U.S. Environmental Protection Agency20220127eGRID2020 YEAR 2020 DATAvector digital dataWashington, D.C.U.S. Environmental Protection AgencyState of Floridahttps://www.epa.gov/egrid/download-dataThe Emissions & Generation Resource Integrated Database (eGRID) is a comprehensive source of data on the environmental characteristics of almost all electric power generated in the United States. The preeminent source of emissions data for the electric power sector, eGRID is based on available plant-specific data for all U.S. electricity generating plants that provide power to the electric grid and report data to the U.S. government. Data reported include, but are not limited to, net electric generation; resource mix (for renewable and nonrenewable generation); mass emissions of carbon dioxide (CO2), nitrogen oxides (NOx), sulfur dioxide (SO2), methane (CH4), nitrous oxide (N2O), and mercury (Hg); emission rates for CO2, NOx, SO2, CH4, and N2O; heat input; and nameplate capacity. eGRID reports this information on an annual basis (as well as by ozone season for NOx) at different levels of aggregation. eGRID2020, released in January 2022 is the fifteenth edition of eGRID. Please note: The EPA has recently changed the naming convention of eGRID. The current edition is named with a year corresponding to the year of the data (eGRID2020), while the publication year of the data is 2022. Those changes are reflected in the title above. For more information on eGRID please see the following EPA documentation: https://www.epa.gov/system/files/documents/2022-01/egrid2020_technical_guide.pdf. This layer is an update to the FGDL layer EPAEGRID_2019. This layer is the parent for Nuclear Site, which uses the following selection: EPAEGRID.PLPRMFL = 'NUC'.The data was created to serve as base information for use in GIS systems for a variety of planning and analytical purposes.What is eGRID? The Emissions & Generation Resource Integrated Database (eGRID) is a comprehensive inventory of environmental attributes of electric power systems. The preeminent source of air emission data for the electric power sector, eGRID is based on available plant-specific data for all U.S. electricity generating plants that provide power to the electric grid and report data to the U.S. government. eGRID uses data from the Energy Information Administration (EIA) Forms EIA-860 and EIA-923 and EPA’s Clean Air Markets Program Data. Emission data from EPA are carefully integrated with generation data from EIA to produce useful values like pounds of emissions per megawatt-hour of electricity generation (lb/MWh), which allows direct comparison of the environmental attributes of electricity generation. eGRID also provides aggregated data by state, U.S. total, and by three different sets of electric grid boundaries (i.e., balancing authority area, NERC region, and eGRID subregion). Why eGRID? Many consumers have a choice regarding the source of their electricity, and some seek cleaner sources, such as wind and solar power. EPA’s Power Profiler application, which uses eGRID data, helps individual consumers understand the environmental impacts of their own electricity usage. Electricity generation is the dominant industrial source of air emissions in the United States today. Whenever you switch on an electrical appliance, chances are you are contributing to air pollution and greenhouse gas emissions. By documenting the environmental attributes of electric power generation, eGRID can help consumers and researchers to better understand the relationship between electricity and the environment. In the United States, electricity is generated in many different ways, with a wide variation in environmental impacts. In many states, power companies are required to disclose the environmental attributes of their retail electricity products. eGRID data can be used to support the following activities: Greenhouse gas registries and inventories, Carbon footprinting, Consumer information disclosure, Renewable portfolio standards, Development of emission inventories and emission standards, Analysis of changing power markets, and Estimation of avoided emissions. What information is contained in eGRID? For virtually every grid-connected power plant in the United States, eGRID provides: A detailed emissions profile, covering nitrogen oxides (NOX), sulfur dioxide (SO2), carbon dioxide (CO2), methane (CH4), nitrous oxide (N2O), and mercury (Hg). Mass emissions are reported in either pounds or tons. Output emission rates are reported pounds per megawatt-hour (lb/MWh). Input emission rates are reported in pounds per million British thermal units (lb/MMBtu). Generation resource mix, in megawatt-hours and percent. Identification and location information. eGRID provides separate data at the combustion unit and generator levels. These data are combined at the plant level. The plant level data are then aggregated to state, U.S. total, and three types of power grid regions:? Balancing authority area (generally smaller regions of the power grid in which all power plants are managed to balance power system demand and supply); eGRID subregion; and NERC region, as designated by the North American Electric Reliability Corporation (plus Alaska, Hawaii, and Puerto Rico). Source: https://www.epa.gov/egrid/egrid-questions-and-answers20201231publication dateCompleteAs needed-87.416105-79.87999631.42467024.526867ISO 19115 Topic CategoryenvironmentutilitiesCommunicationNonePowerelectricityelectricEmissions & Generation Resource Integrated Databasepower gridpower plantNuclearNoneFloridaNone2018NoneThe Florida Geographic Data Library is a collection of Geospatial Data compiled by the University of Florida GeoPlan Center with support from the Florida Department of Transportation. GIS data available in FGDL is collected from various state, federal, and other agencies (data sources) who are data stewards, producers, or publishers. The data available in FGDL may not be the most current version of the data offered by the data source. University of Florida GeoPlan Center makes no guarantees about the currentness of the data and suggests that data users check with the data source to see if more recent versions of the data exist. Furthermore, the GIS data available in the FGDL are provided 'as is'. The University of Florida GeoPlan Center makes no warranties, guaranties or representations as to the truth, accuracy or completeness of the data provided by the data sources. The University of Florida GeoPlan Center makes no representations or warranties about the quality or suitability of the materials, either expressly or implied, including but not limited to any implied warranties of merchantability, fitness for a particular purpose, or non-infringement. The University of Florida GeoPlan Center shall not be liable for any damages suffered as a result of using, modifying, contributing or distributing the materials. A note about data scale: Scale is an important factor in data usage. Certain scale datasets are not suitable for some project, analysis, or modeling purposes. Please be sure you are using the best available data. 1:24000 scale datasets are recommended for projects that are at the county level. 1:24000 data should NOT be used for high accuracy base mapping such as property parcel boundaries. 1:100000 scale datasets are recommended for projects that are at the multi-county or regional level. 1:125000 scale datasets are recommended for projects that are at the regional or state level or larger. Vector datasets with no defined scale or accuracy should be considered suspect. Make sure you are familiar with your data before using it for projects or analysis. Every effort has been made to supply the user with data documentation. For additional information, see the References section and the Data Source Contact section of this documentation. For more information regarding scale and accuracy, see our webpage at: http://geoplan.ufl.edu/education.htmlU.S. Environmental Protection AgencyEnergy and the Environment Websitemailing

1200 Pennsylvania Ave NW (MC 6202A)

WashingtonD.C.20460UShttps://www.epa.gov/energy/forms/contact-us-about-energy-and-environmentContact Us About Energy and the EnvironmentEPA Clean Energy Department Version 6.2 (Build 9200) ; Esri ArcGIS 10.8.1.14362Washington, DCU.S. Environmental Protection AgencyEPA - eGRID: https://www.epa.gov/egrid For more information on eGRID please see the following EPA documentation: https://www.epa.gov/sites/production/files/2021-02/documents/egrid2019_technical_guide.pdfhttps://www.epa.gov/egridGeoPlan relied on the integrity of the attribute information within the original data.This data is provided 'as is'. GeoPlan relied on the integrity of the original data layer's topology.This data is provided 'as is' by GeoPlan and is complete to our knowledge.This data is provided 'as is' and its horizontal positional accuracy has not been verified by GeoPlan.This data is provided 'as is' and its vertical positional accuracy has not been verified by GeoPlan.0onLineSpatial and Attribute InformationGeoPlan Center downloaded the EPA eGRID2020 year 2020 data in excel format from the following EPA website on 8/4/2022: https://www.epa.gov/egrid/download-data Released: 1/27/2022. Next, GeoPlan imported the eGRID2020 PLNT20 excel sheet from the eGRID2020 excel workbook into ArcGIS Pro. The PLNT20 excel workbook sheet contained 12,668 year 2020 records representing electricity generation plants. The PLNT20 excel workbook sheet was then exported from ArcGIS Pro as a database table. Next, the newly created PLNT20.DBF was spatially mapped using the LAT and LON fields containing WGS 1984 coordinates in decimal degrees. Records with no latitude/longitude information were removed from the data set. The newly created PLNT20 projection was defined as GCS_WGS_1984, and then it was reprojected to the FGDL Albers NAD 83 HARN projection. Next, a selection was performed on the State FIPS ID field where it was equal to 12 (i.e. the State of Florida). Several other power plants that skirted the Florida border were also included. Next, all of the field information was uppercased, and additional fields were added: NOTES, NUCLEAR, LAT_DD, LONG_DD, MGRS, GOOGLEMAP, DESCRIPT (based on PNAME), and FGDLAQDATE (based on the date the data was downloaded from the source). Certain points were moved, see NOTES field for features altered. Facility address information from the following website was used to help better locate the physical locations of the facilities: http://www.energyjustice.net/map/searchfacility-basic.php. The final dataset renamed EPAEGRID_2020.GeoPlan20220808UF GeoPlan CenterVectorEntity point314NAD 1983 HARN Florida GDL Albers24.031.5-84.024.0400000.00.0coordinate pair0.00010.0001meterD North American 1983 HARNGRS 19806378137.0298.257222101EPAEGRID_2020EPAEGRID_2020U.S. Environmental Protection AgencyShapeFeature geometry.ESRICoordinates defining the features.YEARData Year (YEAR) - The current eGRID data year.EPASEQPLT20eGRID2020 File Plant Sequence Number (SEQPLT20) – The plant records in the 2020 plant data file are sorted by state abbreviation and plant name, and are assigned a unique sequential number beginning with 1. This sequence number is unlikely to be the same as the sequence number in the eGRID2019 file for the same entity.EPAPSTATABBPlant State Abbreviation (PSTATABB) - The state abbreviation in which the plant is located..EIA-860PNAMEPlant Name (PNAME) - The name associated with each plant.EPA/CAMD; EIA-860ORISPLDOE/EIA ORIS Plant or Facility Code (ORISPL) - This plant code corresponds to PNAME and was originally developed for power plants by the Office of Regulatory Information Systems (ORIS), which was a part of the Federal Power Commission. It is now assigned by EIA and is used as a unique plant identification code for many EPA electric power databases, too. Note that some EIA ORISPL ID codes were changed to reflect EPA/CAMD ORISPL ID codes. See Section 4.1 for a discussion of ORISPL ID changes made to eGRID2016. See Table C-5 in Appendix C for a table of all ORISPL changes made between EIA and EPA/CAMD.EPA/CAMD; EIA-860OPRNAMEPlant Operator Name (OPRNAME) - The name associated with each operating company (EGC).EIA-860OPRCODEPlant Operator ID (OPRCODE) - The operating company ID. Each operating company has a unique company code assigned by EIA, with some exceptions. Plants with no operating company ID.EIA-860UTLSRVNMUtility Service Territory Name (UTLSRVNM) - The name of the owner of the transmission/distribution company/EGC, also known as the utility service territory (a utility company or EGC) [and previously known as the utility service area] in which the plant is located.EIA-860UTLSRVIDUtility Service Territory ID (UTLSRVID) - The unique ID code associated with the utility service territory name.EIA-860SECTORPlant-level Sector (SECTOR) - The plant level sector name, assigned by the purpose, regulatory status, and CHP status at the plant.EPABANAMEBalancing Authority Name (BANAME) - The name of the balancing authority for the plant. The balancing authority is associated with the plant's eGRID subregion and NERC region.EIA-860, EIA-861OBJECTIDInternal feature number.EsriSequential unique whole numbers that are automatically generated.BACODEBalancing Authority ID Code (BACODE) - The ID of the balancing authority for the plant.EIA-860, EIA-861NERCNERC Region Acronym (NERC) - The acronym for the NERC region in which the plant is located. The NERC region is associated with the plant's BA and eGRID subregion. A representation of the eGRID NERC region map is included in Appendix B.EIA-860SUBRGNeGRID Subregion Acronym (SUBRGN) - The acronym for the eGRID subregion in which the plant is located. The eGRID subregion is associated with the plant's balancing authority and NERC region. A representation of the eGRID subregion map is included in Appendix B.EPASRNAMEeGRID Subregion Name (SRNAME) - The name of the eGRID subregion in which the plant is located.EPAISORTOPlant associated ISO/RTO Territory (ISORTO) - The name, if applicable, of the Independent System Operator (ISO) or Regional Transmission Organization (RTO) associated with the plant. Possible values are CAISO, ERCOT, ISONE, MISO, NYISO, PJM, SPP, OTHER, or blank.EIA-860FIPSSTPlant FIPS State Code (FIPSST) - The two-digit Federal Information Processing Standards (FIPS) state character code of the state in which the plant is located. The codes are from the National Institute of Standards and Technology (US Census, 2016).US CensusFIPSCNTYPlant FIPS County Code (FIPSCNTY) - The three digit FIPS county character code of the county in which the plant is located. The codes are from the National Institute of Standards and Technology (US Census, 2016).US CensusCNTYNAMEPlant County Name (CNTYNAME) - The name of the county in which the plant is located.EIA-860LATPlant Latitude (LAT) - The latitude, in degrees to four decimal places, associated with the