{"payload":{"feedbackUrl":"https://github.com/orgs/community/discussions/53140","repo":{"id":664771586,"defaultBranch":"main","name":"library","ownerLogin":"standardgalactic","currentUserCanPush":false,"isFork":false,"isEmpty":false,"createdAt":"2023-07-10T17:58:24.000Z","ownerAvatar":"https://avatars.githubusercontent.com/u/43516554?v=4","public":true,"private":false,"isOrgOwned":false},"refInfo":{"name":"","listCacheKey":"v0:1708632091.0","currentOid":""},"activityList":{"items":[{"before":"e8c622825b9cd43fe5fc369c6cfd31501c958164","after":"0573a7fbfc1f6b7cc1ef845074cb9c69d9622058","ref":"refs/heads/main","pushedAt":"2024-09-16T20:30:44.000Z","pushType":"push","commitsCount":1,"pusher":{"login":"standardgalactic","name":"Cogito Ergo Sum","path":"/standardgalactic","primaryAvatarUrl":"https://avatars.githubusercontent.com/u/43516554?s=80&v=4"},"commit":{"message":"𝘝𝘦𝘳𝘵𝘪𝘤𝘢𝘭 𝘚𝘤𝘢𝘭𝘪𝘯𝘨\n\nBehold humanity's next thousand-year plan to outdo itself in ambitious impracticality. We start modestly enough with the hurricane mitt—because harnessing the chaotic fury of hurricanes is obviously the low-hanging fruit of renewable energy. This ingenious device employs volsorial pediments—a term that undoubtedly makes perfect sense—to weave parachutes and cables from giant kelp. Yes, giant kelp, nature's go-to material for withstanding extreme weather.\r\n\r\nThese kelp-crafted marvels deploy during storms to wind up generators, dissipating energy into gravitational batteries. Because nothing screams reliability like a power system dependent on both hurricanes and seaweed.\r\n\r\nProgressing naturally, the volsoria evolve into global orthodromic freshwater rivers supported by pediments in the next phase. It's about time we tackled the trivial task of constructing planet-wide rivers to solve water distribution. These rivers, of course, will be perfectly maintained and free of any ecological consequences.\r\n\r\nIn the third act of this epic, the intervolsorial pediments conveniently double as landing hubs for nested Hoberman space elevators. Repurposing a child's expanding sphere toy into space elevator technology is a stroke of genius that surely won't backfire. After all, what could go wrong with telescoping structures reaching into space?\r\n\r\nNot stopping there, we retrofit the orthodromes with geothermal mass accelerators—because tapping into the Earth's geothermal energy to accelerate masses is a walk in the park. Meanwhile, the space elevators now house extendable linear orbital rail gun ring tunnels. Launching payloads via massive rail guns embedded in space elevators sounds perfectly safe and efficient, disregarding minor details like physics and materials science limitations.\r\n\r\nFinally, the pièce de résistance: constructing Dyson Ring gravitational slingshot assist rail guns and heat shields inside Mercury's orbit. Building colossal structures in the scorching vicinity of the Sun to slingshot objects across the solar system is the obvious next step. The heat shields will, without a doubt, protect our delicate equipment from temperatures that melt lead, and the gravitational assists will make interstellar travel as routine as a morning commute.\r\n\r\nIn summary, this grandiose vision is a testament to humanity's unyielding optimism and occasional detachment from reality. By piling one hypothetical technology atop another, we're surely paving the way to a future where complexity knows no bounds and practicality takes a well-deserved backseat. But who needs feasibility when we have imagination?","shortMessageHtmlLink":"𝘝𝘦𝘳𝘵𝘪𝘤𝘢𝘭 𝘚𝘤𝘢𝘭𝘪𝘯𝘨"}},{"before":"dba77145d49302ae5916fdd156ff5b423298d5ce","after":"e8c622825b9cd43fe5fc369c6cfd31501c958164","ref":"refs/heads/main","pushedAt":"2024-09-09T10:06:18.000Z","pushType":"push","commitsCount":1,"pusher":{"login":"standardgalactic","name":"Cogito Ergo Sum","path":"/standardgalactic","primaryAvatarUrl":"https://avatars.githubusercontent.com/u/43516554?s=80&v=4"},"commit":{"message":"Memory Check\n\nGenerated new academizer project embeddings using\nNvidia Chatrtx.