usesTopology
P33685
predicate
Indicates that one entity employs, is based on, or operates according to a particular topology defined or provided by another entity.
All labels observed (11)
| Label | Occurrences |
|---|---|
| usesTopology canonical | 7 |
| topologyUsed | 4 |
| supportsNetworkTopology | 3 |
| switchingTopology | 3 |
| networkTopologySupport | 2 |
| topologyDefinedBy | 2 |
| topologyInvolved | 2 |
| clusterTopology | 1 |
| interconnectionTopology | 1 |
| topologyInducedEquals | 1 |
| topologyModel | 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: usesTopology
Generated description
Indicates that one entity employs, is based on, or operates according to a particular topology defined or provided by another entity.
Sample triples (27)
| Subject | Object |
|---|---|
| Wi‑Fi | infrastructure mode ⓘ |
| Wi‑Fi | ad hoc mode ⓘ |
| Wi‑Fi | mesh networking ⓘ |
| Whitney approximation theorem | compact-open topology via predicate surface "topologyUsed" ⓘ |
| Whitney approximation theorem | C^0 topology on spaces of maps via predicate surface "topologyUsed" ⓘ |
| Alexandrov compactification | open sets of original space plus sets whose complement is compact via predicate surface "topologyDefinedBy" ⓘ |
|
Montel theorem
surface form:
Montel's theorem
|
compact-open topology via predicate surface "topologyUsed" ⓘ |
|
Montel theorem
surface form:
Montel's theorem
|
topology of uniform convergence on compact sets via predicate surface "topologyUsed" ⓘ |
| Gelfand representation of commutative C*-algebras |
Gelfand representation of commutative C*-algebras
self-linksurface differs
ⓘ
surface form:
Gelfand topology
|
| Gelfand representation of commutative C*-algebras | weak-* topology on the character space ⓘ |
| CompactLogix | star topology on Ethernet via predicate surface "supportsNetworkTopology" ⓘ |
| Simple Switcher regulators | buck via predicate surface "switchingTopology" ⓘ |
| Simple Switcher regulators | boost via predicate surface "switchingTopology" ⓘ |
| Simple Switcher regulators | buck‑boost via predicate surface "switchingTopology" ⓘ |
| Banach–Alaoglu theorem | weak-* topology via predicate surface "topologyInvolved" ⓘ |
| Banach–Alaoglu theorem | weak-star topology via predicate surface "topologyInvolved" ⓘ |
| BBN Butterfly parallel computer | butterfly network via predicate surface "interconnectionTopology" ⓘ |
| Intel Omni-Path Architecture | fat-tree topologies via predicate surface "networkTopologySupport" ⓘ |
| Intel Omni-Path Architecture | dragonfly topologies via predicate surface "networkTopologySupport" ⓘ |
| LSP PDU | link-state database via predicate surface "topologyModel" ⓘ |
| XG-PON | point-to-multipoint ⓘ |
| RethinkDB | peer-to-peer via predicate surface "clusterTopology" ⓘ |
| Schwartz space | countable family of seminorms via predicate surface "topologyDefinedBy" ⓘ |
| Teichmüller metric | standard topology on Teichmüller space via predicate surface "topologyInducedEquals" ⓘ |
| USB 1.0 | tiered star topology ⓘ |
| DVB-H | single-frequency networks via predicate surface "supportsNetworkTopology" ⓘ |
| DVB-H | multi-frequency networks via predicate surface "supportsNetworkTopology" ⓘ |