Today, just two months after delivery of a 17-qubit superconducting test chip, Intel unveiled “Tangle Lake,” a 49-qubit superconducting quantum test chip. Know How, Product Horse Ridge, named after one of the coldest places in Oregon (where Intel has some of its most extensive operations), was developed together with researchers from QuTech, a partnership between TU Delft and the Netherlands Organization for Applied Scientific Research (TNO). Maurizio has worked in the research field of gravitational waves and in space research projects as a design engineer. Intel today introduced the ‘first-of-its-kind’ cryo-controller chip for quantum computing and previewed a cryo-prober tool for characterizing quantum processor chips. Intel has introduced its new cryogenic control chip, codenamed Horse Ridge, that will speed up the development of quantum computing systems. Japan. Consequently, to be effective, they must operate at temperatures close to absolute zero (i.e., very close to –273.15°C). (Credit: Tim … QuTech at Delft University of Technology is Intel Corporation’s quantum computing research partner in the Netherlands. These devices are often custom designed to control individual qubits, requiring hundreds of connective wires into and out of the refrigerator. Intel said it has made steady progress in work towards making commercially viable quantum computing a reality. “It’s pretty unique in the community, as we’re going to take all these racks of electronics you see in a university lab and miniaturize that with our 22-nanometer technology and put it inside of a fridge,” said Clarke. But silicon spin qubits have properties that could allow them to operate at 1 degree Kelvin or higher temperatures, which would dramatically reduce the challenges of refrigerating the quantum system. Quantum computers promise the potential to tackle problems that conventional computers can’t handle by leveraging a phenomenon of quantum physics that allows qubits to exist in multiple states simultaneously. A July 2018 photos shows an Intel Corporation-manufactured wafer that contains working spin qubits. Intel Labs unveiled a first-of-its-kind cryogenic control chip — code-named Horse Ridge — that will speed up the development of quantum computing systems.. Times India, EE In January 2018, Intel announced a 49-qubit superconducting quantum chip, named Tangle Lake. The challenge of quantum computing is that it only really works at near-freezing temperatures right now. The in-house fabrication of these control chips at Intel will dramatically accelerate the company’s ability to design, test, and optimize a commercially viable quantum computer, the company said. Catch the on-demand videos at your convenience. Intel Cryogenic Chip to Facilitate Development of Quantum Computing, Click to share on Twitter (Opens in new window), Click to share on Facebook (Opens in new window), Click to share on LinkedIn (Opens in new window), Click to share on WhatsApp (Opens in new window), Click to share on Telegram (Opens in new window), Missing the live event? Florian Unseld (left) and Kian van der Enden, research assistants at QuTech, work on a readout tool for an Intel quantum test chip at Delft University in July 2018. It is necessary to stress the importance of small-scale quantum systems to demonstrate the absolute potential of qubits. “One option is to run the control electronics at room temperature and run coax cables down to configure the qubits. Above: A July 2018 photo shows a dilution refrigerator at QuTech’s quantum computing lab. The underlying technology is quantum physics; because a quantum bit (or qubit) can exist simultaneously in multiple states, it can be used to conduct multiple calculations at the same time, significantly speeding up the resolution of complex problems. Intel began collaborating with QuTech, a quantum computing organization in the Netherlands, in 2015; that involvement includes a US$50M investment by Intel in QuTech to provide ongoing engineering resources that will help accelerate developments in the field. Today, a quantum computer operates at in the millikelvin range — just a fraction of a degree above absolute zero. Designed to act as a radio frequency (RF) processor to control the qubits operating in the refrigerator, Horse Ridge is programmed with instructions that correspond to basic qubit operations. The control electronics therefore have to run at low temperatures too, unless you want to send a bunch of wires into it.”. “We’re looking at what it’s going to take to scale quantum systems to a large number of qubits,” said Richard Uhlig, managing director of Intel Labs, in an interview with VentureBeat. Intel’s investment in quantum computing covers the full hardware and software stack in pursuit of the development and commercialization of a practical, commercially viable quantum system. Third-generation Tangle Lake quantum processors contain 49 superconducting qubits. In Horse Ridge, Intel has developed a scalable control system that should accelerate the testing and the potential of quantum computing. 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