QANplatform (@QANplatform) / X

QANplatform

1,370 posts

QANplatform

@QANplatform

Quantum-resistant Layer 1 hybrid #blockchain platform. 👨‍💻Code smart contracts in any language. 🆕 QAN TestNet is LIVE! #QANplatform

linktr.ee/QANplatform

Joined July 2019

QANplatform
@QANplatform
10h
9 minutes. That is the estimated time a primed fast-clock quantum computer could take to solve ECDLP, the Elliptic Curve Discrete Logarithm Problem, the core mathematical problem behind the signature schemes that secure Bitcoin, Ethereum, and many other blockchains. No buffer.
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QANplatform
@QANplatform
Jun 9
What is lattice-based cryptography? Most encryption today relies on problems that are hard to solve, but have a hidden shortcut. Quantum computers find that shortcut. Lattice-based cryptography is different, it is built on problems with no shortcut in the foreseeable future,
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QANplatform
@QANplatform
Jun 4
Replying to @QANplatform
QANplatform May Update: Accelerating Our Ethereum Rebase and Enterprise Readiness
From medium.com
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QANplatform
@QANplatform
Jun 4
QANplatform May Update: Accelerating Our Ethereum Rebase and Enterprise Readiness May was a month of decisive action for QANplatform. Following our announcement of a controlled architectural rebase of QANplatform’s core features onto Ethereum’s official implementation we moved
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QANplatform
@QANplatform
Jun 4
Two tech giants. One timeline: 2029. Microsoft just unveiled Majorana 2: topological qubits that last 20 seconds (vs. 1-12 milliseconds in Majorana 1). That improvement is roughly comparable to inventing a phone battery that instead of dying in a day could last for nearly three
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QANplatform
@QANplatform
Jun 3
There are two main positions on quantum risk to blockchain infrastructure. One of them requires believing decentralized networks can coordinate a full cryptographic migration under time pressure with no central authority and no enforcement mechanism. The other one requires
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QANplatform
@QANplatform
Jun 2
SHA-1 is a cryptographic algorithm that secures digital signatures and certificates across the internet. Deprecating it started with NIST warnings in 2011, a public collision attack demonstration in 2017, and browsers flagging every non-compliant site as insecure. The full
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QANplatform
@QANplatform
May 29
Replying to @QANplatform
4/🧵Most of the institutions currently evaluating RWA platforms are running serious due diligence on custody risk, regulatory risk, and oracle risk. Very few have added quantum risk to that checklist yet. They will. The only question is whether they add it before or after they
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QANplatform
@QANplatform
May 29
Replying to @QANplatform
3/🧵And the math on this is already moving. The tokenized RWA market is projected to reach $2-16 trillion by 2030, the same window where credible quantum threat estimates begin. Trillions of dollars of tokenized assets. Secured by cryptography that NIST has already flagged for
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QANplatform
@QANplatform
May 29
Replying to @QANplatform
2/🧵With crypto-native assets, quantum risk is about protecting a wallet. With RWAs, quantum risk is about protecting legal ownership of a physical asset: property, equity, debt. If a quantum attacker forges your signature and transfers a tokenized building to their wallet, the
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QANplatform
@QANplatform
May 29
Replying to @QANplatform
1/🧵 A tokenized stock or bond is not like a purely crypto-native asset. It has a duration. A 30-year tokenized bond issued on a quantum-vulnerable blockchain today will still be sitting on that chain in 2056. The cryptography securing the ownership record has to survive the
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QANplatform
@QANplatform
May 29
A 30-year tokenized bond issued today will still be on-chain in 2056. The cryptography securing it has to survive the whole ride. The tokenized real-world asset market crossed $29 billion in Q1 2026. It grew about 30% per that quarter. Almost no mainstream RWA coverage
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QANplatform
@QANplatform
May 27
The blockchain industry has metrics for throughput, latency, and finality. It has no metric for developer onboarding friction. There are metrics the blockchain industry tracks obsessively. Transactions per second. Block time. Finality. Speed. Dashboards everywhere. Real-time
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