Parallax Protocol

Ipinapaliwanag ng section na ito ang base rules ng Parallax protocol — cryptographic primitives, deterministic execution, proof-of-work (XHash), at ang consensus logic na nagde-define ng canonical history.

Layunin ng section na ito
Pinagsasama ng Parallax ang ossified monetary discipline ng Bitcoin sa Ethereum-style na programmability. Detalyado ng mga dokumentong ito kung paano pinapanatili ng Parallax ang fixed supply at predictable issuance habang ipinapatupad ang deterministic execution at open, work-based consensus.
  • Cryptographic Soundness: Inaauthorize ang transactions at state transitions gamit ang ECDSA (secp256k1).
  • Deterministic Execution: Sinasalamin ng PVM ang EVM semantics sa ilalim ng Bitcoin-like na constraints.
  • Proof-of-Work as Time: Ginagawa ng XHash ang computation bilang verifiable ordering ng events.
  • Consensus through Work: Ang canonical history ay ang valid chain na may pinakamalaking cumulative work.

Ang mga page na ito ay para sa developers, miners, at researchers na naghahanap ng tumpak na pag-unawa sa Parallax sa protocol layer.

Protocol Architecture
Paano pinagsasama ng Parallax ang cryptography, deterministic computation, proof-of-work timekeeping, at Nakamoto consensus sa magkakaugnay na protocol stack.
Magbasa pa
Block Reward at Halving
Bitcoin-like na issuance: 50 → 25 → 12.5 … kada 210,000 blocks, asymptotically lumalapit sa 21M na may malinaw na visuals at parameters.
Magbasa pa
Coinbase Maturity Scheduling
Paano nakaescrow on-chain ang miner subsidies at nire-release sa fixed maturity height sa pamamagitan ng lockbox state mechanism.
Magbasa pa
Difficulty Algorithm at Fork-choice
Epoch-anchored difficulty retargeting at cumulative-work fork selection, kasama ang Median-Time-Past checks at epoch anchors.
Magbasa pa
XHash (Proof-of-Work)
Memory-hard PoW ng Parallax na base sa Ethash-style Hashimoto na may Parallax-specific seal hash, target mapping, at epoch/DAG handling.
Magbasa pa
I-explore ang Technical Documentation