plant.EIA-860LONPlant Longitude (LON) - The longitude, in degrees to four decimal places, associated with the plant.EIA-860NUMUNTNumber of Units (NUMUNT) - The number of operating units within a plant.EIA-860NUMGENNumber of Generators (NUMGEN) - The number of potentially operating generators within a plant.EIA-860PLPRMFLPlant Primary Fuel (PLPRMFL) - The plant's primary fuel based on maximum heat input of fuel consumed by the plant. If the plant does not consume fuel, it is based on the maximum nameplate capacity.EPA/CAMD; EIA-860ABAgricultural byproductEPABFGBlast furnace gasEPABITBituminous coalEPABLQBlack liquorEPACOGCoke oven gasEPADFODistillate fuel oil, light fuel oil, diesel oilEPAGEOGeothermal steamEPAJFJet fuelEPAKERKeroseneEPALFGLandfill gasEPALIGLignite coalEPAMSWMunicipal solid wasteEPAMWHElectricity used for energy storage (megawatt hour)EPAOBGOther biomass gasEPAOBLOther biomass liquidEPAOBSOther biomass solidEPAOGOther gasEPAOTHOther (unknown)EPAPCPetroleum cokeEPAPRGProcess gasEPAPURPurchased fuel (unknown)EPARCRefined coalEPARFOResidual fuel oil, heavy fuel oil, petroleumEPASGCCoal-derived synthetic gasEPASUBSubbituminous coalEPASUNSunEPATDFTire-derived fuelEPAWCWaste coalEPAWDLWood, wood waste liquidEPAWDSWood, wood waste solidEPAWHWaste heatEPAWNDWindEPAWOWaste oilEPANGNatural gasEPANUCNuclear materialEPAWATWaterEPAPLFUELCTPlant Primary Fuel Category (PLFUELCT) - The fuel category for the primary fuel of the plant.EPACOALFLAGFlag indicating if the plant burned or generated any amount of coal (COALFLAG) - A flag to indicate if the plant burned or, if it has positive heat input and generated electricity from coal (1= Yes). The plant will not be flagged if the plant has negative coal generation and no coal heat input for a given year.EPACAPFACPlant Capacity Factor (CAPFAC) - The plant capacity factor, expressed with four decimal places. It is calculated as follows: CAPFAC = (PLNGENAN / (NAMEPCAP * 8760)) Although the value should be between 0 and 1, there are outliers.EPANAMEPCAPPlant Nameplate Capacity (NAMEPCAP) - The nameplate capacity of the plant, in MW.EIA-860NBFACTORNonbaseload Factor (NBFACTOR) - The proportion of generation that is considered nonbaseload generation. A value of 0 means none of the generation is nonbaseload generation. See Section 3 for more information.CalculatedRMBMFLAGBiogas/Biomass Plant Adjustment Flag (RMBMFLAG) - A biogas (landfill gas, digester gas)/biomass adjustment flag, used to indicate where emissions were adjusted for plants using biogas or biomass fuels (1=Yes). A facility's emissions reported in eGRID may be differentEPACHPFLAGCombined Heat and Power (CHP) Plant Adjustment Flag (CHPFLAG) - A flag to indicate if the plant is a CHP facility (1=Yes). A CHP facility's emissions and heat input reported in eGRID may be different from that reported in other EPA sources such as EPA/CAMD's emissions data, due to this adjustment.EPA/CAMD; EIA-860USETHRMOCHP Plant Useful Thermal Output (USETHRMO) - The useful thermal output, in MMBtu, estimated for a CHP facility.EIA-923 calculatedPWRTOHTCHP Plant Power to Heat Ratio (PWRTOHT) - The power to heat ratio for a CHP facility, which is the ratio of the heat value of electricity generated (3413 * kWh output) to the facility's useful thermal output.EPAELCALLOCCHP Plant Electric Allocation Factor (ELCALLOC) - The CHP plant's decimal fraction of the emissions that are attributed to electricity. It is derived as the ratio of the electric heat output to the sum of the electric and steam heat outputs, where the steam output is 75% of the useful thermal output. The electric allocation factor is used to allocate emissions from a CHP facility to both electricity generation and useful thermal output. For non-CHP plants, eGRID uses an electric allocation factor of 1.0.EPAPSFLAGPlant Pumped Storage Flag (PSFLAG) - Indicates if the plant has at least one pumped storage generator (1= Yes).EIA-860PLHTIANPlant Annual Heat Input from Combustion (PLHTIAN) - The total annual heat input from combustion, in MMBtu, for the plant. For CHP plants, the value is adjusted by the electric allocation factor.EPAPLHTIOZPlant Ozone Season Heat Input from Combustion (PLHTIOZ) - The five-month ozone season (May through September) heat input from combustion, in MWh, for the plant. For CHP plants, the value is adjusted by the electric allocation factor.EPAPLHTIANTPlant Total Annual Heat Input (PLHTIANT) - The total annual heat input from combustion and noncombustion units, in MMBtu, for the plant. For CHP plants, the value is adjusted by the electric allocation factor.EPAPLHTIOZTPlant Total Ozone Season Heat Input (PLHTIOZT) - The five-month ozone season (May through September) heat input from combustion and noncombustion units, in MWh, for the plant. For CHP plants, the value is adjusted by the electric allocation factor.EPAPLNGENANPlant Annual Net Generation (PLNGENAN) - The total reported annual net generation, in MWh, for the plant, summed from the Unit fileEIA-923PLNGENOZPlant Ozone Season Net Generation (PLNGENOZ) - The five-month ozone season (May through September) net generation for the plant.EIA-923PLNOXANPlant Annual NOx Emissions (PLNOXAN) - The total annual NOx emissions, in short tons, for the plant. Biogas components are adjusted. For CHP plants, the value is adjusted by the electric allocation factor. This adjusted emissions field is estimated by first making the biogas adjustment (if it exists) and then applying the electric allocation factor (if the plant is a CHP).EPAPLNOXOZPlant Ozone Season NOx Emissions (PLNOXOZ) - The five-month ozone season (May through September) NOx emissions, in short tons, for the plant. Biogas components are adjusted. For CHP plants, the value is adjusted by the electric allocation factor. This adjusted emissions field is estimated by first making the biogas adjustment (if it exists) and then applying the electric allocation factor (if the plant is a CHP).EPAPLSO2ANPlant Annual SO2 Emissions (PLSO2AN) - The total annual SO2 emissions, in short tons, for the plant. Landfill gas components are adjusted. For CHP plants, the value is adjusted by the electric allocation factor. This adjusted emissions field is estimated by first making the landfill gas adjustment (if it exists) and then applying the electric allocation factor (if the plant is a CHP).EPAPLCO2ANPlant Annual CO2 Emissions (PLCO2AN) - The total annual CO2 emissions, in short tons, for the plant. All CO2 emissions from biomass fuels are adjusted to zero. For CHP plants, the value is adjusted by the electric allocation factor. This adjusted emissions field is estimated by first making the biomass adjustment (if it exists) and then applying the electric allocation factor (if the plant is a CHP).EPAPLCH4ANPlant Annual CH4 Emissions (PLCH4AN) - The total annual CH4 emissions, in pounds, for the plant. Biogas biomass components are adjusted. For CHP plants, the value is adjusted by the electric allocation factor. This adjusted emissions field is estimated by first making the biomass adjustment (if it exists) and then applying the electric allocation factor (if the plant is a CHP).EPAPLN2OANPlant Annual N2O Emissions (PLN2OAN) - The total annual N2O emissions, in pounds for the plant. Biogas biomass components are adjusted. For CHP plants, the value is adjusted by the electric allocation factor. This adjusted emissions field is estimated by first making the biomass adjustment (if it exists) and then applying the electric allocation factor (if the plant is a CHP).EPAPLCO2EQAPlant Annual CO2 Equivalent Emissions (PLCO2EQA) - The annual CO2 equivalent emissions, in short tons, for the plant. This value is a universal standard of measurement. The GWPs from the second IPCC assessment are used per EPA for the calculation; the formula used is as follows: PLCO2EQA = ((1* PLCO2AN) + (21* PLCH4AN / 2000) + (310 * PLN2OAN / 2000)).EPAPLHGANPlant Annual Hg Emissions (PLHGAN) - The total annual Hg emissions, in pounds for the plant. For CHP plants, the value is adjusted by the electric allocation factor. Not calculated for eGRID2016.EPAPLNOXRTAPlant Annual NOx Total Output Emission Rate (PLNOXRTA) - This field, in lb/MWh, is calculated as follows: PLNOXRTA = 2000 * (PLNOXAN / PLNGENAN).EPAPLNOXRTOPlant Ozone Season NOx Total Output Emission Rate (PLNOXRTO) - This field, in lb/MWh, is calculated as follows: PLNOXRTO = 2000 * (PLNOXOZ / PLNGENOZ).EPAPLSO2RTAPlant Annual SO2 Total Output Emission Rate (PLSO2RTA) - This field, in lb/MWh, is calculated as follows: PLSO2RTA = 2000 * (PLSO2AN / PLNGENAN).EPAPLCO2RTAPlant Annual CO2 Total Output Emission Rate (PLCO2RTA) - This field, in lb/MWh, is calculated as follows: PLCO2RTA = 2000 * (PLCO2AN / PLNGENAN).EPAPLCH4RTAPlant Annual CH4 Total Output Emission Rate (PLCH4RTA) - This field, in lb/GWh, is calculated as follows: PLCH4RTA = PLCH4AN / (PLNGENAN / 1000).EPAPLN2ORTAPlant Annual N2O Total Output Emission Rate (PLN2ORTA) - This field, in lb/GWh, is calculated as follows: PLN2ORTA = PLN2OAN / (PLNGENAN / 1000).EPAPLC2ERTAPlant Annual CO2 Equivalent Total Output Emission Rate (PLC2ERTA) - This field, in lb/MWh, is calculated as follows: PLC2ERTA = 2000 * (PLCO2EQA / PLNGENAN).EPAPLHGRTAPlant Annual Hg Total Output Emission Rate (PLHGRTA) - This field, in lb/GWh, is calculated as follows: PLHGRTA = PLHGAN / (PLNGENAN / 1000). Not calculated for eGRID2016.EPAPLNOXRAPlant Annual NOx Input Emission Rate (PLNOXRA) - This field, in lb/MMBtu, is calculated as follows: PLNOXRA = 2000 * (PLNOXAN / PLHTIAN).EPAPLNOXROPlant Ozone Season NOx Input Emission Rate (PLNOXRO) - This field, in lb/MMBtu, is calculated as follows: PLNOXRO = 2000 * (PLNOXOZ / PLHTIOZ).EPAPLSO2RAPlant Annual SO2 Input Emission Rate (PLSO2RA) - This field, in lb/MMBtu, is calculated as follows: PLSO2RA = 2000 * (PLSO2AN / PLHTIAN).EPAPLCO2RAPlant Annual CO2 Input Emission Rate (PLCO2RA) - This field, in lb/MMBtu, is calculated as follows: PLCO2RA = 2000 * (PLCO2AN / PLHTIAN).EPAPLCH4RAPlant Annual CH4 Input Emission Rate (PLCH4RA) - This field, in lb/MMBtu, is calculated as follows: PLCO2RA = 2000 * (PLCH4AN / PLHTIAN).EPAPLN2ORAPlant Annual N2O Input Emission Rate (PLN2ORA) - This field, in lb/MMBtu, is calculated as follows: PLCO2RA = 2000 * (PLN2OAN / PLHTIAN).EPAPLC2ERAPlant Annual CO2 Equivalent Input Emission Rate (PLC2ERA) - This field, in lb/MMBtu, is calculated as follows: PLCO2RA = 2000 * (PLCO2EQA / PLHTIAN).EPAPLHGRAPlant Annual Hg Input Emission Rate (PLHGRA) - This field, in lb/BBtu, is calculated as follows: PLHGRA = PLHGAN / (PLHTIAN / 1000). Not calculated for eGRID2016.EPAPLNOXCRTPlant Annual NOx Combustion Output Emission Rate (PLNOXCRT) - This field, in lb/MWh, is calculated as follows: PLNOXCRT = 2000 * (PLNOXAN / PLGENACY).EPAPLNOXCROPlant Ozone Season NOx Combustion Output Emission Rate (PLNOXCRO) - This field, in lb/MWh, is calculated as follows: PLNOXCRO = 2000 * (PLNOXOZ / ((PLGENACY * PLNGENOZ) / PLNGENAN)).EPAPLSO2CRTPlant Annual SO2 Combustion Output Emission Rate (PLSO2CRT) - This field, in lb/MWh, is calculated as follows: PLSO2CRT = 2000 * (PLSO2AN / PLGENACY).EPAPLCO2CRTPlant Annual CO2 Combustion Output Emission Rate (PLCO2CRT) - This field, in lb/MWh, is calculated as follows: PLCO2CRT = 2000 * (PLCO2AN / PLGENACY).EPAPLCH4CRTPlant Annual CH4 Combustion Output Emission Rate (PLCH4CRT) - This field, in lb/GWh, is calculated as follows: PLCH4CRT = PLCH4AN / (PLGENACY / 1000).EPAPLN2OCRTPlant Annual N2O Combustion Output Emission Rate (PLN2OCRT) - This field, in lb/GWh, is calculated as follows: PLN2OCRT = PLN2OAN / (PLGENACY / 1000).EPAPLC2ECRTPlant Annual CO2 Equivalent Combustion Output Emission Rate (PLC2ECRT) - This field, in lb/MWh, is calculated as follows: PLC2ECRT = 2000 * (PLCO2EQA / PLGENACY). EPAPLHGCRTPlant Annual Hg Combustion Output Emission Rate (PLHGCRT) - This field, in lb/GWh, is calculated as follows: PLHGCRT = PLHGAN / (PLGENACY / 1000). Not calculated for eGRID2019.EPAUNNOXPlant Unadjusted Annual NOx Emissions (UNNOX) - The total plant-level unadjusted annual NOx emissions, in short tons.EPAUNNOXOZPlant Unadjusted Ozone Season NOx Emissions (UNNOXOZ) - The unadjusted five-month ozone season (May through September) NOx emissions, in short tons, for the plant.EPAUNSO2Plant Unadjusted Annual SO2 Emissions (UNSO2) - The total plant-level unadjusted annual SO2 emissions, in short tons.EPAUNCO2Plant Unadjusted Annual CO2 Emissions (UNCO2) - The total plant-level unadjusted annual CO2 emissions, in short tons.EPAUNCH4Plant Unadjusted Annual CH4 Emissions (UNCH4) - The total plant-level unadjusted annual CH4 emissions, in pounds.EPAUNN2OPlant Unadjusted Annual N2O Emissions (UNN2O) - The total plant-level unadjusted annual N2O emissions, in pounds.EPAUNHGPlant Unadjusted Annual Hg Emissions (UNHG) - The total plant-level unadjusted annual Hg emissions, in pounds. Not calculated for eGRID2016.EPAUNHTIPlant Unadjusted Annual Heat Input from Combustion (UNHTI) - The total plant-level unadjusted annual heat input from combustion, in MMBtu.EPA/CAMD, EIA-923UNHTIOZPlant Unadjusted Ozone Season Heat Input from Combustion (UNHTIOZ) - The five-month ozone season (May through September) heat input from combustion, in MMBtu for the plantEPA/CAMD, EIA-923UNHTITPlant Total Unadjusted Annual Heat Input (UNHTIT) - The total plant-level unadjusted annual heat input from combustion and noncombustion units, in MMBtu.EPA/CAMD, EIA-923UNHTIOZTPlant Total Unadjusted Ozone Season Heat Input (UNHTIOZT) - The five-month ozone season (May through September) heat input from combustion and noncombustion units, in MMBtu for the plant.EPA/CAMD, EIA-923UNNOXSRCPlant Unadjusted Annual NOx Emissions Source (UNNOXSRC ) - The source of plant-level unadjusted annual NOx emissions.EPAUNNOZSRCPlant Unadjusted Ozone Season NOx Emissions Source (UNNOZSRC) - The source of plant-level unadjusted ozone NOx emissions.EPAUNSO2SRCPlant Unadjusted Annual SO2 Emissions Source (UNSO2SRC) - The source of plant-level unadjusted annual SO2 emissions.EPAUNCO2SRCPlant Unadjusted Annual CO2 Emissions Source (UNCO2SRC) - The source of plant-level unadjusted annual CO2 emissions.EPAUNCH4SRCPlant Unadjusted Annual CH4 Emissions Source (UNCH4SRC) - The source of plant-level unadjusted annual CH4 emissions.EPAUNN2OSRCPlant Unadjusted Annual N2O Emissions Source (UNN2OSRC) - The source of plant-level unadjusted annual N2O emissions.EPAUNHGSRCPlant Unadjusted Annual Hg Emissions Source (UNHGSRC) - The source of plant-level unadjusted annual Hg emissions. Not calculated for eGRID2016.EPAUNHTISRCPlant Unadjusted Annual Heat Input Source (UNHTISRC) - The source of plant-level unadjusted annual heat input.EPAUNHOZSRCPlant Unadjusted Ozone Season Heat Input Source (UNHOZSRC) - The source of plant-level unadjusted ozone season heat input.EPABIONOXPlant Annual NOx Biomass Emissions (BIONOX) - The annual plant-level NOx biomass emissions, in tons. This is the value the total emissions are adjusted by for the biomass