contradictory, maybe if you use intuition as math, they're not contradictory, but still.
Certainly you wouldn't have gone there.
So here's a case where the experiments and then a desperate mathematical move, sort of we use those as a
flashlight into the deep fog.
Right.
And so that science may be the flashlight into the deep fog.
I wonder if it's still possible to visualize in the,
in the, like we talk about consciousness in,
from a self-perspective experience that hold that idea
in our mind, the way you can experience things directly.
We've evolved to experience things in this 3D world. And that's a very
rich experience. When you're thinking mathematically, you still in the end of the day have to project
it down to a low dimensional space to make conclusions. Their conclusions will be a number or a line or a plot or a visual.
So I wonder like how we can really touch some deep truth in a subjective way, like experience it.
Really feel the beauty of it, you know, in the way that humans feel beauty. Right, are we screwed?
I don't think we're screwed. I think that we get little hints of it
from from psychedelic drugs and so forth. We get hints that there are certain interventions
that we can take on our interface. I apply this chemical, which is just some element of
my interface to this other to a brain, I ingested. And all of a sudden, I seem like I've opened new portals into conscious experiences.
Well, that's very, very suggestive. That's like the Black Body radiation doing something that we didn't expect, right?
It doesn't go to infinity when we thought it was going to go to infinity and we're forced to propose these quanta.
So once we have a theory of conscious agents
and is projection to space on,
I should say, I should sketch what I think that projection is.
But then I think we can then start to ask specific questions
when you're taking DMT or you're taking LSD or something like that.
Now that we have this deep model that we
reverse engineered space and time in physical particles, we've pulled them back to
this theory of conscious agents. Now we can ask ourselves in this idealized
future, what are we doing to conscious agents when we apply five MEODMT? What
are we doing? Are we opening a new portal? Right? So when I say that, I mean,
I have a portal into consciousness that I call my body of Lex Friedman that I'm creating. It's a
genuine portal, not perfect, but it's a genuine portal. I'm definitely communicating with your
consciousness. And we know that we have one technology for building new portals. We know one technology and that is having kids.
Having kids is how we build new portals into consciousness.
It takes a long time.
Can you elaborate that?
Oh, oh, you mean like your son and your daughter didn't exist.
That was a portal.
You're having contact with consciousness that you never
have had before.
But now you've got a son or a daughter that you had, you went through this physical process.
They were born.
Then you, there was all the, but that portal yours.
So when you have kids, are you creating new portals that are completely distinct from the portals that you've created with other consciousness?
Like can you, can you elaborate on that to which degree
are the consciousness of your kids a part of you?
Well, so every person that I see,
that symbol that I see, the body that I see,
is a portal potentially for me to interact with the consciousness.
And each consciousness has a unique character, and we call it a personality.
And so forth. So with each new kid that's born, we come in contact with a personality that
we've never seen before, and a version of consciousness that we've never seen before. At a deeper level,
that I said, the theory says there's one agent. So this is a different projection of that
one agent. But so that's what I mean by a portal is within my own interface, my own projection,
can I see other projections of that one consciousness. So can I get portals in that sense? And I think we will get a theory of that.
We will get a theory of portals, and then we can ask how the psychedelics are acting. Are they actually creating new portals or not?
If they're not, we should nevertheless then understand how we could create a new portal. Right? Maybe we have to just study what happens when we have kids.
We know that that technology creates new portals.
So we have to reverse engineer that and then say,
okay, could we somehow create new portals, DeNovo?
Was something like a, like a brain computer interfaces, for example?
Yeah, maybe just a chemical or something chemical or something more complicated than a chemical.
That's why I think that the psychedelics, the psychedelics may,
because they might be affecting this portal in certain ways that it turns it
around and opens up, in other words, it may be once we understand,
but this thing is a portal, your body is a portal,
and understand all of its complexities, maybe we'll realize that that
portal can be shifted and to different parts of the deeper consciousness and give new windows on it. So in that way, maybe
yes, psychedelics could open up new portals in the sense that they're taking something that's
already a complex portal and just tweaking it a bit. Well, but creating is a very powerful
difference between morphing, Right. Freaking versus creating.
I agree.
But maybe it gives you intuition to at least the full space of the kinds of things that
this particular system is capable of.
I mean, the idea, the idea, the conscious that creates brains, I mean, that breaks my brain
because, you know, I guess I'm still a physicalist in that sense because it's just much easier
to intuit the world.
It's very practical to think, there's a neural network and what are the different ways
fascinating capabilities can emerge from this neural network.
