3063f8fdf7
Replaced every bottom-of-section 'See also:' block with inline Org-mode file: links at the first natural mention in body text. All 29 files across the economics directory now use wiki-style inline cross-references rather than standalone reference blocks.
18 lines
1.4 KiB
Org Mode
18 lines
1.4 KiB
Org Mode
:PROPERTIES:
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:ID: 2afd9a3c-e96a-54c7-ac77-a05a28065b4b
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:END:
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#+title: Biology as Proof of the Lisp Model
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#+filetags: :passepartout:biology:lisp:parallels:evolution:
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Striking parallels between microbiology and the Lisp model:
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1. **Homoiconicity** — DNA is code and data in the same molecule; no separate source and binary
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2. **Hot-reloadable image** — alternative splicing, epigenetic marks, post-translational modifications change the running program without restart
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3. **Automatic memory management** — proteasomes degrade misfolded proteins, autophagy recycles organelles; the cell never calls free()
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4. **Interpreted dynamic language** — DNA → RNA → ribosome (interpreter) → protein; no static compilation step
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5. **Self-modifying source** — CRISPR, transposons, DNA repair modify the genome at runtime; eval on the genome
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6. **Duck typing** — protein folding depends on chemical environment, not type declarations
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7. **Concurrent real-time GC** — apoptosis breaks down cell components for recycling by neighboring cells
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Biology chose the Lisp model because it is more robust, adaptable, and evolvable. Evolution optimized for survival in an unpredictable environment, not peak single-thread throughput. Biology is the proof that the Lisp model can be efficient at planetary scale, running on hardware that self-assembles from food. See [[file:lisp-economics.org][Lisp economics]] for how these biological parallels inform the business model.
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