project. Looking at the periodic chart, elements have distinct characteristics. Some fall into categories, like noble gases, semiconductors, or metallic materials. Molecules for the next level combine elements to make available additional physical phenomena. Water, or H2O, which combines two hydrogen atoms with one oxygen atom, is a simple molecular example that shows a unique compound that is an essential element of biological life. a. artificial neuron considerations In electronics, semiconductors are a vital material where an external signal can turn the electrical flow on, off, or modulated. Not only is it used as is, but doping a semiconductor with other materials can generate more targeted physical properties that can be used in other full-stacking computing architectural levels. Silicon is a commonly used semiconductor, but gallium arsenic is another semiconductor that is also used that has specialized properties. Gallium nitride is another semiconductor material promising in high-power applications and other areas. b. biological neuron considerations In biology, looking at molecular biology gives insights into what materials are used and what physical properties they contain. When considering proteins, the biochemical composition centers around nucleotides. Nucleotides are organic molecules consisting of (1) a nucleoside, which in turn is composed of a nucleobase and a five-carbon sugar, and (2) a phosphate group. This biochemical shows a jump from simple compounds to complex molecular building blocks bdd Neuron Architecture Levels Full Compute Stack <<block>> Applications <<block>> Algorithms <<block>> System Architecture <<block>> Microarchitecture <<block>> Circuits <<block>> Components and Devices <<block>> Materials <<block>> <<system>> <<domain>> Neuron parts : Axon {unique} : Cell Body {unique} : Dendrite {unique} references : Applications {unique} : Algorithms {unique} : System Architecture {unique} : Microarchitecture {unique} : Circuits {unique} : Components and Devices {unique} : Materials {unique} Figure 10. Full compute stack layers. Table 1. Days of Creation and Man’s Response EVENT GOD’S PLAN AND MAN’S RESPONSE Day 1 — Space, Time, Light, Matter Space and Time Can experience space, distance, the passage of time Heavens and Earth Can experience the difference between what is far away in the heavens versus close on the Earth Light and Darkness Created light so man can see creation, feed plants, provide warmth, interact with seasonal signs Day and Night Can experience the differences between day and night Day 2 — Earth Expanse Earth Expanse God created an environment where life can thrive Water Below Water to support plant life Water Above Water to protect the Earth expanse Day 3 — Land, Ocean, Vegetation Land and Oceans God created the difference between two domains Separation of Land and Oceans God established the land and ocean layout Land Vegetation After Kind God created a lush garden environment for man to live Fruit Trees After Kind Man can eat the fruit Seed Bearing Vegetation After Kind Man can eat and plant vegetation Day 4 — Space Expanse Sun, Moon, and Stars God created space expanse objects Light Days and Dark Nights God defined light level for day and night Signs for Days, Seasons, and Years God established signs to track time and change Sun Governs Light of Day God established day characteristics Moon Governs Light of Night God established night characteristics Day 5 — Ocean and Avian Life Ocean Life After Kind God populated the oceans Avian Life After Kind God populated the skies Day 6 — Land Life and Mankind Land Life After Kind God populated the land Man Made in God’s Image God created and placed man in the garden Man Given God’s Mission God gave man his divine mission JOHANSEN Human brain function and the creation model 2023 ICC 295
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