It's great. It's easier.
And so you start to, and then present yourself the problem of, okay, well, how does consciousness
arise? How does intelligence arise? How does emotion arise? How does memory arise in the,
how do we filter within the system all the incoming center information were able to
allocate attention in different interesting ways how do all those mechanisms arise?
To say that there's other fundamental things we don't understand outside of space time that are actually core to how this whole thing works is
a bit paralyzing because it's like, oh, we're not
10% done. We're like 0.001% done. It's the idiot feeling. Certainly understand that my
attitude about it is, if you look at the young physicists who are searching for these structures beyond space time, like Appalachian and so forth,
they're having a ball.
Space time, that's what the old folks did.
That's what the older generation did.
We're doing something that really is fun and new and they're having a blast and they're finding all these new structures.
So, I think that we're going to succeed in getting a new deeper theory.
I can just say what I'm hoping with the theory that I'm working on.
I'm hoping to show that I could have this timeless dynamics of consciousness, no entropic
time. I take a projection and I show how this timeless dynamics of consciousness, no entropic time. I take
a projection, and I show how this timeless dynamics looks like the big bang. And the entire
evolution of space time, in other words, I see how my whole space time interface, so not
just the projection, it just doesn't just look like space time, you can explain the whole
with it, the whole from the origin of the universe.
That's what we have to do.
And that's what the physicists understand.
When they go beyond space time
to the amplitude heater and the cosmological polytope,
they ultimately know that they have to get back
the big bang story and the whole evolution,
that whole story where there were no living things.
There was just a point.
And then the explosion and then just particles at high energy and then eventually the cooling down and the differentiation and finally matter,
condenses and then life and then consciousness. That whole story has to come out of something that's deeper and without time. And that's what we're up to. That's we want to get that. So the whole story that
we've been telling ourselves about Big Bang and how brains evolve and unconscious will
come out of a much deeper theory. And for, yeah, for someone like me, it's a lot of men,
but for the younger generation, this is like, oh, wow, all the low chariots aren't picked.
This is really good stuff. This is really new, fundamental stuff that we can do. So that I can't wait to read the papers of
the younger generation. And I want to see them.
Kids these days with their non-space time assumptions. It's just an interesting looking at the
philosophical tradition of this difficult ideas
you struggle with. If you look like somebody like Emanuel Kant, what are some interesting agreements
and disagreements you have with a guy about the nature of reality? So there's a lot in agreement.
So Kant was an idealist, President Den idealist, and he basically had the idea that we don't
see nature as it is.
We impose a structure on nature.
And so in some sense, I'm saying something similar.
I'm saying that by the way, I don't call myself an idealist.
I call myself a conscious realist because idealism has a long history, a lot of different
ideas come under idealism and there's a lot of debates and so forth.
It tends to be identified with, in many cases, anti-science and anti-realism.
And I don't want either connection with my ideas.
And so I just called my conscious realism with an emphasis on realism
and not anti-realism. But one place where I would of course disagree with Kant was that he thought that
Euclidean spacetime was a priory. We just know that that's false. So he went too far on that. But
So, he went too far on that, but in general, the idea that we don't start with space-time, that space-time is in some sense the forms of our perceptions.
Yes, absolutely.
And I would say that, you know, there's a lot of common with Barclay in that regard.
There's a lot of ingenious arguments in Berkeley. Leibniz, Leibniz in his monodology understood very clearly
that the hard problem was not solvable.
He posed the hard problem and basically dismissed it.
You can't do this.
And so if he came here and saw where we are,
he said, look, guys, I told you this 300 years ago.
And he had his monodology.
He was trying to do something like,
this is different from what I'm doing,
but he had these things that were not in space in time.
These monads, he was trying to build something,
I'm trying to build a theory of conscious agents.
My guess is that if he came here,
I could just, if he saw what I was doing,
he would say, he would understand it and immediately take off with it and go places that I could just, if you saw what I was doing, he would say, he would understand
it and immediately take off with it and go places that I couldn't.
He would, he would have the wrong way.
Right, there would be an overlap of the spirit of the ideas, totally overlapping, but his
genius would then just run with it far faster than I could.
I love the humility here.
So let me ask you about practical implications of your ideas to our world, our complicated
world.
When you look at the big questions of humanity, of hate, war, what else is there?
Evil?
Maybe there's the positive aspects of that, of meaning, of love.
What is the fact that reality is an illusion perceived?
What is the conscious realism when applied to daily life?
What kind of impact does it have?
A lot.
And it's sort of scary.
