Futures
Access hundreds of perpetual contracts
TradFi
Gold
One platform for global traditional assets
Options
Hot
Trade European-style vanilla options
Unified Account
Maximize your capital efficiency
Demo Trading
Introduction to Futures Trading
Learn the basics of futures trading
Futures Events
Join events to earn rewards
Demo Trading
Use virtual funds to practice risk-free trading
Launch
CandyDrop
Collect candies to earn airdrops
Launchpool
Quick staking, earn potential new tokens
HODLer Airdrop
Hold GT and get massive airdrops for free
Launchpad
Be early to the next big token project
Alpha Points
Trade on-chain assets and earn airdrops
Futures Points
Earn futures points and claim airdrop rewards
More
What is TXID? A Complete Guide to Transaction ID in Blockchain
When you send or receive cryptocurrency, your transaction gets a unique identifier — TXID (Transaction ID). It’s an alphanumeric code that serves as a digital fingerprint for each transaction on the blockchain. TXID is not just a random string of characters — it’s a cryptographically generated marker that allows you to track, verify, and document every asset transfer.
Despite its complex appearance, each letter and number in the transaction ID tells a story about the security and authenticity of your transaction. Understanding what TXID is and how to use it is a critical skill for anyone working with cryptocurrencies.
How a Transaction ID Works: From Operation to Unique Code
When you make a transaction on the blockchain, the system goes through several steps. First, the operation is transmitted to network participants — often called miners (in Proof of Work systems) or validators (in Proof of Stake). These participants verify the legitimacy of your transaction and ensure you have enough assets to transfer.
After successful verification, the system applies cryptographic hashing algorithms to create a unique TXID. Two main algorithms are used in different blockchains:
SHA-256 — a cryptographic hash function that transforms your transaction data (inputs, outputs, timestamp) into a fixed 64-character alphanumeric string. This algorithm is the foundation of Bitcoin’s security.
RIPEMD-160 — a less common hashing function that generates a 160-bit hash. It is often used in cryptocurrency applications to create shorter addresses and enhance security when generating public keys.
Every piece of important information in your transaction — sender’s address, recipient’s address, amount, time, fee — influences the hash result. Even changing one character will alter the entire TXID. This means that TXID is a guarantee that the transaction has not been tampered with or altered after recording.
Classic Examples of Transaction IDs in Cryptocurrency History
Bitcoin’s history is preserved thanks to the transparency of TXIDs. Let’s look at three of the most famous transactions:
The first transaction between Satoshi Nakamoto and Hal Finney (2010)
The first historical transfer of Bitcoin has a TXID: