SOLAREUM
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  • ๐Ÿ‘‹Solareum - Layer 1 Whitepaper
  • Solareum (SRM)
    • ๐Ÿ“ƒExecutive Summary
    • ๐Ÿ”ฅSolareumโ€™s Solution
    • โญSolareumโ€™s Value Proposition
    • ๐Ÿ’ซFinal Thoughts
  • About Solareum
    • ๐Ÿ‘ฉโ€๐ŸซWhat is SolareumChain?
    • โž—Mathematical Analysis of Validators
  • Solareum Proof of Generation
    • ๐ŸงŠSolareum Proof of Generation
    • ๐Ÿ›ก๏ธThe BLS12-381 Elliptic Curve for zk-SNARK Proofs
      • FPGA Hardware
  • BLS Key Generation Signature Scheme Security
    • โ™ป๏ธBLS Key Generation
      • Extract
      • Expand
      • IKM to lamport SK
      • parent SK to lamport PK
      • HKDF mod r
      • derive child SK
      • derive master SK
    • ๐Ÿ’ฑPost-quantum security backup upgrade
  • SolareumChain Algorithmic Security
    • ๐Ÿ”SolareumChain Algorithmic Security
    • ๐Ÿ”ฎBLS signature aggregation and Multisig security
      • BLS Signature Aggregation
      • Multisig Security
      • BLS signature aggregation definitions
    • ๐ŸซProving security definition references
      • Gedankenexperiment Setup
      • Gedankenexperiment Signature queries
      • Gedankenexperiment Forgery
      • Security and co-CDH Assumption
    • โœณ๏ธAdversaries and message query theorems
    • ๐Ÿ’ Multi-Input Transactions and Transaction Validation Caching
      • SolareumChain Multi-Input Transactions
      • SolareumChain Transaction Validation Caching
  • SolareumChain ReFi Implementation
    • ๐Ÿ’ฅProof of Hold (PoH)
    • ๐Ÿง‡SolareumChain Inherited NFT Multipliers
  • SolareumChain Architecture and PoG Math
    • โ›“๏ธSolareumChain Architecture and PoG Math
    • ๐Ÿ’ฃSocietal Impact of Blockchain Technology
    • ๐Ÿ’กEnergy Generation Analysis and Correlation
    • ๐Ÿ”‹Energy Correlation Assurance Functions
    • ๐Ÿงฉzk-SNARK Validation
      • Case Study I: Proof of Hold and no Proof of Generation
      • Case Study II: No Proof of Hold and Proof of Generation
      • Case Study III: Proof of Hold and Proof of Generation
    • ๐ŸŽดSolareumChain Address Generation
    • ๐ŸŽฑSolareumChain Genesis Architecture
    • ๐ŸฑDistributed Ledger Technology Energy Sustainability
    • ๐ŸŒ‰SolareumChain Bridge
    • โšกSufficiency of Sub 128-bit Security for Pairing-Friendly Curves on SolareumChain
  • Other iNfo
    • ๐Ÿ“Conclusion
  • Community
    • ๐ŸŒWebsite
    • ๐ŸŒ Telegram
    • โœ–๏ธTwitter
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  1. BLS Key Generation Signature Scheme Security

Post-quantum security backup upgrade

SolareumChain is committed to adhering to a robust security strategy, drawing inspiration from the successful implementation of ERC-2333, specifically focusing on BLS12-381 Key Generation (https://eips.ethereum.org/EIPS/eip-2333). Weโ€™ve integrated a cutting-edge approach that involves the use of a Lamport key pair within our key derivation process. This step serves as a crucial intermediate layer, strategically positioned to address potential security concerns in the post-quantum era.

In the event that BLS12-381 becomes vulnerable to the advancements in quantum computing, SolareumChain has proactively designed a seamless transition plan. Our system is primed to swiftly pivot to a new signature scheme, such as Falcon signatures, or adapt to any guidelines established by the National Institute of Standards and Technology (NIST) regarding post-quantum security standards. This ensures that your data remains safeguarded even in the face of rapidly evolving threats in the quantum realm. Trust in SolareumChain to keep your digital assets secure and future-proof.

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Last updated 1 year ago

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