Quantum Computing
Quantum computing relies on precise and controlled manipulation of qubits, the basic units of quantum information. RF signals play a crucial role in this process by driving qubit state transitions and ensuring accurate quantum gate operations.
In superconducting qubits, RF signals are used to control the energy levels of qubits. These signals must be finely tuned, with ultra-low noise and high stability, to minimize decoherence and maximize qubit fidelity.
RF signals enable the measurement of qubits, helping to translate quantum states into classical data. The performance of quantum computers depends significantly on the precision and control offered by these RF signals, which must operate at microwave frequencies and maintain stability across a variety of environmental conditions.
Upgrade your superconducting quantum computer RF controller with Jariet’s leading edge mmWave direct-RF ICs.
Our Solution
- Electra-MA: 2T2R, 100MHz to 36GHz
- Electra-MK : 2T2R, 100MHz to 22GHz
- Electra-MX : 2T2R, 100MHz to 12GHz
- Electra-QA : 4T4R, 100MHz to 36GHz
- Electra-QK : 4T4R, 100MHz to 22GHz
- Electra-QX : 4T4R, 100MHz to 12GHz