\n\nhttps://github.com/standardgalactic/academizer\n\nhttps://www.nvidia.com/en-us/ai-on-rtx/chatrtx\n\n # Retrieval Augmented Generation","shortMessageHtmlLink":"Memory 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𝘋𝘺𝘯𝘢𝘮𝘪𝘤𝘴\n\nHere’s a list of the main inventions we've discussed:\n\nFruit Milking Machines:\n\nMicrofluidic Capillary System: A network of tiny capillaries designed to extract juice directly from fruits and grains without damaging the plant.\n\nNon-Invasive Extraction Interface: A specialized interface that attaches to plants to extract fluids without harming them.\n\nAdvanced Control System: A system to regulate juice extraction, monitor plant health, and ensure optimal fluid flow.\n\nTunnels Over Roads:\n\nRoad Tunnels for Emissions Control: Enclosed tunnels over roadways that reduce environmental impact by containing and managing vehicle emissions.\n\nEmergency-Only Road Usage System: A transportation concept where roads are used only in emergencies, drastically reducing regular vehicular traffic.\n\nElevated Cities:\n\nCities Elevated 1000 Meters: A futuristic concept involving cities being constructed or moved 1000 meters upward, potentially to avoid flooding or other environmental issues.\n\nMandated Remote Work:\n\nUniversal Remote Work Mandate: A policy innovation aimed at reducing commuting and its associated environmental impact by requiring remote work wherever feasible.\n\nLocal Plant Growth Mandate:\n\nLocal Growth of All Plants: A concept where all plants, including those typically imported, are grown locally, reducing the carbon footprint of transporting food products across the globe.\n\nNuclear-Powered Refrigerators and Ice Machines at the Poles:\n\nNuclear-Powered Cooling at the Poles: The use of nuclear energy to power refrigerators and ice machines at the poles to counteract ice melt and possibly mitigate climate change.\n\nGlobally Distributed Giant Kelp Farms:\n\nGiant Kelp Farms: Large-scale kelp farming across the globe to sequester carbon dioxide, support marine ecosystems, and combat ocean acidification.\nRainforest Generators:\n\nArtificial Rainforest Generators: Technology or infrastructure designed to create or enhance rainforests, contributing to carbon capture and biodiversity.\n\nThese inventions and innovations, while ambitious and speculative, represent creative approaches to addressing environmental and sustainability challenges through advanced technology and novel concepts.","shortMessageHtmlLink":"𝘚𝘱𝘪𝘳𝘢𝘭 𝘋𝘺𝘯𝘢𝘮𝘪𝘤𝘴"}},{"before":"7784c841fabcf67c72f2b528e0a75df2ecc7e03c","after":"1c6216ef4fd7da4d58ccc343ee90a6ff67c27e12","ref":"refs/heads/main","pushedAt":"2024-08-30T20:35:47.000Z","pushType":"force_push","commitsCount":0,"pusher":{"login":"standardgalactic","name":"Cogito Ergo Sum","path":"/standardgalactic","primaryAvatarUrl":"https://avatars.githubusercontent.com/u/43516554?s=80&v=4"},"commit":{"message":"𝘚𝘱𝘪𝘳𝘢𝘭 𝘋𝘺𝘯𝘢𝘮𝘪𝘤𝘴\n\nHere’s a list of the main inventions we've discussed:\n\nFruit Milking Machines:\n\nMicrofluidic Capillary System: A network of tiny capillaries designed to extract juice directly from fruits and grains without damaging the plant.\n\nNon-Invasive Extraction Interface: A specialized interface that attaches to plants to extract fluids without harming them.\n\nAdvanced Control System: A system to regulate juice extraction, monitor plant health, and ensure optimal fluid flow.\n\nTunnels Over Roads:\nRoad Tunnels for Emissions Control: Enclosed tunnels over roadways that reduce environmental impact by containing and managing vehicle emissions.