![]() ![]() ![]() ![]() To achieve quantum practicality, commercial quantum systems need to scale to over a million qubits and overcome daunting challenges like qubit fragility and software programmability. Today’s quantum systems only include tens or hundreds of entangled qubits, limiting them from solving real-world problems. ![]() Quantum bits or “qubits” can simultaneously operate in multiple states enabling unprecedented levels of parallelism and computing efficiency. Traditional transistors use binary encoding of data represented electrically as “on” or “off” states. Quantum computing employs the properties of quantum physics like superposition and entanglement to perform computation.
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