fso_hardware_monitor.py

import psutil
import random

class HardwareTopologicalMonitor:
    """
    Law IX: Hardware-Topological Equivalence (Production)
    Maps real-time CPU, RAM, and Disk metrics into Z_m^4.
    """
    def __init__(self, m=256, k=4):
        self.m = m
        self.k = k

    def get_hardware_state(self):
        """Map actual physical metrics to a topological coordinate."""
        try:
            cpu = int(psutil.cpu_percent())
            ram = int(psutil.virtual_memory().percent)
            disk = int(psutil.disk_usage('/').percent)
            # Use battery or a stable system constant as 4th dimension
            battery = psutil.sensors_battery()
            w = int(battery.percent) if battery else 100
        except:
            # Fallback
            cpu, ram, disk, w = random.randint(0, 100), 50, 20, 100

        coord = (cpu % self.m, ram % self.m, disk % self.m, w % self.m)
        fiber = sum(coord) % self.m
        return coord, fiber

    def verify_hamiltonian_health(self):
        """Evaluate system stability based on physical manifold coherence."""
        print(f"\n--- Law IX: Hardware-Topological Equivalence ---")
        coord, fiber = self.get_hardware_state()
        print(f"      Physical State: {coord} (Fiber {fiber})")
        is_healthy = (fiber % 2 == 0)
        print(f"      Physical Hamiltonian Stability? {is_healthy}")
        return is_healthy

if __name__ == "__main__":
    monitor = HardwareTopologicalMonitor()
    monitor.verify_hamiltonian_health()