\n\nEmergency-Only Road Usage System: A transportation concept where roads are used only in emergencies, drastically reducing regular vehicular traffic.\n\nElevated Cities:\nCities Elevated 1000 Meters: A futuristic concept involving cities being constructed or moved 1000 meters upward, potentially to avoid flooding or other environmental issues.\n\nMandated Remote Work:\nUniversal Remote Work Mandate: A policy innovation aimed at reducing commuting and its associated environmental impact by requiring remote work wherever feasible.\n\nLocal Plant Growth Mandate:\n\nLocal Growth of All Plants: A concept where all plants, including those typically imported, are grown locally, reducing the carbon footprint of transporting food products across the globe.\n\nNuclear-Powered Refrigerators and Ice Machines at the Poles:\n\nNuclear-Powered Cooling at the Poles: The use of nuclear energy to power refrigerators and ice machines at the poles to counteract ice melt and possibly mitigate climate change.\n\nGlobally Distributed Giant Kelp Farms:\n\nGiant Kelp Farms: Large-scale kelp farming across the globe to sequester carbon dioxide, support marine ecosystems, and combat ocean acidification.\nRainforest Generators:\n\nArtificial Rainforest Generators: Technology or infrastructure designed to create or enhance rainforests, contributing to carbon capture and biodiversity.\n\nThese inventions and innovations, while ambitious and speculative, represent creative approaches to addressing environmental and sustainability challenges through advanced technology and novel concepts.","shortMessageHtmlLink":"𝘚𝘱𝘪𝘳𝘢𝘭 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roadways that reduce environmental impact by containing and managing vehicle emissions.\r\nEmergency-Only Road Usage System: A transportation concept where roads are used only in emergencies, drastically reducing regular vehicular traffic.\r\nElevated Cities:\r\n\r\nCities Elevated 1000 Meters: A futuristic concept involving cities being constructed or moved 1000 meters upward, potentially to avoid flooding or other environmental issues.\r\nMandated Remote Work:\r\n\r\nUniversal Remote Work Mandate: A policy innovation aimed at reducing commuting and its associated environmental impact by requiring remote work wherever feasible.\r\nLocal Plant Growth Mandate:\r\n\r\nLocal Growth of All Plants: A concept where all plants, including those typically imported, are grown locally, reducing the carbon footprint of transporting food products across the globe.\r\nNuclear-Powered Refrigerators and Ice Machines at the Poles:\r\n\r\nNuclear-Powered Cooling at the Poles: The use of nuclear energy to power refrigerators and ice machines at the poles to counteract ice melt and possibly mitigate climate change.\r\nGlobally Distributed Giant Kelp Farms:\r\n\r\nGiant Kelp Farms: Large-scale kelp farming across the globe to sequester carbon dioxide, support marine ecosystems, and combat ocean acidification.\r\nRainforest Generators:\r\n\r\nArtificial Rainforest Generators: Technology or infrastructure designed to create or enhance rainforests, contributing to carbon capture and biodiversity.\r\n\r\nThese inventions and innovations, while ambitious and speculative, represent creative approaches to addressing environmental and sustainability challenges through advanced technology and novel concepts.","shortMessageHtmlLink":"𝘚𝘱𝘪𝘳𝘢𝘭 𝘋𝘺𝘯𝘢𝘮𝘪𝘤𝘴"}},{"before":"09c3267bd9a8707e88b371fecc617ce4fd650f1f","after":"0cba1b7ecdd3be3e043be2b96afccacfa4cfea0f","ref":"refs/heads/main","pushedAt":"2024-08-24T14:02:25.000Z","pushType":"force_push","commitsCount":0,"pusher":{"login":"standardgalactic","name":"Cogito Ergo Sum","path":"/standardgalactic","primaryAvatarUrl":"https://avatars.githubusercontent.com/u/43516554?s=80&v=4"},"commit":{"message":"𝘈𝘴𝘱𝘦𝘤𝘵 𝘙𝘦𝘭𝘦𝘨𝘢𝘵𝘪𝘰𝘯 𝘛𝘩𝘦𝘰𝘳𝘺\n\nThe discourse herein has meticulously explored an interdisciplinary nexus, encapsulating \"Neuromorphic Spatial Computing,\" a conceptual framework that amalgamates neuromorphic engineering, spatial dynamics, and computational theory.