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Quantum computing is a paradigm that has the potential to transform problems that are computationally intractable today into solvable problems in the future. Achieving quantum computer realizations at...
Quantum computers are nearing the thousand qubit mark, with the current focus on scaling to deliver computational performance beyond classical computers. But as quantum processors grow in complexity, ...
This talk covers various aspects of production, delivery, amplification and processing of control and readout signals used in IBM Quantum systems with emphasis on cryogenic RF signal generators and am...
Scaled qubit counts will require improvements in the RF solutions that support qubit control and readout. Not only is there a need for better performance through improved crosstalk and reduced inserti...
There is a growing need for industry development of increasingly dense and performant cryogenic interconnect technologies to enable fault tolerant quantum computers of the future. This is quite a form...
Scaling a fault-tolerant quantum computer to millions of qubits required for running a practical algorithm is a daunting challenge. Silicon spin qubits are a promising technology for the scalable impl...
In recent years, gallium nitride (GaN) has become a key technology for wireless infrastructures, contributing to the increase in energy efficiency and data rates of 5G and future 6G. The very stringen...
This presentation discusses innovative approaches in transistor and circuit modeling for 5G and 6G telecommunications. To reach a first-pass design success, the modeling process must adapt from transi...
Early in the design process of optimal power amplifiers, the harmonic balance simulation method is used to quantify the tradeoff between linearity and efficiency thereby making it an invaluable tool t...
Determining the appropriate Power Amplifier (PA) architecture for a given design specification can be a time-consuming task that could be better used designing the chosen architecture instead. Given t...