A Once-in-a-Lifetime Buying Opportunity: This Quantum Computing Stock Looks Primed to Skyrocket
Quantum computing is an emerging investing trend that attracts many people. The processing power that quantum computers unlock is unheard of in today's classical computing society, even though we're training advanced AI models in a relatively short amount of time. One of the top quantum computing stocks investors have on their radar is IonQ (NYSE: IONQ).Many people are convinced that this is a once-in-a-geneation investment trend that could set people up for a lifetime if they pick the right stocks. So, is IonQ one of those top stocks? Let's take a look.The primary difference between classical computing and quantum computing is how these two store information. Classical computing uses bits, which are either a zero or a 1. Quantum computing uses qubits, which are better described as the probability of information being a zero or a 1. Because qubits can be any number between a zero and a 1, it infinitely expands the amount of information it can store. However, it also multiplies errors, as a random number between zero and 1 is far less accurate than just a zero or a 1.Continue reading
Quantum computing is an emerging investing trend that attracts many people. The processing power that quantum computers unlock is unheard of in today's classical computing society, even though we're training advanced AI models in a relatively short amount of time. One of the top quantum computing stocks investors have on their radar is IonQ (NYSE: IONQ).
Many people are convinced that this is a once-in-a-geneation investment trend that could set people up for a lifetime if they pick the right stocks. So, is IonQ one of those top stocks? Let's take a look.
The primary difference between classical computing and quantum computing is how these two store information. Classical computing uses bits, which are either a zero or a 1. Quantum computing uses qubits, which are better described as the probability of information being a zero or a 1. Because qubits can be any number between a zero and a 1, it infinitely expands the amount of information it can store. However, it also multiplies errors, as a random number between zero and 1 is far less accurate than just a zero or a 1.
