Comments by "†Omni†" (@Human_01) on "Quantum Internet: No One Needs This" video.
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QUANTUM-COMPUTING-BIO-ENGINEERING/QUANTUM-COMPUTING-BIO-RECEPTORS/QUANTUM-COMPUTING-AI-BIO-RECEPTORS
Could quantum computing be used to solve the issues that are expressed with biological computers, e.g. mushroom, 'slime mold', and fungi hybrid computers (where the biological components act as receptors that produce complex output signals/information?
I believe that quantum computing is such a solution... And then, when such wonders are researched and developed upon, they will be used to easily give a biological component/functionality to [Ai] robots (when the biological component [genetically engineered 'slime mold'; engineered to function as the biological receptors for a robot] grows and becomes dense, the AI/Android could generate a sense of presence that can subconsciously be detected by human intuition.
Case in point, with the light sensitivity engineered into slim mold, hybrid computing between quantum and conventional computing will allow the robot to physically experience sunlight. 'Here', were slim molds integrated into the iris of a robot, it will be function as an extension to the robot — thus allowing the Ai-robot to experience sunlight like a biological organism. Slim molds and quantum computing hold such a promise/capability.
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[Updated]
QUANTUM-COMPUTING-BIO-ENGINEERING/QUANTUM-COMPUTING-BIO-RECEPTORS/QUANTUM-COMPUTING-AI-BIO-RECEPTORS
Could quantum computing be used to solve the issues that are expressed with biological computers, e.g. mushroom, 'slime mold', and fungi hybrid computers (where the biological components act as receptors that produce complex output signals/information)?
I believe that quantum computing is such a solution... And then, when such wonders are researched and developed upon, they will be used to easily give a biological component/functionality to [Ai] robots (when the biological component [genetically engineered 'slime mold'; engineered to function as the biological receptors for a robot] grows and becomes dense, the AI/Android could generate a sense of presence that can subconsciously be detected by human intuition.
Case in point, with the light sensitivity engineered into slim mold, hybrid computing between quantum and conventional computing will allow the robot to physically experience sunlight. 'Here', were slim molds integrated into the iris of a robot, it will be function as an extension to the robot — thus allowing the Ai-robot to experience sunlight like a biological organism. Slim molds and quantum computing hold such a promise and capability.
NOTE: Biological receptors on computers often overwhelm conventional computers with information. Quantum-computing could and will likely offer the solution.
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[Updated]
QUANTUM-COMPUTING-BIO-ENGINEERING/QUANTUM-COMPUTING-BIO-RECEPTORS/QUANTUM-COMPUTING-AI-BIO-RECEPTORS
Could quantum computing be used to solve the issues that are expressed with biological computers, e.g. mushroom, 'slime mold', and fungi hybrid computers (where the biological components act as receptors that produce complex output signals/information)?
I believe that quantum computing is such a solution... And then, when such wonders are researched and developed upon, they will be used to easily give a biological component/functionality to [Ai] robots (when the biological component [genetically engineered 'slime mold'; engineered to function as the biological receptors for a robot] grows and becomes dense, the AI/Android could generate a sense of presence that can subconsciously be detected by human intuition.
Case in point, with the light sensitivity engineered into slim mold, hybrid computing between quantum and conventional computing will allow the robot to physically experience sunlight. 'Here', were slim molds integrated into the iris of a robot, it will be function as an extension to the robot — thus allowing the Ai-robot to experience sunlight like a biological organism. Slim molds and quantum computing hold such a promise and capability.
NOTE: Biological receptors on computers often overwhelm conventional computers with information. Quantum-computing could and will likely offer the solution.
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