9 Things Computers Can Do Now That They Couldn't Do A Year Ago

Software and silicon are sometimes the poor relations of the science world, their advances eclipsed by more glamorous breakthroughs in physics, genetics, and space exploration. Progress in AI and robotics, in particular, is often greeted with as much with trepidation as praise. Yet some amazing leaps were made in 2014 alone, from a robotic hand which an amputee can "feel" to a realistic virtual universe.

Here's our nine best new advances:

In April, electronic artist Squarepusher released an EP called Music for Robots, which was played by actual robots with musical superpowers. The guitarist of Z-machines, Mach, plays two guitars with the aid of 78 fingers and 12 picks. Cosmos triggers notes on his keyboard with lasers and drummer Ashura uses his six arms to wield 21 drumsticks. Z-Machines were created at the University of Tokyo by CGI artist Yoichiro Kawaguchi, robotics engineer Naofumi Yonetsuka, and media artist Kenjiro Matsuo.

Squarepushers objective was to see if robot musicians could play emotionally engaging music. "Part of what interests me is when we listen to a robot, do we listen to it as if we're listening to a human?" he said. "I wasn't trying to make it emulate a human being, but I was trying to make it do something which I wanted to hear. Now the question remains, is the thing which I want to hear a human being?"

Chips inspired by the billions of neurons in the human brain made a splash this year. Current hardware architectures separate computation and storage of information and operate sequentially, limiting the amount of data which can be processed and synthesized. So neuromorphic chips integrate data storage and processing and can operate in parallel, mimicking the way the human brain processes sensory information like images and sound in a massively parallel manner. Such chips could recognize patterns in large amounts of data more efficiently than current linear or "left-brained" architectures.

IBM announced in August that it had packed the largest number of chips ever on to its latest chip, the TrueNorth processor. Powered by a million artificial neurons and 256 million synapses (in the brain a synapse allows electrical charge to pass between neurons) the chip is laid out in a network of 4,096 neurosynaptic cores which integrate memory and computation and operate in parallel in an event-driven fashion. TrueNorth uses a mere 70 milliwatts in operation, giving it a power density (power consumption per cm2) 10,000 lower than most microprocessors. This allows it to efficiently perform power-hungry tasks like detecting and classifying objects in a video stream.

In June, a chatbot program called Eugene Goostman persuaded 33% of human interrogators that it was actually a 13-year-old boy, making it the first piece of software to pass the Turing test. Alan Turing predicted in a 1950 paper that by the year 2000 a computer would play the imitation game well enough that "an average interrogator will not have more than 70% chance of making the right identification after five minutes of questioning." Developers Vladimir Veselov and Eugene Demchenko gave Eugene the personality of a teenage Ukrainian boy in order to make gaps in his knowledge seem more plausible.

In October Australian researchers claimed a quantum computing breakthrough when they created two new types of quantum bit, or "qubit". A bit is always in one of two states0 or 1 while a qubit can be in superpositions, i.e., in both of its possible states at once. Once a qubit is measured, however, it has one known state. A quantum computer maintains a sequence of qubits which can be in every possible combination of 1s and 0s at once, giving it the potential to perform complex calculations exponentially faster than classical computers.

The first type of qubit created by the researchers exploits an atom made of phosphorous, which achieved 99.99% accuracy in quantum operations, while the second relies on an artificial atom made of conventional silicon transistors. Both qubits were housed in a very thin layer of silicon from which magnetic isotopes had been removed to eliminate noise in the quantum calculations. (Quantum states are very fragile and prone to interference, a fact that has proved to be one of the major obstacles to the development of a practical quantum computer.) The team also set a new world record by preserving a quantum state for a full 35 seconds.

In September Akamai announced that the average global Internet connection speed had smashed the 4 megabit-per-second broadband threshold for the first time, hitting 4.6 Mbps during the second quarter of 2014. The global average peak connection speed also increased 20% to 25.4 Mbps between the first and second quarter of 2014.

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9 Things Computers Can Do Now That They Couldn't Do A Year Ago

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