We all know that life is a femoral.
And spiritual traditions have said, wake up to the fact that, you know,
anything that you do here is going to disappear.
But it's even more femoral than perhaps we've thought.
I see this bottle because I create it right now.
As soon as I look away, that
data structure has been garbage collected. That bottle, I have to recreate it every time
I look. So I spend all my money on it by this fancy car. That car, I have to keep recreating
it every time I look at it. It's that ephemeral. So all the things that we invest ourselves
in, we fight over, we kill each other over, and we have wars over.
These are all, it's just like people in a virtual reality simulation. And there's this
this Porsche, and we all see the Porsche. Well, that Porsche exists when I look at it, I turn
my headset and I look at it, and then if Joe turns his headset and I, he'll see his Porsche.
It's not even the same Porsche that I see.
He's creating his own Porsche.
So these things are exceedingly ephemeral.
And now just imagine saying that that's my Porsche.
Well, you can agree to say that it's your Porsche,
but really, the Porsche only exists as long as you look
So so this all of a sudden what the spiritual traditions have been saying for a long long time
This gets cashed out in in mathematically precise science. It's saying in femoral. Yes, in fact It lasts for a few milliseconds a few hundred milliseconds while you look at it and then it's gone. So so the whole idea
Why are we fighting? Why do we hate? It's, we fight over possessions because we think that we're small little objects inside this pre-existing space
time. We assume that that that mansion, that car exist independent of us and that somehow we these little things can have our sense of
Self and importance enhanced by having that special car or that special house or that special person
When in fact is just the opposite you create that mansion every time you look that's that's you're the you're something far deeper than that mansion You're the entity which can create that mansion every time you look. That's, you're something far deeper than that mansion,
you're the entity which can create that mansion on the fly. And there's nothing to the mansion,
except what you create in this moment. So all of a sudden, when you take this point of view,
it has all sorts of implications for how we interact with each other, how we treat each other.
And again, a lot of things that spiritual traditions have said, it's a mixed bag. Spiritual
traditions are a mixed bag, so let me just be right or front about that. I'm not promoting
any particular, but they do have some insights.
Yeah, they have wisdom.
They have certain wisdom, they have, I can point to nonsense, I won't go into it, but I can also point to lots of nonsense. So the issue
is to then to look for the key insights. And I think they have a lot of insights about
the ephemeral nature of objects and space and time and not being attached to them, including
our own bodies. And reversing that I'm not this little thing, a little consciousness trapped in the body.
And the consciousness itself is only a product of the body.
So when the body dies, the consciousness disappears.
It turns completely around.
The consciousness is fundamental.
The body, my hand exists right now because I'm looking at it.
My hand has gone.
I have no hand.
I have no brain.
I have no heart. If you look, you'll
see a heart. Whatever I am is this really complicated thing in consciousness. That's what I am.
All the stuff that I thought I was is something that I create on the fly and delete. So this is completely radical restructuring of how we think about possessions, about identity,
about survival of death, and so forth.
This is completely transformative.
But the nice thing is that this whole approach of consciousnesses, unlike the spiritual traditions,
which have said in some cases similar things, they've said it imprecisely.
This is mathematics.
We can actually now begin to state precisely, here's the mathematical model of consciousness,
conscious agents, here's how it maps on to spacetime, which I should sketch really briefly.
And here's why things are ephemeral, and here's why you shouldn't be worried about the ephemeral nature of things,
because you're not a little tiny entity inside space in time, quite the opposite, you're the author of space in time.
The I and the I am is all kind of emergent through this whole process of evolution and so on.
That's, that's just surface waves and there's so much deeper ocean that we're
trying to figure out here. So, how does you said some of the stuff you're thinking about maps,
the space time, how does it map this, the space time? So, just at very, very high level,
the structures that the physicists are finding, like the amplitude heatern. It turns out they're just static structure, they're polytops.
But they remarkably, most of the information in them is contained in permutation matrices.
So it's a matrix, like an n-by-n matrix, that just has zeros and ones.
That contains almost all of the information. And you can, they have these plebic graphs and so forth that they use to boot up the scattering.
You can compute the scattering amplitude almost entirely from these permutation matrices.
So that's just, now for my point of view, I have this conscious agent dynamics.
It turns out that the stationary dynamics that I was talking about,
the where the entropy is increasing,
all the stationary dynamics are sketched out
by permutation matrices.
So if you, there's so called Birkhoff polytope,
all the vertices of this polytope, all the points
are permutation matrices.
All the internal points are Markovian kernels that have the uniform measure as a stationary
measure.
