https://en.wikipedia.org/wiki/Universal_Turing_machine
QT:{{”
Every Turing machine computes a certain fixed partial computable function from the input strings over its alphabet. In that sense it behaves like a computer with a fixed program. However, we can encode the action table of any Turing machine in a string. Thus we can construct a Turing machine that expects on its tape a string describing an action table followed by a string describing the input tape, and computes the tape that the encoded Turing machine would have computed. Turing described such a construction in complete detail in his 1936 paper: “It is possible to invent a single machine which can be used to compute any computable sequence. If this machine U is supplied with a tape on the beginning of which is written the S.D [“standard description” of an action table] of some computing machine M, then U will compute the same sequence as M.”[3] Stored-program computer Davis makes a persuasive argument that Turing’s conception of what is now known as “the stored-program computer”, of placing the “action table”—the instructions for the machine—in the same “memory” as the input data, strongly influenced John von Neumann’s conception of the first American discrete-symbol (as opposed to analog) computer—the EDVAC. Davis quotes Time magazine to this effect, that “everyone who taps at a keyboard… is working on an incarnation of a Turing machine,” and that “John von Neumann [built] on the work of Alan Turing” (Davis 2000:193 quoting Time magazine of 29 March 1999). “}}
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