Lex Fridman Podcast - #394 – Neri Oxman: Biology, Art, and Science of Design & Engineering with Nature
Episode Date: September 1, 2023Neri Oxman is a designer, engineer, scientist, and artist working on computational design, synthetic biology and digital fabrication, previously at MIT, and now at OXMAN. Please support this podcast b...y checking out our sponsors: - Babbel: https://babbel.com/lexpod and use code Lexpod to get 55% off - BetterHelp: https://betterhelp.com/lex to get 10% off - House of Macadamias: https://houseofmacadamias.com/lex and use code LEX to get 20% off first order - InsideTracker: https://insidetracker.com/lex to get 20% off - ExpressVPN: https://expressvpn.com/lexpod to get 3 months free Transcript: https://lexfridman.com/neri-oxman-transcript EPISODE LINKS: Neri's Twitter: https://twitter.com/nerioxman OXMAN Website: https://oxman.com/ OXMAN Instagram: https://instagram.com/oxmanofficial 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 (09:06) - Biomass vs anthropomass (23:27) - Computational templates (43:42) - Biological hero organisms (54:42) - Engineering with bacteria (1:02:59) - Plant communication (1:16:22) - Albert Einstein letter (1:19:44) - Beauty (1:24:40) - Faith (1:34:26) - Flaws (1:54:15) - Extinction (2:05:22) - Alien life (2:09:12) - Music (2:10:39) - Movies (2:15:11) - Advice for young people
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The following is a conversation with Neri Oksman, an engineer, scientist, designer, architect,
artist, and one of the kindest, most thoughtful, and brilliant human beings of Evergarden to
know.
For a long time, she led the mediated matter group at MIT that did research and build incredible
stuff at the intersection of computational design, digital fabrication, material science,
and synthetic biology.
Doing so at all scales, from the micro scale to the building scale.
Now she's continuing this work at a very new company for now called Oxman, looking to
revolutionize how humans design and build products working with nature not against it.
On a personal note, let me say that Neri has for a long time
been a friend, and someone who, in my darker moments, has always been there with the note
of kindness and support. I am forever grateful to her. She's a brilliant and a beautiful
human being. Oh, and she also brought me a present, Warren Peace, by Tolstoy and meditations by Marcus Aurelius.
It doesn't get better than that.
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Podcasting, frankly, went down really well. Is that also? I do recommend that, even if
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who means a lot to you and you have that conversation, even if the mic is not recording.
There's something about the microphone
that forces you to really step up.
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And now, dear friends, here's Neri Oksman. Let's start with the universe. Do you ever think of the universe as a kind of machine
that designs beautiful things at multiple scales?
I do. And I think of nature in that way, in general, in the context of design specifically, I think of nature as everything that isn't
antropomous, everything that is not produced by humankind, the birds and the rocks
and everything in between fungi, elephants, whales.
Do you think there's an intricate ways in which there's a connection between humans and nature?
Yes, and we're looking for it. I think that from, let's say, from the beginning of mankind, going back to 100,000 years,
the products that we have designed have separated us from nature.
And it's ironic that the things that we designed and produced as humankind, those are exactly
the things that separated us.
Before that, we were totally completely connected.
And I want to return to that world.
But bring the tools of engineering and computation to that.
Yes, yes.
I absolutely believe that there is so much to nature that we still have not leveraged, and
we still have not understood, and we still have not leveraged, and we still have not understood, and we still have.
And so much of our work is designed, but a lot of it is science, is unveiling and finding
new truths about the natural world that we were not aware before.
Everybody talks about intelligence these days, but I like to think that nature has kind of wisdom that exists
beyond intelligence or above intelligence, and it's that wisdom that we're trying to tap into
through technology. If you think about humans versus nature, at least in the realm, at least in
the context of definition of nature is everything but anthropomass.
And I'm using Ron Millo, who is an incredible professor
from the Weisman Institute, who came up with this definition
of anthropomass in 2020, when he identified that 2020 was
the cross over year when anthropomass exceeded biomass
on the planet.
So all of the design goods that we have created
and brought into the world now outweigh all of the biomass,
including, of course, all plastics and wearables,
building cities, but also asphalt and concrete,
all outweigh the scale of the biomass.
And actually, that was a moment.
You know how in life, there are moments that be a handful of moments that get you to course correct. And my, it was a
Zoom conversation with Ron. And that was a moment for me when I realized that that imbalance.
Now we've superseded the biomass on the planet, where do we go from here?
And you've heard the expression more, more phones than bones and the antropomas and the antroposine
and the technosphere sort of outweighing the biosphere.
But now we are really trying to look at, is there a way in which all things technosphere are designed as if they are
part of the biosphere, meaning if you could today grow instead of build everything and anything,
if you could grow an iPhone, if you could grow a car, what would that world look like?
Where the touring test for this kind of,
I call this material ecology approach,
but this notion that everything material,
everything that you design in the physical universe,
can be read and written to,
as or thought of or perceived of as nature grown.
That's sort of the touring test for it, for the company,
or at least that's how I started.
I thought, well, grow everything, that's sort of the slogan.
Let's grow everything.
And if we grow everything, is there a world in which driving a car
is better for nature than a world in which there are no cars?
Is there, is it possible that a world in which you build buildings in cities, that those
buildings in cities actually augment and heal nature, as opposed to their absence?
Is there a world in which we now go back to that kind of synergy between nature and humans,
where you cannot separate between grown and made.
And it doesn't even matter.
Is there a good term for the intersection between biomass and antropomas?
Like things that are grown?
Yes, in 2005, I called this material ecology.
I thought, what if all things materials would be considered part of the ecology
and would have an impact, a positive impact on the ecology
where we work together to help each other, all things nature, all things human.
And again, you can say that that wisdom in nature exists in fungi.
Many mushroom lovers always contest my thesis here saying, well, we have the mushroom
network and we have the mother trees and they're all connected.
And why don't we just simply hack into mushrooms?
Well, first of all, yes, they're connected, but that network stops when there is a physical gap.
That network does not necessarily enable the whales and the Dominican to connect with an olive tree
in Israel to connect with the weeping willow in Montana. And that's sort of a world that I'm dreaming about. What does it mean for
nature to have access to the cloud? At the kind of bandwidth that we're talking about,
sort of think, neural link for nature, you know, since the first computer, and you know this, by heart probably better than I do, but we're both MIT
lifers. We today have computational power that is one trillion times the power that we
had in those times. We have 26.5 trillion times the bandwidth and 11.5 quintillion times the memory, which is incredible. So, humankind
since the first computer has approached and accessed such incredible bandwidth. And we're
asking, well, what if nature had that bandwidth? So So beyond genes and evolution, if there was a way to augment nature and allow it access
to the world of bits, what does nature look like now?
And can nature make decisions for herself, as opposed to being guided and guarded and
abused by humankind?
So nature has this inherent wisdom that you spoke to, but you're
also referring to augmenting that inherent wisdom with something like a large language
model. Exactly. So compare, compare human knowledge, but also maintain whatever is that intricate
wisdom that allows plants, bacteria, fungi to grow incredible things at arbitrary scales, adapting to whatever
environment and just surviving and thriving, no matter where and no matter how.
Exactly.
So I think of it as large molecule models and those large molecule models, of course, large
language models are based on Google and search engines and so on and so forth. And we don't have this data currently.
And part of our mission is to do just that, trying to quantify and understand the language
that exists across all kingdoms of life, across all five kingdoms of life.
And if we can understand that language, is there a way for us to first
make sense of it, find logic in it, and then generate certain computational tools that
empower nature to build better crops, to increase the level of biodiversity? In the company
we're constantly asking, what does nature want?
What does nature want from a compute view?
If it knew what could aid it in whatever the heck it's wanting to do.
Yeah, so we keep coming back to this answer of nature wants to increase information, but
decrease entropy, right?
So find order, but constantly increase the information scale.
And this is true for what our work also tries to do, because we're constantly trying to
fight against the dimensional mismatch between things made and things grown, right?
And as designers, we are educated to think in XY and Z, and that's pretty much where architectural
education ends
and biological education begins.
So in reducing that dimensional mismatch, we're missing out on opportunities to create
things made as if grown.
But in the natural environment, we're asking, can we provide a nature with these extra
dimensions?
And again, I'm not sure what nature wants, but I'm curious as to what happens when you
provide these tools to the natural environments, obviously with responsibility, obviously with
control, obviously with ethics and moral code.
But is there a world in which nature can help fix itself using those tools?
And by the way, we're talking about a company called Oxman.
Yeah, I'll just a few words about the team.
Yeah, what kind of humans work at a place like this?
They're trying to figure out when age wants.
You know, I think they're first like you.
They're humanists first.
They come from different disciplines and different disciplinary backgrounds.
And just as an example, we have a brilliant designer
who is just a mathematical genius in a computer scientist
and a mechanical engineer who is trained as a synthetic
biologist and now we're hiring a microbiologist,
an a chemist, architects, of course,
and designers, roboticists.
So it's really, it's Noah's Ark, right, to a beach.
And always dancing between this line
of the artificial, the synthetic, and the real
was the term for, and the natural.
Yeah, the built in the grown, nature and culture,
technology and biology.
But we're constantly seeking to ask how can we build design and
deploy products in three scales, the molecular scale, which I've really handed to, and there,
in the molecular scale, we're really looking to understand whether there is a universal language to nature and what that language is,
and then build a tool that I think and dream of it is the iPhone for nature. If nature had an iPhone, what would that iPhone look like? Does that mean creating an interface between nature and
the computational tools we have? Exactly. It goes back to that 11.5 quintillion times the bandwidth that humans have now arrived at
and giving that to nature. And seeing what happens there,
can animals actually use this interface to know that they need to run away from fire,
can plants use this interface to increase the rate of photosynthesis
in the presence of a smoke cloud. Can they do this, quote unquote automatically, without a kind of a top
down brute force policy based method that's authored and deployed by humans? And so this work really
relates to that interface with the natural world. And then there's a second area in the company which focuses on growing products.
And here we're focusing on a single product that starts from CO2.
It becomes a product, it's consumed, it's used, it's worn by a human,
and then it goes back to the soil and it grows an edible fruit plant.
So we're talking about from CO2 to fruit.
Yeah, it starts from CO2 and it ends with something
that you can literally eat.
So the world's first entirely biodegradable,
biocompatible, bioreneuable product.
That's grown.
Yes, either using plant matter or using bacteria, but we are really looking
at carbon recycling technologies that start with methane or wastewater. And end with this
wonderful reincarnation of a thing that doesn't need to end up in a composting site, but can
just be thrown into the ground and grow olive and find peace.
And there's a lot of textile-based work out there that is focused on one single element in this
long chain. Like, let's create, you know, leather out of mycelium or let's create textile out of
cellulose, but then it stops there and you get to assembling the shoe or the wearable and you
But then it stops there and you get to assembling the shoe or the wearable and you need a little bit of glue and you need a little bit of this material and a little bit of that material
to make it water resistant and then it's over.
