He’s not out of diapers yet, but a Calgary toddler has become the youngest person in Canada to join the ranks of the international high-IQ society, Mensa.
Meet Anthony Popa Urria. At two years and nine months, Anthony has a staggeringly high IQ score of 154, just a few points shy of the estimated IQs of Albert Einstein and Stephen Hawking. While most of his peers are singing Itsy Bitsy Spider and drawing crayon scribbles, this bright toddler spends his time reciting the alphabet backward and forward, counting to 1,000, and listing the planets in the solar system, days in a week, months in a year and the seasons. He also speaks three languages, can read full sentences in books he has never seen before, can write his own name and many other words, and can solve complex 70-piece puzzles, among his vast skills… Across Canada, there are only seven other members of Mensa aged 10 or younger.
Quantum computers are going to be so incredibly badass, but here’s exactly how badass: A new quantum simulator from the University of Sydney has, and we’re quoting here, “the potential to perform calculations that would require a supercomputer larger than the size of the known universe.” Mind. Blown.
The thing to understand about quantum computers is that they operate in states of superposition, meaning that each quantum bit (or qubit) can be the equivalent of both a zero and a one at the same time. This is completely different from conventional computers, which have to pick just one state to be in. So, if you have one qubit, it can be in two states. If you have two qubits, it can be in four states. And, if you remember anything about exponential growth, you’ll see that this is headed up to a fairly crazy number of states very very fast: ten qubits, for example, gives you just over 1,000 simultaneous possible states.
Researchers from the University of Sydney are now saying that they’ve developed a type of quantum computer based on a crystal that contains 300 qubits. 300 qubits means that hypothetically, this computer can simultaneously perform just over 2,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000 calculations all at once. For the record, if you were to take every single atom in the observable universe and use all of them to construct a massive, traditional supercomputer, you’d run out of atoms before you got anywhere close to the level of performance that this quantum computer gets with just 300 atoms.