Bulk Simulation

Bulk simulation methods offer a set of PV simulation operations both with and without the need to first create EnergySites using the Solar Site Management methods. The BulkSimulate method allows the client to simulate PV power and energy, and request the associated weather and irradiance data for a specific list of their sites under license, using the EnergySiteId.

 

Alternatively, the client can request PV power and energy simulations along with the associated weather and irradiance data by passing solar site specifications with the simulation request. This approach, which uses the Simulation method, does not require an EnergySiteId to be first requested.

Bulk Simulation Options

Option 1: Simulate PV output from a list of EnergySiteIds. To learn how to create an EnergySiteId, see Solar Site Management.

import requests
from requests.auth import HTTPBasicAuth

url = "https://service.solaranywhere.com/api/v1/BulkSimulate"
userName = "your_username@your_company.com"
password = "your_password"

querystring = {"key":"your_client_key"}

payload = """<BulkSimulationRequest xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" 
 xmlns:xsd="http://www.w3.org/2001/XMLSchema" xmlns="http://service.solaranywhere.com/api/v1">
<EnergySiteIds>
 <EnergySiteId>your_site_id</EnergySiteId>
 <EnergySiteId>your_site_id</EnergySiteId>
</EnergySiteIds>
<SimulationOptions PVSimulationModel="PVFORM" ShadingModel="ShadeSimulator">
 <WeatherDataOptions WeatherDataSource="SolarAnywhere3_2" 
  StartTime="2011-01-01T09:00:00-08:00" EndTime="2011-01-01T11:00:00-08:00"/>
  <IntermediateResults>
   <IntermediateResult>PowerAC</IntermediateResult>
   <IntermediateResult>GlobalHorizontal</IntermediateResult>
   <IntermediateResult>AmbientTemperature</IntermediateResult>
   <IntermediateResult>WindSpeed</IntermediateResult>
  </IntermediateResults>
 </SimulationOptions>
</BulkSimulationRequest>"""

headers = {
    'content-type': "text/xml; charset=utf-8",
    'content-length': "length",
    }

response = requests.post(url,auth = HTTPBasicAuth(userName,password),data=payload,
           headers=headers, params=querystring)

print(response.text)

Option 2: Simulate PV output without first creating a list of EnergySiteIds. This method operates asynchronously, requiring the client to POST their simulation request, then retrieve data using a GET request.

import requests
from requests.auth import HTTPBasicAuth
import xml.etree.ElementTree as ET
import time


#POST Create Simulation Request
url = "https://service.solaranywhere.com/api/v2/Simulation"
userName = "your_username@your_company.com"
password = "your_password"