And I need to intuit a little better with what the heck you're talking about, but so basically
there's some complicated thing going on with the network of conscious agents,
and that's mapable to this year's thing, to the mental matrix, that scattering has to
do with what, the perception, like that's like photon stuff.
I mean, I don't know if it's useful to sort of dig into detail.
I'll do just the high level thing.
So the high level is the long term behavior just the high level thing. Yes.
So the high level is the long term behavior of the conscious agent,
now that's the projection.
Just looking at the long term behavior,
I'm hoping we'll give rise to the amplitude heatron.
The amplitude heatron then gives rise to space time.
So then I can just use their link to go all the way from consciousness
through its asymptotics to through the amplitude, to the end of space time and get the map all the way into our
interface.
And that's why you mentioned the permutation matrix because it gives you a nice thing
to try to generate.
That's right.
It's the connection with the amplitude he drum.
The permutation matrices are the core of the amplitude he drum and it turns out they're
the core of the asymptotic description of the conscious agents.
So not to sort of bring up the idea of a creator, but I like, first of all, I like video games,
and you mentioned this kind of simulation idea.
First of all, do you think of as an interesting idea, the thought experiment that will live in a simulation?
And in general, do you think will live in a simulation?
So the Nick Bostrom's idea about the simulation
is typically couched in a physical framework.
Yes.
So there is the bottom level.
There's some programmer in a physical space time,
and they have a computer that they program brilliantly,
where they've created conscious entities.
So you have the hard problem of consciousness, right?
The standard hard problem.
How could a computer simulation create a content
which isn't explained by that simulation theory?
But then the idea is that the next level,
the entities that are created in the first level simulation
then can write their own simulations
and you get this nesting.
So the idea that this is a simulation is fine,
but the idea that this starts with a physical space,
I think, isn't for this.
There's different properties here, the partial rendering.
And to me, that's the interesting idea
is not whether the entirety of the universe is simulated,
but how efficiently can you create interfaces
that are convincing to all other entities
that can appreciate such interfaces,
how little does it take?
Because you said like partial rendering
or like temporal,
a thermal rendering of stuff.
Only render the tree falling in the
forest when there's somebody there to see it. It's interesting to think how can you do that
superficially without having to render everything. And that to me is one perspective on the simulation,
just like it is with video games, where a video game doesn't have to render every single thing.
It's just the thing that the observer is looking at.
Right. There is actually a very nice question
and there's a whole groups of researchers
that are actually studying in virtual reality.
What is the sort of minimal requirements on this system?
What, how does it have to operate?
To give you an immersion experience,
to give you the feeling that you have a body,
to get you to take it real.
And there's actually a lot of really good work on that right now.
It turns out it doesn't take that much.
You do need to get the perception action loop tight,
and you have to give them the perceptions that they're expecting,
if you want them to.
But if you can lead them along,
if you give them perceptions that are close to what they're expecting, you can then maybe move their reality around a bit.
Yeah, and it's a trick in engineering problem, especially when you're trying to create
a product that costs a little, but it feels like an engineering problem, not a deeply scientific
problem.
Or meaning obviously it's a scientific problem, but as a scientific problem, it's not
that difficult to trick us descendants of apes.
But here's the case for just us,
you know, our own, if this is a virtual reality
that we're experiencing right now.
So here's something you can try for yourself.
If you just close your eyes and look at
your experience in front of you,
be aware of your experience in front of you,
what you experience is just like a modeled dark gray, but there's all sort of, there's some dynamics for it, but
it's just dark gray.
But now I ask you, instead of having your attention forward, put your attention backward.
What is it like behind you with your eyes closed?
And there it's like nothing.
It's real.
So what is going on here?
What are my experiences back there?
It's bright.
I don't know if it's nothing.
I guess it's the absence of it's not even darkness or something.
It's not, I guess it's the absence of, it's not even like darkness or something. It's not even darkness.
There's no, there's no quality to it.
And yet there is a sense of being.
And that's the interesting thing.
There's a sense of being back.
So I close my, I put my attention forward,
I have the quality of a gray model thing.
But when I put my attention backward,
there is no quality at all, but there is a sense of being.
I personally, you haven't been to that side of the room.
I have been to that side of the room.
So for me, memories, I start, I started playing the engine of
memory replay, which is like, I take myself back in time and think
about that place where I was hanging
out in that part, that's what I see when I'm behind. So that's an interesting quirk of
humans too, we're able to, we're collecting these experiences and we can replay them in
interesting ways whenever we feel like it. And it's almost like being there, but not really,
but almost. That's right. And yet we can go our entire lives in this.
You're talking about the minimal thing for VR.
We can go our entire lives and not realize that all of my life, it's been like nothing
behind me.
Yeah.
Yeah.
We're not even aware that all of our lives, if you just, just for the, just pay attention,
close your attention to what's behind me, we're like, holy smoke, it's scary.
I mean, it's like nothing.
There's no quality of the at all.
How did I not notice that my entire life?
We're so immersed in the same relation we buy it so much.
Yeah, I mean, you could see this with children, right?
They'll be with the persistence, you know,
you could do the peekaboo game.
You can hide from them and appear and they're fully tricked and in the same way, we're fully tricked.
There's nothing behind us in the way, assume there is.
And that's really interesting. These theories are pretty heavy.
You as a human being, as a mortal human being. How has these theories been to you personally?
Like, are there good days and bad days when you wake up and look in the mirror
and the fact that you can't see anything behind you?
The fact that it's rendered,
like, is there interesting quirks,
Nietzsche, if you gaze long into the abyss,
the abyss gazes into you.
How is this theory,
these ideas change you as a person?
It's been very, very difficult.
The stuff is not just abstract theory building because it's about us.
Sometimes I've realized that there's this big division of me.
My mind is doing all this science and coming up with these conclusions.
And the rest of me is not integrating.
I don't believe it.
I just don't believe this. So as I start to take it seriously, I could scared myself.
But it's very much, then I read these spiritual traditions and realized they're saying very,
very similar things. It's like there's a lot of conversions. So for me, I have the first time I thought it might be possible that we're not seeing
the truth. It was in 1986. It was from some mathematics we were doing. And when that hit me,
it hit me like a ton of bricks. I had to sit down. It was, it really, it was scary. It was really a shock to the system.
And then to realize that everything that has been important to me,
like getting a house, getting a car,
getting a reputation and so forth.
Well, that car is just like the car I see in the virtual reality.
It's there when you perceive it. It was not there.
So the whole question of, you know, what am I doing and why?
What's worth while doing in life?
Clearly getting a big house and getting a big car.
I mean, we all knew that we were going to die.
So we tend not to know that.
We tend to hide it, especially when we're young.
Before age 30, we don't believe we're going to die.
We factually maybe know that you're kind of supposed to, yeah.
But they'll figure something out, and we're probably the generation that the first one that doesn't have to die.
That's the kind of thing. But when you really face the fact that you're going to die,
and then when I start to look at it from this point of view,
that well, this thing was an interface to begin with.
So what I'm really, is what I'm really going to be doing,
just taking off a headset.
So I've been playing in a virtual reality game all day,
and I got lost in the game when I was fighting over a Porsche.
And I shot some guys up and I punctured their tires
and by got the Porsche.
Now I take the headset off and what was that for?
Nothing.
It was just, it was a data structure and the data structure has gone.
So all of the wars, the fighting and the reputations and all this stuff, you know,
where it's just a headset.
So now, and so my theory says that intellectually, my mind, my emotions rebel all over the place.
It's like, you know, and so I have to meditate a lot.
What percent of the day would you say you spend as a physicalist,
sort of living life, pretending your car matters,
your reputation matter, like how much, was that time-weight song, I liked my town
with a little drop of poison,
how much poison do you allow yourself to have?
I think my default mode is physicalist.
I think that that's just the default.
I, when I'm not being conscious, consciously attentive,
they're intellectually conscious, they're attentive.
Because if you're just, if you're tasting coffee and not thinking,
or drinking, or just taking in the sunset,
you're not being intellectual, but you're still experiencing it.
So it's when you turn on the, like, the introspective machine,
that's when you can start.
And turn off the thinker when I actually just start looking without thinking.
So that's that's when I feel like I,
all of a sudden I'm starting to see through.
It's sort of like, okay, part of, part of the addiction to the interface
is all the stories I'm telling about.
It's really important for me to get that,
really important to do that.
So I'm telling all these stories,
and so I'm all wrapped up,
almost all of the mind stuff that's going on in my head
is about attachment to the interface.
And so what I found is that essentially the only way
to really detach from the interface
is to literally let go of thoughts altogether.
And then all of a sudden, even my identity,
my whole history, my name, my education, all this stuff is almost irrelevant because it's just now here is the present moment.
And this is the reality right now. And all of that other stuff is an interface story.
But this conscious experience right now, this is the only, this is the only reality as far as I can tell, the rest of it's a story.
