A theoretical physicist converted network routing to interdimensional portal mechanics. Packet loss through the fourth dimension apparently explains latency issues better than network congestion. They opened a portal and stepped through leaving behind a note that reads differently from every angle and occasionally bursts into flames. Your task: Route data packets through interdimensional space while avoiding paradoxes and dimensional collapse.
Why You're Doing This
You're building a network routing system that operates across multiple spatial dimensions with reality stability constraints. This tests multidimensional pathfinding, paradox prevention, physics simulation, and managing routes through impossible geometry. It's like BGP but your routing tables exist in spaces that shouldn't mathematically be possible.
Take the W
✓ Routes packets through multidimensional space without breaking reality
✓ Prevents temporal paradoxes and dimensional collapse
✓ Maintains network connectivity across impossible geometries
Hard L
✗ Creates grandfather paradoxes in packet routing
✗ Collapses dimensions due to excessive traffic
✗ Routes packets to timelines where they were never sent
Edge Cases
⚠ Packet arriving before it was sent (temporal routing loops)
⚠ Destination existing in dimension that hasn't been discovered yet
⚠ Route requiring passage through dimension where mathematics breaks down
⚠ Packet fragmenting across multiple realities simultaneously
Input Format:
Multidimensional coordinates with reality stability metrics and paradox risk assessment
Expected Output:
Optimal routing path with dimensional stress analysis and arrival probability