Safe & secure Lagrange wallet
Take control of your Lagrange assets with complete confidence in the Trezor ecosystem.
- Secured by your hardware wallet
- Use with compatible hot wallets
- Trusted by over 2 million customers

Send & receive your Lagrange with the Trezor Suite app
Send & receive
Swap
Trezor hardware wallets that support Lagrange
Sync your Trezor with wallet apps
Manage your Lagrange with your Trezor hardware wallet synced with several wallet apps.
Trezor Suite
MetaMask
Rabby
Supported Lagrange Network
- Ethereum
Why a hardware wallet?
Go offline with Trezor
- You own 100% of your coins
- Your wallet is 100% safe offline
- Your data is 100% anonymous
- Your coins aren’t tied to any company
Online exchanges
- If an exchange fails, you lose your coins
- Exchanges are targets for hackers
- Your personal data may be exposed
- You don’t truly own your coins
How to LA on Trezor
Connect your Trezor
Install Trezor Suite

Transfer your LA

Make the most of your LA
Trezor keeps your LA secure
- Protected by Secure Element
The best defense against both online and offline threats
- Your tokens, your control
Absolute control of every transaction with on-device confirmation
- Security starts with open-source
Transparent wallet design makes your Trezor better and safer
- Clear & simple wallet backup
Recover access to your digital assets with a new backup standard
- Confidence from day one
Packaging & device security seals protect your Trezor’s integrity
Today, Lagrange has expanded its ZK Prover Network to power proof generation for ZK rollups, adding onto Lagrange’s existing ZK Coprocessor and State Committee offerings. With this new addition, Lagrange now unlocks proofs for anything – for rollups, apps, coprocessors and interoperability – as an infinite proving layer that enables anyone to prove everything at internet scale. Previously, Lagrange launched the first production-ready ZK prover network in the industry, operated by top operators including Coinbase, Kraken, OKX and more. Now, Lagrange’s ZK Prover Network is expanding to address key challenges faced by rollups and advance ZK adoption and utility.
The ZK Coprocessor can generate a proof of correct computation over arbitrary storage slots for arbitrary block ranges. For example, consider an application that wishes to compute the average on Ethereum for ETH / USDC pricing. A developer must first specify the memory slots and block range (~50,400) that they are interested in including in the data set. Next the developer writes the computations that is to be executed across the storage slots over the different blocks in parallel. Once the proof is generated, it will prove both the storage inclusion and the aggregated computation as valid with respect to a block header derived from smart contract information.