And, but that is again, not my default, that is, I have to make a really
conscious choice to say, okay, I know intellectually this is all an interface.
I'm going to take the headset off and so forth.
And then immediately sink back into the game
and just be out there playing the game and get lost.
So I'm always lost in the game
unless I literally consciously choose to stop thinking.
Isn't it terrifying to acknowledge
that to look beyond the game? Isn't it?
It scares the hell out of me. It really is scary because I'm so attached. I'm
attached to this body. I'm attached to the interface. I never worried about
breaking your brain a bit, meaning like it's, I mean, some of these ideas when you think about reality,
even with like Einstein, just realizing, you said interface, just realizing that light,
you know, that there's a speed of light and you can't go fast in the speed of light and like what kind of things the black holes and can do with light.
Even that can mess with your head.
Yes.
But that's still space time.
That's a big mess, but it's still just space time.
It's still a property of an interface.
That's right.
But it's still like even, even Einstein realized that this particular thing, some of the stories you tell ourselves
is constructing interfaces that are oversimplifying the way things work, because it's nice.
The stories are nice.
Stories are nice.
I mean, just like video games, they're nice.
Right.
But Einstein was a realist, right?
He was a famous realist in the sense that he was very explicit in a 1935 paper with
Pudelskin Rosen, the EPR paper, where they said, if without, in any way, disturbing a system,
I can predict with probability one, the outcome of a measurement. Then there exists, in reality, that element,
right, that value, that, and we now know from quantum theory that that's false. That Einstein's
idea of local realism is strictly speaking false. And so we can predict, we can set up in quantum theory, you can set up and there's a paper by Chris Fuchs, quantum basing on where he scouts this out.
It was done by the people, but he gives a good presentation of this, where they have a sequence of something like nine different quantum measurements that you can make.
And you can predict with probably one what a particular outcome will be, which you can actually prove that it's impossible that the value existed before you made the measurement.
So you know with probability one, what you're going to get,
which you also know with certainty that that value was not there until you made the measurement.
So we know from quantum theory that the act of observation is an act of fact creation.
And that is built into what I'm saying with this theory of consciousness.
If consciousness is fundamental, space time itself is an act of fact creation.
It's an interface that we create, consciousness creates, plus all the objects in it.
So local realism is not true.
Quantum theory is established.
Also non-contextual realism is not true. Quantum theory is established. Also non-contextual realism is not true.
And that fits in perfectly with this idea that consciousness is fundamental.
These things are these exist as data structures when we create them. As as Chris
Fjuk says, the act of observation is an act of fact creation. But I must say on a personal level, I'm having to spend a couple hours
a day just sitting in meditation on this and facing the rebellion in me that goes to the
core, feels like it goes to the core of my being, rebelling against these ideas. So here is very, very interesting for me to look at this because so here I'm a scientist
and I'm a person.
The science is really clear.
Local realism is false.
Non-contactual realism is false.
Space time is doomed.
It's very, very clear.
It couldn't be clear.
And my emotions rebel left and right.
When I sit there and say, okay, I am not something in space in time
Something inside of me says you're crazy. Of course you are and I'm completely attached to it
I'm completely attached to all this stuff. I'm attached to my body. I'm attached to the headset
I'm attached to my car
attached to people I'm attached to all of it and
And yet I know as a absolute fact. I'm gonna walk away from all of it. I'm attached to all of it. And yet I know as an absolute fact, I'm going to walk
away from all of it. I'm going to die. In fact, almost I last year, COVID almost killed
me. I sent a good buy text to my wife. So I was, I thought I really did. I sent her
a good buy. I was in the emergency room and
It had attacked my heart and it'd been at 190 beats per minute for 36 hours. I
Couldn't last much longer. I knew I could they couldn't stop it
So said that was that was it. So that was it. So so I texted her goodbye from the emergency room. I love you goodbye kind of thing. Yeah, right. Yeah, that was it
So so were you afraid?
God, it scares the hell out of you, right? But there there is there was you're just feeling so bad anyway that all you know
You that that sort of what you're scared, but you're just feeling so bad that in some sense you just want to stop anyway
So so I've I've been there and faced it just a year ago.
How did that change you, by the way,
having this intellectual reality that's so challenging
that you meditate on, it's just an interface
and one of the hardest things to come to terms with
is that that means that, you know, it's going to end.
How did I change you having a close close to the reality of it? It's not just an intellectual
reality. It's a reality of death. It's forced, I've meditated for 20 years now. And then I would say averaging three or four hours a day.
