Human brain inspires computer memory

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How is it possible to create computer memory that is both faster and consumes less energy? Researchers at the Institut d'électronique fondamentale (CNRS/Université Paris-Sud) and CEA-List have unlocked the physical mechanisms involved in new-generation magnetic memory, and have shown that these mechanisms could be used as "synapses" in a new type of neuro-inspired system, able to learn how to store and retrieve information. Their work was published online in the journal IEEE Transactions on Biomedical Circuits and Systems on April 15, 2015.

Today there are two main categories of computer memory, without which our computers would not be able to store and retrieve information. Volatile memory can process a large amount of data in a short period of time, but it is dependent on continuous electrical power to retain the information it has recorded. On the contrary, , such as USB keys or CDs, are not dependent on a source of electricity, but they are much slower. An alternative is being developed: (STT-MRAM), which combines processing speed and , and stores information as a magnetic orientation rather than as an electric charge.

One of the main problems of this new technology is its high energy cost. To program magnetic tunnel junctions (MTJ), the basic nanocomponents of magnetic memory, electrical voltage is applied to their terminals. If the switching time is not sufficient, the programming can be incorrect, with a degree of randomness that depends on the duration of the programming pulse. This is referred to as probabilistic programming.

For more conventional memory uses, which on the contrary require programming that excludes randomness, MTJ switching time must be extended in order to ensure sufficiently reliable programming. However, this programming strategy results in substantial energy consumption.

The researchers showed that the of MTJs can become an advantage. They were actually the first to use MTJs as "synapses" (connections) of a system whose functioning is inspired by the , in that it consumes very little energy, while being able to process very large amounts of data. Probabilistic programming is thus a way for the system to learn a function after a number of repetitions. Like synapses in the human brain, the more the MTJs are called upon, the higher the chance that the information will be recorded. The simulations performed by the researchers show that, unlike existing memory systems, theirs can efficiently - i.e. quickly while using little energy - resolve cognitive tasks such as image or video analysis.

The scientists can now take up a new challenge by developing the first prototype of this neuro-inspired system.

More information: "Spin-Transfer Torque Magnetic Memory as a Stochastic Memristive Synapse for Neuromorphic Systems," IEEE Transaction on Biomedical Circuits and Systems, April 15, 2015. dx.doi.org/10.1109/TBCAS.2015.2414423

Provided by CNRS

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