Lifeboat Foundation

How does one prevent hacking from a QC system? Easy, on board to QC first before others do.

Quantum computers have the potential to perform calculations faster than ever possible before, inviting a significant rethink in how we approach cyber security.

Given the amount of research being ploughed into this area, we are likely to see a commercially viable machine in the near future, so cryptographers and the cyber security industry in general should work to have a clear view on the implications way ahead of that achievement.

Continue reading “How will quantum computing impact security processes?” »

The mere mention of “quantum consciousness” makes most physicists cringe, as the phrase seems to evoke the vague, insipid musings of a New Age guru. But if a new hypothesis proves to be correct, quantum effects might indeed play some role in human cognition. Matthew Fisher, a physicist at the University of California, Santa Barbara, raised eyebrows late last year when he published a paper in Annals of Physics proposing that the nuclear spins of phosphorus atoms could serve as rudimentary “qubits” in the brain — which would essentially enable the brain to function like a quantum computer.

Isher’s hypothesis faces the same daunting obstacle that has plagued microtubules: a phenomenon called quantum decoherence. To build an operating quantum computer, you need to connect qubits — quantum bits of information — in a process called entanglement. But entangled qubits exist in a fragile state. They must be carefully shielded from any noise in the surrounding environment. Just one photon bumping into your qubit would be enough to make the entire system “decohere,” destroying the entanglement and wiping out the quantum properties of the system. It’s challenging enough to do quantum processing in a carefully controlled laboratory environment, never mind the warm, wet, complicated mess that is human biology, where maintaining coherence for sufficiently long periods of time is well nigh impossible.

Continue reading “Qubits in brain can make it a quantum computer?” »

I just caught up with Season 3 of Black Mirror, the dystopian science-fiction British television series on Netflix. I found the six episodes riveting, but often sort of nightmarish. Think high-tech, R-rated Twilight Zone.

Spoiler alert: the following mentions some things that are not immediately revealed in the episodes, similar to the trailers below (but does not give away endings).

Longevity a challenge or an opportunity?

This autumn, The Economist Events will bring global leaders from business, finance and health care together with policymakers to explore the opportunities of an ageing world.

Together they will discuss how best to adapt financial products and realign business and public policies in ways that will drive economic growth and mitigate problems that ageing societies could otherwise bring.

Continue reading “Ageing Societies 2016” »

Scientists are trying to create an artificial brain to learn artificial intelligence.

Google is trying to get its hooks into the world’s top deep learning talent before its competitors do.

The effort aimed at identifying criminals from their mugshots raises serious ethical issues about how we should use artificial intelligence.

How, exactly, the laws of physics will crumble if NASA’s impossible space engine turns out to really work.

Shoegazer, a prototype sneaker-spotting app, demonstrates the ways artificial intelligence could change how we shop.