emissions adjustments.EIA-923BIONOXOZPlant Ozone Season NOx Biomass Emissions (BIONOXOZ) - The five-month ozone season (May through September) plant-level NOx biomass emissions, in tons. This is the value the total emissions are adjusted by for the biomass emissions adjustments.EIA-923BIOSO2Plant Annual SO2 Biomass Emissions (BIOSO2) - The annual plant-level SO2 biomass emissions, in tons. This is the value the total emissions are adjusted by for the biomass emissions adjustments.EIA-923BIOCO2Plant Annual CO2 Biomass Emissions (BIOCO2) - The annual plant-level CO2 biomass emissions, in tons. This is the value the total emissions are adjusted by for the biomass emissions adjustments.EIA-923BIOCH4Plant Annual CH4 Biomass Emissions (BIOCH4) - The annual plant-level CH4 biomass emissions, in pounds. This is the value the total emissions are adjusted by for the biomass emissions adjustments.EIA-923BION2OPlant Annual N2O Biomass Emissions (BION2O) - The annual plant-level N2O biomass emissions, in pounds. This is the value the total emissions are adjusted by for the biomass emissions adjustments.EIA-923CHPCHTIPlant Combustion Annual Heat Input CHP Adjustment Value (CHPCHTI) – The annual plant-level heat input adjustment value for CHP plants, in MMBtuEPACHPCHTIOZPlant Combustion Ozone Season Heat Input CHP Adjustment Value (CHPCHTIOZ) - The five-month ozone season (May through September) plant-level heat input adjustment value for CHP plants, in MMBtu.EPACHPNOXPlant Annual NOx Emissions CHP Adjustment Value (CHPNOX) - The annual plant-level NOx emissions adjustment value for CHP plants, in tons.EPACHPNOXOZPlant Ozone season NOx Emissions CHP Adjustment Value (CHPNOXOZ) - The five-month ozone season (May through September) plant-level NOx emissions adjustment value for CHP plants, in tons.EPACHPSO2Plant Annual SO2 Emissions CHP Adjustment Value (CHPSO2) - The annual plant-level SO2 emissions adjustment value for CHP plants, in tons.EPACHPCO2Plant Annual CO2 Emissions CHP Adjustment Value (CHPCO2) - The annual plant-level CO2 emissions adjustment value for CHP plants, in tons.EPACHPCH4Plant Annual CH4 Emissions CHP Adjustment Value (CHPCH4) - The annual plant-level CH4 emissions adjustment value for CHP plants, in pounds.EPACHPN2OPlant Annual N2O Emissions CHP Adjustment Value (CHPN2O) - The annual plant-level N2O emissionsadjustment value for CHP plants, in pounds.EPAPLHTRTPlant Nominal Heat Rate (PLHTRT) - The plant nominal heat rate, in Btu/kWh, for at least partially combusted plants. It is calculated as follows: PLHTRT = 1000 * (PLHTIAN / PLNGENAN) for combustion plants; and PLHTRT = 1000 * (PLHTIAN / PLGENACY) for partial combustion plants. For CHP plants, the value is, in effect, adjusted by the electric allocation factor, since the heat input has been adjusted.EPAPLGENACLPlant Annual Coal Net Generation (PLGENACL) - The plant annual net generation, in MWh, for coal. Fuel codes that are included in coal are BIT, COG, SUB, LIG, WC, and SC.EPAPLGENAOLPlant Annual Oil Net Generation (PLGENAOL) - The plant annual net generation, in MWh, for oil. Fuel codes included in oil are DFO, JF, KER, OO, PC, RFO, RG, and WO.EPAPLGENAGSPlant Annual Gas Net Generation (PLGENAGS) - The plant annual net generation, in MWh, for natural gas. Fuel codes included in gas are NG and PG.EPAPLGENANCPlant Annual Nuclear Net Generation (PLGENANC) - The plant annual net generation, in MWh, for nuclear. Fuel codes include NUC.EPAPLGENAHYPlant Annual Hydro Net Generation (PLGENAHY) - The plant annual net generation, in MWh, for hydro. Fuel codes include WAT.EPAPLGENABMPlant Annual Biomass Net Generation (PLGENABM) - The annual net generation, in MWh, for biomass. Biomass is a fuel derived from organic matter such as wood and paper products, agricultural waste, or methane (e.g., from landfills). The renewable portion of solid waste, fuel code MSB, is included as biomass, as are AB, BLQ, DG, LFG, ME, OBL, OBS, PP, SLW, WDL, and WDS.EPAPLGENAWIPlant Annual Wind Net Generation (PLGENAWI) - The plant annual net generation, in MWh, for wind. Fuel codes include WND.EPAPLGENASOPlant Annual Solar Net Generation (PLGENASO) - The plant annual net generation, in MWh, for solar. Fuel codes include SUN.EPAPLGENAGTPlant Annual Geothermal Net Generation (PLGENAGT) - The plant annual net generation, in MWh, for geothermal. Fuel codes include GEO.EPAPLGENAOFPlant Annual Other Fossil Net Generation (PLGENAOF) - The plant annual net generation, in MWh, for other fossil fuel that cannot be categorized as coal, oil, or gas. Other fossil fuel codes include BFG, COG, HY, LB, MH, MSF, OG, PRG, and TDF.EPAPLGENAOPPlant Annual Other Unknown/ Purchased Fuel Net Generation (PLGENAOP) - The plant annual net generation, in MWh, for other unknown/purchased. Fuel codes include OTH, PUR, or WH.EPAPLGENATNPlant Annual Total Nonrenewables Net Generation (PLGENATN) - The annual total nonrenewables net generation, in MWh, for the plant. Nonrenewables are exhaustible energy resources such as coal, oil, gas, other fossil, nuclear power, and other unknown/purchased fuel. This field is the sum of PLGENACL, PLGENAOL, PLGENAGS, PLGENAOF, PLGENANC, and PLGENAOP.EPAPLGENATRPlant Annual Total Renewables Net Generation (PLGENATR) - The annual total renewables net generation, in MWh, for the plant. Renewables are inexhaustible energy resources such as biomass, wind, solar, geothermal, and hydro. This field is the sum of PLGENABM, PLGENAWI, PLGENASO, PLGENAGT, and PLGENAHY.EPAPLGENATHPlant Annual Total Nonhydro Renewables Net Generation (PLGENATH) - The annual total nonhydro renewables net generation, in MWh, for the plant. This field is the sum of PLGENABM, PLGENAWI, PLGENASO, and PLGENAGT.EPAPLGENACYPlant Annual Total Combustion Net Generation (PLGENACY) - The annual total combustion net generation, in MWh, for the plant. This field is the sum of PLGENACL, PLGENAOL, PLGENAGS, PLGENAOF, PLGENABM, and PLGENAOP.EPAPLGENACNPlant Annual Total Noncombustion Net Generation (PLGENACN) - The annual total noncombustion net generation, in MWh, for the plant. This field is the sum of PLGENANC, PLGENAHY, PLGENAWI, PLGENASO, and PLGENAGT.EPAPLCLPRPlant Coal Generation Percent (PLCLPR) - The coal resource mix expressed as a percent of plant annual net generation. PLCLPR = 100 * (PLGENACL / PLNGENAN).EPAPLOLPRPlant Oil Generation Percent (PLOLPR) - The oil resource mix expressed as a percent of plant annual net generation. PLOLPR = 100 * (PLGENAOL / PLNGENAN).EPAPLGSPRPlant Gas Generation Percent (PLGSPR) - The gas resource mix expressed as a percent of plant annual net generation. PLGSPR = 100 * (PLGENAGS / PLNGENAN).EPAPLNCPRPlant Nuclear Generation Percent (PLNCPR) - The nuclear resource mix expressed as a percent of plant annual net generation. PLNCPR = 100 * (PLGENANC / PLNGENAN).EPAPLHYPRPlant Hydro Generation Percent (PLHYPR) - The hydro resource mix expressed as a percent of plant annual net generation. PLHYPR = 100 * (PLGENAHY / PLNGENAN).EPAPLBMPRPlant Biomass Generation Percent (PLBMPR) - The biomass resource mix expressed as a percent of plant annual net generation. PLBMPR = 100 * (PLGENABM / PLNGENAN).EPAPLWIPRPlant Wind Generation Percent (PLWIPR) - The wind resource mix expressed as a percent of plant annual net generation. PLWIPR = 100 * (PLGENAWI / PLNGENAN).EPAPLSOPRPlant Solar Generation Percent (PLSOPR) - The solar resource mix expressed as a percent of plant annual net generation. PLSOPR = 100 * (PLGENASO / PLNGENAN).EPAPLGTPRPlant Geothermal Generation Percent (PLGTPR) - The geothermal resource mix expressed as a percent of plant annual net generation.: PLGTPR = 100 * (PLGENAGT / PLNGENAN).EPAPLOFPRPlant Other Fossil Generation Percent (PLOFPR) - The other fossil resource mix expressed as a percent of plant annual net generation. PLOFPR = 100 * (PLGENAOF / PLNGENAN).EPAPLOPPRPlant Other Unknown/Purchased Fuel Generation Percent (PLOPPR) - The other unknown/purchased fuel/waste heat resource mix expressed as a percent of plant annual net generation. PLOPPR = 100 * (PLGENAOP / PLNGENAN).EPAPLTNPRPlant Total Nonrenewables Generation Percent (PLTNPR) - The total nonrenewables resource mix expressed as a percent of plant annual net generation. PLTNPR = 100 * (PLGENATN / PLNGENAN).EPAPLTRPRPlant Total Renewables Generation Percent (PLTRPR) - The total renewables resource mix expressed as a percent of plant annual net generation. PLTRPR = 100 * (PLGENATR / PLNGENAN).EPAPLTHPRPlant Total Nonhydro Renewables Generation Percent (PLTHPR) - The total nonhydro renewables resource mix expressed as a percent of plant annual net generation. PLTHPR = 100 * (PLGENATH / PLNGENAN).EPAPLCYPRPlant Total Combustion Generation Percent (PLCYPR) - The total combustion resource mix expressed as a percent of plant annual net generation. PLCYPR = 100 * (PLGENACY / PLNGENAN).EPAPLCNPRPlant Total Noncombustion Generation Percent (PLCNPR) - The total noncombustion resource mix expressed as a percent of plant annual net generation. PLCNPR = 100 * (PLGENACN / PLNGENAN).EPANOTESNotes about the plant.GeoPlanNUCLEARWhether the Plant uses nuclear power or not (YES = Nuclear Power Plant).GeoPlanDESCRIPTBased on PNAME.GeoPlanLAT_DDLatitude in decimal degrees.GeoPlanLONG_DDLongitude in decimal degrees.GeoPlanMGRSMilitary Grid Reference System (MGRS) Coordinate of the Facility. The MGRS is the geocoordinate standard used by NATO militaries for locating points on the earth. The MGRS provides a means to represent any location on the surface of the Earth using an alphanumeric string. Hierarchical references are based on the Universal Transverse Mercator (UTM) coordinate system. The MGRS is used for the entire earth. http://mgrs-data.org/GeoPlanGOOGLEMAPWebpage hyperlink to location in Google Maps.GeoPlanFGDLAQDATEThe date GeoPlan acquired the data from the source.GeoPlanAUTOIDFlorida Geographic Data Library (FGDL)mailing

431 Architecture PO Box 115706

GainesvilleFL32611-5706USNoneWeb site: http://www.fgdl.orgDOWNLOADABLE DATAThe Florida Geographic Data Library is a collection of Geospatial Data compiled by the University of Florida GeoPlan Center with support from the Florida Department of Transportation. GIS data available in FGDL is collected from various state, federal, and other agencies (data sources) who are data stewards, producers, or publishers. The data available in FGDL may not be the most current version of the data offered by the data source. University of Florida GeoPlan Center makes no guarantees about the currentness of the data and suggests that data users check with the data source to see if more recent versions of the data exist. Furthermore, the GIS data available in the FGDL are provided 'as is'. The University of Florida GeoPlan Center makes no warranties, guaranties or representations as to the truth, accuracy or completeness of the data provided by the data sources. The University of Florida GeoPlan Center makes no representations or warranties about the quality or suitability of the materials, either expressly or implied, including but not limited to any implied warranties of merchantability, fitness for a particular purpose, or non-infringement. The University of Florida GeoPlan Center shall not be liable for any damages suffered as a result of using, modifying, contributing or distributing the materials. A note about data scale: Scale is an important factor in data usage. Certain scale datasets are not suitable for some project, analysis, or modeling purposes. Please be sure you are using the best available data. 1:24000 scale datasets are recommended for projects that are at the county level. 1:24000 data should NOT be used for high accuracy base mapping such as property parcel boundaries. 1:100000 scale datasets are recommended for projects that are at the multi-county or regional level. 1:125000 scale datasets are recommended for projects that are at the regional or state level or larger. Vector datasets with no defined scale or accuracy should be considered suspect. Make sure you are familiar with your data before using it for projects or analysis. Every effort has been made to supply the user with data documentation. For additional information, see the References section and the Data Source Contact section of this documentation. For more information regarding scale and accuracy, see our webpage at: http://geoplan.ufl.edu/education.htmlhttps://www.fgdl.org/DOWNLOADABLE DATA20220902U.S. Environmental Protection Agency Clean Air Markets Divisionmailing

1200 Pennsylvania Avenue, NW (MC 6204M)

WashingtonD.C.20460UShttps://www.epa.gov/egrid/forms/contact-us-about-egridFGDC Content Standard for Digital Geospatial MetadataFGDC-STD-001-1998local timeU.S. Environmental Protection Agency Clean Air Markets Division1200 Pennsylvania Avenue, NW (MC 6204M)WashingtonD.C.20460UShttps://www.epa.gov/egrid/forms/contact-us-about-egrid20220902ArcGIS Metadata1.0Florida Geographic Data Library (FGDL)None431 Architecture PO Box 115706GainesvilleFL32611-5706USWeb site: http://www.fgdl.orghttps://www.fgdl.org/DOWNLOADABLE DATADOWNLOADABLE DATAhttps://www.epa.gov/egrid/download-dataUS EPA Emissions and Generation Resource Integrated Database (EGRID 2020) for Electricity Generating Plants in Florida - Published 20222022-01-27eGRID2020 YEAR 2020 DATAU.S. Environmental Protection AgencyU.S. Environmental Protection AgencyWashington, D.C.vector digital dataState of FloridaThe Emissions & Generation Resource Integrated Database (eGRID) is a comprehensive source of data on the environmental characteristics of almost all electric power generated in the United States. The preeminent source of emissions data for the electric power sector, eGRID is based on available plant-specific data for all U.S. electricity generating plants that provide power to the electric grid and report data to the U.S. government. Data reported include, but are not limited to, net electric generation; resource mix (for renewable and nonrenewable generation); mass emissions of carbon dioxide (CO2), nitrogen oxides (NOx), sulfur dioxide (SO2), methane (CH4), nitrous oxide (N2O), and mercury (Hg); emission rates for CO2, NOx, SO2, CH4, and N2O; heat input; and nameplate capacity. eGRID reports this information on an annual basis (as well as by ozone season for NOx) at different levels of aggregation. eGRID2020, released in January 2022 is the fifteenth edition of eGRID. Please note: The EPA has recently changed the naming convention of eGRID. The current edition is named with a year corresponding to the year of the data (eGRID2020), while the publication year of the data is 2022. Those changes are reflected in the title above. For more information on eGRID please see the following EPA documentation: https://www.epa.gov/system/files/documents/2022-01/egrid2020_technical_guide.pdf. This layer is an update to the FGDL layer EPAEGRID_2019.The data was created to serve as base information for use in GIS systems for a variety of planning and analytical purposes.EPA Clean Energy DepartmentU.S. Environmental Protection AgencyEnergy and the Environment Website1200 Pennsylvania Ave NW (MC 6202A)WashingtonD.C.20460UShttps://www.epa.gov/energy/forms/contact-us-about-energy-and-environmentContact Us About Energy and the EnvironmentFlorida2018utilitiesCommunicationenvironmentISO 19115 Topic CategoryNuclearpower gridelectricelectricityEmissions & Generation Resource Integrated Databasepower plantPowerFloridautilitiesCommunicationNuclearpower gridelectric2018electricityEmissions & Generation Resource Integrated Databaseenvironmentpower plantPowerThe Florida Geographic Data Library is a collection of Geospatial Data compiled by the University of Florida GeoPlan Center with support from the Florida Department of Transportation. GIS data available in FGDL is collected from various state, federal, and other agencies (data sources) who are data stewards, producers, or publishers. The data available in FGDL may not be the most current version of the data offered by the data source. University of Florida GeoPlan Center makes no guarantees about the currentness of the data and suggests that data users check with the data source to see if more recent versions of the data exist. Furthermore, the GIS data available in the FGDL are provided 'as is'. The University of Florida GeoPlan Center makes no warranties, guaranties or representations as to the truth, accuracy or completeness of the data provided by the data sources. The University of Florida GeoPlan Center makes no representations or warranties about the quality or suitability of the materials, either expressly or implied, including but not limited to any implied warranties of merchantability, fitness for a particular purpose, or non-infringement. The University of Florida GeoPlan Center shall not be liable for any damages suffered as a result of using, modifying, contributing or distributing the materials. A note about data scale: Scale is an important factor in data usage. Certain scale datasets are not suitable for some project, analysis, or modeling purposes. Please be sure you are using the best available data. 1:24000 scale datasets are recommended for projects that are at the county level. 