So that's one thing that we're trying to solve for is how to create a product that is
materially, computationally, robotically novel and goes through all of these phases from the creation, from this
carbon recycling technology to the product, to literally how do you think about reinventing
an industry that is focused on assembly and putting things together and using humans
to do that.
Can that happen just using robots and microbes?
And that's it.
And doing it at the end, I would love to see
what this factory looks like.
And the factory is great too.
I'm very, very excited.
In October, we'll share first renditions
of some of this work in in February.
We'll invite you to the lab.
I'm there.
I've already applied.
I can't have her back.
I don't understand.
Okay.
Let me just, it's just before we get to number three, it'd be amazing to just talk about
what it takes with robotic arms or in general the whole process of how to build the life
form.
Stuff you've done in the past, maybe stuff you're doing now, how to use bacteria.
It's kind of synthetic biology, how to grow stuff by leveraging
bacteria. Is there examples from the past?
And yes, and just take a step back over the 10 years, the
mediated matter group, which was my group at MIT, has sort of
dedicated itself to biobased design, would be a suitcase word,
but sort of thinking about that synergy between nature and culture biology and technology and we attempted to build a suite of
embodiments, let's say that they ended up in amazing museums and amazing shows and
We wrote patents and papers on them, but they were still and of ones
Again the challenges you say was to grow, and we classified them into fibers,
cellular solids, biopolymers, pigments, and in each of the examples, although the material was
different, sometimes we used fibers, sometimes we used silk with silkworms and honey with bees
and or comb as the structural material with vespers, we used synthetically engineered bacteria to
produce pigments,
although the materials were different and the hero organisms were different,
the philosophy was always the same.
The approach was really an approach of computational templating.
That templating allowed us to create templates for the natural environment,
where nature and technology could do it, could dance together to create these products.
So just a few examples with silk pavilion.
We've had a couple of pavilions made of silk.
And the second one, which was the bigger one, which ended up at the Museum of Modern Art
with my friend, an incredible mentor, Paul Antonelli, that pavilion was six meter tall.
And it was produced by silkworms.
And there we had different types of templates.
There were physical templates that were basically just these water soluble meshes upon which
the silkworms were spinning.
And then there were environmental templates, which was a robot basically applying a variation
of environmental conditions such as heat and light to guide the movement
of the silkworm.
You're saying so many amazing things and I'm trying not to interrupt you, but like one
of the things you've learned by observing, by doing science on these is that the environment
defines the shape that they create or contributes or intricately plays with the shape they
create.
And so like, and you get to, that's one of the ways you can get to guide their work,
is by defining that environment.
By the way, you said hero organism, which is an epic term.
So that means like, is whatever is the biological living system that's doing the creation.
And that's what's happening in pharma and in biomaterials.
And by the way, precision ag and food, and food design technologies, as people are betting
on a hero organism, is the sort of how I'm thinking to it.
And the hero organism is sometimes it's the palm oil,
or it's the mycelium.
There's a lot of mushrooms around for good and bad,
and it's cellulose, or it's fake bananas,
or the workhorse,
E. coli, but these hero organisms are being bedded on as
like the, what's the one answer that solves everything
to Chikers Guide?
42.
42.
Yeah.
These are sort of the 42s of the enchanted new universe.
And back at MIT, we said, instead of betting on all of these
organisms, let's approach them as almost like movement in a symphony and let's kind of
lean into what we can learn from each of these organisms in the context of building a project
in an architectural scale. And those usually were pavilions.
And then the competition templating is the way you guide the work of this, how many
did you say 17,000?
17,532.
So each of these silkworms threads are about, you know, one mile in distance and they're
beautiful.
And just thinking about the amount of material, you know, it's a bit like thinking about the length of capillary vessels
that grow in your belly when you're pregnant to feed
that incredible new life form.
It just nature is amazing.
But back to the silkworms, I think I had three months
to build this incredible pavilion.
But we couldn't figure out how we were
thinking of emulating the process of how a silkworm goes about building its incredible
architecture, this cocoon over the period of 24 to 72 hours.
And it builds a cocoon basically to protect itself.
It's a beautiful form of architecture.
And it uses pretty much just two materials, two chemical compounds,
seroton and fiber in. The seroton is sort of the glue of the cocoon. The fiber in is the fiber-based
material of the cocoon and through fibers and glue, and that's true for so many systems in nature,
lots of fiber and glue, and that architecture allows them to metamorphose. And in the process, they vary the properties of that silk thread.
So it's stiffer or softer depending on where it is
in the section of the cocoon.
And so we were trying to emulate this robotically
with a 3D printer that was six-axis CUCA,
or one of these baby CUCAs.
And we were trying to emulate that process computationally and build something very large when one of my
students now, brilliant industrial engineer, Robotisist on my team, Marcus said, well, you know,
we were just playing with those silkworms and enjoying their presence when we realized that
if they're placed on a desk or a horizontal surface, they will go about creating their
cocoon.
Only the cocoon would be flat.
Because they're constantly looking for a vertical post in order to use that post as an anchor
to spin the cocoon.
But in the absence of that post, on surfaces that are less than 21 millimeters and flat, they will spin flat patches and we say, aha, let's work with them to produce this, this dome.
mind you is quite an ego-centric creature. And actually the furthest you go, you move forward in evolution by natural selection, the more
egoism you find in creatures. So when you think about termites, right, they,
their material sophistication is actually very primitive, but they have
incredible ability to communicate and connect with each other.
So if you think about the entire, all of nature, let's say, all of living systems as like a matrix
that runs across two axes, one is material sophistication, which is terribly relevant for designers,
and the other is communication.
The termites ace on communication, but their material sophistication is crap, right?
It's just saliva and feces and some soil particles that are built to create these incredible
termite mounds at the scale that when compared to human skyscrapers, transcend all of
buildable scales, at least in terms of what we have today in architectural practice, just relative
to the size of the termite.
But when you look at the silkworm, the silkworm has zero connection communication across silkworms.
They were not designed to connect and communicate with each other.
They're sort of a human-designed species because the domesticated silkmouth creates the
cocoon. We then produce the silk ofoth creates the cocoon.
We then produce the silk of it and then it dies.
So it has dysfunctional wings, it cannot fly, it's not.
So and that's another problem that the CERY culture
industry has is why did we in the first place
author this organism 4,000 years ago
that is unable to fly
and is just there to basically live as to serve a human need, which is textiles?
And so here we were fascinated by the computational biology dimension of silkworms, but along
the way, by the way, this is great, I never get to tell the full story.
I'm enjoying this is great. I never get to tell the full story. I'm so great.
I'm enjoying this so much.
I always, I'm always like people say,
I always speak in Nietzschean paragraphs.
They're way too long and this is wonderful.
This is like heaven.
Nietzschean paragraphs.
You drive us so many good lines, I love it.
But really those silkworms are not,
yes, they're not designed to be like humans, right?
They're not designed to connect, communicate, and build things that are bigger than themselves through connection and communication.
So what happens when you're at 17,000 of them communicating effectively?
That's a really great question. What happens is that at some point, the templating strategies,
and as you said correctly, there were geometrical templating, material templating,
environmental templating, chemical templating, if you're using pheromones to guide the movement
of bees in the absence of a queen, where you have a robotic queen. But whenever you have
these templating strategies, you have sort of control over nature, right? But the question
is, is there a world in which we can move from
templating, from providing these computational material and immaterial, physical and molecular
platforms that guide nature, almost guiding a product, almost like a gardener, to a problem or
an opportunity of emergence, where that biological organism assumes agency by virtue of accessing the robotic code and saying,
now I own the code, I get to do what I want with this code. Let me show you what this pavilion may
look like or this product may look like. And I think one of the exciting moments for us is when we
realized that these robotic platforms that were designed initially as templates actually inspired, if I may,
kind of collaboration and cooperation between silkworms that are not a swarm-based organism.
They're not like the bees in the termites. They don't work together and they don't have
social orders amongst them, the queen and the drones, etc. They're all the same,
in a way, right? And here, what was so exciting for us is that these computational and fabrication
technologies enable the silkworm to sort of, to kind of hop from the branch in ecology of worms
to the branch in ecology of maybe human-like intelligence,
where they could connect and communicate by virtue of,
you know, feeling or rubbing against each other
in an area that was hotter or colder.
And they were, so the product that we got at the end,
the variation of density of fiber,
and the distribution of the fiber,
and the transparency, the fiber and the transparency.
The product at the end seems like it was produced by a swarm silk community, but of course
it wasn't.
It's a bunch of biological agents working together to assemble this thing.
That's really, really fascinating to us.
How can technology augment or enable a swarm-like behavior and creatures that have not been designed to
work as swarms.
So, how do you construct a computational template from which a certain kind of thing emerges?
So, how can you predict what emerges, I suppose?
So, if you can predict it, it doesn't count as emergence.
Actually.
That's a deeply poetic line.
We can talk about it.
I mean, it's a bit like this kind of.
It's a bit like this kind of.
It's a bit like this kind of.
It's a bit like this kind of.
It's a bit like this kind of.
It's a bit like this kind of.
It's a bit like this kind of.
It's a bit like this kind of.
It's a bit like this kind of.
It's a bit like this kind of.
It's a bit like this kind of.
It's a bit like this kind of.
It's a bit like this kind of. It's a bit like this kind of. It's a bit like this kind of. It's a bit like this kind of. because we're constantly moving between those as if they're equals on the team.
One of them, Christophe shared with me a mathematically equation for what does it mean to empower
nature?
And what does empowerment in nature look like?
And that relates to emergence and we can go back to emergence in a few moments, but I
want to say it so that I know that I've learned it.
And if I've learned it, I can use it later.
Yeah.
And maybe you figure something out, as you say.
Of course, of course, Christoph is the master here, but, but really,
we were thinking, again, what does nature want?
Nature wants, nature wants to increase the information dimension
and reduce entropy.
What do we want?
We kind of want the same thing.
We want more, but we want order, right?
And this goes back to your conversation
with Yosha about stochastic versus deterministic languages
or processes.
His definition or the definition he found was that an agent is empowered.
If the entropy of the distribution of all of its states, it's high, while the entropy
of the distribution of a single state given a choice given an action is low. Meaning it's that kind of
yeah, duality between opportunity like starting like this and going like this opening and closing.
And this really I think is analogous to human empowerment given infinite wide array of choices, what is the choice that you make
to enable to empower, to provide you with the agency that you need?
How much is that making that choice actually control the trajectory of the system?
That's really nice. So this applies to all the kinds of systems you're talking about. Yeah, and the cool thing is it can apply to a human on an individual basis,
but or a silkworm or a bee or a microbe, a microbe that has agency or by virtue of a template.
But it also applies to a community of organisms, like the bees. And so we've done a lot of work sort of moving from,
you've asked how to grow things.
