What does quantum-ready mean?
What does quantum-ready mean? A quantum-ready device is built to run the upgrades of the future. In this article, we’ll tell you about the quantum threat, the solution, and how we plan to implement it over time.
What is the quantum threat?
The quantum threat is the risk that quantum computers could break the encryption behind public/private key pairs, which is the the foundation of blockchain security.
Cryptocurrencies - and much of today’s digital world - depend on encryption that current computers cannot break. Quantum computers, however, may be the first machines capable of doing so.
For more information, see Public & private keys explained.
Quantum computers could theoretically use public blockchain data to derive private keys in certain cases, bypassing wallet backups.
Theoretically, anyone with a sufficiently powerful quantum computer could use it to access funds stored on vulnerable addresses, making the move to post-quantum cryptography essential for the future of self-custody.
Unlike normal computers, which process data using bits, quantum computers use qubits - entities that can represent many possibilities at once. When measured, a qubit collapses to a single outcome, but before then, every qubit holds a vast spectrum of probabilities, not just 0 or 1.
Each added qubit (in an ideal system) multiplies a quantum computer’s capacity exponentially. At 300 qubits, the possible states already (theoretically) outnumbers the number of atoms in the observable universe.
The number of theoretical logical qubits needed to break a 256-bit elliptic curve like Bitcoin’s secp256k1 are on the order of a few thousand, but the real number of physical qubits required (with error correction) could be hundreds of thousands to many millions, depending on hardware and error rates.
The main concern is that quantum computers could one day factor large numbers and solve elliptic curve problems efficiently - the foundations of cryptography and Bitcoin.
Quantum computers excel only at certain tasks. They are not necessarily faster than regular computers in daily use, but have the to act as "accelerators" for the kinds of mathematics that modern encryption relies on.
What is quantum-ready?
A 'quantum ready' device is a device which will be able to run post-quantum cryptographic updates. The world will need to migrate to post-quantum cryptography, a shift resembling the move from analog to digital, but with a lot more nuance.
Given that cryptography underpins so much of modern life, this shift will apply far beyond cryptocurrency, from financial systems to the entire internet.
In order to run these updates, a device will need to be quantum-ready on the hardware level, because this can’t be changed after leaving the factory.
Quantum-ready means that your hardware is ready to upgrade when the time comes.
Post-quantum algorithms
Trezor Safe 7’s boardloader uses the SLH-DSA-128 standard because it provides a practical balance of speed, performance, and memory for a component that cannot be changed once the device leaves the factory.
For a detailed explanation, please read Going Quantum.
Can the Trezor Safe 7 support every post-quantum algorithm?
Trezor Safe 7 is designed to be flexible and can support many algorithms, but this is not a guarantee that it will be able to support highly resource-intensive future standards.
The future of quantum computing is unknown, and no solution can be guaranteed today. What Trezor Safe 7 represents is the first step in the industry towards fighting the quantum threat.
Trezor Safe 7 uses one of the strongest chips in the industry. If an algorithm is heavy enough to cause problems, it will be a problem for every hardware wallet, not just Trezor. Learn more in our Dual Secure Elements in Trezor Safe 7 article.
Navigating a post-quantum future
Self-custody will meet its hardest challenge in the quantum era. With this step, we introduce quantum-readiness to hardware wallets so that self-custody, privacy, and freedom do not end when quantum computers arrive.
The advance of quantum computing is slow, but inevitable. Work like BIP-360 shows how protocols may adapt, but adoption will take time and requires preparation well in advance, especially at the hardware level.
Without quantum-ready hardware wallets, migration to post-quantum cryptography would force users to keep their keys on general-purpose computers, opening an entirely new set of attack vectors.
Trezor Safe 7 gives you the tools to act when post-quantum upgrades arrive, while keeping your wallet backup offline and in your control.