Saudi Arabia's First Quantum Computer: Can It Break Bitcoin?

Source: CryptoNewsNet Original Title: Saudi Arabia’s First Quantum Computer: Can It Break Bitcoin? Original Link:

Introduction

Saudi Arabia has entered the global quantum computing race. Saudi Aramco, the government-controlled energy and chemicals company, announced the installation of the Kingdom’s first quantum computer, adding to mounting security concerns for Bitcoin and other blockchain networks.

Aramco installed a 200-qubit machine, built by Pasqal, a France-based neutral-atom quantum computing company, at its Dhahran data center. The system has been designed for industrial applications such as energy modeling and materials research. Pasqal stated it is the most powerful system the company has delivered to date.

“The deployment of our most powerful quantum computer yet is a piece of history and a landmark for the Middle East’s quantum future,” Pasqal CEO Loïc Henriet said in a statement. “Pasqal continues its expansion, delivering practical quantum power to industry.”

Saudi Arabia’s move places it alongside governments in the U.S., China, the EU, the UK, Japan, India, and Canada that have funded national quantum programs intended to expand research infrastructure and train the workforce needed for future fault-tolerant systems.

The Real Threat to Blockchain Security

Experts warn that if quantum machines ever become powerful enough, they could reveal private keys or forge signatures, allowing attackers to steal funds or crack privacy mechanisms. But just how real is that threat today?

Yoon Auh, founder of Bolts Technologies, said rapid progress in quantum computing has forced security communities to take the threat seriously, amid “repeated jumps” in the technology.

“With so much effort and money going into this, breakthroughs are inevitable,” he said. “Nobody knows when, but the threat is no longer theoretical. It still can’t break ECC or RSA today, but progress is steady.”

Auh noted that the motivation for nation-state investment extends beyond cryptanalysis. “Quantum computing is the first technology that could become a global digital weapon not controlled by any political system,” he said.

Current Limitations

However, the research is still some ways off from cracking systems like the one Bitcoin is built on. According to research scientist Ian MacCormack, a 200-qubit system is small in practical terms, since current machines are limited by noise and short coherence times that restrict how many operations they can run.

“200 qubits is enough to do some interesting experiments and demonstrations, assuming the qubits are high quality, which is hard to do with even that few of them, but nowhere near enough to do error corrected computing of the sort you would need to run Shor’s Algorithm,” he said.

Progress in Quantum Computing

In September, researchers at Caltech unveiled a neutral-atom system with 6,000 qubits. However, even machines of that scale are still used for research, simulations, and algorithm development rather than for attacking cryptography.

“What you need is a very long coherence time compared to the duration of your operations,” Caltech graduate student Elie Bataille said. “If your operations are one microsecond and you have a second of coherence time, that means you can do about a million operations.”

Researchers say threatening modern cryptography would require thousands of error-corrected logical qubits, which translates to millions of physical qubits.

The Q-Day Scenario

Although the Pasqal system did not change current blockchain security, it renewed attention on a long-term risk known as Q-Day, the moment a quantum computer becomes powerful enough to derive a private key from a public key and forge digital signatures.

The concern is that such a capability would not only undermine the cryptography used by Bitcoin but also the many security systems that underpin the global economy.

“What a quantum computer could do, and this is what’s relevant to Bitcoin, is forge the digital signatures Bitcoin uses today,” Justin Thaler, research partner at Andreessen Horowitz and associate professor at Georgetown University, said. “Someone with a quantum computer could authorize a transaction, taking all the Bitcoin out of your accounts when you did not authorize it. That’s the worry.”

Today’s early-stage processors, including the 200-qubit Pasqal machine and Google’s 105-qubit Willow chip, remain well below the threshold needed for such attacks.

“Quantum computation has a reasonable probability, more than 5%, of being a major, even existential, long-term risk to Bitcoin and other cryptocurrencies,” Christopher Peikert, professor of computer science and engineering at the University of Michigan, said. “But it’s not a real risk in the next few years; quantum-computing technology still has too far to go before it can threaten modern cryptography.”