Bitcoin Core v30’s OP_RETURN limit increases to 100,000 bytes per output, enabling larger on‑chain data payloads; critics warn this change may permit layer‑1 metaprotocols and raise peer‑to‑peer transaction costs, while proponents say it modernizes data handling without threatening Bitcoin’s monetary integrity.
Change summary: OP_RETURN expanded from ~80 bytes to 100,000 bytes per output, allowing larger data embeds.
Community split: Bitcoin purists warn of “shitcoining” and higher fees; some developers argue the update is a technical improvement.
Network data: Five consecutive blocks mined in ~20 minutes recently highlighted short‑term variance in block intervals.
Bitcoin Core v30 OP_RETURN limit: Understand the 100,000‑byte increase, community reaction, and next steps — read COINOTAG’s report and analysis.
Publication date: 2025-10-14 | Updated: 2025-10-14 | Author: COINOTAG
What is Bitcoin Core v30’s OP_RETURN change?
Bitcoin Core v30 OP_RETURN limit replaces the historical ~80‑byte cap with support for up to 100,000 bytes per OP_RETURN output and allows multiple such outputs per transaction. The change broadens on‑chain data capacity, making it easier to store larger payloads and to build layer‑1 metaprotocols directly on Bitcoin.
How will the OP_RETURN expansion affect fees, use cases, and network behavior?
The expanded OP_RETURN capability reduces per‑byte relay constraints and lowers some relay fees, encouraging developers to embed larger data sets on chain. Critics, including analyst Knut Svanholm, argue this opens Bitcoin to non‑native applications—crowdfunding, staking wrappers, NFTs—potentially increasing transaction sizes and raising fees for peer‑to‑peer transfers. Proponents, such as developer Jimmy Song, counter that technical improvements do not inherently undermine Bitcoin’s monetary properties and that abuse cases exist regardless of protocol features. Reported blockchain observations—five sequential blocks mined within 20 minutes (≈4-minute average interval)—illustrate short‑term variance in block production but do not, on their own, validate long‑term fee trends.
Frequently Asked Questions
Does increasing OP_RETURN to 100,000 bytes let anyone create tokens on Bitcoin layer‑1?
Technically, larger OP_RETURN payloads can be used to record metadata that supports token‑like constructs and metaprotocols. However, such use depends on wallet and indexer support. The protocol change only permits larger data; adoption for token creation requires ecosystem tooling and market demand.
Will this update make my BTC transactions more expensive right away?
Not necessarily. Immediate fee pressure depends on adoption of large OP_RETURN usages. If many users or services begin embedding large data on chain, average transaction sizes could rise and push fees higher. For now, impacts are conditional and observable through on‑chain metrics over time.
Community response and expert quotes
Reactions are divided. Analyst and Bitcoin maximalist Knut Svanholm criticized the change as enabling “shitcoining” and urged users to adopt alternative software such as Bitcoin Knots to preserve a minimalist vision for Bitcoin. Svanholm argued that non‑payment use cases—DeFi, staking, crowdfunding, NFTs—constitute network abuse that can increase costs for ordinary peer‑to‑peer transfers. He said, “The shitcoiners are running out of gullible morons to scam… now they have to find new fools in the Bitcoin space.”
Developer Luke Dashjr expressed strong opposition in technical forums and on social channels, while developer Jimmy Song publicly dismissed the idea that running Core v30 is existentially dangerous to Bitcoin, noting that bad actors will exist regardless of features. These statements reflect an ongoing ideological debate within the developer and user communities.
Official data and context
Protocol-level changes and relay policy adjustments are documented in Bitcoin Core release notes and developer mailing lists (referenced as plain text sources). Historical OP_RETURN limits originated as pragmatic relay restrictions (~80 bytes). The new 100,000‑byte per‑output allowance represents an order‑of‑magnitude increase in permitted on‑chain payloads. On‑chain telemetry—block sizes, transaction counts, and mempool composition—will provide empirical measures of adoption and economic impact over time.
Key Takeaways
- Protocol change: OP_RETURN expanded from ~80 bytes to 100,000 bytes per output, enabling larger on‑chain data.
- Community split: Purists worry about non‑payment use cases and fee pressure; some developers call it a technical modernization.
- Monitor metrics: Watch on‑chain statistics (average tx size, mempool growth, fee rates) and developer/implementation choices for real impact.
Conclusion
The Bitcoin Core v30 OP_RETURN limit adjustment is a factual protocol change with measurable technical consequences: larger allowed on‑chain data and potential for new layer‑1 use cases. The community response ranges from calls for resistance and migration to Bitcoin Knots (as voiced by critics) to assurances that the update is manageable (as voiced by proponents). Stakeholders should track on‑chain metrics and client adoption closely. For continuing coverage and analysis, check COINOTAG updates and official Bitcoin Core release notes (plain text references).