So we've grown things using co-fabrication,
where we're digitally fabricating with other organisms
that live across the various kingdoms of life,
and those were still quirms and bees.
And with bees, which we've sent to outer space
and returned healthily, and they were reproductive.
Okay, you're going to have to tell that story. You're going to have to talk about the robotic
queen and the pharaoh. Come on. So we built what we call a synthetic APR. And the synthetic
APR was designed as an environment that was a perpetual spring environment
for the bees of Massachusetts.
They go on hibernation, of course, during the winter season, and then we lose 80% of
them or more during that period.
We were thinking, okay, what if we created this environment where before you template,
before you can design with, you have to design for.
You have to create this space of mutualism, space of sort of shared connection between you
and the organism.
And with bees, it started as the synthetic APAry.
And we have proven that that curated environment where we design the space with high levels of control of temperature,
humidity and light, and we've proven that they were reproductive and alive and we realized,
wow, this environment that we created can help augment bees in the winter season in any
city around the world where bees survive and thrive in the summer and spring seasons.
And could this be a kind of a new urban typology, an architectural typology of symbiosis of
mutualism between organisms and humans?
Were these, by the way, the synthetic paper was in a co-op in, you know, nearby Somerville?
We had robots, our team, you know, schlepped there every day with our tools and machines, and we made
it happen, and the neighbors were very happy, and they got to get a ton of honey at the
end of the winter.
And those bees, of course, were released into the wild at the end of the winter alive
and kicking.
So then, in order to actually experiment with the robotic queen and idea or concept. We had to prove obviously that we
can create this space for for bees. And then after that we had this amazing opportunity to send
the bees to space on Blue Shepherd mission that is part of Blue Origin. And we of course said,
yes, we'll take a slot. We said, okay, can we outdo NASA? So NASA in 1982 had an experiment worth,
they sent bees to outer space.
The bees returned, they were not reproductive.
And some of them died.
And we thought, well, is there a way in which we can create
a life support system, almost like a small mini biolab
of a queen and her retinue, that
would be sent in this blue origin, new shepherd mission in this one cell.
And so that, if the synthetic APU was an architectural project, in this case, this second synthetic
APU was a product.
It was, right, so from an architectural controlled environment to a product scale control environment.
And this bio lab, this life support system for bees,
was designed to provide the bees with all the conditions
that they needed.
And we looked at that time at the National Fairmon
that the queen uses to guide the other bees.
And we looked at the Fairmons that are associated with a bee and thinking
of those phoenix being released inside the capsule that goes to outer space. They returned
back to our the medial abroof. And those bees were alive and kicking and reproductive.
And they continued to create comb.
It ended with a beautiful nature paper that the team and I published together.
We gave them gold nanoparticles and silver nanoparticles because we were interested if bees recycle
wax.
It was known forever that bees do not recycle the wax and by feeding them these gold nanoparticles, we were able to
prove that the bees actually do recycle the wax. The reason I'm bringing this forward is because
we don't view ourselves as designers of consumable products and architectural environments only,
but we love that moment where these technologies,
and by the way, every one of these projects that we created
involved the creation of a new technology,
whether it be a glass printer or the spinning robot
or the life support system for the B colony,
they all involved a technology that was associated
with the project, and I never, ever, ever,
ever want to let that part go because I love love technology so much. But also another element of
this is it always these projects, if they're great, they reveal new knowledge about or new science
about the topic that you're investigating, be it silkworms or bees or glass.
That's why I always tell my team, it should be at MoMA
and the cover of nature or science at the same time.
We don't separate between the art and the science.
It's one of the same.
So as you're creating the art,
you're going to learn something about these organisms
or something about these materials.
I mean, is there something that stands out to you about these hero organisms like bees, silkworms?
You mentioned E. coli, has this pros and cons, this bacteria.
What have you learned that smaller, big, that's interesting about these organisms?
Yeah, that's a beautiful question.
What have I learned?
I've learned that, you know, we did, we also worked with
Shimshel's with Aguah, how we built this tower on the roof of SFMOMA, which by a couple of
months ago, until it was on the roof, we've shown the structure completely biodegrade
into then, well, not completely, but almost completely bi the grade to the soil and and this notion that a product or part
on organism or part of that organism can reincarnate is very, very moving thought to me because I want to
believe that I believe in reincarnation. I want to believe that I believe. Yeah, that's my relationship with God. With God.
I want to believe in believing.
Most great things in life are second derivatives of things.
But that's part of another conversation.
I feel like that's a quote that's going to take weeks to really internalize.
That notion of, I want you to want, or I need you to need, need or that there's always something a deeper truth behind what is on the surface and so I like to go to the second and tertiary derivative of things and discover new truth about them through that but what have I learned about organisms.
I learned about organisms. And why don't you like E. coli?
I like E. coli, and a lot of the work that we've done was not possible without our working
on E. coli or other workhorse organisms like cyanobacteria.
How are bacteria used?
Death masks.
The death masks.
So what are death masks?
So we did this project called Vespers, and those were basically death masks.
That was said as a process for designing a living product.
What happens?
And we looked at it.
I looked at it.
I remember looking at Beethoven's death mask, and I got Memnon's death mask.
Just studying how they were created, and really they were sort of geometrically attuned
to the face of the dead and what we wanted to do is create a death mask that not was not based in the
It was not based on the shape of of the of the wear
But rather was based on their legacy and their biology and maybe we could
Harness a few stem cells there for future generations or contain the last breath,
Lazarus, which preceded Vespers was a project
where we designed a mask to contain a single breath,
the last breath of the wear.
And again, if I had access to these technologies today,
I would totally incorporate my grandmother's last breath
in a product.
So it was like an air mimento.
So with Vespers, we actually used Ecoli to create pigmented masks,
masks whose pigments would be recreated at the surface of the mask.
And I'm skipping over a lot of content,
but basically there were 15 masks,
and they were created as three sets.
The masks of the past, the mask of the present,
and the mask of the future.
The masks, there were five, five, and five,
and the masks of the past were based on ornaments,
and they were embedded with natural minerals like gold. Yes, yes, yes.
And we're looking at pictures of these in our gorgeous, yes, extremely delicate and interesting
fractal patterns that are symmetrical. They look symmetrical, but they're not. This is intent,
this is we intended for you to be tricked and think that they're all symmetrical, but they're imperfections.
They are imperfections by design.
All of these forms and shapes and distribution of matter that you're looking at was entirely designed using a computational program.
So none of it is manual.
But long story short, the first collection
is about the surface of the mask
and the second collection which you're looking at
is about the volume of the mask
and what happens to the mask when all the colors
from the surface, yes, enter the volume of the mask inside,
create pockets
and channels to guide life through them.
They were incorporated with pigment producing living organisms, and then those organisms
were templated to recreate the patterns of the original death masks.
And so life recycles and rebegins and so on and so forth.
The past meets the future, the future meets the past.
From the surface to the volume, from death to life
to death, to life to death to life.
And that, again, is a recurring theme in the project
that we take on.
But there, from a technological perspective,
what was interesting is that we embedded chemical signals
in the jet, in the printer, and those chemical
signals basically interacted with the pigment producing bacteria, in this case E. coli,
that were introduced on the surface of the mask. And those interactions between the chemical
signals inside the resins and the bacteria at the surface of
the mask at the resolution that is native to the printer, in this case, 20 microns per
voxel, allowed us to compute the exact patterns that we wanted to achieve.
And we thought, well, if we can do this with pigments, can we do this with antibiotics?
If we can do this with antibiotics, could we do it with with melanin? And what are the implications? Again, this is a platform technology. Now that we have it,
what are the actual real world implications and potential applications for this technology? And we
started a new area of one of my students, Rachel, her PhD thesis was titled after this new class of materials
that we created through this project, Vespers, hybrid living materials, HLMs. And these hybrid
living materials really paved the way towards a whole other set of products that we've designed,
like the work that we did with melanin
for the Mandela pavilion that we presented at Asafmoma,
where again, we're using the same principles
of templating, in this case, not silkworms or not bees,
but we're templating bacteria at a much, much,
much more finer resolution.
And now instead of templating using a robot word, templating
using a printer.
But compute is very, very much part of it.
And what's nice about bacteria, of course, is that from an ethical perspective, I think
there's a range, right?
So at the end of the silk pavilion, I got an email from Professor in Japan who has been
working on transgenic silk and said, well, if you did this, this create amazing silk pavilion,
why don't we create, you know, glow in the light silk dresses. And in order to create this glow in
the light silk, we need to, you know, to apply genes that are taken from a spider to a silkworm. And this
is what is known as a transgenic operation. And we said no. And that was for us a clear decision
that no, we will work with these organisms as long as we know that what we are doing with them
as long as we know that what we are doing with them is not only better for humans,
but it's also better for them.
And again, just to remind you,
I forget the exact number,
but it's around a thousand cocoons
for a single shirt that are exterminated
in India and China,
and those sericulture industries
that are being abused.
Now, yes, this organism, this organism was designed to serve the human species, and maybe
we should, maybe it's time to retire that conception of organisms that are designed for a human centric world or human
centric set of applications. I don't feel the same way about E. Coli. Not that I'm agnostic,
organism agnostic, but still I believe there's so much for us to do on this planet with
with bacteria. And so in general, your design principle is to grow cool stuff as a byproduct of the organism
flourishing.
So not using the organism.
The win win, the synergy, a hole that's bigger
than the sum of its parts.
It's interesting.
I mean, it just feels like a gray area
where genetic modification of an organism it just feels like, I don't know,
if you genetically modified me to make me glow in the light, kind of like it.
I think you have enough of an aura.
All right, thank you.
That was just fishing for compliments.
Thank you.
Absolutely right.
And by the way, the gray area is, you know,
is where some of us like to live and like to thrive. And that's okay. And thank goodness that there's
so many of us that that like the black and white and that thrive in the black and white. My husband
is a good example for that. Well, but just to clarify, in this case, you're also trying to thrive in
the black and white in that you're saying like the silkworm is a beautiful, wonderful creature.
Let us not modify it.
Is that the idea, or is it okay to modify a little bit,
as long as we can see that it benefits the organism as well as the final creation?
So with silkworms, absolutely, let's not modify genetically.
Let's not modify genetically.
absolutely, let's not modify genetically. Let's not modify genetically. And then some, because why did we, why did we get there to begin with 4,000 years ago in the Silk Road? And
we should never get to a point where we evolve life for the service of mankind at the risk of
these wonderful creatures across the kingdom of life. I don't think about the
same kind of ethical range when I think about bacteria.
Nevertheless, bacteria are pretty wonderful organisms. I'm moving to my second cup here.
Take, take, two. This thing's again serious now.