\n\nThis synthesis underpins a comprehensive examination of cognitive and neural mechanisms in conjunction with physical spatial manipulations, aiming to elucidate the complex interplay between these domains within both natural and artificial systems.\n\nNeuromorphic Foundations: The discussion initiated with a deep dive into cognitive science theories, such as the Free Energy Principle and Predictive Coding, which posit that biological neural networks are optimized to minimize the discrepancy between expected and encountered stimuli, thereby reducing free energy.\n\nThese principles are pivotal in informing the development of neuromorphic systems that emulate the neural substrates of cognitive processes, facilitating a bridge between biological realism and computational efficiency.\n\nSpatial Dynamics: Central to the dialogue was the delineation of the six degrees of freedom—twist, waggle, bow, rail, strafe, and bounce—which are critical for articulating movement within a triaxial space.\n\nThis exploration not only highlighted the mechanical aspects of movement but also underscored the potential for these principles to inform the design of autonomous systems and robotics, ensuring that they operate with an enhanced fidelity to human proprioceptive and vestibular faculties.\n\nComputational Integration: The conversation further ventured into the realm of computational models, emphasizing surjective mappings and their role in educational technologies, particularly in the domains of numeracy and literacy.\n\nThis was complemented by an examination of Tristham Needham's assertions regarding the approximation of functions through compositions of scalings and rotations within the complex plane, a concept that has profound implications for signal processing and the simulation of physical phenomena.\n\nTheoretical and Practical Convergence: The discourse seamlessly integrated these elements within a broader context of Aspect Relegation Theory, which suggests a cognitive transition from active, effortful processing to passive, automated processing as tasks become routinized.\n\nThis theory was paralleled with discussions around proprioceptive hierarchical reflex chain linkage feedback, highlighting a model where sensory feedback informs and modulates motor outputs within a hierarchical framework.\n\nIn summary, the collective exploration titled \"Neuromorphic Spatial Computing\" encapsulates a forward-looking approach to understanding and developing systems that not only mimic human cognitive and motor functions but also enhance the interaction between humans and machines.\n\nThis discussion lays a foundational schema for future research and development in neuromorphic engineering, aiming to create systems that are both adaptive and capable of complex interactions with their environments, thereby pushing the frontiers of artificial intelligence, robotics, and cognitive computation.\n\nhttps://chatgpt.com/share/0dc19bc7-a925-4b82-a885-a79d7a6bce00","shortMessageHtmlLink":"𝘈𝘴𝘱𝘦𝘤𝘵 𝘙𝘦𝘭𝘦𝘨𝘢𝘵𝘪𝘰𝘯 𝘛𝘩𝘦𝘰𝘳𝘺"}},{"before":"4e85674ff5d3492bfe0432b7e5a2f1ac9380ec0a","after":"09c3267bd9a8707e88b371fecc617ce4fd650f1f","ref":"refs/heads/main","pushedAt":"2024-08-24T14:02:03.000Z","pushType":"force_push","commitsCount":0,"pusher":{"login":"standardgalactic","name":"Cogito Ergo 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in informing the development of neuromorphic systems that emulate the neural substrates of cognitive processes, facilitating a bridge between biological realism and computational efficiency.