The scientists have also shown that these gates can be connected together combinatorialy, to provide complex logic functions, something that's critical to building any kind of digital circuit that is to have a useful function, such as a processor, no matter how simple. This original work, published in Nature magazine is worded in highly technical scientific language and is not easily understandable by us mere untrained mortals. However, for those that wish to dare try, click here. Here's a small sample:
The circuits were assembled using a parts-based engineering approach of quantitative characterization, modelling, followed by construction and testing. The results show that new genetic logic devices can be engineered predictably from novel native orthogonal biological control elements using quantitatively in-context characterized parts.
What?!
Despite this complexity, as with most ideas in science, the underlying idea is actually quite simple to understand: these living bugs are put together in such a way as to make a digital logic gate. However, these logic gates don't use signals in electrical form, but instead use proteins expressed by genes as their inputs and outputs. Because these gates are modelled on the standard forms used in digital computers for the last 60+ years, they function in an equivalent way.
No word on performance compared to silicon, which one would expect to be much faster, their operating lifetime (they die?) or the possible uses of such devices in a future PC, yet. It looks like these types of living circuits are best suited for such applications as use within the body to detect things such as cancer, preventing heart attacks by cleaning arteries, plus neutralizing toxins in the environment, among a host of other possibilities. Note that just because one can't currently think of a use for this in a desktop PC, it doesn't mean that it can't happen. Many scientific discoveries and inventions didn't find their true purpose for years, with a fine example being the laser. The principle was established in 1917 by Einstein in his work 'On the Quantum Theory of Radiation', but working devices didn't appear until the late 1940s and it took decades longer until lasers were fully exploited commercially, but now they are everywhere.
Sources: Nature, PC World
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