But it's put a new urgency, but urgency is not the right word because that it's riveted
my attention.
I'll put it that way.
It's really riveted my attention.
And I've really paid, I spent a lot more time looking at what spiritual traditions say.
I don't, by the way, again, not taking it with the, you know, take it all with a green
assault.
But on the other hand, I think it's stupid for me to ignore it.
So I try to listen to the best ideas and to sort out nonsense from, and it's just, we all have to do it for ourselves, right?
It's not easy. So what makes sense? And I have the advantage of some science, so I can look at what science says and try to compare with spiritual tradition.
I try to sort it out for myself. And, but then I also look and realize that there's another aspect to me, which is this whole emotional aspect.
I seem to be wired up as evolutionary psychology says, I'm wired up, right? All these defensive
mechanisms, so I'm inclined to lie if I need to. I'm inclined to be angry, to protect myself, to have an in-group and an out-group, to try
to make my reputation as big as possible, to try to demean the out-group.
There's all these things that evolutionary psychology is spot on, it's really brilliant
about the human condition.
And yet I think evolution, as I said, evolutionary theory, is a projection of a deeper theory
where there
may be no competition.
So how, so I'm in this very interesting position where I feel like, okay, according to my own
theory, I'm consciousness.
And maybe this is what it means for consciousness to wake up.
It's not easy.
It's, it's, it's almost like I have, I feel like I have real skin in the game. It really is scary.
I really was scared when I was about to die. It really was hard to say goodbye to my wife.
It really, it really pained. And to then look at that and then look at the fact that
I'm going to walk away from this anyway, and it's just an interface.
How do I, so it's trying to put all this stuff together and really
grok it, so to speak, not just intellectually, but grok it at an emotional level.
What are you afraid of, you silly, evolved organism that's gotten way to attach to the interface?
What are you really afraid of? That's right. Is there a very personal, you know, it's very, very personal.
Yeah. Yeah. I mean, speaking of that text, what do you think is this whole love thing?
What's the role of love in our human condition? This interface thing we have,
this is somehow interweaved, interconnected with consciousness, this attachment, we have to other humans, and this deep, like some
quality to it, that seems very
interesting, peculiar.
Well, there are two levels I would think about. There's love in the sexual sense,
and there's love in a deeper sense.
And in the sexual sense, we can give an evolutionary
account of that and so forth.
And I think that's pretty clear to people.
In this deeper sense, right?
So of course, I've married my wife in a sexual sense, but there was a deeper sense
as well.
When I was saying goodbye to her, there was a deeper, much deeper love that was really
at play there.
That's one place where I think that the mixed bag from spiritual traditions has something
right.
When they say, you know, love your neighbor as yourself, that some in some sense love
is fundamental.
I think that they're on to something, something very, very deep and profound.
And every most of all, I can get a personal glimpse of that, especially when I'm in the
space with no thought.
When I can really let go of thoughts, I get little glimpses of love and the sense that
I'm not separate. It's a love in the sense that I'm not different from that.
Yeah, if you and I are separate, then there's I can fight you, but if you and I are the same, if there's a union there.
The togetherness of it. Yeah. What who's God? All those gods, the stories that have been told throughout history,
you said through the spiritual traditions, what do you think that is?
Is that us trying to find that common thing at the core?
Well, in many traditions, not all.
The one I was raised in, so my dad was a Protestant minister.
We tend to think of God as A-Being.
But I think that that's not right.
I think the closest way to think about God is being, period, not A-Being, but being.
The very ground of being itself is God.
I think that's the deep, and from my point of view,
that's the ground of consciousness.
So the ground of conscious being is what we might call God.
But the word God has always been, for example,
you don't believe the same God is my God.
So I'm gonna fight you, or I'm gonna have wars over
because the being, the specific being that
you call God is different from the being that I call God in. So we fight. Whereas if it's
not A being, but just being and you and I share being, the new and I are not separate.
And there's no reason to fight. We're both part of that one being and loving you is loving myself, because we're all part
of that one being.
The spiritual traditions that point to that, I think, are pointing in a very interesting
direction, and that does seem to match with the mathematics of the conscious agent stuff
that I've been working on as well, that it really fits with that, although that wasn't
my goal. Is there, you mentioned, you mentioned that the young physicist that you talk to or whose
work you follow have quite a lot of fun breaking with the traditions of the past, the assumptions
of the past, what advice would you give the young people today in high school and college, not just physicists, but in general, how to have a career that can be
proud of how they can have a life, they can be proud of how to make their
way in the world from the lessons, from the wins and the losses in your
own life, what what what little insights could you pull out? I would say the universe is a lot more interesting
that you might expect.