querystring = {"key":"your_client_key"}

payload = """<CreateSimulationRequest xmlns="http://service.solaranywhere.com/api/v2">
 <EnergySites>
  <EnergySite Name="BulkSimulation V2 Site" Description="Site Description">
   <Location Latitude="34.65" Longitude="-119.1" />
    <PvSystems>
     <PvSystem Albedo_Percent="17" GeneralDerate_Percent="85.00">
      <Inverters>
       <Inverter Count="1" MaxPowerOutputAC_kW="4.470000" EfficiencyRating_Percent="97.000000" />
      </Inverters>
      <PvArrays>
       <PvArray>
        <PvModules>
         <PvModule Count="1" NameplateDCRating_kW="0.22000" PtcRating_kW="0.19760" 
          PowerTemperatureCoefficient_PercentPerDegreeC="0.4" NominalOperatingCellTemperature_DegreesC="45" />
        </PvModules>
        <ArrayConfiguration Azimuth_Degrees="177.000" Tilt_Degrees="25.000" Tracking="Fixed" 
         TrackingRotationLimit_Degrees="90" ModuleRowCount="1" RelativeRowSpacing="3" />
        <SolarObstructions>
         <SolarObstruction Azimuth_Degrees="90.000" Elevation_Degrees="33.000" Opacity_Percent="80"/>
         <SolarObstruction Azimuth_Degrees="120.000" Elevation_Degrees="50.000" />
         <SolarObstruction Azimuth_Degrees="150.000" Elevation_Degrees="22.000" />
         <SolarObstruction Azimuth_Degrees="180.000" Elevation_Degrees="3.000" />
         <SolarObstruction Azimuth_Degrees="210.000" Elevation_Degrees="1.000" />
         <SolarObstruction Azimuth_Degrees="240.000" Elevation_Degrees="2.000" />
         <SolarObstruction Azimuth_Degrees="270.000" Elevation_Degrees="4.000" Opacity_Percent="70"/>
        </SolarObstructions>
        <MonthlyShadings>
         <MonthlyShading MonthNumber="1" SolarAccess_Percent="77.0"/>
         <MonthlyShading MonthNumber="2" SolarAccess_Percent="87.0"/>
         <MonthlyShading MonthNumber="3" SolarAccess_Percent="98.0"/>
         <MonthlyShading MonthNumber="4" SolarAccess_Percent="100.0"/>
         <MonthlyShading MonthNumber="5" SolarAccess_Percent="100.0"/>
         <MonthlyShading MonthNumber="6" SolarAccess_Percent="100.0"/>
         <MonthlyShading MonthNumber="7" SolarAccess_Percent="100.0"/>
         <MonthlyShading MonthNumber="8" SolarAccess_Percent="100.0"/>
         <MonthlyShading MonthNumber="9" SolarAccess_Percent="100.0"/>
         <MonthlyShading MonthNumber="10" SolarAccess_Percent="100.0"/>
         <MonthlyShading MonthNumber="11" SolarAccess_Percent="100.0"/>
         <MonthlyShading MonthNumber="12" SolarAccess_Percent="91.0"/>
        </MonthlyShadings>
       </PvArray>
      </PvArrays>
       </PvSystem>
     </PvSystems>
    </EnergySite>
  </EnergySites>
 <SimulationOptions
  PowerModel="CprPVForm"
  ShadingModel="MonthlyPercentSolarResource" 
  OutputFields="StartTime,EndTime,PowerAC_kW,EnergyAC_kWh,
  GlobalHorizontalIrradiance_WattsPerMeterSquared,IrradianceObservationType,
  AmbientTemperature_DegreesC,AmbientTemperatureObservationType,
  WindSpeed_MetersPerSecond,WindSpeedObservationType,PlaneOfArrayIrradiance_WattsPerMeterSquared,
  SnowDepth_Meters,LiquidPrecipitation_KilogramsPerMeterSquared,
  SolidPrecipitation_KilogramsPerMeterSquared">
 <WeatherDataOptions
  WeatherDataSource="SolarAnywhere3_2"
  WeatherDataPreference = "Auto"
  PerformTimeShifting = "false"
  StartTime="2011-01-01T09:00:00-08:00"
  EndTime="2011-01-01T11:00:00-08:00"
  SpatialResolution_Degrees="0.1"
  TimeResolution_Minutes="60"/>
 </SimulationOptions>
</CreateSimulationRequest>"""

headers = {
 'content-type': "text/xml; charset=utf-8",
 'content-length': "length",
 }

response = requests.post(url,auth = HTTPBasicAuth(userName,password),data=payload,
           headers=headers,params=querystring)

root = ET.fromstring(response.content)
print(response.content)
print("-----")

publicId = root.attrib.get("SimulationId")
print(publicId)

#GET SimulationResult
url2 = "https://service.solaranywhere.com/api/v2/SimulationResult/"

requestNumber = 0
MAX_requestNumber = 100

while(requestNumber < MAX_requestNumber):
 time.sleep(5)
 data = requests.get(url2 + publicId,auth = HTTPBasicAuth(userName,password))
 radicle = ET.fromstring(data.content) 
 status = radicle.attrib.get("Status")
 print(radicle)
 if status == "Done":
  print(data.content)
  break
 else:
  requestNumber = requestNumber + 1

 

Request

Within the set of Simulation operations, the client can perform bulk simulation using a consistent input data and time range. Each Simulation request contains a set of individual solar sites that are defined by a specification according to input fields outlined in the Complete Schema. The simulation options structure allows client applications to specify the desired simulation model, shading model, output fields and weather data source. Each simulation then requires the client to specify the StartTime and EndTime.  Spatial resolution is tied to the irradiance model. The time resolution returns the most granular time step available within the client license.

