It would be nice to have this presented visually. It is a bit hard to grasp. Not being negative. Just asking for a better explanation of what seems like a really interesting system. :)
Thanks... yeah, I'm trying to figure out the best way to present it on here. It might all actually be a bit hard to describe without them. For instance, the special binary I had to develop to overcome some technical issues.
When I was envisioning this, I was imaging it being an expansive collective of binary, as though the connected computers create a "sheet" of information.
There was an issue with binary not creating a repetitive pattern when plotted. Sorry, it's one of those things where I remember going in with the problem and coming out with the solution and revisiting my process is on my to-do list. But basically, to solve the problem the digits from the decimal point needed to be taken into account. Makes this some kind of mixed radix system.
Ultimately, a part of this whole creation requires a non-resistant symmetry (meaning that redundancy checks naturally occur) between computers. I figured this out by basically giving all binary a numerical value. The dots to the right of the axis of that picture would be inverted numbers and colors. This is the automatic checksum between computers, entries should add to zero.
Sounds like you get it! Honestly, what I really want to see is long strings of binary projected as 2d or 3d abstractions from the raw binary, by a variety of means. I really wanted to account for leading up to this, these were also considerations for the binary format. The idea is to test a variety of ways that 1d binary can be replotted in 2d or 3d in a virtual space, then examine the 2d or 3d space to see what sort of weird computations it does! It might be possible to isolate groups of binary that interact and do specific things. The idea is to emulate a computational space that does not decay! I'm inspired by the idea that computers don't have to work by exactly the same principles we have always used.
Basically, I want to see every computer become a complex transistor.
...[EntryCreatorID] can choose any [Sequence-GeneratorID] for any given entry...
...the creation and operation of any GeneratorID entity must be done with utmost transparency and fairness...
...any new ID sequenced must follow the sequencing scheme...
...develop a type of scientific notation to describe large sequence numbers...
...all of this allows for a synchronization system without the requirement of mediaries for coordination...
...this system is a little like the Dewey Decimal System...
...this is a numbering system for cataloging and referencing ideas...
...everything is sequenced in binary...
...entries are never allowed to be edited, revisions are submitted as a subset to the entry...
...it is possible for entries to be “forgotten” if nobody else looked at the entry...
...meaning if the entry exists on more than one computer, it cannot be forgotten until it is deleted from each computer...
...merely looking at entries temporarily stores the entry onto the looker’s computer...
...we each specify how we like to retain such information on our computers by default...
...every entry is actually a complicated number. [location].[syntax][content]. That’s, location, decimal point, syntax, and content...
...every single bit has an inherent location ID, its value and distance from the decimal point...
...more on that later...
...discussions to fit within the format of this structure...
...creators can choose a sequence generator to use...
...this is an information space. A data-web. A model with infinitely interconnecting parts and the potential to accommodate the rapid expansion of knowledge. Its a platform for discourse, a means to conduct rapid responses to existential risks, and a potential means to vote...
...And imagine being able to run a query to return all the tables within recorded research within a specific parameter.
http://i.imgur.com/p4pr8b9.jpg