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Epsilon-Delta: Difference between revisions
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The Epsilon-Delta holographic program is based on surgically-salvaged memory engrams of the aforementioned assimilated individual. It functions within the run-time environment of the Soong-Type positronic brain using a complex holographic protocol based on the Zimmerman/Barclay holographic matrix. Borg nanotechnology provides the Delta hardware runtime environment for the holographic program; as the cybernetic architecture developed over 3 decades ago by Dr. Noonien Soong transacts memory engrams between the Epsilon synthetic neural structure housing the salvaged consciousness. | The Epsilon-Delta holographic program is based on surgically-salvaged memory engrams of the aforementioned assimilated individual. It functions within the run-time environment of the Soong-Type positronic brain using a complex holographic protocol based on the Zimmerman/Barclay holographic matrix. Borg nanotechnology provides the Delta hardware runtime environment for the holographic program; as the cybernetic architecture developed over 3 decades ago by Dr. Noonien Soong transacts memory engrams between the Epsilon synthetic neural structure housing the salvaged consciousness. | ||
Indeed, Epsilon-Delta mirrors the evolutionary relationship between a joined Trill and it's symbiont. Summarizing her design principle, Dr. Mirren stated as part of this personnel interview, "I drew from a long tradition in biomimetics, and chose to exploit the Soong type positronic neural architecture, which thrives through continuous stimulus, much like a gifted child can thrive in a safe, resource-rich environment." | |||
Summarizing her design principle, Dr. Mirren stated as part of this personnel interview, "I drew from a long tradition in biomimetics, and chose to exploit the Soong type positronic neural architecture, which thrives through continuous stimulus, much like a gifted child can thrive in a safe, resource-rich environment." | |||
Separation of the hardware from the organism has proven risky, often resulting in the loss of memories not stored in the positronic architecture. Tragically, a great deal of the memory salvaged was lost in the original transfer (Epsilon-Alpha) and only partially salvaged in the consequent endeavor (Epsilon-Beta; Gamma). Epsilon-Delta is the youngest and most advanced model. The Beta model is outfitted with a holographic matrix that can only run within vast computer power available on subspace stations, starbases and Galaxy-class starship computers and the Gamma model, though nearly identical in terms of software, tends to work in extremely harsh environments such as deep-gravity oceans and the vacuum of space. | Separation of the hardware from the organism has proven risky, often resulting in the loss of memories not stored in the positronic architecture. Tragically, a great deal of the memory salvaged was lost in the original transfer (Epsilon-Alpha) and only partially salvaged in the consequent endeavor (Epsilon-Beta; Gamma). Epsilon-Delta is the youngest and most advanced model. The Beta model is outfitted with a holographic matrix that can only run within vast computer power available on subspace stations, starbases and Galaxy-class starship computers and the Gamma model, though nearly identical in terms of software, tends to work in extremely harsh environments such as deep-gravity oceans and the vacuum of space. | ||