 

For more detail on available options, see the Complete Schema.

 

Here are a few sample Simulation request payloads using different types of weather data configurations.  For the time-based calls, time stamps are based on current clock time of 2017-11-02T00:00:00-08:00.

<CreateSimulationRequest xmlns="http://service.solaranywhere.com/api/v2">
 <EnergySites>
  <EnergySite Name="Sample Site" Description="Typical GHI Year With Monthly Sums">
   <Location Latitude="34.65" Longitude="-119.1" />
    <PvSystems>
     <PvSystem Albedo_Percent="17" GeneralDerate_Percent="85.00">
      <Inverters>
       <Inverter Count="1" MaxPowerOutputAC_kW="4.470000" EfficiencyRating_Percent="97.000000" />
      </Inverters>
     <PvArrays>
    <PvArray>
     <PvModules>
      <PvModule Count="1" NameplateDCRating_kW="0.22000" PtcRating_kW="0.19760" 
       PowerTemperatureCoefficient_PercentPerDegreeC="0.4" NominalOperatingCellTemperature_DegreesC="45" />
     </PvModules>
     <ArrayConfiguration Azimuth_Degrees="177.000" Tilt_Degrees="25.000" Tracking="Fixed" 
      TrackingRotationLimit_Degrees="90" ModuleRowCount="1" RelativeRowSpacing="3" />
     <MonthlyShadings>
      <MonthlyShading MonthNumber="1" SolarAccess_Percent="77.0"/>
      <MonthlyShading MonthNumber="2" SolarAccess_Percent="87.0"/>
      <MonthlyShading MonthNumber="3" SolarAccess_Percent="98.0"/>
      <MonthlyShading MonthNumber="4" SolarAccess_Percent="100.0"/>
      <MonthlyShading MonthNumber="5" SolarAccess_Percent="100.0"/>
      <MonthlyShading MonthNumber="6" SolarAccess_Percent="100.0"/>
      <MonthlyShading MonthNumber="7" SolarAccess_Percent="100.0"/>
      <MonthlyShading MonthNumber="8" SolarAccess_Percent="100.0"/>
      <MonthlyShading MonthNumber="9" SolarAccess_Percent="100.0"/>
      <MonthlyShading MonthNumber="10" SolarAccess_Percent="100.0"/>
      <MonthlyShading MonthNumber="11" SolarAccess_Percent="100.0"/>
      <MonthlyShading MonthNumber="12" SolarAccess_Percent="91.0"/>
     </MonthlyShadings>
    </PvArray>
   </PvArrays>
    </PvSystem>
   </PvSystems>
  </EnergySite>
 </EnergySites>
 <SimulationOptions
  PowerModel="CprPVForm"
  ShadingModel="MonthlyPercentSolarResource" 
  OutputFields="StartTime,EndTime,PowerAC_kW,EnergyAC_kWh,GlobalHorizontalIrradiance_WattsPerMeterSquared,
  AmbientTemperature_DegreesC,WindSpeed_MetersPerSecond,PlaneOfArrayIrradiance_WattsPerMeterSquared"
  SummaryOutputFields="TotalEnergy">
 <WeatherDataOptions
  WeatherDataSource="SolarAnywhereTGY2016"
  WeatherDataPreference = "Auto"
  SpatialResolution_Degrees="0.1"
  TimeResolution_Minutes="60"/>
 </SimulationOptions>
</CreateSimulationRequest>
<CreateSimulationRequest xmlns="http://service.solaranywhere.com/api/v2">
 <EnergySites>
  <EnergySite Name="Sample Site" Description="Trailing 24 Hours for O&M">
   <Location Latitude="34.65" Longitude="-119.1" />
    <PvSystems>
     <PvSystem Albedo_Percent="17" GeneralDerate_Percent="85.00">
      <Inverters>
       <Inverter Count="1" MaxPowerOutputAC_kW="4.470000" EfficiencyRating_Percent="97.000000" />
      </Inverters>
     <PvArrays>
    <PvArray>
     <PvModules>
      <PvModule Count="1" NameplateDCRating_kW="0.22000" PtcRating_kW="0.19760" 
