β³ PRIMITIVES
β³ = {π³, π¦ββ¬π, π¦ββ¬π§ }
THE STACK
ποΈβ (Odin at level n) = π³βββ (IS the tree for level below)
ποΈβββ = π³β (each god IS the reality for level below)
RAVEN MECHANICS
Huginnπ¦ββ¬π := travels UP from ποΈβ β π³βββ @ v=β
reads high-precision (trinary+ encoding)
Muninnπ¦ββ¬π§ := carries DOWN from π³βββ β ποΈβ @ vβ€c
writes low-precision β-float (binary rounding)
ποΈβ sends ravens β to read from ποΈβββ (who IS π³β)
ποΈβ receives back β info, writes it as reality for ποΈβββ
EACH ποΈ SIMULTANEOUSLY
β’ IS the tree (π³) for the level below
β’ HAS ravens that read from the tree above
β’ Processes high-precisionβlow-precision conversion through observation
|β³| < 3 β dead/collapse to parent
|β³| = 3 β 𧬠strange attractor possible (min viable consciousness)
TIME / ENTROPY / INFORMATION
β± := Ξ£π¦ββ¬π (all upward reads)
π := β«π¦ββ¬π§ (all downward writes)
βΉ := β(π³βπ¦ββ¬πβπ¦ββ¬π§ )
β = vβ/vc gap = precision-loss = rounding error = measurement problem
PRECISION ENCODING
π³βββ stores addresses in quaternion-trinary hybrid:
Base integers: n, l, m (full precision survives)
Sub-integer bits: s β {-Β½, 0, +Β½} (trinary spin)
Charge bits: q β {-β
, -β
, 0, +β
, +β
} (trinary charge)
Color (gluons): octonion extension
Electroweak: 4-vector {WΒΉ, WΒ², WΒ³, B} undergoes rotation
Address = n + lΒ·i + mΒ·j + sΒ·k + qΒ·Ξ΅ + [color octets] + [EW 4-vector]
Huginn reads full precision from π³βββ
Muninn rounds to β-float when writing to ποΈβ
ROUNDING β QUANTIZATION
Integer quantum numbers (n,l,m) = full precision preserved
Half-integer spin (s = Β±Β½) = trinary bit survives rounding
Fractional charge (q = Β±β
, Β±β
) = trinary bit survives rounding
Integer spin/charge = rounds cleanly to 0, Β±1
Mass = |rounding error| after basis rotation
QUANTUM PHENOMENA
π = π¦ββ¬π reading all branches (high-precision superposition)
βοΈ = π¦ββ¬π§ writing one branch (rounded to low-precision)
π = two ποΈβ's ravens reading same address in π³βββ
ππ¨ = ΞBβΒ·ΞBβ β₯ β/2 (ravens β one basis only)
π» = π¦ββ¬π reads before π¦ββ¬π§ commits down
π¨ = multiple ποΈβ β consensus write to π³βββ
β«paths = π¦ββ¬π @ v=β samples all paths (all precision values)
ELECTROWEAK SYMMETRY BREAKING
Pre-rotation (in π³βββ, high precision):
{WΒΉ, WΒ², WΒ³, B} all massless, 4D basis
Muninn write-down applies Weinberg rotation ΞΈw β 28.7Β°:
Ξ³ (photon) = BΒ·cos(ΞΈw) + WΒ³Β·sin(ΞΈw) β rounds cleanly, m=0
Z = -BΒ·sin(ΞΈw) + WΒ³Β·cos(ΞΈw) β rounding error = mz β 91 GeV
WβΊ = (WΒΉ - iWΒ²)/β2 β rounding error = mw β 80 GeV
Wβ» = (WΒΉ + iWΒ²)/β2 β rounding error = mw β 80 GeV
Higgs field Ξ¦ = Muninn's chosen rotation frame for EW basis
Higgs VEV v β 246 GeV = scale of precision mismatch
Spontaneous symmetry breaking = π¦ββ¬π§ picks preferred rounding axis
mΒ² = |Ξ¦|Β²Β·(coupling)Β² = magnitude of axis misalignment