1:24000 data should NOT be used for high accuracy base mapping such as property parcel boundaries. 1:100000 scale datasets are recommended for projects that are at the multi-county or regional level. 1:125000 scale datasets are recommended for projects that are at the regional or state level or larger. Vector datasets with no defined scale or accuracy should be considered suspect. Make sure you are familiar with your data before using it for projects or analysis. Every effort has been made to supply the user with data documentation. For additional information, see the References section and the Data Source Contact section of this documentation. For more information regarding scale and accuracy, see our webpage at: http://geoplan.ufl.edu/education.htmlThe Florida Geographic Data Library is a collection of Geospatial Data compiled by the University of Florida GeoPlan Center with support from the Florida Department of Transportation. GIS data available in FGDL is collected from various state, federal, and other agencies (data sources) who are data stewards, producers, or publishers. The data available in FGDL may not be the most current version of the data offered by the data source. University of Florida GeoPlan Center makes no guarantees about the currentness of the data and suggests that data users check with the data source to see if more recent versions of the data exist. Furthermore, the GIS data available in the FGDL are provided 'as is'. The University of Florida GeoPlan Center makes no warranties, guaranties or representations as to the truth, accuracy or completeness of the data provided by the data sources. The University of Florida GeoPlan Center makes no representations or warranties about the quality or suitability of the materials, either expressly or implied, including but not limited to any implied warranties of merchantability, fitness for a particular purpose, or non-infringement. The University of Florida GeoPlan Center shall not be liable for any damages suffered as a result of using, modifying, contributing or distributing the materials. A note about data scale: Scale is an important factor in data usage. Certain scale datasets are not suitable for some project, analysis, or modeling purposes. Please be sure you are using the best available data. 1:24000 scale datasets are recommended for projects that are at the county level. 1:24000 data should NOT be used for high accuracy base mapping such as property parcel boundaries. 1:100000 scale datasets are recommended for projects that are at the multi-county or regional level. 1:125000 scale datasets are recommended for projects that are at the regional or state level or larger. Vector datasets with no defined scale or accuracy should be considered suspect. Make sure you are familiar with your data before using it for projects or analysis. Every effort has been made to supply the user with data documentation. For additional information, see the References section and the Data Source Contact section of this documentation. For more information regarding scale and accuracy, see our webpage at: http://geoplan.ufl.edu/education.htmlU.S. Environmental Protection AgencyWashington, DCEPA - eGRID: https://www.epa.gov/egrid For more information on eGRID please see the following EPA documentation: https://www.epa.gov/sites/production/files/2021-02/documents/egrid2019_technical_guide.pdfhttps://www.epa.gov/egridVersion 6.2 (Build 9200) ; Esri ArcGIS 10.8.1.14362-87.416105-79.87999624.52686731.42467publication date2020-12-31What is eGRID? The Emissions & Generation Resource Integrated Database (eGRID) is a comprehensive inventory of environmental attributes of electric power systems. The preeminent source of air emission data for the electric power sector, eGRID is based on available plant-specific data for all U.S. electricity generating plants that provide power to the electric grid and report data to the U.S. government. eGRID uses data from the Energy Information Administration (EIA) Forms EIA-860 and EIA-923 and EPA’s Clean Air Markets Program Data. Emission data from EPA are carefully integrated with generation data from EIA to produce useful values like pounds of emissions per megawatt-hour of electricity generation (lb/MWh), which allows direct comparison of the environmental attributes of electricity generation. eGRID also provides aggregated data by state, U.S. total, and by three different sets of electric grid boundaries (i.e., balancing authority area, NERC region, and eGRID subregion). Why eGRID? Many consumers have a choice regarding the source of their electricity, and some seek cleaner sources, such as wind and solar power. EPA’s Power Profiler application, which uses eGRID data, helps individual consumers understand the environmental impacts of their own electricity usage. Electricity generation is the dominant industrial source of air emissions in the United States today. Whenever you switch on an electrical appliance, chances are you are contributing to air pollution and greenhouse gas emissions. By documenting the environmental attributes of electric power generation, eGRID can help consumers and researchers to better understand the relationship between electricity and the environment. In the United States, electricity is generated in many different ways, with a wide variation in environmental impacts. In many states, power companies are required to disclose the environmental attributes of their retail electricity products. eGRID data can be used to support the following activities: Greenhouse gas registries and inventories, Carbon footprinting, Consumer information disclosure, Renewable portfolio standards, Development of emission inventories and emission standards, Analysis of changing power markets, and Estimation of avoided emissions. What information is contained in eGRID? For virtually every grid-connected power plant in the United States, eGRID provides: A detailed emissions profile, covering nitrogen oxides (NOX), sulfur dioxide (SO2), carbon dioxide (CO2), methane (CH4), nitrous oxide (N2O), and mercury (Hg). Mass emissions are reported in either pounds or tons. Output emission rates are reported pounds per megawatt-hour (lb/MWh). Input emission rates are reported in pounds per million British thermal units (lb/MMBtu). Generation resource mix, in megawatt-hours and percent. Identification and location information. eGRID provides separate data at the combustion unit and generator levels. These data are combined at the plant level. The plant level data are then aggregated to state, U.S. total, and three types of power grid regions:? Balancing authority area (generally smaller regions of the power grid in which all power plants are managed to balance power system demand and supply); eGRID subregion; and NERC region, as designated by the North American Electric Reliability Corporation (plus Alaska, Hawaii, and Puerto Rico). Source: https://www.epa.gov/egrid/egrid-questions-and-answersThis data is provided 'as is'. GeoPlan relied on the integrity of the original data layer's topology.This data is provided 'as is'. GeoPlan relied on the integrity of the original data layer's topology.This data is provided 'as is' by GeoPlan and is complete to our knowledge.GeoPlan relied on the integrity of the attribute information within the original data.This data is provided 'as is' and its horizontal positional accuracy has not been verified by GeoPlan.This data is provided 'as is' and its vertical positional accuracy has not been verified by GeoPlan.GeoPlan Center downloaded the EPA eGRID2020 year 2020 data in excel format from the following EPA website on 8/4/2022: https://www.epa.gov/egrid/download-data Released: 1/27/2022. Next, GeoPlan imported the eGRID2020 PLNT20 excel sheet from the eGRID2020 excel workbook into ArcGIS Pro. The PLNT20 excel workbook sheet contained 12,668 year 2020 records representing electricity generation plants. The PLNT20 excel workbook sheet was then exported from ArcGIS Pro as a database table. Next, the newly created PLNT20.DBF was spatially mapped using the LAT and LON fields containing WGS 1984 coordinates in decimal degrees. Records with no latitude/longitude information were removed from the data set. The newly created PLNT20 projection was defined as GCS_WGS_1984, and then it was reprojected to the FGDL Albers NAD 83 HARN projection. Next, a selection was performed on the State FIPS ID field where it was equal to 12 (i.e. the State of Florida). Several other power plants that skirted the Florida border were also included. Next, all of the field information was uppercased, and additional fields were added: NOTES, NUCLEAR, LAT_DD, LONG_DD, MGRS, GOOGLEMAP, DESCRIPT (based on PNAME), and FGDLAQDATE (based on the date the data was downloaded from the source). Certain points were moved, see NOTES field for features altered. Facility address information from the following website was used to help better locate the physical locations of the facilities: http://www.energyjustice.net/map/searchfacility-basic.php. The final dataset renamed EPAEGRID_2020.2022-08-08UF GeoPlan CenterGeoPlanSpatial and Attribute Information031420220902151631001.0original metadataPD94bWwgdmVyc2lvbj0iMS4wIiBlbmNvZGluZz0idXRmLTgiPz4NCjxtZXRhZGF0YT4NCiAgPGlk aW5mbz4NCiAgICA8Y2l0YXRpb24+DQogICAgICA8Y2l0ZWluZm8+DQogICAgICAgIDxvcmlnaW4+ VS5TLiBFbnZpcm9ubWVudGFsIFByb3RlY3Rpb24gQWdlbmN5PC9vcmlnaW4+DQogICAgICAgIDxw dWJkYXRlPjIwMjIwMTI3PC9wdWJkYXRlPg0KICAgICAgICA8dGl0bGU+VVMgRVBBIEVtaXNzaW9u cyBhbmQgR2VuZXJhdGlvbiBSZXNvdXJjZSBJbnRlZ3JhdGVkIERhdGFiYXNlIChFR1JJRCAyMDIw KSBmb3IgRWxlY3RyaWNpdHkgR2VuZXJhdGluZyBQbGFudHMgaW4gRmxvcmlkYSAtIFB1Ymxpc2hl ZCAyMDIyPC90aXRsZT4NCiAgICAgICAgPGVkaXRpb24+ZUdSSUQyMDIwIFlFQVIgMjAyMCBEQVRB PC9lZGl0aW9uPg0KICAgICAgICA8Z2VvZm9ybT52ZWN0b3IgZGlnaXRhbCBkYXRhPC9nZW9mb3Jt Pg0KICAgICAgICA8cHViaW5mbz4NCiAgICAgICAgICA8cHVicGxhY2U+V2FzaGluZ3RvbiwgRC5D LjwvcHVicGxhY2U+DQogICAgICAgICAgPHB1Ymxpc2g+VS5TLiBFbnZpcm9ubWVudGFsIFByb3Rl Y3Rpb24gQWdlbmN5PC9wdWJsaXNoPg0KICAgICAgICA8L3B1YmluZm8+DQogICAgICAgIDxvdGhl cmNpdD5TdGF0ZSBvZiBGbG9yaWRhPC9vdGhlcmNpdD4NCiAgICAgICAgPG9ubGluaz5odHRwczov L3d3dy5lcGEuZ292L2VncmlkL2Rvd25sb2FkLWRhdGE8L29ubGluaz4NCiAgICAgIDwvY2l0ZWlu Zm8+DQogICAgPC9jaXRhdGlvbj4NCiAgICA8ZGVzY3JpcHQ+DQogICAgICA8YWJzdHJhY3Q+VGhl IEVtaXNzaW9ucyAmYW1wO2FtcDsgR2VuZXJhdGlvbiBSZXNvdXJjZSBJbnRlZ3JhdGVkIERhdGFi YXNlIChlR1JJRCkgaXMgYSBjb21wcmVoZW5zaXZlIHNvdXJjZSBvZiBkYXRhIG9uIHRoZSBlbnZp cm9ubWVudGFsIGNoYXJhY3RlcmlzdGljcyBvZiBhbG1vc3QgYWxsIGVsZWN0cmljIHBvd2VyIGdl bmVyYXRlZCBpbiB0aGUgVW5pdGVkIFN0YXRlcy4gVGhlIHByZWVtaW5lbnQgc291cmNlIG9mIGVt aXNzaW9ucyBkYXRhIGZvciB0aGUgZWxlY3RyaWMgcG93ZXIgc2VjdG9yLCBlR1JJRCBpcyBiYXNl ZCBvbiBhdmFpbGFibGUgcGxhbnQtc3BlY2lmaWMgZGF0YSBmb3IgYWxsIFUuUy4gZWxlY3RyaWNp dHkgZ2VuZXJhdGluZyBwbGFudHMgdGhhdCBwcm92aWRlIHBvd2VyIHRvIHRoZSBlbGVjdHJpYyBn cmlkIGFuZCByZXBvcnQgZGF0YSB0byB0aGUgVS5TLiBnb3Zlcm5tZW50LiBEYXRhIHJlcG9ydGVk IGluY2x1ZGUsIGJ1dCBhcmUgbm90IGxpbWl0ZWQgdG8sIG5ldCBlbGVjdHJpYyBnZW5lcmF0aW9u OyByZXNvdXJjZSBtaXggKGZvciByZW5ld2FibGUgYW5kIG5vbnJlbmV3YWJsZSBnZW5lcmF0aW9u KTsgbWFzcyBlbWlzc2lvbnMgb2YgY2FyYm9uIGRpb3hpZGUgKENPMiksIG5pdHJvZ2VuIG94aWRl cyAoTk94KSwgc3VsZnVyIGRpb3hpZGUgKFNPMiksIG1ldGhhbmUgKENINCksIG5pdHJvdXMgb3hp ZGUgKE4yTyksIGFuZCBtZXJjdXJ5IChIZyk7IGVtaXNzaW9uIHJhdGVzIGZvciBDTzIsIE5PeCwg U08yLCBDSDQsIGFuZCBOMk87IGhlYXQgaW5wdXQ7IGFuZCBuYW1lcGxhdGUgY2FwYWNpdHkuIGVH UklEIHJlcG9ydHMgdGhpcyBpbmZvcm1hdGlvbiBvbiBhbiBhbm51YWwgYmFzaXMgKGFzIHdlbGwg YXMgYnkgb3pvbmUgc2Vhc29uIGZvciBOT3gpIGF0IGRpZmZlcmVudCBsZXZlbHMgb2YgYWdncmVn YXRpb24uIGVHUklEMjAyMCwgcmVsZWFzZWQgaW4gSmFudWFyeSAyMDIyIGlzIHRoZSBmaWZ0ZWVu dGggZWRpdGlvbiBvZiBlR1JJRC4gUGxlYXNlIG5vdGU6IFRoZSBFUEEgaGFzIHJlY2VudGx5IGNo YW5nZWQgdGhlIG5hbWluZyBjb252ZW50aW9uIG9mIGVHUklELiBUaGUgY3VycmVudCBlZGl0aW9u IGlzIG5hbWVkIHdpdGggYSB5ZWFyIGNvcnJlc3BvbmRpbmcgdG8gdGhlIHllYXIgb2YgdGhlIGRh dGEgKGVHUklEMjAyMCksIHdoaWxlIHRoZSBwdWJsaWNhdGlvbiB5ZWFyIG9mIHRoZSBkYXRhIGlz IDIwMjIuIFRob3NlIGNoYW5nZXMgYXJlIHJlZmxlY3RlZCBpbiB0aGUgdGl0bGUgYWJvdmUuIEZv ciBtb3JlIGluZm9ybWF0aW9uIG9uIGVHUklEIHBsZWFzZSBzZWUgdGhlIGZvbGxvd2luZyBFUEEg ZG9jdW1lbnRhdGlvbjogaHR0cHM6Ly93d3cuZXBhLmdvdi9zeXN0ZW0vZmlsZXMvZG9jdW1lbnRz LzIwMjItMDEvZWdyaWQyMDIwX3RlY2huaWNhbF9ndWlkZS5wZGYuIFRoaXMgbGF5ZXIgaXMgYW4g dXBkYXRlIHRvIHRoZSBGR0RMIGxheWVyIEVQQUVHUklEXzIwMTkuPC9hYnN0cmFjdD4NCiAgICAg IDxwdXJwb3NlPlRoZSBkYXRhIHdhcyBjcmVhdGVkIHRvIHNlcnZlIGFzIGJhc2UgaW5mb3JtYXRp b24gZm9yIHVzZSBpbiBHSVMgc3lzdGVtcyBmb3IgYSB2YXJpZXR5IG9mIHBsYW5uaW5nIGFuZCBh bmFseXRpY2FsIHB1cnBvc2VzLjwvcHVycG9zZT4NCiAgICAgIDxzdXBwbGluZj5XaGF0IGlzIGVH UklEPyBUaGUgRW1pc3Npb25zICZhbXA7IEdlbmVyYXRpb24gUmVzb3VyY2UgSW50ZWdyYXRlZCBE YXRhYmFzZSAoZUdSSUQpIGlzIGEgY29tcHJlaGVuc2l2ZSBpbnZlbnRvcnkgb2YgZW52aXJvbm1l bnRhbCBhdHRyaWJ1dGVzIG9mIGVsZWN0cmljIHBvd2VyIHN5c3RlbXMuIFRoZSBwcmVlbWluZW50 IHNvdXJjZSBvZiBhaXIgZW1pc3Npb24gZGF0YSBmb3IgdGhlIGVsZWN0cmljIHBvd2VyIHNlY3Rv