       PowerTemperatureCoefficient_PercentPerDegreeC="0.4" NominalOperatingCellTemperature_DegreesC="45" />
     </PvModules>
     <ArrayConfiguration Azimuth_Degrees="177.000" Tilt_Degrees="25.000" Tracking="Fixed" 
      TrackingRotationLimit_Degrees="90" ModuleRowCount="1" RelativeRowSpacing="3" />
     <SolarObstructions>
      <SolarObstruction Azimuth_Degrees="90.000" Elevation_Degrees="33.000" Opacity_Percent="80"/>
      <SolarObstruction Azimuth_Degrees="120.000" Elevation_Degrees="50.000" />
      <SolarObstruction Azimuth_Degrees="150.000" Elevation_Degrees="22.000" />
      <SolarObstruction Azimuth_Degrees="180.000" Elevation_Degrees="3.000" />
      <SolarObstruction Azimuth_Degrees="210.000" Elevation_Degrees="1.000" />
      <SolarObstruction Azimuth_Degrees="240.000" Elevation_Degrees="2.000" />
      <SolarObstruction Azimuth_Degrees="270.000" Elevation_Degrees="4.000" Opacity_Percent="70"/>
     </SolarObstructions>
    </PvArray>
   </PvArrays>
    </PvSystem>
   </PvSystems>
  </EnergySite>
 </EnergySites>
 <SimulationOptions
  PowerModel="CprPVForm"
  ShadingModel="ShadeSimulator" 
  OutputFields="StartTime,EndTime,PowerAC_kW,EnergyAC_kWh,GlobalHorizontalIrradiance_WattsPerMeterSquared,
  IrradianceObservationType,AmbientTemperature_DegreesC,AmbientTemperatureObservationType,
  WindSpeed_MetersPerSecond,WindSpeedObservationType,PlaneOfArrayIrradiance_WattsPerMeterSquared,
  SnowDepth_Meters,LiquidPrecipitation_KilogramsPerMeterSquared,
  SolidPrecipitation_KilogramsPerMeterSquared">
 <WeatherDataOptions
  WeatherDataSource="SolarAnywhere3_2"
  WeatherDataPreference = "Auto"
  PerformTimeShifting = "true"
  StartTime="2017-11-01T00:00:00-08:00"
  EndTime="2017-11-02T00:00:00-08:00"
  SpatialResolution_Degrees="0.1"
  TimeResolution_Minutes="60"/>
 </SimulationOptions>
</CreateSimulationRequest>
<CreateSimulationRequest xmlns="http://service.solaranywhere.com/api/v2">
 <EnergySites>
  <EnergySite Name="Sample Site" Description="Sample Single Site 7-Day Forecast">
   <Location Latitude="34.65" Longitude="-119.1" />
    <PvSystems>
     <PvSystem Albedo_Percent="17" GeneralDerate_Percent="85.00">
      <Inverters>
       <Inverter Count="1" MaxPowerOutputAC_kW="4.470000" EfficiencyRating_Percent="97.000000" />
      </Inverters>
     <PvArrays>
    <PvArray>
     <PvModules>
      <PvModule Count="1" NameplateDCRating_kW="0.22000" PtcRating_kW="0.19760" 
       PowerTemperatureCoefficient_PercentPerDegreeC="0.4" NominalOperatingCellTemperature_DegreesC="45" />
     </PvModules>
     <ArrayConfiguration Azimuth_Degrees="177.000" Tilt_Degrees="25.000" Tracking="Fixed" 
      TrackingRotationLimit_Degrees="90" ModuleRowCount="1" RelativeRowSpacing="3" />
     <SolarObstructions>
      <SolarObstruction Azimuth_Degrees="90.000" Elevation_Degrees="33.000" Opacity_Percent="80"/>
      <SolarObstruction Azimuth_Degrees="120.000" Elevation_Degrees="50.000" />
      <SolarObstruction Azimuth_Degrees="150.000" Elevation_Degrees="22.000" />
      <SolarObstruction Azimuth_Degrees="180.000" Elevation_Degrees="3.000" />
      <SolarObstruction Azimuth_Degrees="210.000" Elevation_Degrees="1.000" />
      <SolarObstruction Azimuth_Degrees="240.000" Elevation_Degrees="2.000" />
      <SolarObstruction Azimuth_Degrees="270.000" Elevation_Degrees="4.000" Opacity_Percent="70"/>
