energyEfficiencyFeature
P27882
predicate
Indicates that an entity has a design, technology, or characteristic specifically intended to reduce energy consumption or improve energy performance.
All labels observed (21)
| Label | Occurrences |
|---|---|
| energyEfficiencyFeature canonical | 20 |
| energyEfficiency | 15 |
| powerEfficiency | 12 |
| energyPerformance | 7 |
| hasEnergyFeature | 5 |
| energySavingMeasure | 4 |
| energyEfficiencyMeasure | 3 |
| powerEfficiencyFocus | 3 |
| energyDesignFeature | 2 |
| energyEfficiencyGoal | 2 |
| fuelEfficiencyFeature | 2 |
| hasGreenBuildingFeatures | 2 |
| electricSpecificDesign | 1 |
| energyEfficiencyFocus | 1 |
| energyEfficient | 1 |
| energyReductionFactor | 1 |
| energySavingComparedToOlderStock | 1 |
| hasEnergyEfficiencyUpgrades | 1 |
| hasEnergyPerformance | 1 |
| isEnergyEfficient | 1 |
| powerEfficiencyClaim | 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: energyEfficiencyFeature
Generated description
Indicates that an entity has a design, technology, or characteristic specifically intended to reduce energy consumption or improve energy performance.
Sample triples (86)
| Subject | Object |
|---|---|
| City Hall, London | double-skin façade ⓘ |
| City Hall, London | helical internal ramp to reduce need for lifts ⓘ |
| Pauli Murray College | energy-efficient design via predicate surface "hasGreenBuildingFeatures" ⓘ |
| Pauli Murray College | sustainable materials via predicate surface "hasGreenBuildingFeatures" ⓘ |
| Apple M2 Pro | high via predicate surface "powerEfficiency" ⓘ |
|
Siemens S700 light rail vehicles
surface form:
Siemens S700
|
regenerative braking ⓘ |
|
Siemens S700 light rail vehicles
surface form:
Siemens S700
|
lightweight construction ⓘ |
| M2 Pro Mac mini | energy-efficient design via predicate surface "powerEfficiency" ⓘ |
| Pella Impervia | multi-pane glass options ⓘ |
| Pella Impervia | insulating glass ⓘ |
| Pella Impervia | low-E glass options ⓘ |
| Pella Impervia | argon gas fill options ⓘ |
| Pella 350 Series | designed to meet or exceed ENERGY STAR requirements in many regions via predicate surface "energyEfficiency" ⓘ |
| Europa building | high energy-efficiency standards via predicate surface "energyPerformance" ⓘ |
| ECB Main Building, Frankfurt | designed to meet high energy-efficiency standards via predicate surface "energyPerformance" ⓘ |
| Hearst Tower (New York City) | rainwater collection system ⓘ |
| Hearst Tower (New York City) | high-performance curtain wall ⓘ |
| Summit | ranked on Green500 list via predicate surface "energyEfficiency" ⓘ |
| ICC headquarters in The Hague | sustainable design elements via predicate surface "hasEnergyFeature" ⓘ |
| ICC headquarters in The Hague | energy-efficient façade via predicate surface "hasEnergyFeature" ⓘ |
| San Francisco Federal Building | reduced energy consumption compared to typical office buildings via predicate surface "energyEfficiencyGoal" ⓘ |
| Intel Core Solo | yes via predicate surface "powerEfficiencyFocus" ⓘ |
| Gracemont | yes via predicate surface "powerEfficiencyFocus" ⓘ |
| Extra Low ENergy Antiproton ring | about 50 via predicate surface "energyReductionFactor" ⓘ |
| Born–Infeld electrodynamics | finite total field energy for point charge via predicate surface "hasEnergyFeature" ⓘ |
| Swiss Re Headquarters | natural ventilation system ⓘ |
| Swiss Re Headquarters | daylighting design ⓘ |
| Swiss Re Headquarters | double-skin facade ⓘ |
| NGA Campus East | designed with sustainable building features via predicate surface "energyEfficiency" ⓘ |
| Chicago bungalows | relatively energy-efficient for their time via predicate surface "energyPerformance" ⓘ |
| Tour Incity | high environmental performance via predicate surface "energyPerformance" ⓘ |
| BYD Tang | high for its class (PHEV and EV variants) via predicate surface "energyEfficiency" ⓘ |
| BYD Seal | high via predicate surface "energyEfficiency" ⓘ |
| UltraSPARC T1 | yes via predicate surface "powerEfficiencyFocus" ⓘ |
|
ARMv5 architecture
surface form:
ARMv5
|
optimized for low power consumption via predicate surface "powerEfficiency" ⓘ |
| BMW M Performance (for i4 M50) | aerodynamics optimized for electric drivetrain efficiency via predicate surface "electricSpecificDesign" ⓘ |
| ARM Cortex-R series | optimized for embedded power envelopes via predicate surface "powerEfficiency" ⓘ |
| MPM-10 | regenerative braking ⓘ |
| MPM-10 | lightweight construction ⓘ |
| MPM-10 | efficient traction system ⓘ |
| ARM Mali-G710 MP7 | optimized for battery-powered devices via predicate surface "powerEfficiency" ⓘ |
| LCD TV | higher than CRT TV via predicate surface "energyEfficiency" ⓘ |
| Tensilica Xtensa LX6 | optimized for low-power operation via predicate surface "powerEfficiency" ⓘ |
| John W. Olver Transit Center | high energy efficiency via predicate surface "energyPerformance" ⓘ |
|
A10 Fusion chip
surface form:
Apple A10 Fusion
|
improved power efficiency over Apple A9 via predicate surface "powerEfficiencyClaim" ⓘ |
| The House | ultra-low energy use via predicate surface "energyEfficiency" ⓘ |
| Allianz Tower, Milan | designed with modern energy-efficiency standards via predicate surface "hasEnergyPerformance" ⓘ |
| Herman Teirlinck building | high insulation standards via predicate surface "hasEnergyFeature" ⓘ |
| Herman Teirlinck building | efficient glazing via predicate surface "hasEnergyFeature" ⓘ |
|
Class 139 Parry People Mover
surface form:
British Rail Class 139
|
high via predicate surface "energyEfficiency" ⓘ |