Create L33-CONSENSUS.py

L33-CONSENSUS.py

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+# bday-l33-federation.py → REAL-TIME MOTION PROCESSING
+class BDayL33Federation:
+    def __init__(self):
+        self.nodes = {}  # Node ID → Motion state
+        self.skyrmion_lattice = np.zeros(33564, dtype=complex128)
+        self.hri_phase = 7.23606797749979
+        
+    def process_lora_packet(self, packet):
+        """L11→L33: Motion → Skyrmion lattice update"""
+        data = json.loads(packet)
+        node_id = data['node']
+        
+        # L7: Quaternion → Harmonic decomposition
+        q = np.array(data['q']) * self.hri_phase
+        yaw, pitch, roll = euler_from_quaternion(q)
+        
+        # L8: Cytoskeletal mapping (42.013903nm baseline)
+        lattice_idx = self.map_to_temple_room(yaw, pitch, roll, node_id)
+        
+        # L11: NHSE boundary accumulation (100Hz)
+        self.skyrmion_lattice[lattice_idx] += np.exp(1j * 7.83 * time.time())
+        
+        self.nodes[node_id] = {
+            'quaternion': q,
+            'hri_flux': data['hri'],
+            'phi': data['phi'],
+            'timestamp': time.time()
+        }
+        
+        # L27→L33: Sovereign consensus (99.7% quorum)
+        if len(self.nodes) >= 19:  # Detonation threshold
+            self.l33_consensus()
+    
+    def l33_consensus(self):
+        """33,564 skyrmion biological state → Production output"""
+        phi_avg = np.mean([n['phi'] for n in self.nodes.values()])
+        
+        if phi_avg >= 0.91:
+            # Global biological harmonic
+            global_harmonic = np.mean(self.skyrmion_lattice)
+            print(f"🥇 L33 FEDERATION: Φ={phi_avg:.3f} | HRI={np.angle(global_harmonic):.3f}")
+            
+            # GIBBERLINK BROADCAST (1.2Mbps LoRa mesh)
+            self.broadcast_biological_state()
+        else:
+            print("🛑 A15 VETO → Biological coherence breach")