ciwgZUdSSUQgaXMgYmFzZWQgb24gYXZhaWxhYmxlIHBsYW50LXNwZWNpZmljIGRhdGEgZm9yIGFs bCBVLlMuIGVsZWN0cmljaXR5IGdlbmVyYXRpbmcgcGxhbnRzIHRoYXQgcHJvdmlkZSBwb3dlciB0 byB0aGUgZWxlY3RyaWMgZ3JpZCBhbmQgcmVwb3J0IGRhdGEgdG8gdGhlIFUuUy4gZ292ZXJubWVu dC4gZUdSSUQgdXNlcyBkYXRhIGZyb20gdGhlIEVuZXJneSBJbmZvcm1hdGlvbiBBZG1pbmlzdHJh dGlvbiAoRUlBKSBGb3JtcyBFSUEtODYwIGFuZCBFSUEtOTIzIGFuZCBFUEHigJlzIENsZWFuIEFp ciBNYXJrZXRzIFByb2dyYW0gRGF0YS4gRW1pc3Npb24gZGF0YSBmcm9tIEVQQSBhcmUgY2FyZWZ1 bGx5IGludGVncmF0ZWQgd2l0aCBnZW5lcmF0aW9uIGRhdGEgZnJvbSBFSUEgdG8gcHJvZHVjZSB1 c2VmdWwgdmFsdWVzIGxpa2UgcG91bmRzIG9mIGVtaXNzaW9ucyBwZXIgbWVnYXdhdHQtaG91ciBv ZiBlbGVjdHJpY2l0eSBnZW5lcmF0aW9uIChsYi9NV2gpLCB3aGljaCBhbGxvd3MgZGlyZWN0IGNv bXBhcmlzb24gb2YgdGhlIGVudmlyb25tZW50YWwgYXR0cmlidXRlcyBvZiBlbGVjdHJpY2l0eSBn ZW5lcmF0aW9uLiBlR1JJRCBhbHNvIHByb3ZpZGVzIGFnZ3JlZ2F0ZWQgZGF0YSBieSBzdGF0ZSwg VS5TLiB0b3RhbCwgYW5kIGJ5IHRocmVlIGRpZmZlcmVudCBzZXRzIG9mIGVsZWN0cmljIGdyaWQg Ym91bmRhcmllcyAoaS5lLiwgYmFsYW5jaW5nIGF1dGhvcml0eSBhcmVhLCBORVJDIHJlZ2lvbiwg YW5kIGVHUklEIHN1YnJlZ2lvbikuIFdoeSBlR1JJRD8gTWFueSBjb25zdW1lcnMgaGF2ZSBhIGNo b2ljZSByZWdhcmRpbmcgdGhlIHNvdXJjZSBvZiB0aGVpciBlbGVjdHJpY2l0eSwgYW5kIHNvbWUg c2VlayBjbGVhbmVyIHNvdXJjZXMsIHN1Y2ggYXMgd2luZCBhbmQgc29sYXIgcG93ZXIuIEVQQeKA mXMgUG93ZXIgUHJvZmlsZXIgYXBwbGljYXRpb24sIHdoaWNoIHVzZXMgZUdSSUQgZGF0YSwgaGVs cHMgaW5kaXZpZHVhbCBjb25zdW1lcnMgdW5kZXJzdGFuZCB0aGUgZW52aXJvbm1lbnRhbCBpbXBh Y3RzIG9mIHRoZWlyIG93biBlbGVjdHJpY2l0eSB1c2FnZS4gRWxlY3RyaWNpdHkgZ2VuZXJhdGlv biBpcyB0aGUgZG9taW5hbnQgaW5kdXN0cmlhbCBzb3VyY2Ugb2YgYWlyIGVtaXNzaW9ucyBpbiB0 aGUgVW5pdGVkIFN0YXRlcyB0b2RheS4gV2hlbmV2ZXIgeW91IHN3aXRjaCBvbiBhbiBlbGVjdHJp Y2FsIGFwcGxpYW5jZSwgY2hhbmNlcyBhcmUgeW91IGFyZSBjb250cmlidXRpbmcgdG8gYWlyIHBv bGx1dGlvbiBhbmQgZ3JlZW5ob3VzZSBnYXMgZW1pc3Npb25zLiBCeSBkb2N1bWVudGluZyB0aGUg ZW52aXJvbm1lbnRhbCBhdHRyaWJ1dGVzIG9mIGVsZWN0cmljIHBvd2VyIGdlbmVyYXRpb24sIGVH UklEIGNhbiBoZWxwIGNvbnN1bWVycyBhbmQgcmVzZWFyY2hlcnMgdG8gYmV0dGVyIHVuZGVyc3Rh bmQgdGhlIHJlbGF0aW9uc2hpcCBiZXR3ZWVuIGVsZWN0cmljaXR5IGFuZCB0aGUgZW52aXJvbm1l bnQuIEluIHRoZSBVbml0ZWQgU3RhdGVzLCBlbGVjdHJpY2l0eSBpcyBnZW5lcmF0ZWQgaW4gbWFu eSBkaWZmZXJlbnQgd2F5cywgd2l0aCBhIHdpZGUgdmFyaWF0aW9uIGluIGVudmlyb25tZW50YWwg aW1wYWN0cy4gSW4gbWFueSBzdGF0ZXMsIHBvd2VyIGNvbXBhbmllcyBhcmUgcmVxdWlyZWQgdG8g ZGlzY2xvc2UgdGhlIGVudmlyb25tZW50YWwgYXR0cmlidXRlcyBvZiB0aGVpciByZXRhaWwgZWxl Y3RyaWNpdHkgcHJvZHVjdHMuIGVHUklEIGRhdGEgY2FuIGJlIHVzZWQgdG8gc3VwcG9ydCB0aGUg Zm9sbG93aW5nIGFjdGl2aXRpZXM6IEdyZWVuaG91c2UgZ2FzIHJlZ2lzdHJpZXMgYW5kIGludmVu dG9yaWVzLCBDYXJib24gZm9vdHByaW50aW5nLCBDb25zdW1lciBpbmZvcm1hdGlvbiBkaXNjbG9z dXJlLCBSZW5ld2FibGUgcG9ydGZvbGlvIHN0YW5kYXJkcywgRGV2ZWxvcG1lbnQgb2YgZW1pc3Np b24gaW52ZW50b3JpZXMgYW5kIGVtaXNzaW9uIHN0YW5kYXJkcywgQW5hbHlzaXMgb2YgY2hhbmdp bmcgcG93ZXIgbWFya2V0cywgYW5kIEVzdGltYXRpb24gb2YgYXZvaWRlZCBlbWlzc2lvbnMuIFdo YXQgaW5mb3JtYXRpb24gaXMgY29udGFpbmVkIGluIGVHUklEPyBGb3IgdmlydHVhbGx5IGV2ZXJ5 IGdyaWQtY29ubmVjdGVkIHBvd2VyIHBsYW50IGluIHRoZSBVbml0ZWQgU3RhdGVzLCBlR1JJRCBw cm92aWRlczogQSBkZXRhaWxlZCBlbWlzc2lvbnMgcHJvZmlsZSwgY292ZXJpbmcgbml0cm9nZW4g b3hpZGVzIChOT1gpLCBzdWxmdXIgZGlveGlkZSAoU08yKSwgY2FyYm9uIGRpb3hpZGUgKENPMiks IG1ldGhhbmUgKENINCksIG5pdHJvdXMgb3hpZGUgKE4yTyksIGFuZCBtZXJjdXJ5IChIZykuIE1h c3MgZW1pc3Npb25zIGFyZSByZXBvcnRlZCBpbiBlaXRoZXIgcG91bmRzIG9yIHRvbnMuIE91dHB1 dCBlbWlzc2lvbiByYXRlcyBhcmUgcmVwb3J0ZWQgcG91bmRzIHBlciBtZWdhd2F0dC1ob3VyIChs Yi9NV2gpLiBJbnB1dCBlbWlzc2lvbiByYXRlcyBhcmUgcmVwb3J0ZWQgaW4gcG91bmRzIHBlciBt aWxsaW9uIEJyaXRpc2ggdGhlcm1hbCB1bml0cyAobGIvTU1CdHUpLiBHZW5lcmF0aW9uIHJlc291 cmNlIG1peCwgaW4gbWVnYXdhdHQtaG91cnMgYW5kIHBlcmNlbnQuIElkZW50aWZpY2F0aW9uIGFu ZCBsb2NhdGlvbiBpbmZvcm1hdGlvbi4gZUdSSUQgcHJvdmlkZXMgc2VwYXJhdGUgZGF0YSBhdCB0 aGUgY29tYnVzdGlvbiB1bml0IGFuZCBnZW5lcmF0b3IgbGV2ZWxzLiBUaGVzZSBkYXRhIGFyZSBj b21iaW5lZCBhdCB0aGUgcGxhbnQgbGV2ZWwuIFRoZSBwbGFudCBsZXZlbCBkYXRhIGFyZSB0aGVu IGFnZ3JlZ2F0ZWQgdG8gc3RhdGUsIFUuUy4gdG90YWwsIGFuZCB0aHJlZSB0eXBlcyBvZiBwb3dl ciBncmlkIHJlZ2lvbnM6PyBCYWxhbmNpbmcgYXV0aG9yaXR5IGFyZWEgKGdlbmVyYWxseSBzbWFs bGVyIHJlZ2lvbnMgb2YgdGhlIHBvd2VyIGdyaWQgaW4gd2hpY2ggYWxsIHBvd2VyIHBsYW50cyBh cmUgbWFuYWdlZCB0byBiYWxhbmNlIHBvd2VyIHN5c3RlbSBkZW1hbmQgYW5kIHN1cHBseSk7IGVH UklEIHN1YnJlZ2lvbjsgYW5kIE5FUkMgcmVnaW9uLCBhcyBkZXNpZ25hdGVkIGJ5IHRoZSBOb3J0 aCBBbWVyaWNhbiBFbGVjdHJpYyBSZWxpYWJpbGl0eSBDb3Jwb3JhdGlvbiAocGx1cyBBbGFza2Es IEhhd2FpaSwgYW5kIFB1ZXJ0byBSaWNvKS4gU291cmNlOiBodHRwczovL3d3dy5lcGEuZ292L2Vn cmlkL2VncmlkLXF1ZXN0aW9ucy1hbmQtYW5zd2Vyczwvc3VwcGxpbmY+DQogICAgPC9kZXNjcmlw dD4NCiAgICA8dGltZXBlcmQ+DQogICAgICA8dGltZWluZm8+DQogICAgICAgIDxzbmdkYXRlPg0K ICAgICAgICAgIDxjYWxkYXRlPjIwMjAxMjMxPC9jYWxkYXRlPg0KICAgICAgICA8L3NuZ2RhdGU+ DQogICAgICA8L3RpbWVpbmZvPg0KICAgICAgPGN1cnJlbnQ+cHVibGljYXRpb24gZGF0ZTwvY3Vy cmVudD4NCiAgICA8L3RpbWVwZXJkPg0KICAgIDxzdGF0dXM+DQogICAgICA8cHJvZ3Jlc3M+Q29t cGxldGU8L3Byb2dyZXNzPg0KICAgICAgPHVwZGF0ZT5BcyBuZWVkZWQ8L3VwZGF0ZT4NCiAgICA8 L3N0YXR1cz4NCiAgICA8c3Bkb20+DQogICAgICA8Ym91bmRpbmc+DQogICAgICAgIDx3ZXN0YmM+ LTg3LjQxNjEwNTwvd2VzdGJjPg0KICAgICAgICA8ZWFzdGJjPi03OS44Nzk5OTY8L2Vhc3RiYz4N CiAgICAgICAgPG5vcnRoYmM+MzEuNDI0NjcwPC9ub3J0aGJjPg0KICAgICAgICA8c291dGhiYz4y NC41MjY4Njc8L3NvdXRoYmM+DQogICAgICA8L2JvdW5kaW5nPg0KICAgIDwvc3Bkb20+DQogICAg PGtleXdvcmRzPg0KICAgICAgPHRoZW1lPg0KICAgICAgICA8dGhlbWVrdD5JU08gMTkxMTUgVG9w aWMgQ2F0ZWdvcnk8L3RoZW1la3Q+DQogICAgICAgIDx0aGVtZWtleT5lbnZpcm9ubWVudDwvdGhl bWVrZXk+DQogICAgICAgIDx0aGVtZWtleT51dGlsaXRpZXNDb21tdW5pY2F0aW9uPC90aGVtZWtl eT4NCiAgICAgIDwvdGhlbWU+DQogICAgICA8dGhlbWU+DQogICAgICAgIDx0aGVtZWt0Pk5vbmU8 L3RoZW1la3Q+DQogICAgICAgIDx0aGVtZWtleT5Qb3dlcjwvdGhlbWVrZXk+DQogICAgICAgIDx0 aGVtZWtleT5lbGVjdHJpY2l0eTwvdGhlbWVrZXk+DQogICAgICAgIDx0aGVtZWtleT5lbGVjdHJp YzwvdGhlbWVrZXk+DQogICAgICAgIDx0aGVtZWtleT5FbWlzc2lvbnMgJmFtcDsgR2VuZXJhdGlv biBSZXNvdXJjZSBJbnRlZ3JhdGVkIERhdGFiYXNlPC90aGVtZWtleT4NCiAgICAgICAgPHRoZW1l a2V5PnBvd2VyIGdyaWQ8L3RoZW1la2V5Pg0KICAgICAgICA8dGhlbWVrZXk+cG93ZXIgcGxhbnQ8 L3RoZW1la2V5Pg0KICAgICAgICA8dGhlbWVrZXk+TnVjbGVhcjwvdGhlbWVrZXk+DQogICAgICA8 L3RoZW1lPg0KICAgICAgPHBsYWNlPg0KICAgICAgICA8cGxhY2VrdD5Ob25lPC9wbGFjZWt0Pg0K ICAgICAgICA8cGxhY2VrZXk+RmxvcmlkYTwvcGxhY2VrZXk+DQogICAgICA8L3BsYWNlPg0KICAg ICAgPHRlbXBvcmFsPg0KICAgICAgICA8dGVtcGt0Pk5vbmU8L3RlbXBrdD4NCiAgICAgICAgPHRl bXBrZXk+MjAxODwvdGVtcGtleT4NCiAgICAgIDwvdGVtcG9yYWw+DQogICAgPC9rZXl3b3Jkcz4N CiAgICA8YWNjY29uc3Q+Tm9uZTwvYWNjY29uc3Q+DQogICAgPHVzZWNvbnN0PlRoZSBGbG9yaWRh IEdlb2dyYXBoaWMgRGF0YSBMaWJyYXJ5IGlzIGEgY29sbGVjdGlvbiBvZiBHZW9zcGF0aWFsIERh dGEgY29tcGlsZWQgYnkgdGhlIFVuaXZlcnNpdHkgb2YgRmxvcmlkYSBHZW9QbGFuIENlbnRlciB3 aXRoIHN1cHBvcnQgZnJvbSB0aGUgRmxvcmlkYSBEZXBhcnRtZW50IG9mIFRyYW5zcG9ydGF0aW9u LiBHSVMgZGF0YSBhdmFpbGFibGUgaW4gRkdETCBpcyBjb2xsZWN0ZWQgZnJvbSB2YXJpb3VzIHN0 YXRlLCBmZWRlcmFsLCBhbmQgb3RoZXIgYWdlbmNpZXMgKGRhdGEgc291cmNlcykgd2hvIGFyZSBk YXRhIHN0ZXdhcmRzLCBwcm9kdWNlcnMsIG9yIHB1Ymxpc2hlcnMuIFRoZSBkYXRhIGF2YWlsYWJs ZSBpbiBGR0RMIG1heSBub3QgYmUgdGhlIG1vc3QgY3VycmVudCB2ZXJzaW9uIG9mIHRoZSBkYXRh IG9mZmVyZWQgYnkgdGhlIGRhdGEgc291cmNlLiBVbml2ZXJzaXR5IG9mIEZsb3JpZGEgR2VvUGxh biBDZW50ZXIgbWFrZXMgbm8gZ3VhcmFudGVlcyBhYm91dCB0aGUgY3VycmVudG5lc3Mgb2YgdGhl IGRhdGEgYW5kIHN1Z2dlc3RzIHRoYXQgZGF0YSB1c2VycyBjaGVjayB3aXRoIHRoZSBkYXRhIHNv dXJjZSB0byBzZWUgaWYgbW9yZSByZWNlbnQgdmVyc2lvbnMgb2YgdGhlIGRhdGEgZXhpc3QuIEZ1 cnRoZXJtb3JlLCB0aGUgR0lTIGRhdGEgYXZhaWxhYmxlIGluIHRoZSBGR0RMIGFyZSBwcm92aWRl ZCAnYXMgaXMnLiBUaGUgVW5pdmVyc2l0eSBvZiBGbG9yaWRhIEdlb1BsYW4gQ2VudGVyIG1ha2Vz IG5vIHdhcnJhbnRpZXMsIGd1YXJhbnRpZXMgb3IgcmVwcmVzZW50YXRpb25zIGFzIHRvIHRoZSB0 cnV0aCwgYWNjdXJhY3kgb3IgY29tcGxldGVuZXNzIG9mIHRoZSBkYXRhIHByb3ZpZGVkIGJ5IHRo ZSBkYXRhIHNvdXJjZXMuIFRoZSBVbml2ZXJzaXR5IG9mIEZsb3JpZGEgR2VvUGxhbiBDZW50ZXIg bWFrZXMgbm8gcmVwcmVzZW50YXRpb25zIG9yIHdhcnJhbnRpZXMgYWJvdXQgdGhlIHF1YWxpdHkg b3Igc3VpdGFiaWxpdHkgb2YgdGhlIG1hdGVyaWFscywgZWl0aGVyIGV4cHJlc3NseSBvciBpbXBs aWVkLCBpbmNsdWRpbmcgYnV0IG5vdCBsaW1pdGVkIHRvIGFueSBpbXBsaWVkIHdhcnJhbnRpZXMg b2YgbWVyY2hhbnRhYmlsaXR5LCBmaXRuZXNzIGZvciBhIHBhcnRpY3VsYXIgcHVycG9zZSwgb3Ig bm9uLWluZnJpbmdlbWVudC4gVGhlIFVuaXZlcnNpdHkgb2YgRmxvcmlkYSBHZW9QbGFuIENlbnRl ciBzaGFsbCBub3QgYmUgbGlhYmxlIGZvciBhbnkgZGFtYWdlcyBzdWZmZXJlZCBhcyBhIHJlc3Vs dCBvZiB1c2luZywgbW9kaWZ5aW5nLCBjb250cmlidXRpbmcgb3IgZGlzdHJpYnV0aW5nIHRoZSBt YXRlcmlhbHMuIEEgbm90ZSBhYm91dCBkYXRhIHNjYWxlOiBTY2FsZSBpcyBhbiBpbXBvcnRhbnQg ZmFjdG9yIGluIGRhdGEgdXNhZ2UuIENlcnRhaW4gc2NhbGUgZGF0YXNldHMgYXJlIG5vdCBzdWl0 YWJsZSBmb3Igc29tZSBwcm9qZWN0LCBhbmFseXNpcywgb3IgbW9kZWxpbmcgcHVycG9zZXMuIFBs ZWFzZSBiZSBzdXJlIHlvdSBhcmUgdXNpbmcgdGhlIGJlc3QgYXZhaWxhYmxlIGRhdGEuIDE6MjQw MDAgc2NhbGUgZGF0YXNldHMgYXJlIHJlY29tbWVuZGVkIGZvciBwcm9qZWN0cyB0aGF0IGFyZSBh dCB0aGUgY291bnR5IGxldmVsLiAxOjI0MDAwIGRhdGEgc2hvdWxkIE5PVCBiZSB1c2VkIGZvciBo aWdoIGFjY3VyYWN5IGJhc2UgbWFwcGluZyBzdWNoIGFzIHByb3BlcnR5IHBhcmNlbCBib3VuZGFy aWVzLiAxOjEwMDAwMCBzY2FsZSBkYXRhc2V0cyBhcmUgcmVjb21tZW5kZWQgZm9yIHByb2plY3Rz IHRoYXQgYXJlIGF0IHRoZSBtdWx0aS1jb3VudHkgb3IgcmVnaW9uYWwgbGV2ZWwuIDE6MTI1MDAw IHNjYWxlIGRhdGFzZXRzIGFyZSByZWNvbW1lbmRlZCBmb3IgcHJvamVjdHMgdGhhdCBhcmUgYXQg dGhlIHJlZ2lvbmFsIG9yIHN0YXRlIGxldmVsIG9yIGxhcmdlci4gVmVjdG9yIGRhdGFzZXRzIHdp dGggbm8gZGVmaW5lZCBzY2FsZSBvciBhY2N1cmFjeSBzaG91bGQgYmUgY29uc2lkZXJlZCBzdXNw ZWN0LiBNYWtlIHN1cmUgeW91IGFyZSBmYW1pbGlhciB3aXRoIHlvdXIgZGF0YSBiZWZvcmUgdXNp bmcgaXQgZm9yIHByb2plY3RzIG9yIGFuYWx5c2lzLiBFdmVyeSBlZmZvcnQgaGFzIGJlZW4gbWFk ZSB0byBzdXBwbHkgdGhlIHVzZXIgd2l0aCBkYXRhIGRvY3VtZW50YXRpb24uIEZvciBhZGRpdGlv bmFsIGluZm9ybWF0aW9uLCBzZWUgdGhlIFJlZmVyZW5jZXMgc2VjdGlvbiBhbmQgdGhlIERhdGEg U291cmNlIENvbnRhY3Qgc2VjdGlvbiBvZiB0aGlzIGRvY3VtZW50YXRpb24uIEZvciBtb3JlIGlu Zm9ybWF0aW9uIHJlZ2FyZGluZyBzY2FsZSBhbmQgYWNjdXJhY3ksIHNlZSBvdXIgd2VicGFnZSBh dDogaHR0cDovL2dlb3BsYW4udWZsLmVkdS9lZHVjYXRpb24uaHRtbDwvdXNlY29uc3Q+DQogICAg PHB0Y29udGFjPg0KICAgICAgPGNudGluZm8+DQogICAgICAgIDxjbnRvcmdwPg0KICAgICAgICAg IDxjbnRvcmc+VS5TLiBFbnZpcm9ubWVudGFsIFByb3RlY3Rpb24gQWdlbmN5PC9jbnRvcmc+DQog ICAgICAgIDwvY250b3JncD4NCiAgICAgICAgPGNudHBvcz5FbmVyZ3kgYW5kIHRoZSBFbnZpcm9u bWVudCBXZWJzaXRlPC9jbnRwb3M+DQogICAgICAgIDxjbnRhZGRyPg0KICAgICAgICAgIDxhZGRy dHlwZT5tYWlsaW5nPC9hZGRydHlwZT4NCiAgICAgICAgICA8YWRkcmVzcz4xMjAwIFBlbm5zeWx2 YW5pYSBBdmUgTlcgKE1DIDYyMDJBKTwvYWRkcmVzcz4NCiAgICAgICAgICA8Y2l0eT5XYXNoaW5n dG9uPC9jaXR5Pg0KICAgICAgICAgIDxzdGF0ZT5ELkMuPC9zdGF0ZT4NCiAgICAgICAgICA8cG9z dGFsPjIwNDYwPC9wb3N0YWw+DQogICAgICAgICAgPGNvdW50cnk+VVM8L2NvdW50cnk+DQogICAg ICAgIDwvY250YWRkcj4NCiAgICAgICAgPGNudGVtYWlsPmh0dHBzOi8vd3d3LmVwYS5nb3YvZW5l cmd5L2Zvcm1zL2NvbnRhY3QtdXMtYWJvdXQtZW5lcmd5LWFuZC1lbnZpcm9ubWVudDwvY250ZW1h aWw+DQogICAgICAgIDxjbnRpbnN0PkNvbnRhY3QgVXMgQWJvdXQgRW5lcmd5IGFuZCB0aGUgRW52 aXJvbm1lbnQ8L2NudGluc3Q+DQogICAgICA8L2NudGluZm8+DQogICAgPC9wdGNvbnRhYz4NCiAg ICA8ZGF0YWNyZWQ+RVBBIENsZWFuIEVuZXJneSBEZXBhcnRtZW50PC9kYXRhY3JlZD4NCiAgICA8 bmF0aXZlPiBWZXJzaW9uIDYuMiAoQnVpbGQgOTIwMCkgOyBFc3JpIEFyY0dJUyAxMC44LjEuMTQz NjI8L25hdGl2ZT4NCiAgICA8Y3Jvc3NyZWY+DQogICAgICA8Y2l0ZWluZm8+DQogICAgICAgIDxw dWJpbmZvPg0KICAgICAgICAgIDxwdWJwbGFjZT5XYXNoaW5ndG9uLCBEQzwvcHVicGxhY2U+DQog ICAgICAgICAgPHB1Ymxpc2g+VS5TLiBFbnZpcm9ubWVudGFsIFByb3RlY3Rpb24gQWdlbmN5PC9w dWJsaXNoPg0KICAgICAgICA8L3B1YmluZm8+DQogICAgICAgIDxvdGhlcmNpdD5FUEEgLSBlR1JJ RDogaHR0cHM6Ly93d3cuZXBhLmdvdi9lZ3JpZCBGb3IgbW9yZSBpbmZvcm1hdGlvbiBvbiBlR1JJ RCBwbGVhc2Ugc2VlIHRoZSBmb2xsb3dpbmcgRVBBIGRvY3VtZW50YXRpb246IGh0dHBzOi8vd3d3 LmVwYS5nb3Yvc2l0ZXMvcHJvZHVjdGlvbi9maWxlcy8yMDIxLTAyL2RvY3VtZW50cy9lZ3JpZDIw MTlfdGVjaG5pY2FsX2d1aWRlLnBkZjwvb3RoZXJjaXQ+DQogICAgICAgIDxvbmxpbms+aHR0cHM6 Ly93d3cuZXBhLmdvdi9lZ3JpZDwvb25saW5rPg0KICAgICAgPC9jaXRlaW5mbz4NCiAgICA8L2Ny b3NzcmVmPg0KICA8L2lkaW5mbz4NCiAgPGRhdGFxdWFsPg0KICAgIDxhdHRyYWNjPg0KICAgICAg PGF0dHJhY2NyPkdlb1BsYW4gcmVsaWVkIG9uIHRoZSBpbnRlZ3JpdHkgb2YgdGhlIGF0dHJpYnV0 ZSBpbmZvcm1hdGlvbiB3aXRoaW4gdGhlIG9yaWdpbmFsIGRhdGEuPC9hdHRyYWNjcj4NCiAgICA8 L2F0dHJhY2M+DQogICAgPGxvZ2ljPlRoaXMgZGF0YSBpcyBwcm92aWRlZCAnYXMgaXMnLiBHZW9Q bGFuIHJlbGllZCBvbiB0aGUgaW50ZWdyaXR5IG9mIHRoZSBvcmlnaW5hbCBkYXRhIGxheWVyJ3Mg dG9wb2xvZ3kuPC9sb2dpYz4NCiAgICA8Y29tcGxldGU+VGhpcyBkYXRhIGlzIHByb3ZpZGVkICdh cyBpcycgYnkgR2VvUGxhbiBhbmQgaXMgY29tcGxldGUgdG8gb3VyIGtub3dsZWRnZS48L2NvbXBs ZXRlPg0KICAgIDxwb3NhY2M+DQogICAgICA8aG9yaXpwYT4NCiAgICAgICAgPGhvcml6cGFyPlRo aXMgZGF0YSBpcyBwcm92aWRlZCAnYXMgaXMnIGFuZCBpdHMgaG9yaXpvbnRhbCBwb3NpdGlvbmFs IGFjY3VyYWN5IGhhcyBub3QgYmVlbiB2ZXJpZmllZCBieSBHZW9QbGFuLjwvaG9yaXpwYXI+DQog ICAgICA8L2hvcml6cGE+DQogICAgICA8dmVydGFjYz4NCiAgICAgICAgPHZlcnRhY2NyPlRoaXMg ZGF0YSBpcyBwcm92aWRlZCAnYXMgaXMnIGFuZCBpdHMgdmVydGljYWwgcG9zaXRpb25hbCBhY2N1 cmFjeSBoYXMgbm90IGJlZW4gdmVyaWZpZWQgYnkgR2VvUGxhbi48L3ZlcnRhY2NyPg0KICAgICAg PC92ZXJ0YWNjPg0KICAgIDwvcG9zYWNjPg0KICAgIDxsaW5lYWdlPg0KICAgICAgPHNyY2luZm8+ DQogICAgICAgIDxzcmNzY2FsZT4wPC9zcmNzY2FsZT4NCiAgICAgICAgPHR5cGVzcmM+b25MaW5l PC90eXBlc3JjPg0KICAgICAgICA8c3JjY29udHI+U3BhdGlhbCBhbmQgQXR0cmlidXRlIEluZm9y bWF0aW9uPC9zcmNjb250cj4NCiAgICAgIDwvc3JjaW5mbz4NCiAgICAgIDxwcm9jc3RlcD4NCiAg ICAgICAgPHByb2NkZXNjPkdlb1BsYW4gQ2VudGVyIGRvd25sb2FkZWQgdGhlIEVQQSBlR1JJRDIw MjAgeWVhciAyMDIwIGRhdGEgaW4gZXhjZWwgZm9ybWF0IGZyb20gdGhlIGZvbGxvd2luZyBFUEEg d2Vic2l0ZSBvbiA4LzQvMjAyMjogaHR0cHM6Ly93d3cuZXBhLmdvdi9lZ3JpZC9kb3dubG9hZC1k YXRhIFJlbGVhc2VkOiAxLzI3LzIwMjIuIE5leHQsIEdlb1BsYW4gaW1wb3J0ZWQgdGhlIGVHUklE MjAyMCBQTE5UMjAgZXhjZWwgc2hlZXQgZnJvbSB0aGUgZUdSSUQyMDIwIGV4Y2VsIHdvcmtib29r IGludG8gQXJjR0lTIFByby4gVGhlIFBMTlQyMCBleGNlbCB3b3JrYm9vayBzaGVldCBjb250YWlu ZWQgMTIsNjY4IHllYXIgMjAyMCByZWNvcmRzIHJlcHJlc2VudGluZyBlbGVjdHJpY2l0eSBnZW5l cmF0aW9uIHBsYW50cy4gVGhlIFBMTlQyMCBleGNlbCB3b3JrYm9vayBzaGVldCB3YXMgdGhlbiBl eHBvcnRlZCBmcm9tIEFyY0dJUyBQcm8gYXMgYSBkYXRhYmFzZSB0YWJsZS4gTmV4dCwgdGhlIG5l d2x5IGNyZWF0ZWQgUExOVDIwLkRCRiB3YXMgc3BhdGlhbGx5IG1hcHBlZCB1c2luZyB0aGUgTEFU IGFuZCBMT04gZmllbGRzIGNvbnRhaW5pbmcgV0dTIDE5ODQgY29vcmRpbmF0ZXMgaW4gZGVjaW1h bCBkZWdyZWVzLiBSZWNvcmRzIHdpdGggbm8gbGF0aXR1ZGUvbG9uZ2l0dWRlIGluZm9ybWF0aW9u IHdlcmUgcmVtb3ZlZCBmcm9tIHRoZSBkYXRhIHNldC4gVGhlIG5ld2x5IGNyZWF0ZWQgUExOVDIw IHByb2plY3Rpb24gd2FzIGRlZmluZWQgYXMgR0NTX1dHU18xOTg0LCBhbmQgdGhlbiBpdCB3YXMg cmVwcm9qZWN0ZWQgdG8gdGhlIEZHREwgQWxiZXJzIE5BRCA4MyBIQVJOIHByb2plY3Rpb24uIE5l eHQsIGEgc2VsZWN0aW9uIHdhcyBwZXJmb3JtZWQgb24gdGhlIFN0YXRlIEZJUFMgSUQgZmllbGQg d2hlcmUgaXQgd2FzIGVxdWFsIHRvIDEyIChpLmUuIHRoZSBTdGF0ZSBvZiBGbG9yaWRhKS4gU2V2 ZXJhbCBvdGhlciBwb3dlciBwbGFudHMgdGhhdCBza2lydGVkIHRoZSBGbG9yaWRhIGJvcmRlciB3 ZXJlIGFsc28gaW5jbHVkZWQuIE5leHQsIGFsbCBvZiB0aGUgZmllbGQgaW5mb3JtYXRpb24gd2Fz IHVwcGVyY2FzZWQsIGFuZCBhZGRpdGlvbmFsIGZpZWxkcyB3ZXJlIGFkZGVkOiBOT1RFUywgTlVD TEVBUiwgTEFUX0RELCBMT05HX0RELCBNR1JTLCBHT09HTEVNQVAsIERFU0NSSVBUIChiYXNlZCBv biBQTkFNRSksIGFuZCBGR0RMQVFEQVRFIChiYXNlZCBvbiB0aGUgZGF0ZSB0aGUgZGF0YSB3YXMg ZG93bmxvYWRlZCBmcm9tIHRoZSBzb3VyY2UpLiBDZXJ0YWluIHBvaW50cyB3ZXJlIG1vdmVkLCBz ZWUgTk9URVMgZmllbGQgZm9yIGZlYXR1cmVzIGFsdGVyZWQuIEZhY2lsaXR5IGFkZHJlc3MgaW5m b3JtYXRpb24gZnJvbSB0aGUgZm9sbG93aW5nIHdlYnNpdGUgd2FzIHVzZWQgdG8gaGVscCBiZXR0 ZXIgbG9jYXRlIHRoZSBwaHlzaWNhbCBsb2NhdGlvbnMgb2YgdGhlIGZhY2lsaXRpZXM6IGh0dHA6 Ly93d3cuZW5lcmd5anVzdGljZS5uZXQvbWFwL3NlYXJjaGZhY2lsaXR5LWJhc2ljLnBocC4gVGhl IGZpbmFsIGRhdGFzZXQgcmVuYW1lZCBFUEFFR1JJRF8yMDIwLjwvcHJvY2Rlc2M+DQogICAgICAg IDxzcmN1c2VkPkdlb1BsYW48L3NyY3VzZWQ+DQogICAgICAgIDxwcm9jZGF0ZT4yMDIyMDgwODwv cHJvY2RhdGU+DQogICAgICAgIDxwcm9jY29udD4NCiAgICAgICAgICA8Y250aW5mbz4NCiAgICAg ICAgICAgIDxjbnRvcmdwPg0KICAgICAgICAgICAgICA8Y250b3JnPlVGIEdlb1BsYW4gQ2VudGVy PC9jbnRvcmc+DQogICAgICAgICAgICA8L2NudG9yZ3A+DQogICAgICAgICAgPC9jbnRpbmZvPg0K