And you are a lot more special and interesting
than you might expect.
You might think that you're just a little tiny,
irrelevant,
hundred pound,
two hundred pound person in a vast billions
of light years across space. And that's not the case. You
are in some sense the being that's creating that space all the time every time you look.
So waking up to who you really are outside of space and time. As the author of space and
time is the author of everything that you see? The author of space and time.
You're the author of space and time, right?
And I'm the author of space and time.
And space and time is just one little data structure.
Many other consciousnesses are creating other data structures.
They're authors of various other things.
So realizing that I had this feeling of growing up, going
and calling, reading all these texts, but oh man, it's all been done. If I just been there
50 years ago, I could have discovered this stuff, but that's all in the textbooks now.
Well, believe me, the textbooks are going to look silly in 50 years, and it's your chance
to write the new textbook. So, of course, study the current
textbooks. You have to understand them. There's no way to progress until you understand what's been
done. But then the only limit is your imagination, frankly. That's the only limit. The greatest books,
the greatest textbooks ever written on earth are yet to be written. Exactly.
Uh, what do you think is the meaning of this whole thing?
What's the meaning of life?
From your limited interface?
Can you figure it all out?
Like, why?
So you said the universe is kind of trying to figure itself out through us.
Uh, why?
Why?
Yeah, that's the closest I've come. through us. Why? Why?
Yeah, that's the closest I've come. So I'll give you. So I will say that I don't know, but, but, but, but out, well, here's my
guess, right? It's a good first sentence. That's a good
starting point. And, and maybe that's going to be a
profound part of the final answer is to start with the I
don't know. It's quite possible that that that's really important to start with the eye. I don't know. My my guess is
that if consciousness is fundamental and of girdle, girdles and completeness, they're
holds here. And there's infinite variety of structures for consciousness to some sense explore.
for consciousness to some sense explore.
That maybe that's what it's about. This is something that Anika and I talked about a little bit,
and she doesn't like this way of talking about it,
and so I'm going to have to talk with some more about this way of talking.
But right now, I'll just put it this way,
and I'll have to talk with her more,
and see if I can say it more clearly.
But the way I'm talking about it now is that there's a sense in which
there's being and then there's experiences or forms that come out of being. That's one deep,
deep mystery. And the question that you asked, what is it all about? Somehow it's, it's related
to that. Why does being, why doesn't it just stay without any forms? Why does it, why,
why do we have experiences? Why, why, why not just have, when you close your eyes and
pay attention to what's behind you, There's nothing. But there's being.
Why is why don't we just stop there? Why didn't we just stop there? Why do we create all tables and chairs in the sun and moon and people that all this really complicated stuff? Why?
And and all I can guess right now, and I'll probably kick myself in a couple years and say that was done, but all I can guess right now is that somehow.
Consciousness wakes up to itself by knowing what it's not.
So here I am, I'm not this body.
I sort of saw that.
It was sort of in my face when I sent a text goodbye, but then as soon as I'm better, it's sort of like, okay, I sort of don't want to go there, right?
I, okay, so I, so I am my body.
You know, my go back to the standard thing,
I'm not on my body and then I want to get that car
and even though I was just about to die a year ago.
So that comes rushing back.
So, so consciousness immerses itself fully into a particular
So consciousness immerses itself fully into a particular headset. Gets lost in it and then slowly wakes up.
Just so can escape and that is the waking up, but it needs to have...
It needs to know what is not.
It needs to know what you are.
You have to say, oh, I'm not that, I'm not that.
That wasn't important, that wasn't important.
That's really powerful. Don, let me just say that because I've been a long-term fan of yours and we're supposed to have a conversation doing this very difficult moment in your life,
let me just say you're a truly special person and I for one end, oh, there's a lot,
a lot of others that agree, I'm glad that you're still here with us on this earth.
It's for a short time.
So whatever
Whatever the universe this whatever planet has for you that brought you close to death
to maybe enlighten you some kind of way
I think I think as a as an interesting plan for you, you're
one of the truly special humans. It's a huge honor to you to sit and talk with me today.
Thank you so much. Thank you very much, Lex. I really appreciate that. Thank you.
Thanks for listening to this conversation with Donald Hoffman to support this podcast.
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Albert Einstein, relevant to the ideas discussed in the description. And now let me leave you with some words from Albert Einstein,
relevant to the ideas discussed in this conversation. Time and space are mosed by which we think,
and not conditions in which we live. Thank you.