COMPUTADORAS CUANTICAS PDF

By Jim Clarke. But moving from lab scale to the real world will require demonstrating quantum practicality — the moment this transformative technology makes the leap from research to commercial viability in applications such as drug development, logistics optimization e. And while every milestone reached in quantum computing research is cause for celebration, my concern is that the field will not advance the quantum ecosystem enough to enable the leap from the lab to a point where it will change lives. Researchers have focused extensively on qubit fabrication, building test chips that demonstrate the exponential power of a small number of entangled qubits.

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By Jim Clarke. But moving from lab scale to the real world will require demonstrating quantum practicality — the moment this transformative technology makes the leap from research to commercial viability in applications such as drug development, logistics optimization e. And while every milestone reached in quantum computing research is cause for celebration, my concern is that the field will not advance the quantum ecosystem enough to enable the leap from the lab to a point where it will change lives.

Researchers have focused extensively on qubit fabrication, building test chips that demonstrate the exponential power of a small number of entangled qubits. This work demonstrates the theory and potential of quantum computing — but not our ability to manufacture a practical system. In my view, a fundamental component in the quantum stack is being overlooked.

There is not enough research being done to advance the control and interconnect system required to effectively operate large-scale quantum systems. Today, every qubit is individually controlled. It is a brute-force approach that will not scale to the many qubits needed to change the world. Recently, we unveiled a new team member in the quantum computing race. Horse Ridge will simplify the interconnects or wiring of multiple qubits that will allow us to elegantly scale up the system.

With a scalable control system in place, we can go from quantum theory to quantum practicality much faster. Quantum bits or qubits can exist in multiple states simultaneously. As a result, they are able to conduct a large number of calculations at the same time. Excitingly, this can dramatically speed up complex problem-solving — from years to a matter of minutes. But in order for these qubits to do their jobs, hundreds of connective wires have to be strung into and out of the cryogenic refrigerator where quantum computing occurs at temperatures colder than deep space.

However, this extensive control cabling for each qubit drastically hinders the ability to control the hundreds or thousands of qubits that will be required to demonstrate quantum practicality in the lab — not to mention the millions of qubits that will be required for a commercially viable quantum solution in the real world. And Horse Ridge could take quantum practicality to the finish line much faster than is currently possible.

We are proud of Horse Ridge, and the possibilities it presents for the future of quantum computing. And while I want to spotlight the importance of controls and interconnects in the quantum system, I do not want to diminish the headline-grabbing work of other research teams. There is terrific discovery happening across the field, including the recent demonstration of quantum supremacy on a qubit chip.

However, after extensive simulations, our own research suggests it will most likely take at least thousands of qubits working reliably together before the first practical problems can be solved via quantum computing.

If we can effectively solve the challenges of controls and interconnects in quantum systems, quantum practicality will soon appear on the horizon.

Otros nombres y marcas pueden ser reclamados como propiedad de otros. Etiquetas: Intel Labs , Quantum Computing.

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Lo que hace falta para hacer a las Computadoras Cuánticas Prácticas (English Only)

Horse Ridge will enable control of multiple quantum bits qubits and set a clear path toward scaling larger systems — a major milestone on the path to quantum practicality. Intel recognized that quantum controls were an essential piece of the puzzle we needed to solve in order to develop a large-scale commercial quantum system. With Horse Ridge, Intel has developed a scalable control system that will allow us to significantly speed up testing and realize the potential of quantum computing. With Horse Ridge, Intel introduces an elegant solution that will enable the company to control multiple qubits and set a clear path toward scaling future systems to larger qubit counts — a major milestone on the path to quantum practicality. As a result, qubits can conduct a large number of calculations at the same time — dramatically speeding up complex problem-solving.

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El doctor Robert Sutor nos intenta explicar ¿Qué diablos es la computación cuántica?

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