MIT 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 ...

The researchers implemented a guide RNA gene circuit capable of decision-making based on inputs, similar to a Boolean logic gate, which is one of the fundamental representations of input-output ...

The gate senses single-stranded DNA as inputs and triggers an assembly or disassembly reaction of the pair as an output. We demonstrated two-input AND, two-input OR and INHIBIT logic operations, and ...

The SNU team says it can also couple multiple nanoparticle computing units into a reaction network and thereby wire a number of logic gates into a combinatorial circuit, such as a multiplexer, for ...

Using this approach, the researchers were able to make ultrafast (less than 100 fs operating time) all-optical XNOR, NOR, AND, XOR, OR and NAND logic gates, as well as a half-adder. And that’s not all ...

Binary logic gates take a combination of two 1s and 0s, and output different results based on what kind of gate it is. Ternary logic gates do the same thing, except with three possible inputs and ...

Scientists utilize logic gate-based decision-making to construct circuits that control genes. Guides typically assist tourists with directions, but the experience could be greatly enhanced if they ...

The digital world offers many advantages over its analog relatives, the use of boolean logic among them. Some of the functions, like NOT, OR, and AND are fairly straightforward and line up nicely w… ...