Abstract
The functional information of dissipative systems in Living Matter correlates with both the physical and mathematical regularities defining its material and quantum operational levels. The quantum operational level of Living Matter necessitates employing mathematical models to describe spaces of high dimensions. The physical significance of such an approach helps ascertain the meaning of "action information" as the "quantum information" of dissipative systems. The quantum properties of dissipative systems determine the competitive balance between the metabolism and homeostasis of a living organism. The properties of "Quantum information" in dissipative systems exhibit general regularities and can be applied in examining the physical and mathematical principles governing "quantum computers" and materials synthesized based on "quantum dots."
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