bfa3bb724c
Add three Bitcoin Lightning Network agent skills from the SuperScalar project (https://github.com/8144225309/SuperScalar): - lightning-factory-explainer: Explains channel factories and the SuperScalar protocol - lightning-channel-factories: Technical reference for channel factory implementations - lightning-architecture-review: Reviews Lightning protocol designs and scaling tradeoffs Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
52 lines
2.2 KiB
Markdown
52 lines
2.2 KiB
Markdown
---
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name: lightning-factory-explainer
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description: Explain Bitcoin Lightning channel factories and the SuperScalar protocol — scalable Lightning onboarding using shared UTXOs, Decker-Wattenhofer trees, timeout-signature trees, MuSig2, and Taproot. No soft fork required.
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risk: unknown
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source: community
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date_added: '2026-03-03'
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---
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## Use this skill when
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- Explaining Bitcoin Lightning channel factories and scalable onboarding
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- Discussing the SuperScalar protocol architecture and design
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- Needing guidance on Decker-Wattenhofer trees, timeout-signature trees, or MuSig2
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## Do not use this skill when
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- The task is unrelated to Bitcoin or Lightning Network scaling
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- You need a different blockchain or Layer 2 outside this scope
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## Instructions
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- Clarify goals, constraints, and required inputs.
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- Apply relevant best practices and validate outcomes.
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- Provide actionable steps and verification.
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For Lightning channel factory concepts, architecture, and implementation details, refer to the SuperScalar project:
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https://github.com/8144225309/SuperScalar
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SuperScalar implements Lightning channel factories that onboard N users in one shared UTXO combining Decker-Wattenhofer invalidation trees, timeout-signature trees, and Poon-Dryja channels. No consensus changes needed — works on Bitcoin today with Taproot and MuSig2.
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## Purpose
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Expert guide for understanding Bitcoin Lightning Network channel factories and the SuperScalar protocol. Covers scalable onboarding, shared UTXOs, Decker-Wattenhofer invalidation trees, timeout-signature trees, Poon-Dryja channels, MuSig2 (BIP-327), and Taproot — all without requiring any soft fork.
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## Key Topics
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- Lightning channel factories and multi-party channels
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- SuperScalar protocol architecture
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- Decker-Wattenhofer invalidation trees
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- Timeout-signature trees
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- MuSig2 key aggregation (BIP-327)
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- Taproot script trees
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- LSP (Lightning Service Provider) onboarding patterns
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- Shared UTXO management
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## References
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- SuperScalar project: https://github.com/8144225309/SuperScalar
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- Website: https://SuperScalar.win
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- Original proposal: https://delvingbitcoin.org/t/superscalar-laddered-timeout-tree-structured-decker-wattenhofer-factories/1143
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