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Non-volatile bistable memory circuits being developed by Satoshi Sugahara and his team at Tokyo Tech pave the way for highly energy-efficient CMOS logic systems.
Engineers have created genetic circuits in bacterial cells that not only perform logic functions, but also remember the results, which are encoded in the cell's DNA and passed on for dozens of ...
CMOS, or Complementary Metal-Oxide-Semiconductor, is a type of semiconductor technology that is widely used in digital circuitry, such as microprocessors, microcontrollers, static RAM, and other ...
The circuits successfully performed the sum-of-product operation at 2.8 kHz. The full potential of memristors was demonstrated when the devices were made to actively re-program themselves.
With two failures it will be wrong, but at least the result is unambiguous. Voting Logic in a Circuit Consider the circuit shown above. The output should be the vote of the three flip flops.
As expected, the iPhone X has a smaller logic board to accommodate a bigger battery. However, it turns out the phone has two logic boards and two batteries.
Researchers in the US are the first to make tiny electromechanical logic circuits that operate at temperatures as high as 500 °C. The circuits contain two switches made from silicon carbide and ...
One of the central goals in synthetic biology is to develop gene circuits that can be programmed to replicate cellular networks. Desired features in such circuits are logic gates that can easily ...
Xie has developed a genetic “logic circuit” that prompts cells to kill themselves if the levels of five molecules match those of a cancer cell.
Researchers demonstrate “a low-voltage organic ternary logic circuit, in which the organic HTR was vertically integrated with the organic nonvolatile flash memory.” “Multi-valued logic (MVL) circuits ...
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