The near-term promise of analog quantum computing Built upon the same platform, Aquila’s analog operation represents a different approach to quantum computing that opens up new problem-solving possibilities. QuEra Computing also continues developing large-scale universal fault-tolerant gate-based quantum computers to tackle many problems beyond the capabilities of classical computers. QuEra Computing’s offering helps expand the types of applications that can be performed through Amazon Braket and is a valuable addition for customers focused on exploring neutral-atom computing.” “The addition of Aquila brings neutral-atom quantum computing capabilities to everyone on Amazon Braket for the first time. “AWS is deeply focused on bringing our customers choice on Amazon Braket to explore scientific research and software development for quantum computing,” added Simone Severini, director of quantum computing at AWS. For customers, this presents an opportunity to explore new solutions to complex problems in high-energy physics, optimization, material sciences, pharmaceuticals and other fields. We look forward to seeing how users from all over the world will utilize this amazing new platform for research and industrial applications,” said Alexander Keesling, CEO of QuEra Computing in an official statement. “Aquila is now live on Amazon Braket, and provides a powerful and unique platform that advances the state of the art in quantum computation. The hardware is complemented by Bloqade, an open-source software package that assists with expressing problems in this new way. Its design presents a unique combination of system size, coherence, and an innovative analog quantum processing mode that provides a great deal of flexibility in how solutions to problems can be calculated. Other potential applications beyond quantum dynamics include chemical analysis, optimization and machine learning.Īquila now offers the power of 256 qubits, and QuEra has an ambitious roadmap in place to scale the machine’s computational power to much higher numbers. Quantum twins, like digital twins, can be created to model the behaviors of quantum systems. For those seeking to understand how quantum systems evolve - a process known as quantum dynamics - this mode provides an improvement over classical computers. QuEra’s Aquila platform has an analog quantum processor architecture that can deliver commercially relevant solutions to complex problems in the near term.Īquila’s analog mode opens new possibilities to deliver commercially relevant solutions to complex problems in the near term. ![]() In fact, it can be reconfigured with every instance of running the machine, a feature comparable to designing a new chip layout for each computation. Its architecture is very flexible in terms of the kinds of qubit configurations that can be set up within the processor itself. Aquila’s platform also supports the features necessary for fault-tolerant design. A digital quantum computer is thus within the hardware’s reach, as is hybrid analog-digital processing. The platform’s modular design means new functionalities can be added without having to rebuild the core technology. ![]() Aquila’s control systems allow for faster responses to customization requests, permitting quick and precise encoding of problems with a high degree of adaptability. Built on research conducted at nearby Harvard University and MIT, QuEra Computing’s Aquila is an analog neutral-atom quantum computer that claims to ensure a high level of control over a large machine with hundreds of qubits, with high resistance to errors. A neutral-atom approach offers benefits including stability, on-off crosstalk and, as the atoms are neutral and don’t repel each other, very minimal infrastructure requirements in terms of cooling and control.įounded in Boston in 2018, QuEra Computing is in the pursuit of building the industry’s most scalable quantum computers, which can tackle classically intractable problems for commercially relevant applications. ![]() Their elaborate design allows certain calculations to be performed more easily than alternate methods. Today, their architecture is powerful, practical and programmable, capable of manipulating hundreds of qubits. Neutral-atom machines supposedly offer a clear path to scaling up processing power as the technology continues to develop. Neutral atoms have emerged in the last five years as dark horse candidates in the race to build quantum computers.
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