Flash cloning

Flash cloning is a human medical process used to clone body parts. The process uses a sample of a human's DNA to grow a cloned organ, which can then be transplanted into the subject that contributed the DNA sample. Usually, the organ is programmed to grow at an accelerated rate and cease rapid development when transplanted into the subject. This makes the method viable in urgent situations, where patients can't afford to spend years waiting for a normal organ to develop. Since the transplanted organ's DNA matches that of the recipient, the risk of transplant rejection is completely eliminated.

Human cloning
While flash cloning entire humans is possible, the procedure is by no means perfect, and unauthorized cloning is illegal. The punishment for the procedure is quite severe. The process involves the modification of a cloned human embryo, which causes it to develop one hundred times faster than it would have naturally. Many anomalies appear because flash clones are forced to develop too quickly -- they lack the muscle memory and socialization of their hosts. Though these problems can be corrected with intensive therapy, the worst flaw in flash-cloned humans -- compounding biological defects -- cannot be corrected. Rapid flash cloning of such immense volumes of tissue induces gross DNA base-pair errors; congenital defects increase 42 percent and incidents of Parkinson-plus syndromes increase 67 percent. Although a small percentage of flash clones can have a normal life expectancy, most flash-clones will start to degenerate from metabolic instability as part of a process called "metabolic cascade failure" - they would die from various neurological and physiological disorders. The average half-life of the physiology in toto is 14.7 weeks in laboratory conditions.

Dr. Catherine Halsey developed and perfected a technique through which a living person's memories can be transferred to a flash clone's brain, thus creating a clone that is virtually identical to their original host. This process used a "Fast Fourier Transform X-ray 3-D scan" to map a brain's ionic density patterns. This data could then be used to create a virtual map of every individual link in a brain's neuron pattern. This data would then be used in a deep-stimulating scan of a flash clone's "blank" brain, which would cultivate an identical pattern of linkages and accurately replicate the memories of the host person. Unfortunately this memory replication results in an 82 percent rate of dementia, schizophrenia and brain cancers.

This technique was used to create identical clones of the Spartan-II candidates, which replaced the children after their abductions. After the Spartan-II candidates were abducted from their homes, they were replaced with flash-clones as part of a cover-up. Most of the flash-clones quickly died natural (though certainly abnormal) deaths, drawing suspicion away from ONI. Contrary to Halsey's expectations, many of the clones lived far longer than previously estimated based on laboratory conditions. Internal criticism of the unethical use of flash-clones led to the use of orphaned children in the subsequent SPARTAN-III Program.

Usage for creating AI
Because humanity is a Tier 3 civilization and the creation of a "smart" AI requires the destruction of a human brain, the brain of a deceased person is used. There is one known exception however: Cortana was modeled after a flash clone of Dr. Catherine Halsey's brain. Halsey used the same mothballed equipment used to clone the Spartan candidates to create ten clones of herself, however she enhanced the neural physiology at the expense of the rest of their bodies, leaving them seriously malformed. Only one clone brain survived, which was then used to create Cortana. The use of a clone and memory transfer allowed the UNSC to provide a brain used for the mapping of the AI's "mind" with no undue effects on the donor. Despite this advantage, the cloning of a human being, particularly for this purpose, is incredibly illegal and unethical.