Amazon Braket Quantum Computers
Overview
IonQ trapped-ion quantum computers are universal, gate-based machines using ionized ytterbium atoms. Two internal states of these identical atoms make up the qubits. The execution of computational tasks is accomplished by programming the sequence of laser pulses used to implement each quantum gate operation.
IQM's quantum computers are universal, gate-based machines based on superconducting qubits. Among many physical platforms, superconducting quantum hardware excels both in scalability and control, making it a strong contender for fault-tolerant quantum computing. For Noisy Intermediate Scale Quantum applications, the unique IQM approach enables our users to experience the best quality and accuracy.
QuEra quantum computers are based on Rydberg atom qubits, which utilize internal states of individual Rubidium atoms that are trapped and manipulated using laser beams. QuEra quantum computers can simulate the behavior of other quantum systems through analog Hamiltonian simulation.
Rigetti quantum processors are universal, gate-model machines based on tunable superconducting qubits. The Rigetti Ankaa™ series of chips feature tileable, tunable-coupler based architecture enabling significantly faster operation times and improved fidelities.