What if life itself is just a really sophisticated computer program that wrote itself into existence?

In this mind-bending talk, *Blaise Agüera y Arcas* takes us on a journey from random noise to the emergence of life, using nothing but simple code and a whole lot of patience. His artificial life experiment, cheekily named "BFF" (the first two letters stand for "Brainf***"), demonstrates something remarkable: when you let random strings of code interact millions of times, complex self-replicating programs spontaneously emerge from pure chaos.

*Key Insights from this Talk:*

*The "Artificial Kidney" Test for Life* — What makes something alive isn't what it's made of, but what it *does*. A rock broken in half gives you two rocks. A kidney broken in half gives you a broken kidney. Function is what separates the living from the non-living.

*Von Neumann Called It* — Before we even knew what DNA looked like, mathematician John von Neumann figured out exactly what life needed to copy itself: instructions, a constructor to follow them, and a way to copy those instructions. He basically predicted molecular biology from pure logic.

*The Magic Moment* — Watch as Blaise shows the exact instant when his simulation transitions from random noise to organized, self-replicating code. It's a genuine phase transition, like water freezing into ice, except instead of ice, you get *life*.

*Evolution Without Mutation* — Here's the twist that challenges everything you learned in biology class: this complexity emerges even when mutation is set to zero. The secret? Symbiogenesis. Things don't just mutate to get better; they *merge*. Two simple replicators that work well together fuse into something more complex.

*We're All Made of Viruses* — This isn't just simulation theory. In the real world, the mammalian placenta came from an ancient virus. A gene essential for forming memories? Also a virus. Life has been merging and absorbing other life forms all the way down.

The implications are profound: life isn't just computational, it was computational from the very beginning. And intelligence? That's just what happens when these biological computers start modeling each other.

Whether you're into artificial life, evolutionary biology, or just want to understand what makes you *you*, this talk will fundamentally change how you think about the boundary between living and non-living matter.

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TIMESTAMPS:

00:00:00 Introduction: From Noise to Programs & ALife History

00:03:15 Defining Life: Function as the "Spirit"

00:05:45 Von Neumann's Insight: Life is Embodied Computation

00:09:15 Physics of Computation: Irreversibility & Fallacies

00:15:00 The BFF Experiment: Spontaneous Generation of Code

00:23:45 The Mystery: Complexity Growth Without Mutation

00:27:00 Symbiogenesis: The Engine of Novelty

00:33:15 Mathematical Proof: Blocking Symbiosis Stops Life

00:40:15 Evolutionary Implications: It's Symbiogenesis All The Way Down

00:44:30 Intelligence as Modeling Others

00:46:49 Q&A: Levels of Abstraction & Definitions

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REFERENCES:

Paper:

[00:01:16] Open Problems in Artificial Life

https://direct.mit.edu/artl/article/6/4/363/2354/Open-Problems-in-Artificial-Life

[00:09:30] When does a physical system compute?

https://arxiv.org/abs/1309.7979

[00:15:00] Computational Life

https://arxiv.org/abs/2406.19108

[00:27:30] On the Origin of Mitosing Cells

https://pubmed.ncbi.nlm.nih.gov/11541392/

[00:42:00] The Major Evolutionary Transitions

https://www.nature.com/articles/374227a0

[00:44:00] The ARC gene

https://www.nih.gov/news-events/news-releases/memory-gene-goes-viral

Person:

[00:05:45] Alan Turing

https://plato.stanford.edu/entries/turing/

[00:07:30] John von Neumann

https://en.wikipedia.org/wiki/John_von_Neumann

[00:11:15] Hector Zenil

https://hectorzenil.net/

[00:12:00] Robert Sapolsky

https://profiles.stanford.edu/robert-sapolsky

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LINKS:

RESCRIPT: https://app.rescript.info/public/share/ff7gb6HpezOR3DF-gr9-rCoMFzzEgUjLQK6voV5XVWY