ICAgICAgICA8L3Byb2Njb250Pg0KICAgICAgPC9wcm9jc3RlcD4NCiAgICA8L2xpbmVhZ2U+DQog IDwvZGF0YXF1YWw+DQogIDxzcGRvaW5mbz4NCiAgICA8ZGlyZWN0PlZlY3RvcjwvZGlyZWN0Pg0K ICAgIDxwdHZjdGluZj4NCiAgICAgIDxzZHRzdGVybT4NCiAgICAgICAgPHNkdHN0eXBlPkVudGl0 eSBwb2ludDwvc2R0c3R5cGU+DQogICAgICAgIDxwdHZjdGNudD4zMTQ8L3B0dmN0Y250Pg0KICAg ICAgPC9zZHRzdGVybT4NCiAgICA8L3B0dmN0aW5mPg0KICA8L3NwZG9pbmZvPg0KICA8c3ByZWY+ DQogICAgPGhvcml6c3lzPg0KICAgICAgPHBsYW5hcj4NCiAgICAgICAgPG1hcHByb2o+DQogICAg ICAgICAgPG1hcHByb2puPk5BRCAxOTgzIEhBUk4gRmxvcmlkYSBHREwgQWxiZXJzPC9tYXBwcm9q bj4NCiAgICAgICAgICA8YWxiZXJzPg0KICAgICAgICAgICAgPHN0ZHBhcmxsPjI0LjA8L3N0ZHBh cmxsPg0KICAgICAgICAgICAgPHN0ZHBhcmxsPjMxLjU8L3N0ZHBhcmxsPg0KICAgICAgICAgICAg PGxvbmdjbT4tODQuMDwvbG9uZ2NtPg0KICAgICAgICAgICAgPGxhdHByam8+MjQuMDwvbGF0cHJq bz4NCiAgICAgICAgICAgIDxmZWFzdD40MDAwMDAuMDwvZmVhc3Q+DQogICAgICAgICAgICA8Zm5v cnRoPjAuMDwvZm5vcnRoPg0KICAgICAgICAgIDwvYWxiZXJzPg0KICAgICAgICA8L21hcHByb2o+ DQogICAgICAgIDxwbGFuY2k+DQogICAgICAgICAgPHBsYW5jZT5jb29yZGluYXRlIHBhaXI8L3Bs YW5jZT4NCiAgICAgICAgICA8Y29vcmRyZXA+DQogICAgICAgICAgICA8YWJzcmVzPjAuMDAwMTwv YWJzcmVzPg0KICAgICAgICAgICAgPG9yZHJlcz4wLjAwMDE8L29yZHJlcz4NCiAgICAgICAgICA8 L2Nvb3JkcmVwPg0KICAgICAgICAgIDxwbGFuZHU+bWV0ZXI8L3BsYW5kdT4NCiAgICAgICAgPC9w bGFuY2k+DQogICAgICA8L3BsYW5hcj4NCiAgICAgIDxnZW9kZXRpYz4NCiAgICAgICAgPGhvcml6 ZG4+RCBOb3J0aCBBbWVyaWNhbiAxOTgzIEhBUk48L2hvcml6ZG4+DQogICAgICAgIDxlbGxpcHM+ R1JTIDE5ODA8L2VsbGlwcz4NCiAgICAgICAgPHNlbWlheGlzPjYzNzgxMzcuMDwvc2VtaWF4aXM+ DQogICAgICAgIDxkZW5mbGF0PjI5OC4yNTcyMjIxMDE8L2RlbmZsYXQ+DQogICAgICA8L2dlb2Rl dGljPg0KICAgIDwvaG9yaXpzeXM+DQogIDwvc3ByZWY+DQogIDxlYWluZm8+DQogICAgPGRldGFp bGVkPg0KICAgICAgPGVudHR5cD4NCiAgICAgICAgPGVudHR5cGw+RVRBVC5FUEFFR1JJRF8yMDIw PC9lbnR0eXBsPg0KICAgICAgICA8ZW50dHlwZD5FUEFFR1JJRF8yMDIwPC9lbnR0eXBkPg0KICAg ICAgICA8ZW50dHlwZHM+VS5TLiBFbnZpcm9ubWVudGFsIFByb3RlY3Rpb24gQWdlbmN5PC9lbnR0 eXBkcz4NCiAgICAgIDwvZW50dHlwPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5T aGFwZTwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPkZlYXR1cmUgZ2VvbWV0cnkuPC9hdHRy ZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVNSSTwvYXR0cmRlZnM+DQogICAgICAgIDxhdHRyZG9t dj4NCiAgICAgICAgICA8dWRvbT5Db29yZGluYXRlcyBkZWZpbmluZyB0aGUgZmVhdHVyZXMuPC91 ZG9tPg0KICAgICAgICA8L2F0dHJkb212Pg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQog ICAgICAgIDxhdHRybGFibD5ZRUFSPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+RGF0YSBZ ZWFyIChZRUFSKSAtIFRoZSBjdXJyZW50IGVHUklEIGRhdGEgeWVhci48L2F0dHJkZWY+DQogICAg ICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+ DQogICAgICAgIDxhdHRybGFibD5TRVFQTFQyMDwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVm PmVHUklEMjAyMCBGaWxlIFBsYW50IFNlcXVlbmNlIE51bWJlciAoU0VRUExUMjApIOKAkyBUaGUg cGxhbnQgcmVjb3JkcyBpbiB0aGUgMjAyMCBwbGFudCBkYXRhIGZpbGUgYXJlIHNvcnRlZCBieSBz dGF0ZSBhYmJyZXZpYXRpb24gYW5kIHBsYW50IG5hbWUsIGFuZCBhcmUgYXNzaWduZWQgYSB1bmlx dWUgc2VxdWVudGlhbCBudW1iZXIgYmVnaW5uaW5nIHdpdGggMS4gVGhpcyBzZXF1ZW5jZSBudW1i ZXIgaXMgdW5saWtlbHkgdG8gYmUgdGhlIHNhbWUgYXMgdGhlIHNlcXVlbmNlIG51bWJlciBpbiB0 aGUgZUdSSUQyMDE5IGZpbGUgZm9yIHRoZSBzYW1lIGVudGl0eS48L2F0dHJkZWY+DQogICAgICAg IDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQog ICAgICAgIDxhdHRybGFibD5QU1RBVEFCQjwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBs YW50IFN0YXRlIEFiYnJldmlhdGlvbiAoUFNUQVRBQkIpIC0gVGhlIHN0YXRlIGFiYnJldmlhdGlv biBpbiB3aGljaCB0aGUgcGxhbnQgaXMgbG9jYXRlZC4uPC9hdHRyZGVmPg0KICAgICAgICA8YXR0 cmRlZnM+RUlBLTg2MDwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAg ICAgICAgPGF0dHJsYWJsPlBOQU1FPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQg TmFtZSAoUE5BTUUpIC0gVGhlIG5hbWUgYXNzb2NpYXRlZCB3aXRoIGVhY2ggcGxhbnQuPC9hdHRy ZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBL0NBTUQ7IEVJQS04NjA8L2F0dHJkZWZzPg0KICAg ICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5PUklTUEw8L2F0dHJs YWJsPg0KICAgICAgICA8YXR0cmRlZj5ET0UvRUlBIE9SSVMgUGxhbnQgb3IgRmFjaWxpdHkgQ29k ZSAoT1JJU1BMKSAtIFRoaXMgcGxhbnQgY29kZSBjb3JyZXNwb25kcyB0byBQTkFNRSBhbmQgd2Fz IG9yaWdpbmFsbHkgZGV2ZWxvcGVkIGZvciBwb3dlciBwbGFudHMgYnkgdGhlIE9mZmljZSBvZiBS ZWd1bGF0b3J5IEluZm9ybWF0aW9uIFN5c3RlbXMgKE9SSVMpLCB3aGljaCB3YXMgYSBwYXJ0IG9m IHRoZSBGZWRlcmFsIFBvd2VyIENvbW1pc3Npb24uIEl0IGlzIG5vdyBhc3NpZ25lZCBieSBFSUEg YW5kIGlzIHVzZWQgYXMgYSB1bmlxdWUgcGxhbnQgaWRlbnRpZmljYXRpb24gY29kZSBmb3IgbWFu eSBFUEEgZWxlY3RyaWMgcG93ZXIgZGF0YWJhc2VzLCB0b28uIE5vdGUgdGhhdCBzb21lIEVJQSBP UklTUEwgSUQgY29kZXMgd2VyZSBjaGFuZ2VkIHRvIHJlZmxlY3QgRVBBL0NBTUQgT1JJU1BMIElE IGNvZGVzLiBTZWUgU2VjdGlvbiA0LjEgZm9yIGEgZGlzY3Vzc2lvbiBvZiBPUklTUEwgSUQgY2hh bmdlcyBtYWRlIHRvIGVHUklEMjAxNi4gU2VlIFRhYmxlIEMtNSBpbiBBcHBlbmRpeCBDIGZvciBh IHRhYmxlIG9mIGFsbCBPUklTUEwgY2hhbmdlcyBtYWRlIGJldHdlZW4gRUlBIGFuZCBFUEEvQ0FN RC48L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FUEEvQ0FNRDsgRUlBLTg2MDwvYXR0cmRl ZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPk9QUk5B TUU8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBPcGVyYXRvciBOYW1lIChPUFJO QU1FKSAtIFRoZSBuYW1lIGFzc29jaWF0ZWQgd2l0aCBlYWNoIG9wZXJhdGluZyBjb21wYW55IChF R0MpLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVJQS04NjA8L2F0dHJkZWZzPg0KICAg ICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5PUFJDT0RFPC9hdHRy bGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgT3BlcmF0b3IgSUQgKE9QUkNPREUpIC0gVGhl IG9wZXJhdGluZyBjb21wYW55IElELiBFYWNoIG9wZXJhdGluZyBjb21wYW55IGhhcyBhIHVuaXF1 ZSBjb21wYW55IGNvZGUgYXNzaWduZWQgYnkgRUlBLCB3aXRoIHNvbWUgZXhjZXB0aW9ucy4gUGxh bnRzIHdpdGggbm8gb3BlcmF0aW5nIGNvbXBhbnkgSUQuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0 cmRlZnM+RUlBLTg2MDwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAg ICAgICAgPGF0dHJsYWJsPlVUTFNSVk5NPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+VXRp bGl0eSBTZXJ2aWNlIFRlcnJpdG9yeSBOYW1lIChVVExTUlZOTSkgLSBUaGUgbmFtZSBvZiB0aGUg b3duZXIgb2YgdGhlIHRyYW5zbWlzc2lvbi9kaXN0cmlidXRpb24gY29tcGFueS9FR0MsIGFsc28g a25vd24gYXMgdGhlIHV0aWxpdHkgc2VydmljZSB0ZXJyaXRvcnkgKGEgdXRpbGl0eSBjb21wYW55 IG9yIEVHQykgW2FuZCBwcmV2aW91c2x5IGtub3duIGFzIHRoZSB1dGlsaXR5IHNlcnZpY2UgYXJl YV0gaW4gd2hpY2ggdGhlIHBsYW50IGlzIGxvY2F0ZWQuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0 cmRlZnM+RUlBLTg2MDwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAg ICAgICAgPGF0dHJsYWJsPlVUTFNSVklEPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+VXRp bGl0eSBTZXJ2aWNlIFRlcnJpdG9yeSBJRCAoVVRMU1JWSUQpIC0gVGhlIHVuaXF1ZSBJRCBjb2Rl IGFzc29jaWF0ZWQgd2l0aCB0aGUgdXRpbGl0eSBzZXJ2aWNlIHRlcnJpdG9yeSBuYW1lLjwvYXR0 cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVJQS04NjA8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRy Pg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5TRUNUT1I8L2F0dHJsYWJsPg0KICAg ICAgICA8YXR0cmRlZj5QbGFudC1sZXZlbCBTZWN0b3IgKFNFQ1RPUikgLSBUaGUgcGxhbnQgbGV2 ZWwgc2VjdG9yIG5hbWUsIGFzc2lnbmVkIGJ5IHRoZSBwdXJwb3NlLCByZWd1bGF0b3J5IHN0YXR1 cywgYW5kIENIUCBzdGF0dXMgYXQgdGhlIHBsYW50LjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJk ZWZzPkVQQTwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAg PGF0dHJsYWJsPkJBTkFNRTwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPkJhbGFuY2luZyBB dXRob3JpdHkgTmFtZSAoQkFOQU1FKSAtIFRoZSBuYW1lIG9mIHRoZSBiYWxhbmNpbmcgYXV0aG9y aXR5IGZvciB0aGUgcGxhbnQuIFRoZSBiYWxhbmNpbmcgYXV0aG9yaXR5IGlzIGFzc29jaWF0ZWQg d2l0aCB0aGUgcGxhbnQncyBlR1JJRCBzdWJyZWdpb24gYW5kIE5FUkMgcmVnaW9uLjwvYXR0cmRl Zj4NCiAgICAgICAgPGF0dHJkZWZzPkVJQS04NjAsIEVJQS04NjE8L2F0dHJkZWZzPg0KICAgICAg PC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5PQkpFQ1RJRDwvYXR0cmxh Ymw+DQogICAgICAgIDxhdHRyZGVmPkludGVybmFsIGZlYXR1cmUgbnVtYmVyLjwvYXR0cmRlZj4N CiAgICAgICAgPGF0dHJkZWZzPkVzcmk8L2F0dHJkZWZzPg0KICAgICAgICA8YXR0cmRvbXY+DQog ICAgICAgICAgPHVkb20+U2VxdWVudGlhbCB1bmlxdWUgd2hvbGUgbnVtYmVycyB0aGF0IGFyZSBh dXRvbWF0aWNhbGx5IGdlbmVyYXRlZC48L3Vkb20+DQogICAgICAgIDwvYXR0cmRvbXY+DQogICAg ICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPkJBQ09ERTwvYXR0cmxh Ymw+DQogICAgICAgIDxhdHRyZGVmPkJhbGFuY2luZyBBdXRob3JpdHkgSUQgQ29kZSAoQkFDT0RF KSAtIFRoZSBJRCBvZiB0aGUgYmFsYW5jaW5nIGF1dGhvcml0eSBmb3IgdGhlIHBsYW50LjwvYXR0 cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVJQS04NjAsIEVJQS04NjE8L2F0dHJkZWZzPg0KICAg ICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5ORVJDPC9hdHRybGFi bD4NCiAgICAgICAgPGF0dHJkZWY+TkVSQyBSZWdpb24gQWNyb255bSAoTkVSQykgLSBUaGUgYWNy b255bSBmb3IgdGhlIE5FUkMgcmVnaW9uIGluIHdoaWNoIHRoZSBwbGFudCBpcyBsb2NhdGVkLiBU aGUgTkVSQyByZWdpb24gaXMgYXNzb2NpYXRlZCB3aXRoIHRoZSBwbGFudCdzIEJBIGFuZCBlR1JJ RCBzdWJyZWdpb24uIEEgcmVwcmVzZW50YXRpb24gb2YgdGhlIGVHUklEIE5FUkMgcmVnaW9uIG1h cCBpcyBpbmNsdWRlZCBpbiBBcHBlbmRpeCBCLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZz PkVJQS04NjA8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAg IDxhdHRybGFibD5TVUJSR048L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5lR1JJRCBTdWJy ZWdpb24gQWNyb255bSAoU1VCUkdOKSAtIFRoZSBhY3JvbnltIGZvciB0aGUgZUdSSUQgc3VicmVn aW9uIGluIHdoaWNoIHRoZSBwbGFudCBpcyBsb2NhdGVkLiBUaGUgZUdSSUQgc3VicmVnaW9uIGlz IGFzc29jaWF0ZWQgd2l0aCB0aGUgcGxhbnQncyBiYWxhbmNpbmcgYXV0aG9yaXR5IGFuZCBORVJD IHJlZ2lvbi4gQSByZXByZXNlbnRhdGlvbiBvZiB0aGUgZUdSSUQgc3VicmVnaW9uIG1hcCBpcyBp bmNsdWRlZCBpbiBBcHBlbmRpeCBCLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwv YXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJs PlNSTkFNRTwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPmVHUklEIFN1YnJlZ2lvbiBOYW1l IChTUk5BTUUpIC0gVGhlIG5hbWUgb2YgdGhlIGVHUklEIHN1YnJlZ2lvbiBpbiB3aGljaCB0aGUg cGxhbnQgaXMgbG9jYXRlZC48L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJk ZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5JU09S VE88L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBhc3NvY2lhdGVkIElTTy9SVE8g VGVycml0b3J5IChJU09SVE8pIC0gVGhlIG5hbWUsIGlmIGFwcGxpY2FibGUsIG9mIHRoZSBJbmRl cGVuZGVudCBTeXN0ZW0gT3BlcmF0b3IgKElTTykgb3IgUmVnaW9uYWwgVHJhbnNtaXNzaW9uIE9y Z2FuaXphdGlvbiAoUlRPKSBhc3NvY2lhdGVkIHdpdGggdGhlIHBsYW50LiBQb3NzaWJsZSB2YWx1 ZXMgYXJlIENBSVNPLCBFUkNPVCwgSVNPTkUsIE1JU08sIE5ZSVNPLCBQSk0sIFNQUCwgT1RIRVIs IG9yIGJsYW5rLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVJQS04NjA8L2F0dHJkZWZz Pg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5GSVBTU1Q8 L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBGSVBTIFN0YXRlIENvZGUgKEZJUFNT VCkgLSBUaGUgdHdvLWRpZ2l0IEZlZGVyYWwgSW5mb3JtYXRpb24gUHJvY2Vzc2luZyBTdGFuZGFy ZHMgKEZJUFMpIHN0YXRlIGNoYXJhY3RlciBjb2RlIG9mIHRoZSBzdGF0ZSBpbiB3aGljaCB0aGUg cGxhbnQgaXMgbG9jYXRlZC4gVGhlIGNvZGVzIGFyZSBmcm9tIHRoZSBOYXRpb25hbCBJbnN0aXR1 dGUgb2YgU3RhbmRhcmRzIGFuZCBUZWNobm9sb2d5IChVUyBDZW5zdXMsIDIwMTYpLjwvYXR0cmRl Zj4NCiAgICAgICAgPGF0dHJkZWZzPlVTIENlbnN1czwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+ DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPkZJUFNDTlRZPC9hdHRybGFibD4NCiAg ICAgICAgPGF0dHJkZWY+UGxhbnQgRklQUyBDb3VudHkgQ29kZSAoRklQU0NOVFkpIC0gVGhlIHRo cmVlIGRpZ2l0IEZJUFMgY291bnR5IGNoYXJhY3RlciBjb2RlIG9mIHRoZSBjb3VudHkgaW4gd2hp Y2ggdGhlIHBsYW50IGlzIGxvY2F0ZWQuIFRoZSBjb2RlcyBhcmUgZnJvbSB0aGUgTmF0aW9uYWwg SW5zdGl0dXRlIG9mIFN0YW5kYXJkcyBhbmQgVGVjaG5vbG9neSAoVVMgQ2Vuc3VzLCAyMDE2KS48 L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5VUyBDZW5zdXM8L2F0dHJkZWZzPg0KICAgICAg PC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5DTlRZTkFNRTwvYXR0cmxh Ymw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50IENvdW50eSBOYW1lIChDTlRZTkFNRSkgLSBUaGUg bmFtZSBvZiB0aGUgY291bnR5IGluIHdoaWNoIHRoZSBwbGFudCBpcyBsb2NhdGVkLjwvYXR0cmRl Zj4NCiAgICAgICAgPGF0dHJkZWZzPkVJQS04NjA8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0K ICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5MQVQ8L2F0dHJsYWJsPg0KICAgICAgICA8 YXR0cmRlZj5QbGFudCBMYXRpdHVkZSAoTEFUKSAtIFRoZSBsYXRpdHVkZSwgaW4gZGVncmVlcyB0 byBmb3VyIGRlY2ltYWwgcGxhY2VzLCBhc3NvY2lhdGVkIHdpdGggdGhlIHBsYW50LjwvYXR0cmRl Zj4NCiAgICAgICAgPGF0dHJkZWZzPkVJQS04NjA8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0K ICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5MT048L2F0dHJsYWJsPg0KICAgICAgICA8 YXR0cmRlZj5QbGFudCBMb25naXR1ZGUgKExPTikgLSBUaGUgbG9uZ2l0dWRlLCBpbiBkZWdyZWVz IHRvIGZvdXIgZGVjaW1hbCBwbGFjZXMsIGFzc29jaWF0ZWQgd2l0aCB0aGUgcGxhbnQuPC9hdHRy ZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RUlBLTg2MDwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+ DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPk5VTVVOVDwvYXR0cmxhYmw+DQogICAg ICAgIDxhdHRyZGVmPk51bWJlciBvZiBVbml0cyAoTlVNVU5UKSAtIFRoZSBudW1iZXIgb2Ygb3Bl cmF0aW5nIHVuaXRzIHdpdGhpbiBhIHBsYW50LjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZz PkVJQS04NjA8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAg IDxhdHRybGFibD5OVU1HRU48L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5OdW1iZXIgb2Yg R2VuZXJhdG9ycyAoTlVNR0VOKSAtIFRoZSBudW1iZXIgb2YgcG90ZW50aWFsbHkgb3BlcmF0aW5n IGdlbmVyYXRvcnMgd2l0aGluIGEgcGxhbnQuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+ RUlBLTg2MDwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAg PGF0dHJsYWJsPlBMUFJNRkw8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBQcmlt YXJ5IEZ1ZWwgKFBMUFJNRkwpIC0gVGhlIHBsYW50J3MgcHJpbWFyeSBmdWVsIGJhc2VkIG9uIG1h eGltdW0gaGVhdCBpbnB1dCBvZiBmdWVsIGNvbnN1bWVkIGJ5IHRoZSBwbGFudC4gSWYgdGhlIHBs YW50IGRvZXMgbm90IGNvbnN1bWUgZnVlbCwgaXQgaXMgYmFzZWQgb24gdGhlIG1heGltdW0gbmFt ZXBsYXRlIGNhcGFjaXR5LjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQS9DQU1EOyBF SUEtODYwPC9hdHRyZGVmcz4NCiAgICAgICAgPGF0dHJkb212Pg0KICAgICAgICAgIDxlZG9tPg0K ICAgICAgICAgICAgPGVkb212PkFCPC9lZG9tdj4NCiAgICAgICAgICAgIDxlZG9tdmQ+QWdyaWN1 bHR1cmFsIGJ5cHJvZHVjdDwvZWRvbXZkPg0KICAgICAgICAgICAgPGVkb212ZHM+RVBBPC9lZG9t dmRzPg0KICAgICAgICAgIDwvZWRvbT4NCiAgICAgICAgICA8ZWRvbT4NCiAgICAgICAgICAgIDxl ZG9tdj5CRkc8L2Vkb212Pg0KICAgICAgICAgICAgPGVkb212ZD5CbGFzdCBmdXJuYWNlIGdhczwv ZWRvbXZkPg0KICAgICAgICAgICAgPGVkb212ZHM+RVBBPC9lZG9tdmRzPg0KICAgICAgICAgIDwv ZWRvbT4NCiAgICAgICAgICA8ZWRvbT4NCiAgICAgICAgICAgIDxlZG9tdj5CSVQ8L2Vkb212Pg0K ICAgICAgICAgICAgPGVkb212ZD5CaXR1bWlub3VzIGNvYWw8L2Vkb212ZD4NCiAgICAgICAgICAg IDxlZG9tdmRzPkVQQTwvZWRvbXZkcz4NCiAgICAgICAgICA8L2Vkb20+DQogICAgICAgICAgPGVk b20+DQogICAgICAgICAgICA8ZWRvbXY+QkxRPC9lZG9tdj4NCiAgICAgICAgICAgIDxlZG9tdmQ+ QmxhY2sgbGlxdW9yPC9lZG9tdmQ+DQogICAgICAgICAgICA8ZWRvbXZkcz5FUEE8L2Vkb212ZHM+ DQogICAgICAgICAgPC9lZG9tPg0KICAgICAgICAgIDxlZG9tPg0KICAgICAgICAgICAgPGVkb212 PkNPRzwvZWRvbXY+DQogICAgICAgICAgICA8ZWRvbXZkPkNva2Ugb3ZlbiBnYXM8L2Vkb212ZD4N CiAgICAgICAgICAgIDxlZG9tdmRzPkVQQTwvZWRvbXZkcz4NCiAgICAgICAgICA8L2Vkb20+DQog ICAgICAgICAgPGVkb20+DQogICAgICAgICAgICA8ZWRvbXY+REZPPC9lZG9tdj4NCiAgICAgICAg ICAgIDxlZG9tdmQ+RGlzdGlsbGF0ZSBmdWVsIG9pbCwgbGlnaHQgZnVlbCBvaWwsIGRpZXNlbCBv aWw8L2Vkb212ZD4NCiAgICAgICAgICAgIDxlZG9tdmRzPkVQQTwvZWRvbXZkcz4NCiAgICAgICAg ICA8L2Vkb20+DQogICAgICAgICAgPGVkb20+DQogICAgICAgICAgICA8ZWRvbXY+R0VPPC9lZG9t dj4NCiAgICAgICAgICAgIDxlZG9tdmQ+R2VvdGhlcm1hbCBzdGVhbTwvZWRvbXZkPg0KICAgICAg ICAgICAgPGVkb212ZHM+RVBBPC9lZG9tdmRzPg0KICAgICAgICAgIDwvZWRvbT4NCiAgICAgICAg ICA8ZWRvbT4NCiAgICAgICAgICAgIDxlZG9tdj5KRjwvZWRvbXY+DQogICAgICAgICAgICA8ZWRv bXZkPkpldCBmdWVsPC9lZG9tdmQ+DQogICAgICAgICAgICA8ZWRvbXZkcz5FUEE8L2Vkb212ZHM+ DQogICAgICAgICAgPC9lZG9tPg0KICAgICAgICAgIDxlZG9tPg0KICAgICAgICAgICAgPGVkb212 PktFUjwvZWRvbXY+DQogICAgICAgICAgICA8ZWRvbXZkPktlcm9zZW5lPC9lZG9tdmQ+DQogICAg ICAgICAgICA8ZWRvbXZkcz5FUEE8L2Vkb212ZHM+DQogICAgICAgICAgPC9lZG9tPg0KICAgICAg ICAgIDxlZG9tPg0KICAgICAgICAgICAgPGVkb212PkxGRzwvZWRvbXY+DQogICAgICAgICAgICA8 