Bacteria are. Yeah, for sure. Let's give bacteria all the love they deserve. We wouldn't be here
without them. They were here for, I don't know what it is, like a billion years before anything
else showed up. But in a way, if you think about it, they create the matter that we consume and then
and then re incarnate or dissolve into the soil and then creates a tree and then that tree creates
more bacteria. And then that bacteria, I mean, again,
again, that's why I like to think about not recycling but reincarnating because that assumes
a kind of imparting upon nature that dimension of agency and maybe awareness. But yeah,
lots of really interesting work happening with bacteria.
Directed evolution is one of them.
We're looking at directed evolution.
So high throughput directed evolution of bacteria for the production of products.
And again, those products can be issue, wearables, biomaterials, therapeutic.
And doing that direction computationally. Totally computationally, obviously, in the lab with the hero organism, the hero bacteria.
And what's happening today in eco-microbial synthetic biology, synthetic biology that
lends itself to ecology.
And again, all of these fields are coming together.
It's such a wonderful time to be a designer.
I can't think of a better time to be a designer in this world.
But with high throughput directed evolution,
and I should say that the physical space in our new lab
will have these capsules which we have designed
that are,
that they are designed like growth chambers or grow rooms. And in those grow rooms, we can basically,
program, top down environmental templating,
where I top down environmental control of lights,
humidity light, etc, light humidity and temperature,
while doing bottom up genetic regulation.
So it is a wet lab, but in that wet lab, you could do it at the same time, you know, genetic
modulation, regulation and environmental templating.
And then again, the idea is that in one of those capsules, maybe we grow transparent
wood.
And in another capsule, we, you know, we can, transparent would for architectural application, another capsule, we grow a shoe. And in another capsule, we look at that language, you know, large
language model that we talked about. And there is a particular technology associated with that,
which we're hoping to reveal to the world in February. And in each of those capsules is basically a
high throughput computational environment
like a breadboard that has,
think of sort of a physical breadboard environment
that has access to oxygen and nitrogen and CO2
and nutritional dispensing.
And these little capsules could be stressed.
They're sort of an ecology in a box
and they could be stressed to produce the food of the future,
or the products of the future,
or the construction materials of the future.
Food is a very interesting one, obviously,
because of food insecurity and the issues that we have around both
in terms of food insecurity,
but also in terms of the future of food,
and what will remain after we can't eat plants and animals anymore and all we can eat is these false bananas and insects
as our protein source.
So there we're thinking, can we design these capsules to stress an environment and see
how that environment behaves?
Think about a kind of an ecological, a biodiversity chamber, a kind
of a time capsule that is designed as a biodiversity chamber where you can program the exact temperature
humidity and light combination to emulate the environment from the past.
So Ohio 1981, December 31st at 5 a.m. in the morning, what
did tomatoes taste like? To all the way in the future, 200 years ago, these are the
environmental inputs, these are some genetic regulations that I'm testing and what might
be the food of the future or the products of the future or the construction materials
of the future. Feel like test like, behave like, etc.
And so these capsules are designed as part of a lab. That's why it's been taking us such
a long time to get to this point because we started designing them in 2019 and they're
currently literally as I speak to you under construction.
How well is it understood how to do this dance of controlling these different variables
in order for various
kinds of growth to happen?
It's not.
It's never been done before and these capsules have never been designed before.
So, you know, when we first decided these are going to be environmental capsules people
thought were crazy, what are you building, what are you making?
So, the answer is that we don't know, but we know that there has never been a space like this where you have basically a wet lab and a grow room at that resolution,
at that granularity of control over organisms.
There is a reason why there is this incredible evolution of products in the software space.
evolution of products in the software space, the hardware space, that's a more limiting space, that because of the physical infrastructure that we have to test
an experiment with things. So we really wanted to push on creating a wet lab
that is novel in every possible way. What could you create in it? You could
create the future. You could create a, you could create
an environment of plants talking to each other with a robotic referee. And the robotic referee
we, you know, and you could, you could set an objective function and let's say for, for,
for the transaction driven individuals in the world,
let's say the objective function is carbon sequestration.
And all of those plants are implemented
with a gaming engine and they have this reward system,
and they're constantly needing to optimize
the way in which they carbon sequest.
We read out the bad guys, we leave the good guys, and we end up with this like
ideal ecology of carbon sequestering heroes that connect and communicate with each other.
And once we have that model, this biodiversity chamber, we send it out into the field,
and we see what happens in nature. And that's sort of what I'm talking about,
augmenting plants with that extra dimension of bandwidth
that they do not have.
They're just last week, I came across a paper
that discusses the in vivo neurons that are augmented with a pong game and in a dish they basically present electrical circuits and the physiological circuits that enable
these cells to connect and communicate and together arrive at sort of swarm
situation that allows them to act as a system that is not only perceived to be sentient but is
actually sentient. My Galavean calls this a gentle material material that has agency, right?
So, this is of interest to us because this is sort of, again, this is emergency post templating.
You template until you don't need to template anymore because the system has its own rules, right?
What we don't want to happen with AGI, we want to happen with synthetic biology.
What we don't want to have an online and software with language.
We want for it to happen with bi-based materials
because that will get us closer to growing things
as opposed to assembly and mechanically putting them together
with toxic materials and compounds.
If I can ask a pothead question for a second.
So you mentioned, just like the silkworms, the individualist silkworms got to actually learn
how to collaborate or actually to collaborate
in a swarm-like way.
You're talking about getting plants to communicate
in some interesting way based on an objective function.
Is it possible to have some kind of interface
between another kind of organisms, humans, and nature.
So like a human to have a conversation with a plant.
The order is, you know that when we cut freshly cut grass,
I love the smell, but it's a smell of, actually,
it's a smell of distress that the leaves of grass are communicating to each other.
So the grass when it's cut amidst green leaf volatiles, GLVs.
And those GLVs are basically one leaf of grass communicating
to another leaf of grass.
Be careful, mind you, you're about to be cut.
These incredible life forms are communicating using a different language than ours.
We use language models, they use molecular models. At the moment where we can decode these molecular moments is when we can start having
a conversation with plants. Now of course there is a lot of work around plant neurobiology, it's a
real thing. Plants do not have nervous system, but they have something akin to a nervous system.
It has a kind of an ecological intelligence that is focused on a particular time scale
and the time scale is very, very slow, slow, slow, slow time scale.
So it is when we can melt these time scales and connect with these plants in terms of the content of the language, in this case,
molecules, the duration of the language, and we can start having a conversation if not
simply to understand what is happening in the plant kingdom.
Precision agriculture, I promise to you, will look very, very different, right?
Because right now, we are using drones to take photos of crops of corn that look bad.
And when we take that photo, it's already too late.
But if we understand these molecular footprints and things that they are trying to say,
the stress that they are trying to communicate, then we could of course predict the physiological,
biological behavior of these crops, both for their own self-perpetuation,
but also for the foods and the pharma
and the type of molecules that we're seeking to grow
for the benefit of humanity.
And so these languages that we are attempting now
to quantify and qualify will really help us not only better
nature and help nature in its striving to surviving,
but also help us, you know,
design better wines and, you know, and better foods and better medicine and better products
again across all scales, across all application domains.
Is there intricacies to understanding the time scales?
Like you mentioned at which these communications, these languages,
like operate, is there something different between the way humans communicate and the way
plants communicate in terms of time? Remember when we started the conversation talking about
sort of definitions in the context of design and then in the context of being?
of being, that question requires, I think, a kind of a shift, a humility. That requires a kind of a humility towards nature, understanding that it operates on different scales. We recently
discovered that, you know, that the molecular footprint of a rose or of a plant in general during
nighttime is different than its molecular footprint during daytime.
So these are circadian rhythms that are associated with what kind of molecules these plants emit,
given stress, stresses, and given, you know, there's a reason why the jasmine, a a Jasmine field smells so, so delicious and for
I am in the morning and there's like there's there's peace and rest amongst,
you know, amongst the plants. And you have to sort of tune into that
time dimension of the plant kingdom and that of course requires all this
humility or in a single capsule to design a biodiversity chamber.
humility, or in a single capsule, to design a biodiversity chamber, it will take years, not months and definitely not days, and to see these products.
Also, that humility in design comes from simply looking at how we are today as a civilization,
how we use an abuse nature.
Just think of all these Christmas trees.
These Christmas trees, they take years to grow.
We use them for one night, the holiest night of the year.
And then we let them go and think about in nature to design a quote-unquote product, an
organism spends energy and time and thoughtfulness and many, many, many years.
And I'm thinking about the red woods,
to grow these channels, these, you know, the cellulose layers and channels
and reach these incredible heights,
takes sometimes hundreds of years,
sometimes thousands of years.
Am I afraid of building a company
that designs products in the scale of thousands of years?
No, I'm not. And the way of being in the
physical world today is really not in tune with the time dimension of the natural world at all.
And that needs to change. And that's obviously very, very hard to do in a community
of human beings that is at least in the Western world
that is based on capitalism.
And so here, the wonderful challenge that we have ahead of us
is how do we impart upon the capitalist movement?
We know that we need to produce now products
that will enter the real world and be shared and used by others
and still benefit the natural world while benefiting humans.
And that's a wonderful challenge to have.
So integrate technology with nature, and that's a really difficult problem.
I see parallels here with another company of Neuralink, which is basically like you, I think you mentioned neural link for nature
that there are short term products you can come up with, but it's ultimately a long term
challenge of how do you integrate the machine with this creation of nature, this intricate
complex creation of nature, which is the human brain. And then you're speaking more generally
nature. You know how every company has an image, like this one single image that embodies
the spirit of the company. And I think for Nurelink, it was to me that
chimpanzee playing a video game. It was just unbelievable. But with plants, there potentially is a set of molecules that impacts or inspires. I like that word. The plant to
behave or act in a certain way and allows still the plant the possibility of deciding where it or she or he wants to go, which is why our
first product for this molecular space is going to be a functionalized fragrance. So here, we're
thinking about the future of fragrances and the future fragrances and flavors. These products are in the industry, as we know it today,
are designed for totally for a human centric use
and enjoyment and indulgence and luxury.
They're used on the body for the sake of,
and don't know, attraction and feeling good
and smelling good.
And we were asking ourselves,
is there a world in which fragrance
can be not a functional fragrance?
Because you could claim that all fragrances are functional.
But is there a world in which the fragrance becomes
functionalized?
Is again, imparted upon or given agency
to connect with another organism?
Is there a world in which you and I can go
down to your garden and use a perfume that will interact with the rose garden downstairs?
I've just been enamored with the statements that are being made in the media around,
oh, this is completely biologically derived fragrance and it's biobased.
But when you look into the fragrance
and you understand it, in order to get to this
biode-arrived fragrance, you went through,
you blew through 10,000 bushes of rose
to create 5 million liters of a rose fragrance.
And all these 10,000 bushes of rose, they take space,
they take water management and so much waste.
Is this really what we want the future of our agriculture and molecular goods to look like?