     </SolarObstructions>
    </PvArray>
   </PvArrays>
    </PvSystem>
   </PvSystems>
  </EnergySite>
 </EnergySites>
 <SimulationOptions
  PowerModel="CprPVForm"
  ShadingModel="ShadeSimulator" 
  OutputFields="StartTime,EndTime,PowerAC_kW,EnergyAC_kWh,GlobalHorizontalIrradiance_WattsPerMeterSquared,
  IrradianceObservationType,AmbientTemperature_DegreesC,AmbientTemperatureObservationType,
  WindSpeed_MetersPerSecond,WindSpeedObservationType,PlaneOfArrayIrradiance_WattsPerMeterSquared,
  SnowDepth_Meters,LiquidPrecipitation_KilogramsPerMeterSquared,
  SolidPrecipitation_KilogramsPerMeterSquared">
 <WeatherDataOptions
  WeatherDataSource="SolarAnywhere3_2"
  WeatherDataPreference = "Auto"
  PerformTimeShifting = "true"
  StartTime="2017-11-02T00:00:00-08:00"
  EndTime="2017-11-09T00:00:00-08:00"
  SpatialResolution_Degrees="0.1"
  TimeResolution_Minutes="60"/>
 </SimulationOptions>
</CreateSimulationRequest>
<CreateSimulationRequest xmlns="http://service.solaranywhere.com/api/v2">
 <EnergySites>
  <EnergySite Name="Sample Site" Description="Sample Trailing Monthly Total">
   <Location Latitude="34.65" Longitude="-119.1" />
    <PvSystems>
     <PvSystem Albedo_Percent="17" GeneralDerate_Percent="85.00">
      <Inverters>
       <Inverter Count="1" MaxPowerOutputAC_kW="4.470000" EfficiencyRating_Percent="97.000000" />
      </Inverters>
     <PvArrays>
    <PvArray>
     <PvModules>
      <PvModule Count="1" NameplateDCRating_kW="0.22000" PtcRating_kW="0.19760" 
       PowerTemperatureCoefficient_PercentPerDegreeC="0.4" NominalOperatingCellTemperature_DegreesC="45" />
     </PvModules>
     <ArrayConfiguration Azimuth_Degrees="177.000" Tilt_Degrees="25.000" Tracking="Fixed" 
      TrackingRotationLimit_Degrees="90" ModuleRowCount="1" RelativeRowSpacing="3" />
     <MonthlyShadings>
      <MonthlyShading MonthNumber="1" SolarAccess_Percent="77.0"/>
      <MonthlyShading MonthNumber="2" SolarAccess_Percent="87.0"/>
      <MonthlyShading MonthNumber="3" SolarAccess_Percent="98.0"/>
      <MonthlyShading MonthNumber="4" SolarAccess_Percent="100.0"/>
      <MonthlyShading MonthNumber="5" SolarAccess_Percent="100.0"/>
      <MonthlyShading MonthNumber="6" SolarAccess_Percent="100.0"/>
      <MonthlyShading MonthNumber="7" SolarAccess_Percent="100.0"/>
      <MonthlyShading MonthNumber="8" SolarAccess_Percent="100.0"/>
      <MonthlyShading MonthNumber="9" SolarAccess_Percent="100.0"/>
      <MonthlyShading MonthNumber="10" SolarAccess_Percent="100.0"/>
      <MonthlyShading MonthNumber="11" SolarAccess_Percent="100.0"/>
      <MonthlyShading MonthNumber="12" SolarAccess_Percent="91.0"/>
     </MonthlyShadings>
    </PvArray>
   </PvArrays>
    </PvSystem>
   </PvSystems>
  </EnergySite>
 </EnergySites>
 <SimulationOptions
  PowerModel="CprPVForm"
  ShadingModel="MonthlyPercentSolarResource" 
  SummaryOutputFields="TotalEnergy" >
 <WeatherDataOptions
  WeatherDataSource="SolarAnywhere3_2"
  WeatherDataPreference = "Auto"
  PerformTimeShifting = "true"
  StartTime="2017-10-01T00:00:00-08:00"
  EndTime="2017-11-01T00:00:00-08:00"
  SpatialResolution_Degrees="0.1"
  TimeResolution_Minutes="60"/>
 </SimulationOptions>
</CreateSimulationRequest>
Response

