Through entanglement, qubits can form connections with other qubits, which greatly enhances their computational power. However, when a quantum state is measured, its wave function collapses, revealing either a zero or a one. We have been familiar with it for quite some time through simulations of quantum computers using conventional CPUs. However, these simulations can only be performed for a small number of qubits. In practice, if you were to attempt using the IBM API for this purpose, you would consistently encounter ‘unclean readings.’ Resolving this issue is one of the many aspects that scientists are currently working on. Through… Read More

Researchers and companies have developed an increasing number of devices that deliver proofs-of-concept for the practical application of quantum hardware (see for example Almudever et al. 2020). However, research does not only push ahead concerning the production of quantum hardware. The development of applicable quantum software that can run on these quantum machines, enabling quantum advantage, sees progress as well. You may be surprised to learn that our enterprise customers have already built hundreds of quantum applications across many industries. Blockchain is a record-keeping technology designed to make it impossible to hack the system or forge the data stored on… Read More

Quantum computing will do to traditional computing what Einstein did to Newton. The complexity of future quantum computers could be tamed by dedicated classical supporting electronics. To enable scaling, reduce footprint, and minimize power consumption we’re exploring the behavior of classical CMOS electronics at temperatures down to the millikelvin regime. Imec’s deep expertise in 3D integration on foundry-compatible 300mm platforms can be leveraged for quantum computing. Quantum computers, with their huge computational power, are ideally suited to solving these problems. Indeed, some problems, like factoring, are “hard” on a classical computer, but are “easy” on a quantum computer. This creates… Read More

For example, it could potentially complete complex calculations in seconds that could take years to finish on a classical computer. In a 2019 interview with Newsweek, quantum computing pioneer Peter Zoller said that, despite the appearance in laboratories of small-scale quantum computers with dozens of qubits, a breakthrough in error correction was needed for them to become truly practical. The practical benefits of technology that can out-think classical computers are widespread. It is no surprise that tech giants such as Google, Microsoft, IBM, Nokia and Intel are investing billions in quantum research. Access to the potential of a quantum computer… Read More

Many researchers believe that quantum computers will complement rather than replace our conventional technologies. Some researchers have expressed skepticism that scalable quantum computers could ever be built, typically because of the issue of maintaining coherence at large scales, but also for other reasons. As described by the threshold theorem, if the error rate is small enough, it is thought to be possible to use quantum error correction to suppress errors and decoherence. Quantum computer startup first to break 1,000-qubit milestone – New Atlas Quantum computer startup first to break 1,000-qubit milestone. Posted: Mon, 30 Oct 2023 05:59:34 GMT [source] Better… Read More

This modular and expandable system was designed as a fundamental component of the quantum-centric supercomputer. By integrating classical compute resources and efficient cooling systems, it has the capacity to accommodate large processors and future architectures, including modular devices. Watch this video for a more comprehensive explanation of quantum computation. Additionally, the Quantum Random Number Generator (QRNG) developed by QCi has garnered interest from organizations that require true randomness for applications in cryptography, secure communications, and data encryption. In particular, most of the popular public key ciphers are based on the difficulty of factoring integers or the discrete logarithm problem, both… Read More

IonQ says its new devices will be mounted in standard server racks and can slot seamlessly into any data center. This process converts the errors into a type of error known as an erasure error. Erasure errors have been studied in the context of qubits made from photons, and have long been known to be simpler to correct than errors in unknown locations, Thompson said. Global Quantum Computing Market Projected to Reach $856.33 Million by 2023, with a CAGR of 40.07% – Yahoo Finance Global Quantum Computing Market Projected to Reach $856.33 Million by 2023, with a CAGR of 40.07%.… Read More

These should be robust, well-documented, and ideally, standardized to ensure that the quantum computer can easily ‘plug and play’ into the existing software environment. Since quantum computers are still a developing technology, there aren’t many experts in quantum computing software. The physical dimensions of a quantum computer must align with the existing infrastructure of an HPC center. Unlike classical computers, which have become increasingly compact, some quantum computers can be quite bulky. Ensuring that the quantum hardware fits within the designated space is the first step toward HPC readiness. Whether it is the huge machines at NASA, or your laptop… Read More