And so when we did the Agoha pavilion on the roof of Esif Mama, we calculated that for that pavilion
we had 40,000 calories embedded into this pavilion that was made of shrimp shells and kites and and
Apple skins and and salilos from tree tree pulp and
We calculated that overall the structure had 40,000 calories
Interesting way to think about a structure right from the from the point of view of of calories
But as you left the gallery you saw these three clocks that were so beautifully
designed by Felix on our team, and these clocks measured temperature and humidity, and we
were connected them to a weather channel so that we could directly look at how the pavilion
was biodegrading in real time. And in our calculations, I say this long-winded description of the pavilion to say that in the calculation we incorporated
you know, how much electricity we used for our computers, for the 3D printers that printed the pavilion and
you know, and these were called emergency calculations, right? Energy and materials and when you think about a product and you think about
you know a shoe or a chair or a
think about a product and you think about, you know, a shoe or a chair or a perfume or a building, you don't stop at the object. You want to go all the way to the system, again,
instead of designing objects or singular embodiments of a, the will of the designer. You're really
tabbing into an entire system that is interconnected. And if you look at the energy budget that characterized the project
a gocha, it traverses the entire planet.
Right.
Some of these shrimp shells were brought from places in the world
we haven't thought of in terms of the apples and the shrimp shells
and the tree pulp.
And so going back to, you know, going back to fragrances, it's really, really important to understand the product in the
context of the ecological system from which it's sourced and how it's designed.
And that is the kind of thinking that is not only desired but is required if we are to
achieve synergy between humanity and nature.
And it's interesting because the system level thinking is almost always going to take you to the entire earth to consider in the entire
earth ecosystem. Which is why it's important to have a left brain and a right brain competing for
attention. And intimacy. Yes. You mentioned fragrance that kind of sends out a message to the
environment essentially. A message in a bottle.
Yeah.
A message in a bottle.
So, you can go to a rose garden and trick the rose garden to think it's 4am essentially.
You could if you wanted to, but maybe that is not trick.
Trick is a bad word.
Right.
Inspire.
But, inspire, I like.
I like the idea of providing nature with a choice, which is why I love that elegant,
mathematical equation of empowerment and agency.
Empower the rose garden to create a romantic moment for the wearer of the fragrance.
But now again, all of this to go back to that human-centric notion of romance. But maybe there's another way to do
romance, right? That we haven't yet explored, and maybe there's a way to tap into what happens
to the Rose when it's dreaming. Assuming that plants are sentient and assuming that we can tap into that sentience, what can we
discover about? What does the rose want? Like, what does it actually want and what does
it need and what are the roses, you know, dreams?
But do you think there's some correlation in terms of romance, in terms of the word you
sometimes use magic? Is there some similarities in what humans romance, in terms of the word you sometimes use magic.
Is there some similarities in what humans want and what roses want and what nature wants?
I think so.
I think there is, and if I did not think so, my goodness, this would not be a nice world
to live in.
I think we all want love.
I recently read this beautiful letter that was written by Einstein to his daughter
and was discovered Einstein asked his daughter to wait 20 years until she reveals these letters.
And so she did, it's just one of the most beautiful letters I've ever read from a father to
his daughter. And the letter overall is imbued with a kind of a sense of remorse or maybe even feelings
of sadness.
And there is some kind of melancholy note in the letter where Einstein regrets not having
spent enough time with his daughter having focused on the theory of general relativity and
changing the world.
And then he goes on to talk about this beautiful and elegant equation of E equals mc square.
And he tells his daughter that he believes that love is actually the force that shapes the universe
because it is like gravity, right? It attracts people. It is like light. It brings people together and
connects between people. And it's all empowering. And so if you multiply it by the speed of light,
you could really change the world for the better. And I call me a romanticist. I know you are too.
which is why I so love being here. I believe in this. I totally and utterly believe in love. But let me just excerpt from Einstein's letter. There's an extremely powerful force that so far, science is not found a formal explanation to. It is a force that includes and governs all others, and is even
behind any phenomena operating in the universe, and has not yet been identified by us. This
universal force is love."
He also the last paragraph in the letter, as you've mentioned. I deeply regret not having
been able to express what is in my heart, which has quietly beaten for you all my life.
Maybe it's too late to apologize, but as time is relative,
that jokes, the Einstein, I need to tell you that I love you.
And thanks to you, I reached the ultimate answer, your father,
Albert Einstein.
Yeah.
But that regret, I deeply regret not having been able to express what is in my heart.
Maybe that's the universal regret.
Filling your days with busyness and silly pursuits and not sitting down and expressing that.
But it is everything.
It is everything.
It is why I love that expression.
And I forget who said this, but I love my daughter more than evolution required.
And I feel the same way towards my other half.
And I feel that when you find that connection, everything and anything
is possible. And it's a very, very, very magical moment. So I believe in love and I believe
in the one. It might be the same thing.
It might be a different thing,
but let me ask you ridiculously big philosophical question
about beauty.
The Stewowski said beauty will save the world in the idiot
one of my favorite books of his.
What is beauty to you?
You've created through this intersection of engineering and
nature.
You've created some incredibly beautiful things.
What do you think is beauty?
That's a beautiful question.
Maybe it is connected to the love question.
It is connected to the love question.
Of course, everything is connected to the love question.
To me, beauty is agency. To me, something that has agency, it is beautiful.
There is this special quote from Buckminster Fuller, which I cannot remember word for word,
fast. I remember the concept, which goes something like this. When I work on a problem,
I never think about beauty,
but when I'm done solving the problem
and I look at what I've created,
and it's not beautiful, I know that I was wrong.
Okay.
It's kind of an agency that speaks
to, according to the objective function of the creation,
whether for Bucky, it's useless or useful.
So this idea of empowerment that you talked about,
it's fun that they connected to.
Comes back to that, yeah.
What's the difference that you hinted at
between empowerment and emergence?
Is emergence completely lacks control?
And empowerment is more controlled.
There's an agent making decisions.
Is there an interesting distinction there?
Yes, I think empowerment is a force with direction.
It has directionality to it.
Emergence is, I believe, multi-directional.
Again, that depends on the application. Emergence is perhaps, But emergence is, I believe, multi-directional.
Again, that depends on the application.
Emergence is perhaps, in terms of sort of a material definition, is the isotropic spirit
when empowerment is, at the that empowerment is a way of inspiring emergence.
I think emergence does not happen without empowerment, but empowerment can happen without
emergence.
Do you think of emergence as the loss of control?
Like when you're thinking about these capsules
and the things they create is emergence of things
that is not a desirable conclusion?
I love that question because to some of us
the loss of control is control in design
where used to like extreme levels of control over form and the shape of a thing and
how it behaves and how it functions.
And that's something we've inherited from the industrial revolution.
But with nature, there is this diversity that happens without necessarily having a reward function.
This is good or bad.
Things just happen and some of them happen to have wings and some of them happen to have
scales.
You end up with this incredible potential for diversity.
I think the future of design is in that soft control, is in the ability to design highly controlled systems
that enable the loss of control.
And creativity is very much part of this,
because creativity is all about letting go.
And beginning again, and beginning again, beginning again.
And when you cannot let go, you cannot be creative, and you can't, you can't, you can't
find novelty.
But I think that letting go is a moment that enables empowerment, agency, creativity,
emergence.
And they're all connected.
They are sort of associate themselves with definition of destiny or the inevitable.
A good friend of mine shared with me elegant definition of fate, which is the ratio of who you are and who you want to be.
Be sure for who you are, who you want to be.
Exactly. And that sort of ends up defining you. Yeah. And those tools, I think, when
when when you let go, you sort of find you, you give peace to your will, right, to a sense
of will. And, and, and so I think that's very, very important in design, but also in life.
She said this fate is the ratio of who you are and who you want to be.
Do you think there is something to this whole manifestation thing, like focusing on a vision
of what you want the world to become, and in that focusing, you manifest it.
Like Paul O'Coeil said in the Archimists, when you want something, all the universe
conspires in helping you to achieve it.
Is there something to do that?
I think so, yes.
And I always think of, you know,
what I do is this, the culmination of
energy information and matter.
And how to direct energy information and matter
in the design of a thing or in the design of a life.
I think living is very much
a process of channeling these energies
to where they need to go. I think that the manifestation or part of that manifestation is
the pointing to the moon in order to get to the moon. And that's why manifestation is also
directional. It has that vector quality to it that I think of
agency as.
Have you in your own life, is there been things you've done where you kind of direct that
energy information and matter in a way that opens up new possibility?
Yeah. I mean, you've also said somewhere, I'm probably misquoting that you're many things, you
narrow your many things, and you become new things every 10 years or so.
Oh, I did say that somewhere.
Somewhere.
That every decade of sort of switch.
That was an all, that was a previous narrow that said that.
Yeah, I did say some time ago that you have to sort of reboot, reboot every 10 years
to keep creative and keep inventive and keep fresh. Is there things you've done in your life where just kind of doors opened?
I think everything, everything, everything good I've found in my life has been found in that way of letting go and
suspending my sense of disbelief. And often you will find me say to the team,
suspend your disbelief. I don't care that this is impossible. Let's assume it is.
Where does it take us? And that suspension of disbelief
is absolutely part and parcel of the creative act. And, you know, I did so when I was in medical
school, I was in Hadassah and in the Hebrew University. And I remember I left medical school for architecture
the day my grandmother passed away.
And that was a moment of relief.
And that was a door that was closing
that opened other opportunities.
But that of course required letting go
of the great vision of becoming a doctor
and letting go of the great vision of becoming a doctor and letting go of the dream of being
surrounded by wonderful patients and the science of medicine and the research associated with
that science and letting go of that dream to accomplish another.
And it has happened throughout my life in different ways. MIT was another experience like that, where people pointed at me as the designer
for whom the academic currency is not necessarily the citation index.
And of course, in order to get tenure at MIT, you have to look at the citation index.
But for me, it was not that.
It was manifesting our work in shows and writing
papers and writing patents and creating a celebration
around the work.
And I never saw a distinction between those ways of being.
I also think that another way of being or a modality of being
that I found helpful is Victor Frankl wrote this incredible book
Mansert for a Meaning After the Holocaust.
And he writes different people pursue life
for different reasons.
According to Freud, the goal of life is to find pleasure and according to Adler, to find power.
And for Victor Frankl, it was about finding meaning.
And when you let go of the titles and the disciplines and the boundaries and the expectations and the perception, you are elevated to this really
special, yes, spiritual, but definitely very, very creative plane where you can start
anew look at the world through the lens of a bacterium or a robot or you know, or look at ecology through
the lens of chemistry and look at chemistry through the lens of robotics and look at robotics
through the lens of you know, my microbial ecologies and so on and so forth. And I feel that kind
of rebooting, not every 10 years, but every minute, every breath is very, very important for a creative life and for just maintaining this fresh mind
to reboot, reboot, to begin again with every breath,
begin again, and that can be confusing for some, right?
For my team members, you know, I like to change my mind.
