Difference between revisions of "Memory"
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The details of organization on real memory modules s. a. DDR is not actual inside this context. To make primitive ALU Needed ~2x binary 8bit blocks of temporary memory and one for executor cache. | The details of organization on real memory modules s. a. DDR is not actual inside this context. To make primitive ALU Needed ~2x binary 8bit blocks of temporary memory and one for executor cache. | ||
| − | == Ierarhy == | + | === Ierarhy === |
# BlockChain | # BlockChain | ||
## Block | ## Block | ||
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##### Com - component of value | ##### Com - component of value | ||
| − | == Interfaces == | + | === Interfaces === |
For ceil, block and blockchain(common): | For ceil, block and blockchain(common): | ||
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{{ save | id=3186559 }} | {{ save | id=3186559 }} | ||
| − | == Schems == | + | === Schems === |
| − | == Introduction to Digit == | + | ==== Introduction to Digit ==== |
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Numbers - chars, - presentation. | Numbers - chars, - presentation. | ||
Revision as of 14:04, 15 December 2024
Introduction
Inside TPT You can find a long list of constructive solutions typeof "data storage" in order to allow signals to be reserved into other forms only. Instead of storage, - memory(RAM) - it is blockchains of vectorized, managed memory based on transitive P-N logic(math and energy) usable by ALU.
The details of organization on real memory modules s. a. DDR is not actual inside this context. To make primitive ALU Needed ~2x binary 8bit blocks of temporary memory and one for executor cache.
Ierarhy
- BlockChain
- Block
- Ceil
- Item - volume
- Origin - communicator
- Com - component of value
- Item - volume
- Ceil
- Block
Interfaces
For ceil, block and blockchain(common):
MOP(MVO)
- Add(1)&sub(0)
OPeration
- Add(1)&sub(0)
LS
- listof channels eq. Length of ceils
- Logic bits(sCOM) (MOP & OP 1/0) - sparked when out ouf range
3186559View save 3186559
Schems
Introduction to Digit
Numbers - chars, - presentation.
Codings:
- Original (Natural series, - on fingers)
Two states(1 bit) of origin - access to next ceil will be opened by each charged orig. - Serial communication. Example: PSTN with conductive usage (PSCN ADD & NSCN SUB, with -1 & ++ contacts for COM).
- Cryptographic
- Positional - access to next ceil will be opened by each charge seria
- binary - Dual volume seria
- octa
- decimal
- hexadecimal
