bitRepresentation
P48585
predicate
Indicates that one entity is the binary (bit-level) representation or encoding of another entity.
All labels observed (6)
| Label | Occurrences |
|---|---|
| numericRepresentation | 13 |
| bitRepresentation canonical | 6 |
| binaryFormat | 4 |
| encodesBit | 2 |
| binary | 1 |
| storesBitsAs | 1 |
Description generation (PDg)
The one-sentence description above was generated by prompting gpt-5.1 with the predicate name and this instruction.
Instruction
Given a predicate that represents a relationship or action between entities, generate a one-sentence description explaining its meaning. # Instructions Focus on describing the relationship, not the entities themselves. # Response Format Begin the description with \' Indicates...\'
Input
Predicate: bitRepresentation
Generated description
Indicates that one entity is the binary (bit-level) representation or encoding of another entity.
Sample triples (27)
| Subject | Object |
|---|---|
| Manchester encoding | logical 0 represented by high-to-low transition in IEEE 802.3 ⓘ |
| Manchester encoding | logical 1 represented by low-to-high transition in IEEE 802.3 ⓘ |
| Manchester encoding | logical 0 represented by low-to-high transition in G.E. Thomas convention ⓘ |
| Manchester encoding | logical 1 represented by high-to-low transition in G.E. Thomas convention ⓘ |
| NRZI | logical 1 causes inversion of current signal state ⓘ |
| NRZI | logical 0 leaves current signal state unchanged ⓘ |
| PDP-7 | two's complement via predicate surface "numericRepresentation" ⓘ |
| RRQ | 2-byte opcode followed by filename, 0 byte, mode, 0 byte, and options via predicate surface "binaryFormat" ⓘ |
| dyld |
Mach-O binary format
via predicate surface "binaryFormat"
ⓘ
surface form:
Mach-O
|
| Williams tube | charged and uncharged spots via predicate surface "storesBitsAs" ⓘ |
| BB84 quantum key distribution protocol | 0 via predicate surface "encodesBit" ⓘ |
| BB84 quantum key distribution protocol | 1 via predicate surface "encodesBit" ⓘ |
| IBM 704 | sign-magnitude via predicate surface "numericRepresentation" ⓘ |
| PDP-9 | two’s complement via predicate surface "numericRepresentation" ⓘ |
| IDXGIAdapter3 | dxgi.dll via predicate surface "binary" ⓘ |
| Universal 2 | fat binary via predicate surface "binaryFormat" ⓘ |
| KL10 | two's complement integers via predicate surface "numericRepresentation" ⓘ |
| BASIC-PLUS | floating-point by default via predicate surface "numericRepresentation" ⓘ |
| Commodore BASIC | floating-point arithmetic via predicate surface "numericRepresentation" ⓘ |
| Commodore BASIC | integer arithmetic via predicate surface "numericRepresentation" ⓘ |
| B5000 series | binary floating-point via predicate surface "numericRepresentation" ⓘ |
| B5000 series | binary fixed-point via predicate surface "numericRepresentation" ⓘ |
| B6700 | binary via predicate surface "numericRepresentation" ⓘ |
| CDC 1604 | ones-complement in early designs via predicate surface "numericRepresentation" ⓘ |
| CDC STAR-100 | floating-point via predicate surface "numericRepresentation" ⓘ |
| QXP | true via predicate surface "binaryFormat" ⓘ |
| UNIVAC II | binary-coded decimal via predicate surface "numericRepresentation" ⓘ |