\n\nSpatial Dynamics: Central to the dialogue was the delineation of the six degrees of freedom—twist, waggle, bow, rail, strafe, and bounce—which are critical for articulating movement within a triaxial space.\n\nThis exploration not only highlighted the mechanical aspects of movement but also underscored the potential for these principles to inform the design of autonomous systems and robotics, ensuring that they operate with an enhanced fidelity to human proprioceptive and vestibular faculties.\n\nComputational Integration: The conversation further ventured into the realm of computational models, emphasizing surjective mappings and their role in educational technologies, particularly in the domains of numeracy and literacy.\n\nThis was complemented by an examination of Tristham Needham's assertions regarding the approximation of functions through compositions of scalings and rotations within the complex plane, a concept that has profound implications for signal processing and the simulation of physical phenomena.\n\nTheoretical and Practical Convergence: The discourse seamlessly integrated these elements within a broader context of Aspect Relegation Theory, which suggests a cognitive transition from active, effortful processing to passive, automated processing as tasks become routinized.\n\nThis theory was paralleled with discussions around proprioceptive hierarchical reflex chain linkage feedback, highlighting a model where sensory feedback informs and modulates motor outputs within a hierarchical framework.\n\nIn summary, the collective exploration titled \"Neuromorphic Spatial Computing\" encapsulates a forward-looking approach to understanding and developing systems that not only mimic human cognitive and motor functions but also enhance the interaction between humans and machines.\n\nThis discussion lays a foundational schema for future research and development in neuromorphic engineering, aiming to create systems that are both adaptive and capable of complex interactions with their environments, thereby pushing the frontiers of artificial intelligence, robotics, and cognitive computation.\n\nhttps://chatgpt.com/share/0dc19bc7-a925-4b82-a885-a79d7a6bce00","shortMessageHtmlLink":" 𝘈𝘴𝘱𝘦𝘤𝘵 𝘙𝘦𝘭𝘦𝘨𝘢𝘵𝘪𝘰𝘯 𝘛𝘩𝘦𝘰𝘳𝘺"}},{"before":"1d36ce688cce84d16a56b2391573c859c26e7c25","after":"4e85674ff5d3492bfe0432b7e5a2f1ac9380ec0a","ref":"refs/heads/main","pushedAt":"2024-08-24T13:37:48.000Z","pushType":"force_push","commitsCount":0,"pusher":{"login":"standardgalactic","name":"Cogito Ergo Sum","path":"/standardgalactic","primaryAvatarUrl":"https://avatars.githubusercontent.com/u/43516554?s=80&v=4"},"commit":{"message":"𝘈𝘴𝘱𝘦𝘤𝘵 𝘙𝘦𝘭𝘦𝘨𝘢𝘵𝘪𝘰𝘯 𝘛𝘩𝘦𝘰𝘳𝘺\n\nThe discourse herein has meticulously explored an interdisciplinary nexus, encapsulating \"Neuromorphic Spatial 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of freedom—twist, waggle, bow, rail, strafe, and bounce—which are critical for articulating movement within a triaxial space.\n\nThis exploration not only highlighted the mechanical aspects of movement but also underscored the potential for these principles to inform the design of autonomous systems and robotics, ensuring that they operate with an enhanced fidelity to human proprioceptive and vestibular faculties.\n\nComputational Integration: The conversation further ventured into the realm of computational models, emphasizing surjective mappings and their role in educational technologies, particularly in the domains of numeracy and literacy.\n\nThis was complemented by an examination of Tristham Needham's assertions regarding the approximation of functions through compositions of scalings and rotations within the complex plane, a concept that has profound implications for signal processing and the simulation of physical phenomena.\n\nTheoretical and Practical Convergence: The 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