designPowerOutput
P10373
predicate
Indicates the intended or specified power output level that something is designed to produce under defined conditions.
All labels observed (18)
| Label | Occurrences |
|---|---|
| powerOutputClass | 19 |
| ratedPower | 13 |
| powerOutputThermal | 5 |
| hasPowerOutput | 4 |
| powerOutputElectrical | 4 |
| transmissionPower | 3 |
| designedPower | 2 |
| designedPowerLevel | 2 |
| designedPowerOutput | 2 |
| designedThermalPower | 2 |
| designBeamPower | 1 |
| designElectricalOutput | 1 |
| designElectricalOutput_MWe | 1 |
| designPowerOutput canonical | 1 |
| designedElectricalOutput | 1 |
| designedFusionPowerOutput | 1 |
| designedInputHeatingPower | 1 |
| powerOutputCondition | 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: designPowerOutput
Generated description
Indicates the intended or specified power output level that something is designed to produce under defined conditions.
Sample triples (64)
| Subject | Object |
|---|---|
| B Reactor | approximately 250 megawatts thermal ⓘ |
| Arecibo message | about 1000 kW via predicate surface "transmissionPower" ⓘ |
| N Reactor | approximately 860 MWe via predicate surface "powerOutputElectrical" ⓘ |
| N Reactor | approximately 4000 MWt via predicate surface "powerOutputThermal" ⓘ |
| Tesla Megacharger | megawatt-class charging via predicate surface "powerOutputClass" ⓘ |
| Spallation Neutron Source | 1.4 MW via predicate surface "designBeamPower" ⓘ |
| L Reactor | approximately 2,800 MWth via predicate surface "designedThermalPower" ⓘ |
| L Reactor | none (non‑power production reactor) via predicate surface "designedElectricalOutput" ⓘ |
| Experimental Breeder Reactor I | about 200 kilowatts via predicate surface "powerOutputElectrical" ⓘ |
| Experimental Breeder Reactor I | about 1.4 megawatts via predicate surface "powerOutputThermal" ⓘ |
| Daimler-Benz DB 606 | around 2700 horsepower via predicate surface "powerOutputClass" ⓘ |
| Class 222 Meridian | high power-to-weight ratio via predicate surface "hasPowerOutput" ⓘ |
| V-1650-3 | takeoff power via predicate surface "powerOutputCondition" ⓘ |
| Siemens SWT-3.6-107 | 3.6 MW via predicate surface "ratedPower" ⓘ |
| Siemens SWT-3.6-107 | 3600 kW via predicate surface "ratedPower" ⓘ |
| Vestas V80 | 2000 kW via predicate surface "ratedPower" ⓘ |
| USS Washington (BB-47) | 28000 shaft horsepower via predicate surface "designedPower" ⓘ |
| Vestas V90-3.0 MW | 3 MW via predicate surface "ratedPower" ⓘ |
| Vestas V90-3.0 MW | 3000 kW via predicate surface "ratedPower" ⓘ |
| REpower 5M | 5 megawatts via predicate surface "ratedPower" ⓘ |
| REpower 5M | 5000 kilowatts via predicate surface "ratedPower" ⓘ |
| University of Missouri Research Reactor | 10 megawatts thermal via predicate surface "designedPowerLevel" ⓘ |
|
Mitsubishi Ha-104 radial engine
surface form:
Mitsubishi Ha-104
|
approximately 1900 horsepower via predicate surface "powerOutputClass" ⓘ |
| K15 pressurized water reactor | approximately 150 megawatts thermal equivalent for propulsion and onboard systems via predicate surface "powerOutputElectrical" ⓘ |
|
Nakajima Ha-5 radial engine
surface form:
Nakajima Ha-5
|
around 800–900 horsepower via predicate surface "powerOutputClass" ⓘ |
| GP40PH-2 | 3000 hp class via predicate surface "hasPowerOutput" ⓘ |
|
Nakajima Ha-109 radial engine
surface form:
Nakajima Ha-109
|
around 1,500 horsepower via predicate surface "powerOutputClass" ⓘ |
| DB 605A | about 1310 PS at altitude via predicate surface "ratedPower" ⓘ |
| Kuznetsov NK-12 | over 11,000 kW via predicate surface "powerOutputClass" ⓘ |
| Kuznetsov NK-12 | over 15,000 shp via predicate surface "powerOutputClass" ⓘ |
| Molten-Salt Reactor Experiment at Oak Ridge | about 10 megawatts thermal via predicate surface "designedPowerLevel" ⓘ |
| Arak heavy water reactor | 40 megawatts thermal via predicate surface "designedThermalPower" ⓘ |
| GP40MC | 3000–3500 hp range via predicate surface "powerOutputClass" ⓘ |
| ITER | 500 megawatts via predicate surface "designedFusionPowerOutput" ⓘ |
| ITER | about 50 megawatts via predicate surface "designedInputHeatingPower" ⓘ |
| Napier Eland | around 3,000 shaft horsepower via predicate surface "powerOutputClass" ⓘ |
| Fiat A.80 | high-power piston aircraft engine via predicate surface "powerOutputClass" ⓘ |
|
Ivchenko AI-20 turboprop
surface form:
Ivchenko AI-20
|
4000–5000 shaft horsepower via predicate surface "powerOutputClass" ⓘ |
| Klimov TV3-117 | approximately 1,900–2,200 shaft horsepower via predicate surface "powerOutputClass" ⓘ |
| XEW-AM | high-power AM signal via predicate surface "transmissionPower" ⓘ |
|
Class 387/1
surface form:
British Rail Class 387/1
|
1,680 kW per unit (approximate) via predicate surface "hasPowerOutput" ⓘ |
|
Clemson class
surface form:
Clemson-class destroyer
|
27,000 shaft horsepower via predicate surface "designedPower" ⓘ |
| V-320 | approximately 1000 MWe via predicate surface "powerOutputElectrical" ⓘ |
| V-320 | approximately 3000 MWt via predicate surface "powerOutputThermal" ⓘ |
| Siemens SWT-3.6-120 | 3.6 MW via predicate surface "ratedPower" ⓘ |
| Siemens SWT-3.6-120 | 3600 kW via predicate surface "ratedPower" ⓘ |
|
Nakajima Homare radial engine
surface form:
Nakajima Homare
|
approximately 1800–2000 horsepower via predicate surface "powerOutputClass" ⓘ |
| X-10 | 4000 kW via predicate surface "powerOutputThermal" ⓘ |
| Siemens SWT-2.3-93 | 2.3 MW via predicate surface "ratedPower" ⓘ |
| Siemens SWT-2.3-93 | 2300 kW via predicate surface "ratedPower" ⓘ |