Alien BTC findings: If humans vanished, Bitcoin’s block time and difficulty would preserve our collapse
This is a speculative report translated for non-specialists. The narrator is an investigator who arrived lengthy after humans have been gone. Everything described as measured depends on actual Bitcoin mechanics: block intervals, difficulty/goal, timestamp guidelines, and information out there from block headers and the coinbase transaction.
We arrived on a silent planet. The final clocks nonetheless ticking have been embedded in a ledger whose authors have been gone.
REPORT START
Team: Survey Unit 3
Artifact: Global ledger (“Bitcoin”)
Technique: Lightweight chain evaluation (headers + coinbase), mapped to photo voltaic time
Method
We analyzed the digital artifact often known as Bitcoin utilizing what we recognized as block headers (timestamp, goal / “bits”, model) and every block’s coinbase transaction (top, output worth, and tag textual content).
From our earlier preliminary overview we’ve constructed the next information factors:
- Fees have been handled as: coinbase output − programmed subsidy (charges really claimed by the miner).
- Timestamps have been calibrated to the planet’s photo voltaic day and yr and bounded by Bitcoin’s median-time-past (MTP) rule.
- Evidence of tip competition (stale blocks) was inferred from timing irregularities and MTP edge results; the place any stale-block archives survived on remoted nodes, they corroborated these durations.
- Difficulty retargets occurred each 2016 blocks with the actual_timespan clamped to 0.25×–4× of the two-week goal, implying a per-epoch difficulty change bounded to at most 4× in both path.
Findings
Cessation of funds
We recorded ΔH (blocks earlier than current) to be ≈ 86,000. Coinbase outputs have been equal to the programmed subsidy, implying charges ≈ 0. Over that very same interval, common block spacing settled close to ~60–70 minutes with a long-segment imply of ~65 minutes.
Interpretation: Human-directed funds had ceased. Mechanical issuance continued.
Dating: 86,000 blocks × ~65 minutes ≈ ~10.6 years earlier than our arrival.
Power-source timing signatures
Post-collapse block arrivals weren’t memoryless. Diurnal and seasonal cadence encoded the unattended energy combine:
- Daytime clusters with nighttime gaps repeated throughout low-latitude longitudes → unattended photo voltaic with degrading storage.
- Irregular multi-hour bursts punctuated by multi-day voids at mid-latitudes → wind that faulted throughout storms and wasn’t reset.
- Persistent in a single day presence at a number of longitudes → small hydro or geothermal working islanded.
We aligned repeated intraday timestamp clusters to native photo voltaic midday to estimate longitude bands of surviving websites. The power of seasonal variation in block arrivals gave coarse latitude bands. Precise website coordinates weren’t recoverable.
Difficulty terraces (the fade, timed)
Immediately after the hashrate shock, common block time jumped from ~10 minutes to hours. Because difficulty solely retargets each 2016 blocks and every epoch’s change is bounded, the chain fashioned terraces, plateaus of near-constant common interval separated by discrete down-steps.
Representative sequence noticed within the world ledger:
- Terrace A: ~16–17 h/block for 2016 blocks → elapsed ~3.8 years.
- Terrace B: ~4.1 h/block for 2016 blocks → ~0.95 years.
- Terrace C: ~62–65 min/block for 2016 blocks → ~87–91 days.
- Terrace D: ~15–16 min/block for ~22 days, after which renewed {hardware} failures re-slowed the chain.
Where residual hashrate was ≈1% of pre-event, Terrace A alone spanned ~3.8 years at ~16.7 h/block. At ≈0.1%, the identical 2016-block epoch would have stretched to ~38 years at ~167 h/block, nonetheless inside the protocol’s adjustment sure. One area’s cadence matched the ~16–17 h/block case.
How to learn a terrace (labored calc):
Epoch size = 2016 blocks. If the noticed interval on a plateau is 16.7 hours, elapsed time for that epoch ≈ 2016 × 16.7 h ≈ 3.84 years.
Network decay captured within the report
Once correct clocks vanished, miner timestamps drifted in coherent regional patterns. Bitcoin’s MTP rule restricted abuse of timestamps (every new block needed to be later than the median of the prior 11) however didn’t get rid of drift signatures.
Interval variance and clustered MTP-bounded timestamp advances revealed intermittent partitions and tip competition; when any hyperlink resumed (e.g., satellite tv for pc, microwave), competing branches reconciled and solely the successful department remained canonical.
Without preserved stale-block archives, measured competition is a decrease sure.
Maker marks that outlived their makers
Coinbase tag strings (pool labels) and secure nonce/model fingerprints persevered for years after charge exercise ended. Defaults have been by no means modified as soon as operators have been gone, leaving software program/{hardware} households identifiable within the report. (Coinbase tags are seen by way of the coinbase transaction; headers alone don’t carry them.)
Dating key occasions (labored examples)
- “Payments ended.” Window the place coinbase output = subsidy started at ΔH ≈ 86,000. Using the noticed ~65 min/block: ~10.6 years earlier than current.
- First post-shock retarget accomplished. The preliminary 2016-block discount completed ~3.8 years after the hashrate collapse (plateau at ~16.7 h/block).
- Final detectable hydro cadence. The final night-heavy, near-constant signature ceased ~1.9 years earlier than current; the prior seven spring seasons confirmed rising multi-day outages in keeping with consumption clogging and flood injury.
All conversions use noticed section averages, not the nominal 10-minute goal.
Duration estimate (how lengthy machines ran)
- Minimum confirmed: >10 years after financial exercise ceased (from charge collapse to final hydro-like cadence).
- Plausible higher sure (regional): Multi-decadal operation at extraordinarily low hashrate, the place a single 2016-block epoch spans a long time as a result of adjustment sure.
The solely necessities have been: (a) at the least one surviving energy supply and (b) an intermittent path for some blocks to succeed in the worldwide community.
Summary report
Ultimately, the ledger exhibits when funds stopped, how vitality tapered, how networks frayed, and how lengthy unattended machines stored writing time, sufficient to reconstruct the tip of exercise from headers and coinbase alone.
END OF REPORT
What readers ought to take from this
- Bitcoin behaves like an instrument. Difficulty guidelines and timestamp constraints transduce bodily actuality, energy availability, operator absence, and community partitions right into a sturdy time sequence.
- Physical failure, not worth, ended the write. Dust, clogged screens, tripped breakers, drifting clocks, damaged hyperlinks.
- These forensics apply immediately. Block spacing, charge strain (by way of coinbase delta), timestamp drift, and retarget dynamics are actionable diagnostics for present-day outages and partitions.
Limits
- Longitude bands have been estimable; exact websites weren’t. Latitude was inferred solely coarsely from seasonality power.
- Fully remoted “shadow mining” might have produced blocks that by no means reached the worldwide ledger.
- Without preserved stale-block archives, competition estimates are decrease bounds; some races go away no canonical hint.
- Once synchronized time sources failed, MTP primarily preserved relative ordering, not correct civil time; long-range calendar dates carry further uncertainty even when intraday/seasonal construction is obvious.
- In very low-hashrate regimes dominated by a single surviving operator, timestamps might be marched inside MTP limits, partially masking diurnal signatures; cross-checks with nonce patterns and coinbase tags mitigate however don’t get rid of this.
- Most OP_RETURN payloads weren’t decodable at scale and weren’t interpreted.
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