It's who I am.
It's how I think, it's how I operate.
Mm-hmm.
You don't know. I like to change my mind to who I am. It's how I think, it's how I operate.
You know, and they'll come and we found another technique or another technology that's interesting and we thought that we were working on this functionalized fragrance, but now there's another
opportunity and let's go there. And to me, I would much rather live life, like if I had to pick sort of my favorite Broadway show
to enter and live through it would be into the woods.
It's not a specific fairy tale, it's not the sleeping beauty or little red riding hood
or Rapunzel, it's all of them.
It's sort of moving into the forest and seeing this wander and getting close and learning about that
and then moving to another wander. And life is really about tying all of these
little fairy tales together in work and also in life.
I'm afraid to leap into the unknown.
I'm afraid to leap into the unknown. I'm afraid to leap into the unknown.
Speaking of MIT, you got a tenure at MIT and then you leaped to New York and started
a new company that with a vision that doesn't span a couple of years, but centuries.
I did.
It was my destiny to start a company.
And do I have mornings when I wake up and ask myself what the hell am I doing?
Yes, I have those mornings. What do you do with those mornings by the way? I
Embrace them and I I find gratitude and I say to myself thank goodness. I
I'm so lucky to you know to have the the ability to be frustrated in this way
so I really really embrace the ability to be frustrated in this way.
So I really, really embrace these frustrations and I take them, I wrap them in a bubble
and I look at it on the outside of my aware mind
and I laugh at them, I smile at them.
If I could return actually to the question of beauty for a second, I forgot to ask you something,
you mentioned imperfection in the death masks.
Mm-hmm.
What role does imperfection play in, um, our conception of beauty?
What role does imperfection play in nature. There's a Japanese
aesthetics concept of Wabusabi, which basically embraces imperfection. Nothing lasts, nothing
is finished, nothing is perfect. What do you think of that? I totally agree that change is the only permanence, that imperfection is there, if only to signal
that we are part of a bigger thing than ourselves, that we are on a journey, that were, that
things are in movement. And if they were perfect, of course, when things are
perfect, it is just so boring, we end up with stereotypes. And as humans, but I think
just in general, as living beings, we're here to find meaning. And that meaning cannot
be found without struggle and without seeking to not to perfect, but to build towards something better.
When I was a child, my mother, who I love so much, always explained to me how important it is to fall there is a culture to failing and to imperfection.
So I think it is necessary for something beautiful to be imperfect.
And it is a sign of nature, because nothing in nature is perfect.
What about human relations?
You mentioned finding love.
Are the flaws in humans, in perfection in humans, a component of love?
Like what role do you think the flaws play?
That's a really profound question. I think the flaws are there to...
The flaws are there to present a vulnerability.
Those flaws are a sign of those vulnerabilities.
And I think love is very, very gentle, right? Love.
With Bill, we often talk about between the two of us about what drives all human behavior.
And for him, it's incentive, as you might expect.
And he will repeat this sentence to me, all incentive drives all human behavior.
But I would say to me it's love, very much so. And I think flaws are part of that because
flaws are a sign of that vulnerability, whether physical, whether emotional vulnerability,
and those vulnerabilities, these vulnerabilities, they either tear us apart or they bring us together.
The vulnerability is what is the glue. I think that the vulnerability enables connection.
The connection is the glue and that connection enables
accessing a higher ground as a community as opposed to as an individual.
So if there is a society over the mind or if there are higher levels of awareness that can be accessed
in community as opposed to
again going to the silkworm as opposed to on the individual level, I think that those
occur through the flaws and the vulnerabilities. And without them, we cannot find connection,
community, and without community, we can't build what we have built as a civilization, you know,
for the past hundreds of thousands of years. So I think not only are they beautiful, but they have a functional role in building civilizations.
Yeah, there's a sense in which love requires vulnerability and maybe love is the leap
into that vulnerability.
And I think, yes, I think a flaw, think about it like physically, I'm thinking about a brick that's flawed, but
in a way, the, I think of a flaw as an increased surface area.
That's a good line.
That's a good line.
A surface area that, like physically, emotionally, right?
It sort of introduces this whole new dimension
to a human or a brick and because you have more surface area you can you know use mortar and build
a home and yeah I think of it as accessing this additional dimension of surface area that could be used for good or bad, right, to connect, to communicate, to collaborate.
It makes me think of that quote from this incredible movie I've watched years ago.
Particle fever, I think it was called documentary about the Large Hydeon Collider,
an incredible film, where they talk about the things that are least important for our survival are the things that make us human
like the pure romantic act or you know the notion of and
Victor Frankel talks about that too. He talks about
feeling the sun on his arms as he's as he is
working the soil in two degrees Fahrenheit without clothes. And the officer berates him and says, what have you
done? Have you been a businessman before you came here to the camp? And he says I was a doctor and he said
you must have made a lot of money as a doctor and he said I all all my work I've done for free I've
been helping the poor. But he keeps his he keeps his humility and he keeps his modesty and he keeps his preservation of the spirit.
And he says the things that actually make him able to or made him able to outlive the terrible
experience in the Holocaust was the really cherishing this moment when the sun hits his
kin or when he can eat a grain of rice, a single grain of rice. So I think cherishing is a very
important part of living a meaningful life, being able to cherish those simple things.
To notice them, to notice them, to pay attention to them in the moment.
And I do this now more than ever.
I mean, there is some, Bukowski has this poem I like called Nirvana, where it tells a story
of a young man on a bus going
through like North Carolina or something like this and they stop off in a cafe and he
has this, there's a waitress and just he talks about that he notices the magic, something
indescribable just knows it's the magic of it and he gets back on the bus with the rest
of the passengers and none of them seem to have noticed the magic. And I think if you just
allow yourself to pause it just to feel whatever that is. Maybe, maybe ultimately it's a kind of
gratitude for, I don't know what it is. It's just, I'm sure it's just chemicals in the brain, but it's just so incredible to
be alive.
Yes.
And noticing that and appreciating that and being one in that with others.
Yes.
Yes.
And that goes back to, you know, to the fireplace, right, to the first technology.
What was the first technology?
It was fire.
First technology to have built community, and it emerged out of vulnerability,
of wanting to stay away from the cold and be warm together.
And of course, that fire is associated with not only with comfort and the ability to form, you know,
bio-relevant nutrients in our food and and and and and provide heat and and comfort, but also
spirits and and I kind of a way to enter, you know, to enter a moment that can only be experienced
as in a community as a form of a meditative moment.
There is a lot to be said about light. is I think an important part of these moments of I think I think it's a real thing.
I really truly believe that we're born with an with an aura surface area that is measurable.
I think we're we're born into the world with that, you know, with a with an aura. And how do we channel that is really sort of ends up sort of defining
the light in our lives? Do you think we're all lonely? Do you think we're all loneliness
in us humans? Oh yes, loneliness is part. Yes, I think we all all lonely? Do you think there's loneliness in us, humans? Oh yes, yes.
Loneliness is part, yes.
I think we all have that loneliness,
whether we're willing to access that loneliness
and look at it in the eye or completely,
you know, completely avoid it or deny it.
It's like, it feels like it's some kind of foundation for longing and longing
leads to this combination of vulnerability and connection with others. Yes. It feels like
it's a really important part of being human, being lonely.
Very. We are born into this world alone. Again, being alone and being lonely are two different things, right?
You can be together, but be lonely and you can be alone, but not be lonely at all.
We often joke, Bill and I that he cannot be lonely.
He cannot deal with being by himself.
He always needs people around him. And I strive long, must have creative solitude, must find pockets of solitude and loneliness
in order to find creativity and reconnect with myself.
So loneliness is a recipe for community in my opinion, and I think those things complement each other and they're synergetic, absolutely.
The Yin and Yang of togetherness.
And they allow you, I think, to reset and to tune in
to that ratio we've talked about of who you are and who you want to be.
If you go to this place of creative solitude, what's your creative process?
Is there something you've noticed about what you do that leads to your good work?
I love to be able not only to lose focus, but to focus on the peripheral view and to
allow different things to occur at
once. So I will often, in my loneliness journeys, I will often listen to like Leonard Bernstein,
anything I can find online by Lenny Bernstein, it's reading a nature paper, it's war and peace,
it's really revisiting all the texts that are so timeless for me with
opportunities that are very very timely. And I think for me the creative process is really about bringing
timeless
problems or concepts together with timely technologies
to observe them. I remember when we did the Mandela Pavilion,
we read Moabidec, the whiteness of the whale,
the albino, the different, the other,
and that got us to work on Melanie,
and Melanie also sort of an output from the death mask.
So it's lots of things happening at the same time
and really allowing them to come together
to form this view about the world through the lens of
a spirit being or a living being or a material and then focus on the world through the lens of
that material. The Glasswork was another project like that where we were fascinated by Glass because
project like that. We were fascinated by glass because obviously it's super material for architecture.
But we created this new glass printing technology for the first time that was shedding light on
the biomechanics of fluid glass, the math and the physics of which was never done before, which was so exciting to us. But revealing new knowledge about the world through technology, that's one theme.
The reincarnation between things material and immaterial, that's another theme.
Lenny Bernstein, Warren Peas Tolstoy.
You've tweeted a Tolstoy quote from Warren Peas as of course you would.
Everything I know, I know because of love.
Love, yeah, I love this quote. So you use these kind of
inspirations
To focus you and then finally actual idea in the periphery
Yes, and then connect them with whatever it is that we're working on whether it's you know, high throughput directed evolution of bacteria
working on, whether it's, you know, high throughput, directed evolution of bacteria, you know, whether it's, you know, recreating that garden of Eden and the capsule and what it looks
like, the food of the future.
It is a little bit like directing a film.
Creating a new project is a bit like creating a film.
And you have these heroes, you have these characters,
and you put them together, and there is a narrative,
and there is a story.
Whenever we start a new project,
it has to have these ingredients of simultaneous complexity.
It has to be novel in terms of the synthetic biology,
material science, robotics, engineering, all of these elements
that are disciplined, based, or rooted, robotics, engineering, all of these elements that are discipline based
or rooted must be novel.
If you can combine novelty in synthetic biology with a novelty in robotics, with a novelty
in material science, with a novelty in computational design, and you are bound to create something
novel.
Period.
And that's how I run the company, and that's how I pick the people. And so that's
another very, very important ingredient of the cutting edge across multiple disciplines
that come together. And then in the background and the periphery, there's all these messages,
the whispers of the ancient foldies, right, the Beethoven's and the Picasso's and...
So Beethoven's always whispering to you. Yeah, how could one not include Beethoven and the whispers?
I'm gonna ask you about Beethoven and the organic history
you've mentioned, because I've played piano
my whole life, obviously, know a lot of Beethoven.
And it's one of the private things for me,
I suppose, because I don't think I've ever
probably could play piano.
By the way, me too.
I mean, that never- I play in private only.