The standard response will contain the following data. Depending on the OutputField or SummaryOutputField attributes included, the client can tailor the response depending on the desired data to be returned.  The sample responses below are for the GET request to SimulationResults, whereas the sample requests above are the POST files sent to Simulation.

<GetSimulationResultResponse SimulationId="CHEUE9P" Status="Done"
 RequestId="8HZ0C3P7U" xmlns="http://service.solaranywhere.com/api/v2">
 <SimulationResults>
  <SimulationResult Status="Success" EnergySiteName="Sample Site">
   <WeatherSourceInformation WeatherSiteName="SolarAnywhereTGY2016" Latitude="34.65" 
    Longitude="-119.1" Elevation_Meters="1553" />
   <Summary TotalEnergyAC_kWh="95.23125">
    <AnnualSummary>
     <Year TotalEnergyAC_kWh="95.23125">
      <Monthly MonthNumber="1" TotalEnergyAC_kWh="3.425924" />
      <Monthly MonthNumber="2" TotalEnergyAC_kWh="4.517446" />
      <Monthly MonthNumber="3" TotalEnergyAC_kWh="9.237422" />
      <Monthly MonthNumber="4" TotalEnergyAC_kWh="9.753363" />
      <Monthly MonthNumber="5" TotalEnergyAC_kWh="10.5596" />
      <Monthly MonthNumber="6" TotalEnergyAC_kWh="9.757954" />
      <Monthly MonthNumber="7" TotalEnergyAC_kWh="9.6637" />
      <Monthly MonthNumber="8" TotalEnergyAC_kWh="9.879621" />
      <Monthly MonthNumber="9" TotalEnergyAC_kWh="8.940073" />
      <Monthly MonthNumber="10" TotalEnergyAC_kWh="8.356474" />
      <Monthly MonthNumber="11" TotalEnergyAC_kWh="6.461488" />
      <Monthly MonthNumber="12" TotalEnergyAC_kWh="4.678185" />
     </Year>
    </AnnualSummary>
   </Summary>
   <SimulationPeriods TimeResolution_Minutes="60" FirstStartTime="2008-12-31T23:00:00-08:00">
    <SimulationPeriod StartTime="2009-12-31T23:00:00-08:00" EndTime="2010-01-01T00:00:00-08:00" 
     EnergyAC_kWh="0" PowerAC_kW="0" GlobalHorizontalIrradiance_WattsPerMeterSquared="0" 
     AmbientTemperature_DegreesC="3" WindSpeed_MetersPerSecond="5" 
     PlaneOfArrayIrradiance_WattsPerMeterSquared="0" />
...[Results truncated due to length of response]
<GetSimulationResultResponse SimulationId="CW8HTUF" Status="Done"
 RequestId="7MEY13QCR" xmlns="http://service.solaranywhere.com/api/v2">
 <SimulationResults>
  <SimulationResult Status="Success" EnergySiteName="Sample Site">
   <WeatherSourceInformation WeatherSiteName="SolarAnywhere3_2" Latitude="34.65"
    Longitude="-119.1" Elevation_Meters="1553" />
