This small quantum computer can blow huge data centers out of the water with speed, strength and pure physics
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- Nord Quantique promises quantum power without the bulk or energy drain
- Traditional HPC can fall if the speed of Nord and the energy claims turn out to be really
- The cracking of RSA-830 in one hour could transform cyber security forever
A Quantum Computing Startup has announced plans to develop a quantum computer on tools with more than 1,000 logical quubits by 2031.
Nord Quantique has set an ambitious goal that, if reached, a seismic shift in High-Performance Computing (HPC) could indicate.
The company claims that its machines are smaller and offer much greater efficiency in both speed and energy consumption, making traditional HPC systems superfluous.
Error correction of promoting multimode coding
Nord Quantique uses “multimode coding” via a technique known as the Tesseract code, and as a result, any physical cavity in the system can represent more than one quantum mode, which effectively increases redundancy and resilience without adding complexity or size.
“With multimode coding we can build quantum computers with excellent error correction options, but without the obstacle to all those physical quubits,” said Julien Camirand Lemyre, CEO of Nord Quantique.
“After their smaller and more practical size, our machines will also use a fraction of the energy, making them attractive for HPC centers, for example, where energy costs are top notes.”
Nord’s machines would only occupy 20 square meters, making them very suitable data center Integration.
Compared to 1,000 – 20,000 m² that is required by competing platforms, this portability further strengthens the matter.
“These smaller systems are also easier to develop into a utility scale because of their size and lower requirements for cryogenic and control electronics,” the company added.
The implication here is significant: better error correction without scaling physical infrastructure, a central bottleneck in the quantum race.
In a technical demonstration, the Nord system showed excellent stability over 32 error correction cycles without measurable decay in quantum information.
“Their approach to coding logical qubits in multimode tesseract states is a very effective method to tackle error correction and I am impressed by these results,” said Yvonne Gao, university teacher at the National University of Singapore.
“They are an important step forward on the journey from the industry to Kwantum Computing on Nuts scale.”
Such notes give credibility, but independent validation and repeatability remain crucial for long -term trust.
Nord Quantique claims that his system could solve RSA-830, a representative cryptographic challenge, in just one hour with 120 kWh energy with 1 MHz speed, which reduces the energy needs by 99%.
Traditional HPC systems, on the other hand, would require around 280,000 kWh for about nine days. Other quantic modalities, such as super -conducting, photonic, cold atoms and ion traps, fall short in speed or efficiency.
For example, cold atoms can only consume 20 kW, but solving the same problem would take six months.
That said, there is still being careful. Post -selection – Used in Nord’s error correction demonstrations, requires to throw away 12.6% of the data per round. Although this helped to show stability, it introduces questions about consistency in practice.
With Quantum Computing, the jump from the breakthrough of Laboratory to practical effort can be enormous; Thus, the claims on energy reduction and system inurization, although striking, independent Real-World verification needs.
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