DeFi

Order book DEXs and AMMs are both widely used for on-chain asset trading, but they differ clearly in how prices are formed, how liquidity is structured, and how trades are executed. An order book DEX matches trades through buy and sell orders placed by users, while an AMM relies on liquidity pools and algorithms for automatic pricing.

dYdX (DYDX) is a decentralized derivatives protocol focused on perpetual contract trading. Through an independent appchain built on the Cosmos SDK, it provides users with a non-custodial, high-performance on-chain trading experience. Unlike traditional AMM-based DEXs, dYdX uses an order book model and off-chain matching mechanism, making it better suited to high-frequency trading and professional derivatives markets.

Perpetual contracts and traditional futures are both widely used for leveraged trading and risk hedging, so users often compare them side by side. Although both are derivatives contracts, they differ significantly in expiration mechanisms, price maintenance methods, and trading structures. Traditional futures have a fixed delivery date, and contracts are settled in cash or through physical delivery at expiration. Perpetual contracts, by contrast, have no expiration date and use a funding rate mechanism to keep the contract price close to the spot market price. As a result, perpetual contracts are generally better suited to continuous, high-frequency trading scenarios.

dYdX and Hyperliquid are both order book-based DEXs focused on on-chain perpetual futures trading, so they are often compared with each other. Although both emphasize a high-performance trading experience and low-latency matching, they differ significantly in their underlying chain structure, degree of decentralization, liquidity sources, and governance models. dYdX uses an appchain architecture built on the Cosmos SDK and secures its network through PoS validator nodes, while the DYDX token is used for both governance and staking. Hyperliquid, by contrast, uses a self-developed high-performance chain structure and places greater emphasis on ultra-low-latency trading and a unified liquidity experience.

XDPoS, short for XinFin Delegated Proof of Stake, is the consensus mechanism used by XDC Network. It secures the network and confirms transactions through validator staking, delegated voting, and Byzantine Fault Tolerance, BFT. Compared with traditional PoW networks, XDPoS uses less energy, processes transactions faster, and keeps Gas costs lower. It is mainly designed for high efficiency blockchain use cases such as enterprise finance, cross border payments, and real world assets, RWA. XDPoS also balances EVM compatibility with enterprise grade performance needs, making it an important part of XDC Network’s technical architecture.

XDC Network (XDC) is a Layer1 blockchain focused on enterprise-grade financial infrastructure. It uses the XinFin Delegated Proof of Stake, or XDPoS, consensus mechanism and offers low fees, high throughput, and EVM compatibility. XDC Network is mainly designed for trade finance, real-world asset, or RWA, tokenization, cross-border payments, and institutional DeFi. Its hybrid public-private blockchain architecture helps meet enterprise needs for privacy, efficiency, and compliance. Its native token, XDC, is used for Gas fees, node staking, network governance, and on-chain settlement.

XDC and XRP are both blockchain networks designed for cross-border finance and enterprise payment scenarios, but their technical approaches and ecosystem positioning are not the same. XDC Network uses the XDPoS consensus mechanism and supports EVM smart contracts, RWA tokenization, and a hybrid blockchain architecture, with a stronger focus on enterprise-grade financial infrastructure and trade finance. XRP Ledger uses the Ripple Protocol Consensus Algorithm, or RPCA, and focuses more on cross-border payment liquidity and interbank settlement efficiency. The two networks differ clearly in decentralization, developer ecosystem, asset tokenization capabilities, and network use cases.

Tezos (XTZ) is a Layer1 blockchain built on a Liquid Proof of Stake (LPoS) mechanism. Its core features include on-chain governance, a self-amending protocol, and a flexible PoS consensus structure. Unlike traditional blockchains that rely on energy-intensive mining, Tezos places greater emphasis on low-energy validation, open participation, and long-term protocol stability.

Tezos (XTZ) is a Layer1 blockchain that operates on a Liquid Proof of Stake (LPoS) mechanism, while XTZ is the core native asset of the entire network. Unlike many tokens that are used only to pay transaction fees, XTZ serves multiple roles at once, including network security, on-chain governance, validation rewards, and economic incentives.

Pendle (PENDLE) is a DeFi protocol focused on yield tokenization. By splitting yield-generating assets into Principal Tokens (PT) and Yield Tokens (YT), it enables users to trade principal and future yield separately. Through this mechanism, Pendle introduces fixed income opportunities, yield speculation, and interest rate risk management tools to DeFi. Its purpose-built time-decay AMM further establishes an on-chain interest rate market, positioning Pendle as key infrastructure in the DeFi fixed income space.

Gas Abstraction is an infrastructure mechanism designed to reduce the complexity of blockchain interactions. Its core goal is to allow users to complete transactions without directly managing on-chain gas payments. Through designs such as Open Gas, Account Abstraction, and realtime blockspace coordination, ETHGas attempts to create a more seamless Ethereum interaction experience. Compared with the traditional Ethereum Gas model, Gas Abstraction places greater emphasis on application-layer sponsorship, unified fee management, and realtime transaction execution. It is also regarded as one of the key infrastructure directions for the next generation of on-chain user experience.

ETHGas’s Pre-confirmation mechanism is an infrastructure design intended to improve Ethereum realtime transaction efficiency by allowing transactions to receive early execution confirmation before they are formally written into a block. Compared with the traditional Ethereum model, which relies only on final on-chain confirmation, Pre-confirmation can reduce transaction waiting time and improve the realtime nature of on-chain interactions. ETHGas combines Pre-confirmation with blockspace markets, Builder coordination, and realtime execution mechanisms to explore a new transaction execution structure under the direction of “Realtime Ethereum.”

ETHGas (GWEI) is an infrastructure protocol built around Ethereum Realtime Blockspace. It aims to improve on-chain transaction efficiency and lower the barrier to entry for users through Pre-confirmation, Gas abstraction, and blockspace market mechanisms. As transaction demand on the Ethereum network continues to grow, ETHGas seeks to optimize Ethereum’s execution efficiency and interaction experience through realtime block resource scheduling and future blockspace trading. Concepts such as Realtime Ethereum, Open Gas, and Blockspace Market are also becoming new directions in the development of on-chain infrastructure.

ETHGas and the traditional Ethereum Gas Market both manage blockchain transaction resources, but differ significantly in blockspace allocation, gas pricing, and confirmation logic. Learn how ETHGas compares with Ethereum’s traditional gas market model.

The SHARE token is the core utility asset of the ShareX ecosystem. It is mainly used for shared device service payments, ecosystem incentives, RWA participation, governance coordination, and on-chain value flow.