Yeah, people sometimes, even with guitar, people ask me,
can you play something?
And it just feels like certain things are meant to be done.
Privately.
It's weird.
I mean, it's a difficult.
And some of the times I have performed publicly,
it is an ultimate leap in vulnerability.
It's very, very, very difficult for me.
And I'm sure I know it's not for a lot of people,
but it is for me.
Anyway, we've returned to that,
but since you've mentioned combination of novelty
caused multiple disciplines,
then that's what you seek when you build teams
or pick people you work with,
I just wanted to kind of linger on this idea of,
what kind of humans are you looking for in this endeavor
that you're taking on, the fascinating thing
that you've been talking about.
I want to think somewhere else,
a previous version, version 5.7 of Neri said somewhere that there's four fields that are
combined to create this intersection of biology and engineering work in, his computational
design, additive manufacturing material engineering synthetic biology.
I'm sure there's others, but how do you find these humans?
Machine learnings in the mix.
I manifest and they come.
Yeah. There are a few approaches.
To manifest.
Please show up.
Okay.
You know, send your message upon the water.
I mean, those job descriptions that you saw, the first ones I wrote by myself,
and you find interesting people and brilliant people when you look,
what we talked about, second derivative,
when you look under and under and under.
And if you look deep enough and specialized enough,
and if you allow yourself to look at the cracks,
at the flaws, at the cracks between disciplines
and between scales, you find really, really interesting
diamonds in the rough.
And so I like for those job descriptions to, yeah, to be those messages in a bottle that
bring those really interesting people our way.
I mean, they have to have humility.
They have to have a shine in their eye.
They have to be hungry and foolish.
This job so famously said,
a friend of mine whose dean of well-known architectural school said,
you know, today architects don't want to be architects. Architects don't look up to the
starkatex as role models. Starkatex are no longer role models. Architects want to
build by virtue of not building, right? Architects
want, she said, we're back in the 60s when we think about architecture, back in the hippie
movement. I think that in a way they have to be somewhat of a hippie, somewhat of a,
Jack of all trades master of all. And yet with humility. And yet with humility.
Now that is hard to find.
And that is why, you know, when I start an interview,
I talk about childhood memories,
and I asked about music, and I ask about connection.
And through these interviews,
you can learn a lot about a person's future
by spending time hearing them talk about their past.
You find that educational about like PhDs versus like what's the life trajectory? Yours is an issue life trajectory too.
Like what's the life trajectory that leads to the kind of person that would work with you. It's people who have ideally had industry experience
and know what it's like to be in the quote unquote real world.
They're dreamers that are addicted to reality,
as opposed to realists that are addicted to dreams.
Meaning they have that innocence in them.
They have the hunger.
They have the idealism without being entitled and with understanding
the systems that govern our world and understanding how to utilize these systems as torgian horses
to bring those values into the world. individuals who are feel comfortable in this friction between, you know, highly
wondrous and dreamy and incredible fantasy renditions of what the world could be
with extremely, and extremely brilliant skills in terms of their
disciplinary background. So PhD with industrial experience
in a certain field or a double major in two fields that make no sense whatsoever in their
combination. I love it. Yeah. Are things that really, really attract me in? Especially that
span the technology biology. Yes. Technology biology, nature culture. I mean, the secret to one thing is through
the lens of another. And I always believe in that kind of translational design ability to
be able to see something through the lens of another. And always allows you to think again,
begin again, reestablish, redefine, suspend your disbelief, revisit. And when you revisit
enough times, like a hundred times times or like 200 times, and you
revisit the same question through the lens of any possible discipline and any possible
scenario you get, eventually you get to the truth.
I have to ask you, because you work at the interplay of the machine and And the natural world is there a good definition for you of what is life.
What is the living organism.
I think like 440 million years ago there were all these plants that.
The son of a tier I believe actually that that God.
The Sanabhaktir, I believe, actually, that was like the first extinction, right? There were five extinctions.
We are apparently the sixth.
We are in the eye of the storm.
We are in the sixth extinction.
We are going to be extinct, as we speak.
I mean, death is upon us, whether we want to admit it or not.
And actually, they found in Argentina and in various places around the world, they found these spores of the
first plants that existed on the planet and they emerged out of this synobacteria, where the first
of course, and then they found these spore-based plants. And because they didn't have seeds,
they're only spores, the spores became sort
of the fossils by which we've come to know of their existence. And because of these
spores, we know that this first extinction existed. But this extinction is actually what
enabled plants to resirect, right? So the death of these first plants, because they clinked to the rocks and they
generated a ton of phosphorus that went into the ocean by clinging to the rocks like 60 times,
more phosphorus than without them, and then all these phosphorus basically choked the oceans and made them super cold and a without oxygen, a oxic.
And then we lost the plant kingdom.
And then because of the death of these first plants, they actually enriched the soil and
created nutrients for these new plants to come to the planet.
And those planets had like more sophisticated vein systems,
and they were moving beyond sports to seeded plants, et cetera,
and flowering plants.
And so in a way, one mass extinction
sort of led in the Ordovician period sort of led
to life as we know it.
And where would we be without plans in a way?
So I think the death is very much part of life
and through that definition, that kind of planetary,
wide definition in the context of hundreds of millions
of years, life gains a completely new, sort of a new light. And that's where, that's when the
particles become a wave, right, where humans are, we are not alone. And we are here because of
those plants, right? So I think death is very much part of life. So in the context of, you know,
the redwood tree, perhaps, you know, life is defined as 10 generations. And through
the lens of a bacteria, perhaps life is defined as a millisecond. And perhaps through the
lens of an AGI, life is defined as all of human civilization. And so I think it really
is a question of this time scale again, the time scale and the organism, the life
form that's asking the question, through which we can answer what is life.
What do you think about this, since you're, if we think of ourselves in the eye of the
storm of another extinction, the natural question to ask here is, you have all of nature, and then you have this
new human creation that is currently being termed artificial intelligence.
How does your work play with the possibility of a future super intelligent ecosystem and
AGI that either joins or supersedes humans.
Yeah. So I'm glad you asked this question.
And I hope for a terrified.
Both. I'm hopeful and terrified. I did watch your interview with Eliy Ezzyryukowski and I loved it.
Because you were scared or because you were excited or because there was a whole year.
First of all, I was both.
I totally scared, shamed, excited, and totally also inspired
because he's just such an incredible thinker.
And I can agree or disagree with what he says,
but I just found his way of thinking about
AGI and the perils of humanity as a result.
There's an inevitability to what he's saying.
His advice to young people is that prepare for short life.
He thinks it's very almost simple. It's almost common sense that AGI would get rid of humans, that he can't imagine a trajectory
eventually that leads to a place that doesn't have AGI kill all humans.
There's just too many trajectories where a super intelligent systems gets rid of humans and in the near term.
So the clarity of thinking is very sobering.
To me, it's maybe it is to you as well, it's super inspiring because I think he's wrong,
but it's like, you almost want to prove him wrong.
It's like, no, we humans are clever bunch.
We're going to find them wrong. It's like, no, we humans are clever bunch. We're going to find a way.
It is a bit like jumping into super cold water. It's sort of a kind of a fist in your face. It
wakes you up. And I like these moments so much. And he was able to bring that moment to life,
even though I think a mother can never think that way ever. And it's a little bit like that notion of,
I love her more than evolution requires.
On your question about AGI and Nature,
look, I think we've been through a lot in terms of,
to get here, we sort of moved from data,
the ability to collect information,
to knowledge the ability to use this information
for utility, from knowledge to intelligence,
and what is intelligence is the ability
to problem solve and adapt and translate.
So that sort of from data to information to knowledge,
I think the next frontier is wisdom,
and what is wisdom?
Wisdom is the ability to have or find insight
about the world, and from wisdom to
spiritual awareness, which is sort of transcends wisdom and is able to chart the world and to
new territory. But I think what is interesting about AGI is that it is sort of almost like
a self recursive thing, right, because it's like a washing machine of like a third derivative Wikipedia.
It uses kind of like language to create language,
to create language, to create language.
It feels like novelty is being constantly created.
I don't, it doesn't feel like it's regurgitating.
And that's so fascinating because, you know,
these are not the stochastic parrots.
This is sort of a new form of emergence,
perhaps of novelty, as
you say, that exists by virtue of using all things to create new things. But it's not
as if the AGI has self-awareness, right? It's not as if it has maybe, maybe, maybe, maybe it has. But as far as I can tell, it's not as if AGI has approached
consciousness or sentience just yet.
It's probably getting there.
But the language appears to present itself
as if there is sentience there, but it doesn't.
But I think that's the problem.
At the point where this AGI sounds like me and speaks like me and behaves like me and feels like me
and breathes like me. And my daughter knows the AGI to be me, sort of the end of everything,
right, is the end of human agency. But what is the end of human agency to humans? I think
is the beginning of agency to nature.
Because if you take all of this agency,
if you take all of these language models
that can summarize all of human civilization and consciousness,
and then upload that to nature,
and have nature now deal with that world of consciousness
that it never had access to. So maybe through
Eliasal's lands, the short-lived human becomes sort of a very long-lived human-like sentient
weeping willow, maybe that's the end and the beginning, and maybe on the more optimistic side for us humans,
it's a different form of existence
where everything we create and everything we consume
and everything we process is all made up of six,
six elements and that's it.
And there's only those six elements and and that's it. And there's only those six elements
and not 118 elements.
And it's all the stuff of biology plus some,
fair amount of bits, bits, genes and atoms.
Well, I think the idea, a lot of Beethoven.
A lot of Beethoven.
I think the idea of connecting AGI to nature through
your work is really fascinating. Unlocking this incredible machinery of intelligence that
is AGI and connecting it to the incredible machinery of wisdom that is nature as evolved through billions of years.
A pretty crazy intense evolution.
Exactly.
And unlike, again, I'm going back to direct evolution, unlike this high-food, brute force approach, if there is a way to utilize this synergy for
diversity and diversification.
Like, yeah, what happens if you ask a chat GPT question, but it takes 10,000 years to answer
that question. Like, what does that look like when you completely switch the time scale?
And you can afford the time to answer the question.
And again, I don't know, but that world to me is possibly amazing.
Do you think there's, um,
because when you start to think about timescales like this,
just looking at earth,
all the possible trajectories it might take of this living
organism that is earth.
Do you think there's others like it?
Do you think there's other planets with life forms on them that are just
doing their thing in this kind of way?
Because you're, in what you're doing, you're, you're directly playing with
what's possible with life, life like things, that kind of maps the question of,
well, what kind of other things are possible elsewhere?
Do you think there's other worlds full of life,
full of alien life out there?
I've studied the calculations that point towards the verdict that the possibility of life in,
in and around us is very, very low. We are a chosen planet in a way, right? There's water and there's love, what else do you need?
And that's sort of very peculiar juxtaposition of conditions, the oxygen, the water, the carbon.