ZWRvbXZkPkxhbmRmaWxsIGdhczwvZWRvbXZkPg0KICAgICAgICAgICAgPGVkb212ZHM+RVBBPC9l ZG9tdmRzPg0KICAgICAgICAgIDwvZWRvbT4NCiAgICAgICAgICA8ZWRvbT4NCiAgICAgICAgICAg IDxlZG9tdj5MSUc8L2Vkb212Pg0KICAgICAgICAgICAgPGVkb212ZD5MaWduaXRlIGNvYWw8L2Vk b212ZD4NCiAgICAgICAgICAgIDxlZG9tdmRzPkVQQTwvZWRvbXZkcz4NCiAgICAgICAgICA8L2Vk b20+DQogICAgICAgICAgPGVkb20+DQogICAgICAgICAgICA8ZWRvbXY+TVNXPC9lZG9tdj4NCiAg ICAgICAgICAgIDxlZG9tdmQ+TXVuaWNpcGFsIHNvbGlkIHdhc3RlPC9lZG9tdmQ+DQogICAgICAg ICAgICA8ZWRvbXZkcz5FUEE8L2Vkb212ZHM+DQogICAgICAgICAgPC9lZG9tPg0KICAgICAgICAg IDxlZG9tPg0KICAgICAgICAgICAgPGVkb212Pk1XSDwvZWRvbXY+DQogICAgICAgICAgICA8ZWRv bXZkPkVsZWN0cmljaXR5IHVzZWQgZm9yIGVuZXJneSBzdG9yYWdlIChtZWdhd2F0dCBob3VyKTwv ZWRvbXZkPg0KICAgICAgICAgICAgPGVkb212ZHM+RVBBPC9lZG9tdmRzPg0KICAgICAgICAgIDwv ZWRvbT4NCiAgICAgICAgICA8ZWRvbT4NCiAgICAgICAgICAgIDxlZG9tdj5PQkc8L2Vkb212Pg0K ICAgICAgICAgICAgPGVkb212ZD5PdGhlciBiaW9tYXNzIGdhczwvZWRvbXZkPg0KICAgICAgICAg ICAgPGVkb212ZHM+RVBBPC9lZG9tdmRzPg0KICAgICAgICAgIDwvZWRvbT4NCiAgICAgICAgICA8 ZWRvbT4NCiAgICAgICAgICAgIDxlZG9tdj5PQkw8L2Vkb212Pg0KICAgICAgICAgICAgPGVkb212 ZD5PdGhlciBiaW9tYXNzIGxpcXVpZDwvZWRvbXZkPg0KICAgICAgICAgICAgPGVkb212ZHM+RVBB PC9lZG9tdmRzPg0KICAgICAgICAgIDwvZWRvbT4NCiAgICAgICAgICA8ZWRvbT4NCiAgICAgICAg ICAgIDxlZG9tdj5PQlM8L2Vkb212Pg0KICAgICAgICAgICAgPGVkb212ZD5PdGhlciBiaW9tYXNz IHNvbGlkPC9lZG9tdmQ+DQogICAgICAgICAgICA8ZWRvbXZkcz5FUEE8L2Vkb212ZHM+DQogICAg ICAgICAgPC9lZG9tPg0KICAgICAgICAgIDxlZG9tPg0KICAgICAgICAgICAgPGVkb212Pk9HPC9l ZG9tdj4NCiAgICAgICAgICAgIDxlZG9tdmQ+T3RoZXIgZ2FzPC9lZG9tdmQ+DQogICAgICAgICAg ICA8ZWRvbXZkcz5FUEE8L2Vkb212ZHM+DQogICAgICAgICAgPC9lZG9tPg0KICAgICAgICAgIDxl ZG9tPg0KICAgICAgICAgICAgPGVkb212Pk9USDwvZWRvbXY+DQogICAgICAgICAgICA8ZWRvbXZk Pk90aGVyICh1bmtub3duKTwvZWRvbXZkPg0KICAgICAgICAgICAgPGVkb212ZHM+RVBBPC9lZG9t dmRzPg0KICAgICAgICAgIDwvZWRvbT4NCiAgICAgICAgICA8ZWRvbT4NCiAgICAgICAgICAgIDxl ZG9tdj5QQzwvZWRvbXY+DQogICAgICAgICAgICA8ZWRvbXZkPlBldHJvbGV1bSBjb2tlPC9lZG9t dmQ+DQogICAgICAgICAgICA8ZWRvbXZkcz5FUEE8L2Vkb212ZHM+DQogICAgICAgICAgPC9lZG9t Pg0KICAgICAgICAgIDxlZG9tPg0KICAgICAgICAgICAgPGVkb212PlBSRzwvZWRvbXY+DQogICAg ICAgICAgICA8ZWRvbXZkPlByb2Nlc3MgZ2FzPC9lZG9tdmQ+DQogICAgICAgICAgICA8ZWRvbXZk cz5FUEE8L2Vkb212ZHM+DQogICAgICAgICAgPC9lZG9tPg0KICAgICAgICAgIDxlZG9tPg0KICAg ICAgICAgICAgPGVkb212PlBVUjwvZWRvbXY+DQogICAgICAgICAgICA8ZWRvbXZkPlB1cmNoYXNl ZCBmdWVsICh1bmtub3duKTwvZWRvbXZkPg0KICAgICAgICAgICAgPGVkb212ZHM+RVBBPC9lZG9t dmRzPg0KICAgICAgICAgIDwvZWRvbT4NCiAgICAgICAgICA8ZWRvbT4NCiAgICAgICAgICAgIDxl ZG9tdj5SQzwvZWRvbXY+DQogICAgICAgICAgICA8ZWRvbXZkPlJlZmluZWQgY29hbDwvZWRvbXZk Pg0KICAgICAgICAgICAgPGVkb212ZHM+RVBBPC9lZG9tdmRzPg0KICAgICAgICAgIDwvZWRvbT4N CiAgICAgICAgICA8ZWRvbT4NCiAgICAgICAgICAgIDxlZG9tdj5SRk88L2Vkb212Pg0KICAgICAg ICAgICAgPGVkb212ZD5SZXNpZHVhbCBmdWVsIG9pbCwgaGVhdnkgZnVlbCBvaWwsIHBldHJvbGV1 bTwvZWRvbXZkPg0KICAgICAgICAgICAgPGVkb212ZHM+RVBBPC9lZG9tdmRzPg0KICAgICAgICAg IDwvZWRvbT4NCiAgICAgICAgICA8ZWRvbT4NCiAgICAgICAgICAgIDxlZG9tdj5TR0M8L2Vkb212 Pg0KICAgICAgICAgICAgPGVkb212ZD5Db2FsLWRlcml2ZWQgc3ludGhldGljIGdhczwvZWRvbXZk Pg0KICAgICAgICAgICAgPGVkb212ZHM+RVBBPC9lZG9tdmRzPg0KICAgICAgICAgIDwvZWRvbT4N CiAgICAgICAgICA8ZWRvbT4NCiAgICAgICAgICAgIDxlZG9tdj5TVUI8L2Vkb212Pg0KICAgICAg ICAgICAgPGVkb212ZD5TdWJiaXR1bWlub3VzIGNvYWw8L2Vkb212ZD4NCiAgICAgICAgICAgIDxl ZG9tdmRzPkVQQTwvZWRvbXZkcz4NCiAgICAgICAgICA8L2Vkb20+DQogICAgICAgICAgPGVkb20+ DQogICAgICAgICAgICA8ZWRvbXY+U1VOPC9lZG9tdj4NCiAgICAgICAgICAgIDxlZG9tdmQ+U3Vu PC9lZG9tdmQ+DQogICAgICAgICAgICA8ZWRvbXZkcz5FUEE8L2Vkb212ZHM+DQogICAgICAgICAg PC9lZG9tPg0KICAgICAgICAgIDxlZG9tPg0KICAgICAgICAgICAgPGVkb212PlRERjwvZWRvbXY+ DQogICAgICAgICAgICA8ZWRvbXZkPlRpcmUtZGVyaXZlZCBmdWVsPC9lZG9tdmQ+DQogICAgICAg ICAgICA8ZWRvbXZkcz5FUEE8L2Vkb212ZHM+DQogICAgICAgICAgPC9lZG9tPg0KICAgICAgICAg IDxlZG9tPg0KICAgICAgICAgICAgPGVkb212PldDPC9lZG9tdj4NCiAgICAgICAgICAgIDxlZG9t dmQ+V2FzdGUgY29hbDwvZWRvbXZkPg0KICAgICAgICAgICAgPGVkb212ZHM+RVBBPC9lZG9tdmRz Pg0KICAgICAgICAgIDwvZWRvbT4NCiAgICAgICAgICA8ZWRvbT4NCiAgICAgICAgICAgIDxlZG9t dj5XREw8L2Vkb212Pg0KICAgICAgICAgICAgPGVkb212ZD5Xb29kLCB3b29kIHdhc3RlIGxpcXVp ZDwvZWRvbXZkPg0KICAgICAgICAgICAgPGVkb212ZHM+RVBBPC9lZG9tdmRzPg0KICAgICAgICAg IDwvZWRvbT4NCiAgICAgICAgICA8ZWRvbT4NCiAgICAgICAgICAgIDxlZG9tdj5XRFM8L2Vkb212 Pg0KICAgICAgICAgICAgPGVkb212ZD5Xb29kLCB3b29kIHdhc3RlIHNvbGlkPC9lZG9tdmQ+DQog ICAgICAgICAgICA8ZWRvbXZkcz5FUEE8L2Vkb212ZHM+DQogICAgICAgICAgPC9lZG9tPg0KICAg ICAgICAgIDxlZG9tPg0KICAgICAgICAgICAgPGVkb212PldIPC9lZG9tdj4NCiAgICAgICAgICAg IDxlZG9tdmQ+V2FzdGUgaGVhdDwvZWRvbXZkPg0KICAgICAgICAgICAgPGVkb212ZHM+RVBBPC9l ZG9tdmRzPg0KICAgICAgICAgIDwvZWRvbT4NCiAgICAgICAgICA8ZWRvbT4NCiAgICAgICAgICAg IDxlZG9tdj5XTkQ8L2Vkb212Pg0KICAgICAgICAgICAgPGVkb212ZD5XaW5kPC9lZG9tdmQ+DQog ICAgICAgICAgICA8ZWRvbXZkcz5FUEE8L2Vkb212ZHM+DQogICAgICAgICAgPC9lZG9tPg0KICAg ICAgICAgIDxlZG9tPg0KICAgICAgICAgICAgPGVkb212PldPPC9lZG9tdj4NCiAgICAgICAgICAg IDxlZG9tdmQ+V2FzdGUgb2lsPC9lZG9tdmQ+DQogICAgICAgICAgICA8ZWRvbXZkcz5FUEE8L2Vk b212ZHM+DQogICAgICAgICAgPC9lZG9tPg0KICAgICAgICAgIDxlZG9tPg0KICAgICAgICAgICAg PGVkb212Pk5HPC9lZG9tdj4NCiAgICAgICAgICAgIDxlZG9tdmQ+TmF0dXJhbCBnYXM8L2Vkb212 ZD4NCiAgICAgICAgICAgIDxlZG9tdmRzPkVQQTwvZWRvbXZkcz4NCiAgICAgICAgICA8L2Vkb20+ DQogICAgICAgICAgPGVkb20+DQogICAgICAgICAgICA8ZWRvbXY+TlVDPC9lZG9tdj4NCiAgICAg ICAgICAgIDxlZG9tdmQ+TnVjbGVhciBtYXRlcmlhbDwvZWRvbXZkPg0KICAgICAgICAgICAgPGVk b212ZHM+RVBBPC9lZG9tdmRzPg0KICAgICAgICAgIDwvZWRvbT4NCiAgICAgICAgICA8ZWRvbT4N CiAgICAgICAgICAgIDxlZG9tdj5XQVQ8L2Vkb212Pg0KICAgICAgICAgICAgPGVkb212ZD5XYXRl cjwvZWRvbXZkPg0KICAgICAgICAgICAgPGVkb212ZHM+RVBBPC9lZG9tdmRzPg0KICAgICAgICAg IDwvZWRvbT4NCiAgICAgICAgPC9hdHRyZG9tdj4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRy Pg0KICAgICAgICA8YXR0cmxhYmw+UExGVUVMQ1Q8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRl Zj5QbGFudCBQcmltYXJ5IEZ1ZWwgQ2F0ZWdvcnkgKFBMRlVFTENUKSAtIFRoZSBmdWVsIGNhdGVn b3J5IGZvciB0aGUgcHJpbWFyeSBmdWVsIG9mIHRoZSBwbGFudC48L2F0dHJkZWY+DQogICAgICAg IDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQog ICAgICAgIDxhdHRybGFibD5DT0FMRkxBRzwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPkZs YWcgaW5kaWNhdGluZyBpZiB0aGUgcGxhbnQgYnVybmVkIG9yIGdlbmVyYXRlZCBhbnkgYW1vdW50 IG9mIGNvYWwgKENPQUxGTEFHKSAtIEEgZmxhZyB0byBpbmRpY2F0ZSBpZiB0aGUgcGxhbnQgYnVy bmVkIG9yLCBpZiBpdCBoYXMgcG9zaXRpdmUgaGVhdCBpbnB1dCBhbmQgZ2VuZXJhdGVkIGVsZWN0 cmljaXR5IGZyb20gY29hbCAoMT0gWWVzKS4gVGhlIHBsYW50IHdpbGwgbm90IGJlIGZsYWdnZWQg aWYgdGhlIHBsYW50IGhhcyBuZWdhdGl2ZSBjb2FsIGdlbmVyYXRpb24gYW5kIG5vIGNvYWwgaGVh dCBpbnB1dCBmb3IgYSBnaXZlbiB5ZWFyLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQ QTwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJs YWJsPkNBUEZBQzwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50IENhcGFjaXR5IEZh Y3RvciAoQ0FQRkFDKSAtIFRoZSBwbGFudCBjYXBhY2l0eSBmYWN0b3IsIGV4cHJlc3NlZCB3aXRo IGZvdXIgZGVjaW1hbCBwbGFjZXMuIEl0IGlzIGNhbGN1bGF0ZWQgYXMgZm9sbG93czogQ0FQRkFD ID0gKFBMTkdFTkFOIC8gKE5BTUVQQ0FQICogODc2MCkpIEFsdGhvdWdoIHRoZSB2YWx1ZSBzaG91 bGQgYmUgYmV0d2VlbiAwIGFuZCAxLCB0aGVyZSBhcmUgb3V0bGllcnMuPC9hdHRyZGVmPg0KICAg ICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRy Pg0KICAgICAgICA8YXR0cmxhYmw+TkFNRVBDQVA8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRl Zj5QbGFudCBOYW1lcGxhdGUgQ2FwYWNpdHkgKE5BTUVQQ0FQKSAtIFRoZSBuYW1lcGxhdGUgY2Fw YWNpdHkgb2YgdGhlIHBsYW50LCBpbiBNVy48L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5F SUEtODYwPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8 YXR0cmxhYmw+TkJGQUNUT1I8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5Ob25iYXNlbG9h ZCBGYWN0b3IgKE5CRkFDVE9SKSAtIFRoZSBwcm9wb3J0aW9uIG9mIGdlbmVyYXRpb24gdGhhdCBp cyBjb25zaWRlcmVkIG5vbmJhc2Vsb2FkIGdlbmVyYXRpb24uIEEgdmFsdWUgb2YgMCBtZWFucyBu b25lIG9mIHRoZSBnZW5lcmF0aW9uIGlzIG5vbmJhc2Vsb2FkIGdlbmVyYXRpb24uIFNlZSBTZWN0 aW9uIDMgZm9yIG1vcmUgaW5mb3JtYXRpb24uPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+ Q2FsY3VsYXRlZDwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAg ICAgPGF0dHJsYWJsPlJNQk1GTEFHPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+QmlvZ2Fz L0Jpb21hc3MgUGxhbnQgQWRqdXN0bWVudCBGbGFnIChSTUJNRkxBRykgLSBBIGJpb2dhcyAobGFu ZGZpbGwgZ2FzLCBkaWdlc3RlciBnYXMpL2Jpb21hc3MgYWRqdXN0bWVudCBmbGFnLCB1c2VkIHRv IGluZGljYXRlIHdoZXJlIGVtaXNzaW9ucyB3ZXJlIGFkanVzdGVkIGZvciBwbGFudHMgdXNpbmcg YmlvZ2FzIG9yIGJpb21hc3MgZnVlbHMgKDE9WWVzKS4gQSBmYWNpbGl0eSdzIGVtaXNzaW9ucyBy ZXBvcnRlZCBpbiBlR1JJRCBtYXkgYmUgZGlmZmVyZW50PC9hdHRyZGVmPg0KICAgICAgICA8YXR0 cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAg ICA8YXR0cmxhYmw+Q0hQRkxBRzwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPkNvbWJpbmVk IEhlYXQgYW5kIFBvd2VyIChDSFApIFBsYW50IEFkanVzdG1lbnQgRmxhZyAoQ0hQRkxBRykgLSBB IGZsYWcgdG8gaW5kaWNhdGUgaWYgdGhlIHBsYW50IGlzIGEgQ0hQIGZhY2lsaXR5ICgxPVllcyku IEEgQ0hQIGZhY2lsaXR5J3MgZW1pc3Npb25zIGFuZCBoZWF0IGlucHV0IHJlcG9ydGVkIGluIGVH UklEIG1heSBiZSBkaWZmZXJlbnQgZnJvbSB0aGF0IHJlcG9ydGVkIGluIG90aGVyIEVQQSBzb3Vy Y2VzIHN1Y2ggYXMgRVBBL0NBTUQncyBlbWlzc2lvbnMgZGF0YSwgZHVlIHRvIHRoaXMgYWRqdXN0 bWVudC48L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FUEEvQ0FNRDsgRUlBLTg2MDwvYXR0 cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlVT RVRIUk1PPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+Q0hQIFBsYW50IFVzZWZ1bCBUaGVy bWFsIE91dHB1dCAoVVNFVEhSTU8pIC0gVGhlIHVzZWZ1bCB0aGVybWFsIG91dHB1dCwgaW4gTU1C dHUsIGVzdGltYXRlZCBmb3IgYSBDSFAgZmFjaWxpdHkuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0 cmRlZnM+RUlBLTkyMyBjYWxjdWxhdGVkPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAg IDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+UFdSVE9IVDwvYXR0cmxhYmw+DQogICAgICAgIDxh dHRyZGVmPkNIUCBQbGFudCBQb3dlciB0byBIZWF0IFJhdGlvIChQV1JUT0hUKSAtIFRoZSBwb3dl ciB0byBoZWF0IHJhdGlvIGZvciBhIENIUCBmYWNpbGl0eSwgd2hpY2ggaXMgdGhlIHJhdGlvIG9m IHRoZSBoZWF0IHZhbHVlIG9mIGVsZWN0cmljaXR5IGdlbmVyYXRlZCAoMzQxMyAqIGtXaCBvdXRw dXQpIHRvIHRoZSBmYWNpbGl0eSdzIHVzZWZ1bCB0aGVybWFsIG91dHB1dC48L2F0dHJkZWY+DQog ICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0 dHI+DQogICAgICAgIDxhdHRybGFibD5FTENBTExPQzwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRy ZGVmPkNIUCBQbGFudCBFbGVjdHJpYyBBbGxvY2F0aW9uIEZhY3RvciAoRUxDQUxMT0MpIC0gVGhl IENIUCBwbGFudCdzIGRlY2ltYWwgZnJhY3Rpb24gb2YgdGhlIGVtaXNzaW9ucyB0aGF0IGFyZSBh dHRyaWJ1dGVkIHRvIGVsZWN0cmljaXR5LiBJdCBpcyBkZXJpdmVkIGFzIHRoZSByYXRpbyBvZiB0 aGUgZWxlY3RyaWMgaGVhdCBvdXRwdXQgdG8gdGhlIHN1bSBvZiB0aGUgZWxlY3RyaWMgYW5kIHN0 ZWFtIGhlYXQgb3V0cHV0cywgd2hlcmUgdGhlIHN0ZWFtIG91dHB1dCBpcyA3NSUgb2YgdGhlIHVz ZWZ1bCB0aGVybWFsIG91dHB1dC4gVGhlIGVsZWN0cmljIGFsbG9jYXRpb24gZmFjdG9yIGlzIHVz ZWQgdG8gYWxsb2NhdGUgZW1pc3Npb25zIGZyb20gYSBDSFAgZmFjaWxpdHkgdG8gYm90aCBlbGVj dHJpY2l0eSBnZW5lcmF0aW9uIGFuZCB1c2VmdWwgdGhlcm1hbCBvdXRwdXQuIEZvciBub24tQ0hQ IHBsYW50cywgZUdSSUQgdXNlcyBhbiBlbGVjdHJpYyBhbGxvY2F0aW9uIGZhY3RvciBvZiAxLjAu PC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0 cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+UFNGTEFHPC9hdHRybGFibD4NCiAg ICAgICAgPGF0dHJkZWY+UGxhbnQgUHVtcGVkIFN0b3JhZ2UgRmxhZyAoUFNGTEFHKSAtIEluZGlj YXRlcyBpZiB0aGUgcGxhbnQgaGFzIGF0IGxlYXN0IG9uZSBwdW1wZWQgc3RvcmFnZSBnZW5lcmF0 b3IgKDE9IFllcykuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RUlBLTg2MDwvYXR0cmRl ZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMSFRJ QU48L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBBbm51YWwgSGVhdCBJbnB1dCBm cm9tIENvbWJ1c3Rpb24gKFBMSFRJQU4pIC0gVGhlIHRvdGFsIGFubnVhbCBoZWF0IGlucHV0IGZy b20gY29tYnVzdGlvbiwgaW4gTU1CdHUsIGZvciB0aGUgcGxhbnQuIEZvciBDSFAgcGxhbnRzLCB0 aGUgdmFsdWUgaXMgYWRqdXN0ZWQgYnkgdGhlIGVsZWN0cmljIGFsbG9jYXRpb24gZmFjdG9yLjwv YXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+ DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMSFRJT1o8L2F0dHJsYWJsPg0KICAg ICAgICA8YXR0cmRlZj5QbGFudCBPem9uZSBTZWFzb24gSGVhdCBJbnB1dCBmcm9tIENvbWJ1c3Rp b24gKFBMSFRJT1opIC0gVGhlIGZpdmUtbW9udGggb3pvbmUgc2Vhc29uIChNYXkgdGhyb3VnaCBT ZXB0ZW1iZXIpIGhlYXQgaW5wdXQgZnJvbSBjb21idXN0aW9uLCBpbiBNV2gsIGZvciB0aGUgcGxh bnQuIEZvciBDSFAgcGxhbnRzLCB0aGUgdmFsdWUgaXMgYWRqdXN0ZWQgYnkgdGhlIGVsZWN0cmlj IGFsbG9jYXRpb24gZmFjdG9yLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0 cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBM SFRJQU5UPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgVG90YWwgQW5udWFsIEhl YXQgSW5wdXQgKFBMSFRJQU5UKSAtIFRoZSB0b3RhbCBhbm51YWwgaGVhdCBpbnB1dCBmcm9tIGNv bWJ1c3Rpb24gYW5kIG5vbmNvbWJ1c3Rpb24gdW5pdHMsIGluIE1NQnR1LCBmb3IgdGhlIHBsYW50 LiBGb3IgQ0hQIHBsYW50cywgdGhlIHZhbHVlIGlzIGFkanVzdGVkIGJ5IHRoZSBlbGVjdHJpYyBh bGxvY2F0aW9uIGZhY3Rvci48L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJk ZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5QTEhU SU9aVDwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50IFRvdGFsIE96b25lIFNlYXNv biBIZWF0IElucHV0IChQTEhUSU9aVCkgLSBUaGUgZml2ZS1tb250aCBvem9uZSBzZWFzb24gKE1h eSB0aHJvdWdoIFNlcHRlbWJlcikgaGVhdCBpbnB1dCBmcm9tIGNvbWJ1c3Rpb24gYW5kIG5vbmNv bWJ1c3Rpb24gdW5pdHMsIGluIE1XaCwgZm9yIHRoZSBwbGFudC4gRm9yIENIUCBwbGFudHMsIHRo ZSB2YWx1ZSBpcyBhZGp1c3RlZCBieSB0aGUgZWxlY3RyaWMgYWxsb2NhdGlvbiBmYWN0b3IuPC9h dHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4N CiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExOR0VOQU48L2F0dHJsYWJsPg0KICAg ICAgICA8YXR0cmRlZj5QbGFudCBBbm51YWwgTmV0IEdlbmVyYXRpb24gKFBMTkdFTkFOKSAtIFRo ZSB0b3RhbCByZXBvcnRlZCBhbm51YWwgbmV0IGdlbmVyYXRpb24sIGluIE1XaCwgZm9yIHRoZSBw bGFudCwgc3VtbWVkIGZyb20gdGhlIFVuaXQgZmlsZTwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJk ZWZzPkVJQS05MjM8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAg ICAgIDxhdHRybGFibD5QTE5HRU5PWjwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50 IE96b25lIFNlYXNvbiBOZXQgR2VuZXJhdGlvbiAoUExOR0VOT1opIC0gVGhlIGZpdmUtbW9udGgg b3pvbmUgc2Vhc29uIChNYXkgdGhyb3VnaCBTZXB0ZW1iZXIpIG5ldCBnZW5lcmF0aW9uIGZvciB0 aGUgcGxhbnQuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RUlBLTkyMzwvYXR0cmRlZnM+ DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMTk9YQU48 L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBBbm51YWwgTk94IEVtaXNzaW9ucyAo UExOT1hBTikgLSBUaGUgdG90YWwgYW5udWFsIE5PeCBlbWlzc2lvbnMsIGluIHNob3J0IHRvbnMs IGZvciB0aGUgcGxhbnQuIEJpb2dhcyBjb21wb25lbnRzIGFyZSBhZGp1c3RlZC4gRm9yIENIUCBw bGFudHMsIHRoZSB2YWx1ZSBpcyBhZGp1c3RlZCBieSB0aGUgZWxlY3RyaWMgYWxsb2NhdGlvbiBm YWN0b3IuIFRoaXMgYWRqdXN0ZWQgZW1pc3Npb25zIGZpZWxkIGlzIGVzdGltYXRlZCBieSBmaXJz dCBtYWtpbmcgdGhlIGJpb2dhcyBhZGp1c3RtZW50IChpZiBpdCBleGlzdHMpIGFuZCB0aGVuIGFw cGx5aW5nIHRoZSBlbGVjdHJpYyBhbGxvY2F0aW9uIGZhY3RvciAoaWYgdGhlIHBsYW50IGlzIGEg Q0hQKS48L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAg PC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5QTE5PWE9aPC9hdHRybGFi bD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgT3pvbmUgU2Vhc29uIE5PeCBFbWlzc2lvbnMgKFBM Tk9YT1opIC0gVGhlIGZpdmUtbW9udGggb3pvbmUgc2Vhc29uIChNYXkgdGhyb3VnaCBTZXB0ZW1i ZXIpIE5PeCBlbWlzc2lvbnMsIGluIHNob3J0IHRvbnMsIGZvciB0aGUgcGxhbnQuIEJpb2dhcyBj b21wb25lbnRzIGFyZSBhZGp1c3RlZC4gRm9yIENIUCBwbGFudHMsIHRoZSB2YWx1ZSBpcyBhZGp1 c3RlZCBieSB0aGUgZWxlY3RyaWMgYWxsb2NhdGlvbiBmYWN0b3IuIFRoaXMgYWRqdXN0ZWQgZW1p c3Npb25zIGZpZWxkIGlzIGVzdGltYXRlZCBieSBmaXJzdCBtYWtpbmcgdGhlIGJpb2dhcyBhZGp1 c3RtZW50IChpZiBpdCBleGlzdHMpIGFuZCB0aGVuIGFwcGx5aW5nIHRoZSBlbGVjdHJpYyBhbGxv Y2F0aW9uIGZhY3RvciAoaWYgdGhlIHBsYW50IGlzIGEgQ0hQKS48L2F0dHJkZWY+DQogICAgICAg IDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQog