Technology and Communication - By Moses and Thor Skaftason

System Time - 00:00:00 Real Time Code - reference point
00:00:01/24 = 24rth frame of 30 frames in 1st second

System Date - Relative to Time Period (ie. era or dynasty)

Hard Disk Drive Sequence - Triggers to the Hard Drive

Boot Sequence - Triggers to the operating system

Memory Information - Random Operating Mempory/Random Access Memory and the buffer zones in the retrieval of this information from one to another.

CPU - Central Processing Unit - Circuitry of memory chips and Hardrive/Hardware - including interface capabilities

Integrated Devices - Hardware devices and the software that connects them together. Keep in mind that almost all the hardware components have software based components within. An excample of an integrated device would be G.P.S (or Ground Positional Systems).

System Event Log - Log Notes/system analysis - without firewalls in place on your computer these notes can be altered.

Algorithms Within a Communication Device - The synthesis of an algorithm into a software base through ports and fiber-optics known as parity codes. An analogy of how this functions is as follows; The parity codes become stored energy, emmission is stringently defined. A satellite takes the signal with a certain amount of time lapsed (in the micro-seconds) and converts the algorithm into a recognizeable signal. The signal is recognized by a satellites receptor (or antenna). Reaching this cortex (or vision) the signal is perceived, similar to that of a telephone call or halogram for that matter. This premise has been explained in sci-fi in the name of halo-decks or virtual reality. What needs to be understood is that irregardless of computer power, there will always be a time lag in the perception of the signal. To better understand this premise would be to study Precedence Effect (a 5-35 millisecond time lapse studied in professional audio trades).


Circuitry Issues

On a circuitry grid we see many components that are well designed before their actual use. For example many people have heard of a super-conductor. What most people don't know however is that a super-conductor is an efficiency cooled instrument used in the transference of a large signal flow to secure the circuitry grid. These days most hardware has what's called 'hard software', or software within a hardware component. An analogy would be similar to that of a head office of a company having control over turning on or turning off a main server of one of their branches. This is also what we see in the name of an E.C.U (electronic Control Unit). Where a physically disabled man can operate the functions of his house (lights, T.V, Stereo etc) by sitting in his wheelchair and triggering software at his desk.
When we saw the eastern seaboard to Illinois go down in 2002 affecting 100 Million homes, the explanation given was that a huge transformer (transference from one component to the next through this device) blew. Is that the truth? We honestly don't have all the answers, however, theoretically this could have been the result of a solar flare. This is when there is an electro-magnetic storm in the outer atmosphere of the Earth (commonly seen near the Northern Lights).

Computer Power - What is possible today?

40 years ago, computers were looked at as tools with many confines and limits. You could only do so much. Today we see Terabyte drives in home computers, whereas in 1980 2 kb was considered 'high technology'. Could we actually see sensory software implemented in Health Care that would cure the 'depressed'. Theoretically within 1 microsecond, with enough computer power, we could see sensory software implemented to give or take away negative connotation.

Precise versus Imprecise

This is a similar argument to what was just inferred. In computers there will always be a time lag in technology. Even with surgical frequency analysis there is a slight delay, although I'd take 2010 over 1980 anyday.