Again, is in a way a miracle given the massive extinctions that we've been through as life forms.
And that said, I cannot believe that there is no other life form. I want to believe
more than I know that, yes, that there are life forms in, you know, in the white fountain that is the black hole.
Right, that there are these life forms that are, you know, light years away from us that are
forming other forms of life forces. I'm much more worried about probably the thing that you're working on, which is that
there's all kinds of life around us that we're not communicating with.
Yes.
So there's aliens, in a sense, all around us that we're not seeing, that we're not talking
to, that we're not communicating.
Yeah.
Because that to me just seems the more likely situation.
That they're here.
That they're here.
They're all around us in different forms.
That there is a connection, like there's a thing that connects all of us, all of living
beings across the universe.
And like we're not, we're just beginning to understand any of it.
And I feel like that's the important problem is,
I feel like you can get there with the tools of science today by just
writing life on earth.
Unlock some really fundamental things that maybe you can start to answer questions
about what is consciousness. Maybe this thing that we've been
saying about love, but honestly in a serious way.
And then you'll start to understand that there is alien life all out there.
And it's much more complicated and interesting that we kind of realize,
as we're still looking to human-like, exactly human-like things.
It's the variety of life that's possible. It's just almost endless.
I totally agree with you. I think again,
define alien, right? Yeah, define intelligence, define life. Right. And Marvin Minsky used to say, intelligence is a suitcase word.
Right? It's a word so big. It's a word like sustainability, and it's a word like, you know, rock and roll,
and suitcase words are always very, very dangerous.
Speaking of rock and roll, you've mentioned music, and you mentioned Beethoven a bunch of times.
You've also tweeted about you've got any kissing performance and so on.
What can you say about the role of music in your life?
I love music. I always wondered why is it that plastic arts, meaning architecture and sculpture
and painting, can't get us to cry and music gets us to cry so quickly and connect so quickly.
There is something about music that is and no wonder that plants also respond to music.
But that is the top of the creative pyramid, in my opinion.
And it's a weird mystery that we're so connected to music.
Well, by the way, to push back, a good bridge will make me cry.
A good arc, I see true.
And I will say, when I visited the Sagrada Familia, I had that kind of spiritual reverence towards
that spatial experience and being in that space and feeling the intention and the space and
appreciating every little gesture. So it's true. It is the universal language. It's the
language of waves, right? It's the language of the waves, not the language of the particles.
It is the universal language, I believe.
And that is definitely one of my, one of my loves.
And you said that if you weren't doing what you were doing now,
perhaps you would be a film director.
So I'll have to ask, what are you think is the best film of all time?
Maybe top three.
Yeah.
Maybe the Godfather.
Godfather, okay?
The Godfather is definitely up there.
Francis Coppola is one of my heroes.
Have you met him?
I have met him.
Yes, yes, yes.
I was very, very lucky.
We were very lucky to work with him on his new film,
McGalopolis, which is coming out, I hope, in 2024.
And think about the cities of the future and the context of new materials and
the unity between nature and culture.
Godfather is definitely up there.
2001 is up there.
I would watch that film again and again and again.
It's incredible. The last scene
in Odyssey 2001, that's just watch the last scene of 2001, then listen to the covesky and then
and then go to the garden and that's pretty much you know. The end in the beginning but that scene, that last scene from 2001 is everything. It says so much with so little and it leaves, it's sort of the embodiment I believe of ambivalence
and there's opportunity to believe in the beginning of humankind, the end of humankind, the planet,
child, star, or star child of the future.
Was there a death?
Was there a reincarnation?
You know, that final scene to me is something that I go back to and study.
And every time there is a different reading of that
scene that inspires me, so that that scene, just, and then the first scene in the
Godfather, still one of the best scenes of all times, sort of a portrait of
America, the ideals and values that are brought from Italy and a family of
loyalty of how different values are constructed.
Yes, loyalty and the human spirit and how Coppola celebrates the human spirit through
the most simple gestures in language and acting. And I think in Kubrick, you see this highly curated
and controlled and manicured vision of creating a film.
And with Francis, it's like an Italian feast, it's like anything, anything can happen
at any moment in time.
And just being on the set with him is an experience I'll take with me to my grave.
It's very, very, very special.
And you said music is also part of that
of creating a feeling in the movies.
Yeah, actually the Godfather,
da da da da da da da da da da da da da da da da da da.
That tune, that makes me like emotional every time
at some weird level.
Yeah, it's one of these tunes.
I'm sure that has, you know, if you play it to a Jasmine,
you'll get the best scent of all time.
So I think like there's, but I think with that particular tune,
I learned staccato.
That's something very, very happy and joyous.
That's, and then made into this stretched and time and Takato, that's something very, very happy and joyous, that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that that on top of this one single tune. You can play in all kinds of different ways of playing on guitar and all kinds of different ways and I think it got farther
three, the sun plays it on guitar to the father. I think this happens in
movies but sometimes a melody and that's a simple melody you can just like. And
the Strauss melody in 2001 and when you jacks to pose this melodies with the scene, you get
this again hold it's bigger than some of its parts where you get this moment that is
I think like these are the moments I would send you know with the next Voyager to Artispace. I definitely sent the Godfather in 2001
would definitely be beyond that golden record.
You are an incredibly successful scientist and engineer,
architect, artist, designer.
You've mentored a lot of successful people.
Can you give advice to young people listening to this?
I've got to have a successful career.
And how to have a successful life.
Look, I think there's this beautiful line in sheltering sky.
How many times have you seen a full moon and, um, in your life and actually
took the time to ingest and explore and reflect upon the
full moon, probably 20, I believe he says, I spend time with a full moon. I take my
time with a full moon and I pay attention to a full moon and I think paying attention to the seasons and taking time to appreciate the little things,
the simple things is what makes a meaningful life.
I was very lucky to have grown up in a home that taught me this way of being.
My parents, my grandmother, who played a very important role in my growing up. And that ability to pay attention and to be present is so, so, so, so I could not emphasize
it enough is so crucial.
And be grateful.
And be grateful.
I think gratitude and presence, appreciation,
are really the most important things in life.
If you could take a short tangent about your grandmother
who's played a big role in your life,
what do you remember, what lessons have you learned from her?
She had this blanket that she would give me
every time I came back from school and say,
do your homework here and meet with your friends here.
And it was always in her garden.
And her garden, in my mind, was ginormous.
But last I went there and saw the site,
which has now become the site for another tall building,
it was a tiny, tiny little garden
that the tumies seemed so large when I was growing up
because it had everything.
It had fig trees, it had olive trees, it had mushrooms,
it had the blanket, I would do my homework there,
it was everything and I needed nothing, nothing else.
And that was my garden of Eden. That was my childhood being and she taught me, you know,
you know, we would lie on the blanket and look at the clouds and reflect upon the shapes of the clouds and study the shapes of the plants. And there was a lot of wonder in that childhood
of the plants and there was a lot of wonder in that childhood with her. And she taught me the importance of wonder in an eternal childhood and living adulthood
as a child.
And so I'm very, very grateful for that. I think it is the sense of wonder.
The speaking up was always something that she adhered to, to speak up your truth,
to be straightforward,
to be positive.
These are things that I also got from my mom.
And for my mom, the sense of humor.
She had the best sense of humor that I could think of and was just a joy to be around.
And my father taught me everything.
My father taught me everything I know.
My mom taught me everything I feel.
That's a good way to put it.
My grandma taught me everything I insight.
Well, I see the sense of wonder that just carries to everything you do.
So I think you would, you make your grandmother proud.
Well, what about advice for how to have a career?
So you've had a very interesting career and a successful career, but not an easy one.
It took a few leaps.
I did take a few leaps and they were uncomfortable. My father and I'll never forget. I think we
were like listening to a Rolling Stone song in the kitchen and my dad, who was actually born in Boston, he's American.
He said, I started to have sort of these second thoughts about continuing my education in Israel, and I wanted to, you know, go, I was on my way to London to the architectural
association to do my diploma studies there. And he looked at me and he said,
get out of here, kiddo, you gotta get out of here.
And you know, you've outgrown where you're at,
you need to move forward.
Another thing he had taught me,
the feeling of discomfort, as you say,
the feeling of loneliness and discomfort
is imperative to growth. Growth is painful, period. Any form of growth is difficult
and painful. Birth is difficult and painful. And it is really, really important to place yourself
in situations of discomfort. I like to be in a room where everyone in the room is more intelligent than me. I like to be in those in that kind of state where the people that I surround myself with are orders of magnitude more intelligent than I am. And I can say that that is true of all of my team members.
And that's the intellectual discomfort that I feed off of. The same is true for physical exertion.
You've got to put yourself in these uncomfortable situations
in order to grow, in order to find comfort.
And then on the other hand, is love, is finding, finding love and finding that, you know, that human, this other human
that complements you and that makes you a better version of the one you are and even of the
one you want to be. But with gratitude and and attention and love, you can go so so far to the younger
generation. I don't speak of a career. I never thought of my work as my career ever. And
there was this constant entanglements between life and work and love and longing and being and mothering it's all the same.
And I appreciate that to some people that doesn't work in their arrangement of will versus comfort versus the reality, but for me it has always worked.
So I think to the younger generation, I say don't think of your career.
A career is something that is imposed upon you.
Think of your calling.
That's something that's innately and directionally moves you.
And it's something that transcends a career.
Similarly, you can think about the difference between, you know, learning versus being educated,
being educated is something that's given to you.
It's external, it's being imposed, that's top-down imposed.
This learning is something that comes from within.
Also, the difference between joy and happiness.
Many times I'm sad and I'm still joyous. And it's very, very important to understand
the difference between these externally perceived success paths and internally driven value-based
ways of being in the world. And we, together, when we combine all of these, you know, all of these, the broken puzzle, let's say,
of substance and vulnerability. We get this bigger, gestalt,olesome and that, you know, that proposes or, you know,
advocates for that kind of synergy that we've been talking about throughout.
But it's all fun.
Well, thank you for this incredible conversation.
Thank you for all the work you're doing.
And I just have to say that thank you for noticing me and listening to me. You're somebody from from just today and from our
exchanges before this, like, there's a sense where you care about me as a human being, which is
which I could tell you care about other humans. Thank you for doing that. Thank you for having empathy and just like, yeah, really
listening and noticing me that I exist. So thank you for that. I mean, a huge fan of your work,
been a huge fan of who you are as a human being. It's just an honor to be with me. Thank you.
Thank you so much. Let's say feel the same way. I'll just say the same. And I look forward to hearing the response to my job application that I've submitted. Oh, you're accepted. Oh,
yeah, Mara, we all speak of you all the time. Thank you so much. Thank you,
Mary. Thank you. Thanks for listening to this conversation,
Mary Oxman, the support this podcast, please check out our sponsors in the
description. And now let me leave you some words from Leo Tolstoy.
Everything I know, I know because of love. Thank you for listening. I hope to see you next time. you