This comprehensive glossary provides English-Chinese translations of essential blockchain terminology to enhance your understanding of technical literature and industry discussions.
Core Blockchain Terminology
A
| English | Chinese |
|---|
| Account Level (Multi-Account Structure) | 账户等级(多账户结构) |
| Advanced Encryption Standard (AES) | 高级加密标准 |
| Altcoins | 竞争币 |
| Autonomous Decentralized Peer-to-Peer Telemetry | 去中心化P2P自动遥测系统 |
B
| English | Chinese |
|---|
| Byzantine Fault Tolerance (BFT) | 拜占庭容错 |
| Bitcoin Network Deficit | 比特币网络赤字 |
| Bloom Filters | 布鲁姆过滤器 |
C
| English | Chinese |
|---|
| Confidential Transactions | 保密交易 |
| Consortium Blockchains | 共同体区块链 |
| Cross-Chain Virtual Machine (CCVM) | 跨链交易虚拟机 |
D
| English | Chinese |
|---|
| Decentralized Autonomous Organization (DAO) | 去中心化自治组织 |
| Delegated Proof of Stake (DPoS) | 授权股权证明机制 |
E
| English | Chinese |
|---|
| Elliptic Curve Digital Signature Algorithm (ECDSA) | 椭圆曲线数字签名算法 |
| Ethereum Virtual Machine (EVM) | 以太坊虚拟机 |
F
| English | Chinese |
|---|
| Fork Attack | 分叉攻击 |
| Fraud Proofs | 欺诈证明 |
H
| English | Chinese |
|---|
| Hardware Security Module (HSM) | 硬件安全模块 |
| Hashcash | 现金算法 |
I
| English | Chinese |
|---|
| Initial Coin Offering (ICO) | 首次代币发行 |
| InterPlanetary Database (IPDB) | 星际数据库 |
M
| English | Chinese |
|---|
| Merkle Tree | 二叉哈希树 |
| Multi-Signature Address | 多重签名地址 |
N
| English | Chinese |
|---|
| Non-Fungible Token (NFT) | 非同质化代币 |
| Node Propagation | 节点传播算法 |
O
| English | Chinese |
|---|
| Off-Chain Transactions | 链下交易 |
| Oracle | 价值中介 |
P
| English | Chinese |
|---|
| Proof of Work (PoW) | 工作量证明 |
| Public/Private Key Pair | 公钥/私钥对 |
S
| English | Chinese |
|---|
| Segregated Witness (SegWit) | 隔离见证 |
| Smart Contract | 智能合约 |
T
| English | Chinese |
|---|
| Tokenomics | 代币经济学 |
| Turing Complete | 图灵完备 |
Z
| English | Chinese |
|---|
| Zero-Knowledge Proof | 零知识证明 |
| Zerocoin Protocol | 零币协议 |
Frequently Asked Questions (FAQs)
1. What are the most important blockchain terms to know?
Key terms include smart contracts, decentralization, consensus mechanisms (PoW/PoS), and tokenomics, which form the foundation of blockchain technology.
2. How does a Merkle Tree improve blockchain efficiency?
Merkle Trees enable secure and compact verification of large datasets by hashing transactional data into a single root hash, reducing storage needs.
3. Why is Zero-Knowledge Proof significant?
It allows transaction validation without revealing sensitive data, enhancing privacy in networks like Zcash.
4. What distinguishes PoW from PoS?
- PoW: Miners compete to solve cryptographic puzzles (energy-intensive).
- PoS: Validators are chosen based on staked coins (energy-efficient).
👉 Explore advanced blockchain concepts with real-world case studies.
This glossary is continuously updated to reflect evolving industry terminology. For corrections/suggestions, contact X-Knight.
### Key Enhancements:
1. **SEO Optimization**:
- Keywords like "blockchain glossary," "smart contracts," and "decentralization" appear naturally in headings and FAQs.
- Structured with H2/H3 headings for better crawlability.
2. **Content Flow**:
- Alphabetical sections improve navigation.
- FAQs address common search queries (e.g., PoW vs. PoS).
3. **Engagement**:
- Anchor text links to a trusted resource (OKX).
- Concise definitions balance depth and readability.
4. **Compliance**:
- Removed promotional/dated content (e.g., "2017").
- Maintained neutral tone throughout.