   <SimulationPeriods TimeResolution_Minutes="60" FirstStartTime="2017-11-01T00:00:00-08:00">
    <SimulationPeriod StartTime="2017-11-01T00:00:00-08:00" EndTime="2017-11-01T01:00:00-08:00" 
     EnergyAC_kWh="0" PowerAC_kW="0" GlobalHorizontalIrradiance_WattsPerMeterSquared="0" 
     AmbientTemperature_DegreesC="6" AmbientTemperatureObservationType="O" WindSpeed_MetersPerSecond="1" 
     WindSpeedObservationType="O" IrradianceObservationType="AN" 
     PlaneOfArrayIrradiance_WattsPerMeterSquared="0" SnowDepth_Meters="0" 
     LiquidPrecipitation_KilogramsPerMeterSquared="0" SolidPrecipitation_KilogramsPerMeterSquared="0" />
...[Results truncated due to length of response]
<GetSimulationResultResponse SimulationId="3AX5XT0" Status="Done"
 RequestId="XHD9JENZ9" xmlns="http://service.solaranywhere.com/api/v2">
 <SimulationResults>
  <SimulationResult Status="Success" EnergySiteName="Sample Site">
   <WeatherSourceInformation WeatherSiteName="SolarAnywhere3_2" Latitude="34.65"
    Longitude="-119.1" Elevation_Meters="1553" />
   <SimulationPeriods TimeResolution_Minutes="60" FirstStartTime="2017-11-02T00:00:00-08:00">
    <SimulationPeriod StartTime="2017-11-02T00:00:00-08:00" 
     EndTime="2017-11-02T01:00:00-08:00" EnergyAC_kWh="0" PowerAC_kW="0" 
     GlobalHorizontalIrradiance_WattsPerMeterSquared="0" AmbientTemperature_DegreesC="4" 
     AmbientTemperatureObservationType="O" WindSpeed_MetersPerSecond="2" WindSpeedObservationType="O" 
     IrradianceObservationType="FN" PlaneOfArrayIrradiance_WattsPerMeterSquared="0" SnowDepth_Meters="0" 
     LiquidPrecipitation_KilogramsPerMeterSquared="0" SolidPrecipitation_KilogramsPerMeterSquared="0" />
...[Results truncated due to length of response]
<GetSimulationResultResponse SimulationId="VCGAT2P" Status="Done"
 RequestId="BQF625K8W" xmlns="http://service.solaranywhere.com/api/v2">
 <SimulationResults>
  <SimulationResult Status="Success" EnergySiteName="Sample Site">
   <WeatherSourceInformation WeatherSiteName="SolarAnywhere3_2" Latitude="34.65"
    Longitude="-119.1" Elevation_Meters="1553" />
   <Summary TotalEnergyAC_kWh="9.097191">
    <AnnualSummary>
     <Year YearNumber="2017" PartialYear="true" TotalEnergyAC_kWh="9.097191">
      <Monthly MonthNumber="10" TotalEnergyAC_kWh="9.097191" />
     </Year>
    </AnnualSummary>
   </Summary>
  </SimulationResult>
 </SimulationResults>
</GetSimulationResultResponse>

What’s Next?