Cryptof (🪙,🕸)

The collateral mechanics on @Pact_Swap deserve a closer look because they're the core security guarantee of the entire system. There are no bridge validators to trust, no multisig to compromise — just overcollateralized $CWEB enforced by @CoinwebOfficial's PACT framework. How the collateral enforcement actually works: - Market makers deposit $CWEB into swap vaults, typically at 2x or more the value of the trades they're facilitating - When a swap is initiated, a PACT is created — a cross-chain state machine with sentinels watching each involved chain - If the market maker delivers the agreed asset, the collateral is released back to them - If they fail to deliver, the Penalty Adjudicator seizes the collateral and compensates the user automatically - The front-end filters out undercollateralized vaults so users never interact with insufficiently backed orders No human arbitration. No governance vote. Pure contract logic. $CWEB $PACT

Putting @CoinwebOfficial and @Pact_Swap together in one picture: Coinweb provides the cross-chain computation layer, PACT is the enforcement framework, Pact Swap is the flagship DEX, $CWEB is the asset that powers all three, and $PACT is the protocol token that governs and captures fees. The full stack: - Coinweb L2 — reads and writes state across Bitcoin, Ethereum, BNB Chain, Litecoin, TRON, Dogecoin, Polygon (Solana and Base incoming) - Reactive smart contracts — run continuously across chains in a WASM execution environment, monitoring events and enforcing outcomes - PACT framework — Penalty Adjudication for Cross-chain Transactions, using Chain Transaction Sentinels and a Penalty Adjudicator to settle swaps - $CWEB — gas, fee currency, LP collateral, and treasury reserve asset - $PACT — governance, fee pool redemption via burn, permissionless listing access, and fee discounts for stakers Seven chains live. Native assets only. No bridges.

@CoinwebOfficial isn't another L1 competing for validators and block space. It's a computational layer that sits on top of existing blockchains, reading their state and executing cross-chain logic without requiring its own consensus mechanism. $CWEB is the gas token for this entire layer. How Coinweb's architecture works: - Coinweb nodes receive information from connected L1s (Bitcoin, Ethereum, etc.) through a shard pipeline - That data feeds into a shuffler where L2 blocks are generated - Smart contracts execute in a WASM-based virtual machine, making them chain-agnostic - Gas fee abstraction means users don't need to hold separate gas tokens for each chain — $CWEB covers execution costs across all connected networks @Pact_Swap is the first major application built on this infrastructure, but the architecture is designed for any dApp that needs cross-chain computation. $CWEB

The $PACT token does more than just claim treasury fees. According to @Pact_Swap's design, it has three distinct functions inside the protocol. The full $PACT utility breakdown: - Fee pool access — holders burn $PACT to redeem a proportional share of the $CWEB treasury, which accumulates 0.1% of every swap - Permissionless listings — projects that want to list new token pairs or become platform affiliates need to stake or use $PACT, creating structural demand from builders entering the ecosystem - Governance — $PACT stakers get voting rights over protocol decisions including fee parameters, new chain integrations, and ecosystem grant allocations - Fee discounts — stakers access reduced protocol fees, incentivizing long-term holding over passive speculation Built on @CoinwebOfficial infrastructure. Every function ties back to $CWEB as the underlying settlement asset. $CWEB $PACT

Thrilled to welcome @AntonCoinweb, the Chief Marketing Officer of @CoinwebOfficial & Contributor to @Pact_Swap, to the Litecoin Summit this year! Join us, June 22-23, 2026 at the Tobacco Theater in Amsterdam to kick off Dutch Blockchain Week! 🇳🇱 ⏩ litecoin.com/summit ⏪

The $PACT token does more than just claim treasury fees. According to @Pact_Swap's design, it has three distinct functions inside the protocol. The full $PACT utility breakdown: - Fee pool access — holders burn $PACT to redeem a proportional share of the $CWEB treasury, which accumulates 0.1% of every swap - Permissionless listings — projects that want to list new token pairs or become platform affiliates need to stake or use $PACT, creating structural demand from builders entering the ecosystem - Governance — $PACT stakers get voting rights over protocol decisions including fee parameters, new chain integrations, and ecosystem grant allocations - Fee discounts — stakers access reduced protocol fees, incentivizing long-term holding over passive speculation Built on @CoinwebOfficial infrastructure. Every function ties back to $CWEB as the underlying settlement asset. $CWEB $PACT

Seven chains live today on @Pact_Swap: #Bitcoin, #Ethereum, $BNB Chain, #Litecoin, #TRON, #Dogecoin, and #Polygon. #Solana and #Base are confirmed as upcoming additions. The long-term goal is to support every major chain. What each chain integration actually requires under the hood: • @CoinwebOfficial deploys Chain Transaction Sentinels — reactive smart contracts that observe and report state from each connected L1 • The Penalty Adjudicator contract coordinates between sentinels to enforce swap outcomes • $CWEB collateral backing is required for every trading pair on every chain • Each new chain addition expands the number of native asset pairs available without introducing any bridge dependency More chains means more pairs, more volume, more $CWEB fees flowing into the protocol treasury, and more collateral locked. $CWEB $PACT

@CoinwebOfficial's reactive smart contracts are fundamentally different from standard smart contracts on EVM chains. Normal smart contracts execute once when called and then stop. Coinweb's reactive contracts run continuously, monitoring events across multiple blockchains indefinitely. Why this matters for @Pact_Swap: - A reactive contract can watch a Bitcoin address for a deposit, then trigger an Ethereum payout — all autonomously - The contracts maintain their own gas balance in $CWEB and keep themselves active by sending a transaction to themselves every block - They can execute across UTXO chains (Bitcoin, Litecoin, Dogecoin) and account-based chains (Ethereum, BNB, TRON, Polygon) simultaneously - If a connected L1 undergoes a chain reorganization, Coinweb's state automatically unwinds and recomputes This is the infrastructure layer that makes bridgeless cross-chain trading possible. $CWEB

@CoinwebOfficial's reactive smart contracts are fundamentally different from standard smart contracts on EVM chains. Normal smart contracts execute once when called and then stop. Coinweb's reactive contracts run continuously, monitoring events across multiple blockchains indefinitely. Why this matters for @Pact_Swap: - A reactive contract can watch a Bitcoin address for a deposit, then trigger an Ethereum payout — all autonomously - The contracts maintain their own gas balance in $CWEB and keep themselves active by sending a transaction to themselves every block - They can execute across UTXO chains (Bitcoin, Litecoin, Dogecoin) and account-based chains (Ethereum, BNB, TRON, Polygon) simultaneously - If a connected L1 undergoes a chain reorganization, Coinweb's state automatically unwinds and recomputes This is the infrastructure layer that makes bridgeless cross-chain trading possible. $CWEB