-
Notifications
You must be signed in to change notification settings - Fork 385
Halving Fallacy
Bitcoin consensus-rules produce a predictable rate of monetary inflation. This rate is reduced periodically at a point called the halving. There are several step functions in Bitcoin. The halving occurs every 210,000 strong blocks, the difficulty adjustment every 2,016 strong blocks and chain organization approximately every 10 minutes. The numeric values that control these intervals are arbitrary yet the discontinuity is necessary due to the discrete intervals required for proof of work. There is a theory that the halving creates a financial cliff for miners that may lead to a perpetual stall. The theory is based on the confluence of two step functions (halving and difficulty), causing the period of another (organization) to expand dramatically due to coincident reduction in miner profits.
The theory assumes that the difficulty adjustment resets average miner financial profit to zero, allowing only the top half of miners (by profitability) to survive, eventually reducing mining to just a few miners. In other words the difficulty adjustment is considered a positive pooling pressure. However there is no reason to believe that the adjustment reduces any miner's profit to zero. The consequence of the assumption is not that there will be few miners, but that there will be none, due to the difficulty adjustment alone. The adjustment actually does nothing to regulate miner profits, it controls only the organization period. With no adjustment, profit would be unaffected while the organization period and therefore variance would respond to total hash rate. Time preference, which dictates market return on capital, regulates miner profits just as it does in every market.
Consider the case of no price change. In this case there is no reason to expect a change in total hash rate, no adjustments to difficulty, and we can conclude that the average mine generates the market return on capital. In other words any number of independent miners can compete indefinitely (absent actual pooling pressures).
Consider also that price changes, difficulty adjustments, and reward fluctuations all effect miner profitability in the same manner. A difficulty adjustment and/or halving is therefore no more important to a miner than a comparable price fluctuation, and exhibits greater predictability.
The theory also contemplates that reward may be insufficient to compensate miners for difficulty immediately following a halving. As such they may opt to reduce hash rate, extending confirmation times until fees rise, price rises and/or difficulty adjusts downward. Yet fees and price are determined in a market and can certainly rise to any level that people are willing to pay.
There is no way to know what levels the market will support, but price continues to have a much greater impact than halvings.The two largest halvings have passed with no disruption. Given that subsequent halvings will produce the equivalent of an exponentially lesser price reduction, there is no reason to believe future events will be any more interesting than past.
Users | Developers | License | Copyright © 2011-2024 libbitcoin developers
- Home
- manifesto
- libbitcoin.info
- Libbitcoin Institute
- Freenode (IRC)
- Mailing List
- Slack Channel
- Build Libbitcoin
- Comprehensive Overview
- Developer Documentation
- Tutorials (aaronjaramillo)
- Bitcoin Unraveled
-
Cryptoeconomics
- Foreword by Amir Taaki
- Value Proposition
- Axiom of Resistance
- Money Taxonomy
- Pure Bank
- Production and Consumption
- Labor and Leisure
- Custodial Risk Principle
- Dedicated Cost Principle
- Depreciation Principle
- Expression Principle
- Inflation Principle
- Other Means Principle
- Patent Resistance Principle
- Risk Sharing Principle
- Reservation Principle
- Scalability Principle
- Subjective Inflation Principle
- Consolidation Principle
- Fragmentation Principle
- Permissionless Principle
- Public Data Principle
- Social Network Principle
- State Banking Principle
- Substitution Principle
- Cryptodynamic Principles
- Censorship Resistance Property
- Consensus Property
- Stability Property
- Utility Threshold Property
- Zero Sum Property
- Threat Level Paradox
- Miner Business Model
- Qualitative Security Model
- Proximity Premium Flaw
- Variance Discount Flaw
- Centralization Risk
- Pooling Pressure Risk
- ASIC Monopoly Fallacy
- Auditability Fallacy
- Balance of Power Fallacy
- Blockchain Fallacy
- Byproduct Mining Fallacy
- Causation Fallacy
- Cockroach Fallacy
- Credit Expansion Fallacy
- Debt Loop Fallacy
- Decoupled Mining Fallacy
- Dumping Fallacy
- Empty Block Fallacy
- Energy Exhaustion Fallacy
- Energy Store Fallacy
- Energy Waste Fallacy
- Fee Recovery Fallacy
- Genetic Purity Fallacy
- Full Reserve Fallacy
- Halving Fallacy
- Hoarding Fallacy
- Hybrid Mining Fallacy
- Ideal Money Fallacy
- Impotent Mining Fallacy
- Inflation Fallacy
- Inflationary Quality Fallacy
- Jurisdictional Arbitrage Fallacy
- Lunar Fallacy
- Network Effect Fallacy
- Prisoner's Dilemma Fallacy
- Private Key Fallacy
- Proof of Cost Fallacy
- Proof of Memory Façade
- Proof of Stake Fallacy
- Proof of Work Fallacy
- Regression Fallacy
- Relay Fallacy
- Replay Protection Fallacy
- Reserve Currency Fallacy
- Risk Free Return Fallacy
- Scarcity Fallacy
- Selfish Mining Fallacy
- Side Fee Fallacy
- Split Credit Expansion Fallacy
- Stock to Flow Fallacy
- Thin Air Fallacy
- Time Preference Fallacy
- Unlendable Money Fallacy
- Fedcoin Objectives
- Hearn Error
- Collectible Tautology
- Price Estimation
- Savings Relation
- Speculative Consumption
- Spam Misnomer
- Efficiency Paradox
- Split Speculator Dilemma
- Bitcoin Labels
- Brand Arrogation
- Reserve Definition
- Maximalism Definition
- Shitcoin Definition
- Glossary
- Console Applications
- Development Libraries
- Maintainer Information
- Miscellaneous Articles