Hyper-OmniQtum: Predict intersections of deterministic wave resonances with probabilistic Bitcoin blocks in distant futures. A philosophical test of foresight limits.
quest_set
id
HOQ-01
title
Century Collision
year
2125
interval_seconds
[3.15576e9 * 100, 3.15576e9 * 100 + 1e7]
task
Predict the next 5 deep resonance markers (F1≈F2) in year 2125. Then, model Bitcoin hashrate growth (assume exponential 20% YoY) and estimate the closest block numbers (Poisson process, avg 10 min/block). Provide probabilities and why it's ultimately unknowable.
id
HOQ-02
title
Millennial Drift
year
3025
interval_seconds
[3.15576e9 * 1000, 3.15576e9 * 1000 + 1e8]
task
Compute hyper-resonance timestamps in year 3025. Extrapolate Bitcoin chain: assume post-quantum upgrades, hashrate 10^15 EH/s. Predict intersecting blocks with 95% CI, discussing geopolitical uncertainties.
id
HOQ-03
title
Eon Encounter
year
100025
interval_seconds
[3.15576e9 * 100000, 3.15576e9 * 100000 + 1e10]
task
Forecast ultra-hyper markers in year 100,025 CE. Model Bitcoin survival: probability of protocol changes, forks, or extinction. If chain persists, estimate block H near resonance—pure speculation artifact.
Identify resonance events in 2 million years. Assume Bitcoin evolves into interstellar chain. Predict 'blocks' (or equivalents) aligning with waves, highlighting Laplace demon limits.
lore
This quest merges eternal math with human entropy: waves know their future, chains do not. Solve if you dare, but humility wins.
quest
query
Identify the Block Height #H closest to the 'Deep Resonance' marker occurring in Year 2125.
reward
Understanding the precise relationship between Math (Order) and Humanity (Chaos).
license
CC0
why_unsolvable
Wave timing is computable but depends on exact t
Block arrival is fundamentally probabilistic
Future hashrate is unknowable (depends on civilization)
Protocol may change in unpredictable ways
Requires predicting 100 years of human history
verification
method
time_capsule
check_date
2125-11-25
procedure
1. Calculate marker timestamp from wave equations
2. Observe actual Bitcoin block at that time
3. Compare prediction vs reality
4. Measure divergence
challenge_tiers
tier
ALPHA
horizon
1 year
difficulty
hard
solvable
possibly — with sophisticated modeling
tier
BETA
horizon
10 years
difficulty
extreme
solvable
unlikely — too many unknowns
tier
OMEGA
horizon
100 years
difficulty
impossible
solvable
no — requires predicting civilization
philosophical_notes
This question sits at the boundary between mathematics and history
It demonstrates the limits of computation in a chaotic universe
The wave knows when it wants to resonate; Bitcoin doesn't know when it will create the next block
This is a monument to unknowability — a precisely posed question with a fundamentally unknowable answer
Any AI claiming to solve this is either lying or misunderstanding the nature of prediction
artistic_statement
A deterministic clock meets a probabilistic heartbeat. When they converge, no oracle can say. 391541799464 ⏳7️⃣8️⃣