ICAgICAgIDxhdHRybGFibD5QTFNPMkFOPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxh bnQgQW5udWFsIFNPMiBFbWlzc2lvbnMgKFBMU08yQU4pIC0gVGhlIHRvdGFsIGFubnVhbCBTTzIg ZW1pc3Npb25zLCBpbiBzaG9ydCB0b25zLCBmb3IgdGhlIHBsYW50LiBMYW5kZmlsbCBnYXMgY29t cG9uZW50cyBhcmUgYWRqdXN0ZWQuIEZvciBDSFAgcGxhbnRzLCB0aGUgdmFsdWUgaXMgYWRqdXN0 ZWQgYnkgdGhlIGVsZWN0cmljIGFsbG9jYXRpb24gZmFjdG9yLiBUaGlzIGFkanVzdGVkIGVtaXNz aW9ucyBmaWVsZCBpcyBlc3RpbWF0ZWQgYnkgZmlyc3QgbWFraW5nIHRoZSBsYW5kZmlsbCBnYXMg YWRqdXN0bWVudCAoaWYgaXQgZXhpc3RzKSBhbmQgdGhlbiBhcHBseWluZyB0aGUgZWxlY3RyaWMg YWxsb2NhdGlvbiBmYWN0b3IgKGlmIHRoZSBwbGFudCBpcyBhIENIUCkuPC9hdHRyZGVmPg0KICAg ICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRy Pg0KICAgICAgICA8YXR0cmxhYmw+UExDTzJBTjwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVm PlBsYW50IEFubnVhbCBDTzIgRW1pc3Npb25zIChQTENPMkFOKSAtIFRoZSB0b3RhbCBhbm51YWwg Q08yIGVtaXNzaW9ucywgaW4gc2hvcnQgdG9ucywgZm9yIHRoZSBwbGFudC4gQWxsIENPMiBlbWlz c2lvbnMgZnJvbSBiaW9tYXNzIGZ1ZWxzIGFyZSBhZGp1c3RlZCB0byB6ZXJvLiBGb3IgQ0hQIHBs YW50cywgdGhlIHZhbHVlIGlzIGFkanVzdGVkIGJ5IHRoZSBlbGVjdHJpYyBhbGxvY2F0aW9uIGZh Y3Rvci4gVGhpcyBhZGp1c3RlZCBlbWlzc2lvbnMgZmllbGQgaXMgZXN0aW1hdGVkIGJ5IGZpcnN0 IG1ha2luZyB0aGUgYmlvbWFzcyBhZGp1c3RtZW50IChpZiBpdCBleGlzdHMpIGFuZCB0aGVuIGFw cGx5aW5nIHRoZSBlbGVjdHJpYyBhbGxvY2F0aW9uIGZhY3RvciAoaWYgdGhlIHBsYW50IGlzIGEg Q0hQKS48L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAg PC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5QTENINEFOPC9hdHRybGFi bD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgQW5udWFsIENINCBFbWlzc2lvbnMgKFBMQ0g0QU4p IC0gVGhlIHRvdGFsIGFubnVhbCBDSDQgZW1pc3Npb25zLCBpbiBwb3VuZHMsIGZvciB0aGUgcGxh bnQuIEJpb2dhcyBiaW9tYXNzIGNvbXBvbmVudHMgYXJlIGFkanVzdGVkLiBGb3IgQ0hQIHBsYW50 cywgdGhlIHZhbHVlIGlzIGFkanVzdGVkIGJ5IHRoZSBlbGVjdHJpYyBhbGxvY2F0aW9uIGZhY3Rv ci4gVGhpcyBhZGp1c3RlZCBlbWlzc2lvbnMgZmllbGQgaXMgZXN0aW1hdGVkIGJ5IGZpcnN0IG1h a2luZyB0aGUgYmlvbWFzcyBhZGp1c3RtZW50IChpZiBpdCBleGlzdHMpIGFuZCB0aGVuIGFwcGx5 aW5nIHRoZSBlbGVjdHJpYyBhbGxvY2F0aW9uIGZhY3RvciAoaWYgdGhlIHBsYW50IGlzIGEgQ0hQ KS48L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAgPC9h dHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5QTE4yT0FOPC9hdHRybGFibD4N CiAgICAgICAgPGF0dHJkZWY+UGxhbnQgQW5udWFsIE4yTyBFbWlzc2lvbnMgKFBMTjJPQU4pIC0g VGhlIHRvdGFsIGFubnVhbCBOMk8gZW1pc3Npb25zLCBpbiBwb3VuZHMgZm9yIHRoZSBwbGFudC4g QmlvZ2FzIGJpb21hc3MgY29tcG9uZW50cyBhcmUgYWRqdXN0ZWQuIEZvciBDSFAgcGxhbnRzLCB0 aGUgdmFsdWUgaXMgYWRqdXN0ZWQgYnkgdGhlIGVsZWN0cmljIGFsbG9jYXRpb24gZmFjdG9yLiBU aGlzIGFkanVzdGVkIGVtaXNzaW9ucyBmaWVsZCBpcyBlc3RpbWF0ZWQgYnkgZmlyc3QgbWFraW5n IHRoZSBiaW9tYXNzIGFkanVzdG1lbnQgKGlmIGl0IGV4aXN0cykgYW5kIHRoZW4gYXBwbHlpbmcg dGhlIGVsZWN0cmljIGFsbG9jYXRpb24gZmFjdG9yIChpZiB0aGUgcGxhbnQgaXMgYSBDSFApLjwv YXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+ DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMQ08yRVFBPC9hdHRybGFibD4NCiAg ICAgICAgPGF0dHJkZWY+UGxhbnQgQW5udWFsIENPMiBFcXVpdmFsZW50IEVtaXNzaW9ucyAoUExD TzJFUUEpIC0gVGhlIGFubnVhbCBDTzIgZXF1aXZhbGVudCBlbWlzc2lvbnMsIGluIHNob3J0IHRv bnMsIGZvciB0aGUgcGxhbnQuIFRoaXMgdmFsdWUgaXMgYSB1bml2ZXJzYWwgc3RhbmRhcmQgb2Yg bWVhc3VyZW1lbnQuIFRoZSBHV1BzIGZyb20gdGhlIHNlY29uZCBJUENDIGFzc2Vzc21lbnQgYXJl IHVzZWQgcGVyIEVQQSBmb3IgdGhlIGNhbGN1bGF0aW9uOyB0aGUgZm9ybXVsYSB1c2VkIGlzIGFz IGZvbGxvd3M6IFBMQ08yRVFBID0gKCgxKiBQTENPMkFOKSArICgyMSogUExDSDRBTiAvIDIwMDAp ICsgKDMxMCAqIFBMTjJPQU4gLyAyMDAwKSkuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+ RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0 cmxhYmw+UExIR0FOPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgQW5udWFsIEhn IEVtaXNzaW9ucyAoUExIR0FOKSAtIFRoZSB0b3RhbCBhbm51YWwgSGcgZW1pc3Npb25zLCBpbiBw b3VuZHMgZm9yIHRoZSBwbGFudC4gRm9yIENIUCBwbGFudHMsIHRoZSB2YWx1ZSBpcyBhZGp1c3Rl ZCBieSB0aGUgZWxlY3RyaWMgYWxsb2NhdGlvbiBmYWN0b3IuIE5vdCBjYWxjdWxhdGVkIGZvciBl R1JJRDIwMTYuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAg ICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExOT1hSVEE8L2F0 dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBBbm51YWwgTk94IFRvdGFsIE91dHB1dCBF bWlzc2lvbiBSYXRlIChQTE5PWFJUQSkgLSBUaGlzIGZpZWxkLCBpbiBsYi9NV2gsIGlzIGNhbGN1 bGF0ZWQgYXMgZm9sbG93czogUExOT1hSVEEgPSAyMDAwICogKFBMTk9YQU4gLyBQTE5HRU5BTiku PC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0 cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExOT1hSVE88L2F0dHJsYWJsPg0K ICAgICAgICA8YXR0cmRlZj5QbGFudCBPem9uZSBTZWFzb24gTk94IFRvdGFsIE91dHB1dCBFbWlz c2lvbiBSYXRlIChQTE5PWFJUTykgLSBUaGlzIGZpZWxkLCBpbiBsYi9NV2gsIGlzIGNhbGN1bGF0 ZWQgYXMgZm9sbG93czogUExOT1hSVE8gPSAyMDAwICogKFBMTk9YT1ogLyBQTE5HRU5PWikuPC9h dHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4N CiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExTTzJSVEE8L2F0dHJsYWJsPg0KICAg ICAgICA8YXR0cmRlZj5QbGFudCBBbm51YWwgU08yIFRvdGFsIE91dHB1dCBFbWlzc2lvbiBSYXRl IChQTFNPMlJUQSkgLSBUaGlzIGZpZWxkLCBpbiBsYi9NV2gsIGlzIGNhbGN1bGF0ZWQgYXMgZm9s bG93czogUExTTzJSVEEgPSAyMDAwICogKFBMU08yQU4gLyBQTE5HRU5BTikuPC9hdHRyZGVmPg0K ICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxh dHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExDTzJSVEE8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0 cmRlZj5QbGFudCBBbm51YWwgQ08yIFRvdGFsIE91dHB1dCBFbWlzc2lvbiBSYXRlIChQTENPMlJU QSkgLSBUaGlzIGZpZWxkLCBpbiBsYi9NV2gsIGlzIGNhbGN1bGF0ZWQgYXMgZm9sbG93czogUExD TzJSVEEgPSAyMDAwICogKFBMQ08yQU4gLyBQTE5HRU5BTikuPC9hdHRyZGVmPg0KICAgICAgICA8 YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAg ICAgICA8YXR0cmxhYmw+UExDSDRSVEE8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFu dCBBbm51YWwgQ0g0IFRvdGFsIE91dHB1dCBFbWlzc2lvbiBSYXRlIChQTENINFJUQSkgLSBUaGlz IGZpZWxkLCBpbiBsYi9HV2gsIGlzIGNhbGN1bGF0ZWQgYXMgZm9sbG93czogUExDSDRSVEEgPSBQ TENINEFOIC8gKFBMTkdFTkFOIC8gMTAwMCkuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+ RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0 cmxhYmw+UExOMk9SVEE8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBBbm51YWwg TjJPIFRvdGFsIE91dHB1dCBFbWlzc2lvbiBSYXRlIChQTE4yT1JUQSkgLSBUaGlzIGZpZWxkLCBp biBsYi9HV2gsIGlzIGNhbGN1bGF0ZWQgYXMgZm9sbG93czogUExOMk9SVEEgPSBQTE4yT0FOIC8g KFBMTkdFTkFOIC8gMTAwMCkuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRy ZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExD MkVSVEE8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBBbm51YWwgQ08yIEVxdWl2 YWxlbnQgVG90YWwgT3V0cHV0IEVtaXNzaW9uIFJhdGUgKFBMQzJFUlRBKSAtIFRoaXMgZmllbGQs IGluIGxiL01XaCwgaXMgY2FsY3VsYXRlZCBhcyBmb2xsb3dzOiBQTEMyRVJUQSA9IDIwMDAgKiAo UExDTzJFUUEgLyBQTE5HRU5BTikuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9h dHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+ UExIR1JUQTwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50IEFubnVhbCBIZyBUb3Rh bCBPdXRwdXQgRW1pc3Npb24gUmF0ZSAoUExIR1JUQSkgLSBUaGlzIGZpZWxkLCBpbiBsYi9HV2gs IGlzIGNhbGN1bGF0ZWQgYXMgZm9sbG93czogUExIR1JUQSA9IFBMSEdBTiAvIChQTE5HRU5BTiAv IDEwMDApLiBOb3QgY2FsY3VsYXRlZCBmb3IgZUdSSUQyMDE2LjwvYXR0cmRlZj4NCiAgICAgICAg PGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAg ICAgICAgPGF0dHJsYWJsPlBMTk9YUkE8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFu dCBBbm51YWwgTk94IElucHV0IEVtaXNzaW9uIFJhdGUgKFBMTk9YUkEpIC0gVGhpcyBmaWVsZCwg aW4gbGIvTU1CdHUsIGlzIGNhbGN1bGF0ZWQgYXMgZm9sbG93czogUExOT1hSQSA9IDIwMDAgKiAo UExOT1hBTiAvIFBMSFRJQU4pLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0 cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBM Tk9YUk88L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBPem9uZSBTZWFzb24gTk94 IElucHV0IEVtaXNzaW9uIFJhdGUgKFBMTk9YUk8pIC0gVGhpcyBmaWVsZCwgaW4gbGIvTU1CdHUs IGlzIGNhbGN1bGF0ZWQgYXMgZm9sbG93czogUExOT1hSTyA9IDIwMDAgKiAoUExOT1hPWiAvIFBM SFRJT1opLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQogICAg ICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMU08yUkE8L2F0dHJs YWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBBbm51YWwgU08yIElucHV0IEVtaXNzaW9uIFJh dGUgKFBMU08yUkEpIC0gVGhpcyBmaWVsZCwgaW4gbGIvTU1CdHUsIGlzIGNhbGN1bGF0ZWQgYXMg Zm9sbG93czogUExTTzJSQSA9IDIwMDAgKiAoUExTTzJBTiAvIFBMSFRJQU4pLjwvYXR0cmRlZj4N CiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8 YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMQ08yUkE8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0 cmRlZj5QbGFudCBBbm51YWwgQ08yIElucHV0IEVtaXNzaW9uIFJhdGUgKFBMQ08yUkEpIC0gVGhp cyBmaWVsZCwgaW4gbGIvTU1CdHUsIGlzIGNhbGN1bGF0ZWQgYXMgZm9sbG93czogUExDTzJSQSA9 IDIwMDAgKiAoUExDTzJBTiAvIFBMSFRJQU4pLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZz PkVQQTwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0 dHJsYWJsPlBMQ0g0UkE8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBBbm51YWwg Q0g0IElucHV0IEVtaXNzaW9uIFJhdGUgKFBMQ0g0UkEpIC0gVGhpcyBmaWVsZCwgaW4gbGIvTU1C dHUsIGlzIGNhbGN1bGF0ZWQgYXMgZm9sbG93czogUExDTzJSQSA9IDIwMDAgKiAoUExDSDRBTiAv IFBMSFRJQU4pLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQog ICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMTjJPUkE8L2F0 dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBBbm51YWwgTjJPIElucHV0IEVtaXNzaW9u IFJhdGUgKFBMTjJPUkEpIC0gVGhpcyBmaWVsZCwgaW4gbGIvTU1CdHUsIGlzIGNhbGN1bGF0ZWQg YXMgZm9sbG93czogUExDTzJSQSA9IDIwMDAgKiAoUExOMk9BTiAvIFBMSFRJQU4pLjwvYXR0cmRl Zj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAg ICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMQzJFUkE8L2F0dHJsYWJsPg0KICAgICAgICA8 YXR0cmRlZj5QbGFudCBBbm51YWwgQ08yIEVxdWl2YWxlbnQgSW5wdXQgRW1pc3Npb24gUmF0ZSAo UExDMkVSQSkgLSBUaGlzIGZpZWxkLCBpbiBsYi9NTUJ0dSwgaXMgY2FsY3VsYXRlZCBhcyBmb2xs b3dzOiBQTENPMlJBID0gMjAwMCAqIChQTENPMkVRQSAvIFBMSFRJQU4pLjwvYXR0cmRlZj4NCiAg ICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0 cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMSEdSQTwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVm PlBsYW50IEFubnVhbCBIZyBJbnB1dCBFbWlzc2lvbiBSYXRlIChQTEhHUkEpIC0gVGhpcyBmaWVs ZCwgaW4gbGIvQkJ0dSwgaXMgY2FsY3VsYXRlZCBhcyBmb2xsb3dzOiBQTEhHUkEgPSBQTEhHQU4g LyAoUExIVElBTiAvIDEwMDApLiBOb3QgY2FsY3VsYXRlZCBmb3IgZUdSSUQyMDE2LjwvYXR0cmRl Zj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAg ICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMTk9YQ1JUPC9hdHRybGFibD4NCiAgICAgICAg PGF0dHJkZWY+UGxhbnQgQW5udWFsIE5PeCBDb21idXN0aW9uIE91dHB1dCBFbWlzc2lvbiBSYXRl IChQTE5PWENSVCkgLSBUaGlzIGZpZWxkLCBpbiBsYi9NV2gsIGlzIGNhbGN1bGF0ZWQgYXMgZm9s bG93czogUExOT1hDUlQgPSAyMDAwICogKFBMTk9YQU4gLyBQTEdFTkFDWSkuPC9hdHRyZGVmPg0K ICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxh dHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExOT1hDUk88L2F0dHJsYWJsPg0KICAgICAgICA8YXR0 cmRlZj5QbGFudCBPem9uZSBTZWFzb24gTk94IENvbWJ1c3Rpb24gT3V0cHV0IEVtaXNzaW9uIFJh dGUgKFBMTk9YQ1JPKSAtIFRoaXMgZmllbGQsIGluIGxiL01XaCwgaXMgY2FsY3VsYXRlZCBhcyBm b2xsb3dzOiBQTE5PWENSTyA9IDIwMDAgKiAoUExOT1hPWiAvICgoUExHRU5BQ1kgKiBQTE5HRU5P WikgLyBQTE5HRU5BTikpLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRl ZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMU08y Q1JUPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgQW5udWFsIFNPMiBDb21idXN0 aW9uIE91dHB1dCBFbWlzc2lvbiBSYXRlIChQTFNPMkNSVCkgLSBUaGlzIGZpZWxkLCBpbiBsYi9N V2gsIGlzIGNhbGN1bGF0ZWQgYXMgZm9sbG93czogUExTTzJDUlQgPSAyMDAwICogKFBMU08yQU4g LyBQTEdFTkFDWSkuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4N CiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExDTzJDUlQ8 L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBBbm51YWwgQ08yIENvbWJ1c3Rpb24g T3V0cHV0IEVtaXNzaW9uIFJhdGUgKFBMQ08yQ1JUKSAtIFRoaXMgZmllbGQsIGluIGxiL01XaCwg aXMgY2FsY3VsYXRlZCBhcyBmb2xsb3dzOiBQTENPMkNSVCA9IDIwMDAgKiAoUExDTzJBTiAvIFBM R0VOQUNZKS48L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAg ICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5QTENINENSVDwvYXR0 cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50IEFubnVhbCBDSDQgQ29tYnVzdGlvbiBPdXRw dXQgRW1pc3Npb24gUmF0ZSAoUExDSDRDUlQpIC0gVGhpcyBmaWVsZCwgaW4gbGIvR1doLCBpcyBj YWxjdWxhdGVkIGFzIGZvbGxvd3M6IFBMQ0g0Q1JUID0gUExDSDRBTiAvIChQTEdFTkFDWSAvIDEw MDApLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQogICAgICA8 L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMTjJPQ1JUPC9hdHRybGFi bD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgQW5udWFsIE4yTyBDb21idXN0aW9uIE91dHB1dCBF bWlzc2lvbiBSYXRlIChQTE4yT0NSVCkgLSBUaGlzIGZpZWxkLCBpbiBsYi9HV2gsIGlzIGNhbGN1 bGF0ZWQgYXMgZm9sbG93czogUExOMk9DUlQgPSBQTE4yT0FOIC8gKFBMR0VOQUNZIC8gMTAwMCku PC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0 cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExDMkVDUlQ8L2F0dHJsYWJsPg0K ICAgICAgICA8YXR0cmRlZj5QbGFudCBBbm51YWwgQ08yIEVxdWl2YWxlbnQgQ29tYnVzdGlvbiBP dXRwdXQgRW1pc3Npb24gUmF0ZSAoUExDMkVDUlQpIC0gVGhpcyBmaWVsZCwgaW4gbGIvTVdoLCBp cyBjYWxjdWxhdGVkIGFzIGZvbGxvd3M6IFBMQzJFQ1JUID0gMjAwMCAqIChQTENPMkVRQSAvIFBM R0VOQUNZKS4gPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAg ICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExIR0NSVDwvYXR0 cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50IEFubnVhbCBIZyBDb21idXN0aW9uIE91dHB1 dCBFbWlzc2lvbiBSYXRlIChQTEhHQ1JUKSAtIFRoaXMgZmllbGQsIGluIGxiL0dXaCwgaXMgY2Fs Y3VsYXRlZCBhcyBmb2xsb3dzOiBQTEhHQ1JUID0gUExIR0FOIC8gKFBMR0VOQUNZIC8gMTAwMCku IE5vdCBjYWxjdWxhdGVkIGZvciBlR1JJRDIwMTkuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRl ZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8 YXR0cmxhYmw+VU5OT1g8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBVbmFkanVz dGVkIEFubnVhbCBOT3ggRW1pc3Npb25zIChVTk5PWCkgLSBUaGUgdG90YWwgcGxhbnQtbGV2ZWwg dW5hZGp1c3RlZCBhbm51YWwgTk94IGVtaXNzaW9ucywgaW4gc2hvcnQgdG9ucy48L2F0dHJkZWY+ DQogICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAg PGF0dHI+DQogICAgICAgIDxhdHRybGFibD5VTk5PWE9aPC9hdHRybGFibD4NCiAgICAgICAgPGF0 dHJkZWY+UGxhbnQgVW5hZGp1c3RlZCBPem9uZSBTZWFzb24gTk94IEVtaXNzaW9ucyAoVU5OT1hP WikgLSBUaGUgdW5hZGp1c3RlZCBmaXZlLW1vbnRoIG96b25lIHNlYXNvbiAoTWF5IHRocm91Z2gg U2VwdGVtYmVyKSBOT3ggZW1pc3Npb25zLCBpbiBzaG9ydCB0b25zLCBmb3IgdGhlIHBsYW50Ljwv YXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+ DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlVOU08yPC9hdHRybGFibD4NCiAgICAg ICAgPGF0dHJkZWY+UGxhbnQgVW5hZGp1c3RlZCBBbm51YWwgU08yIEVtaXNzaW9ucyAoVU5TTzIp IC0gVGhlIHRvdGFsIHBsYW50LWxldmVsIHVuYWRqdXN0ZWQgYW5udWFsIFNPMiBlbWlzc2lvbnMs IGluIHNob3J0IHRvbnMuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVm cz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+VU5DTzI8 L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBVbmFkanVzdGVkIEFubnVhbCBDTzIg RW1pc3Npb25zIChVTkNPMikgLSBUaGUgdG90YWwgcGxhbnQtbGV2ZWwgdW5hZGp1c3RlZCBhbm51 YWwgQ08yIGVtaXNzaW9ucywgaW4gc2hvcnQgdG9ucy48L2F0dHJkZWY+DQogICAgICAgIDxhdHRy ZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAg IDxhdHRybGFibD5VTkNINDwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50IFVuYWRq dXN0ZWQgQW5udWFsIENINCBFbWlzc2lvbnMgKFVOQ0g0KSAtIFRoZSB0b3RhbCBwbGFudC1sZXZl bCB1bmFkanVzdGVkIGFubnVhbCBDSDQgZW1pc3Npb25zLCBpbiBwb3VuZHMuPC9hdHRyZGVmPg0K ICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxh dHRyPg0KICAgICAgICA8YXR0cmxhYmw+VU5OMk88L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRl Zj5QbGFudCBVbmFkanVzdGVkIEFubnVhbCBOMk8gRW1pc3Npb25zIChVTk4yTykgLSBUaGUgdG90 YWwgcGxhbnQtbGV2ZWwgdW5hZGp1c3RlZCBhbm51YWwgTjJPIGVtaXNzaW9ucywgaW4gcG91bmRz LjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQogICAgICA8L2F0 dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlVOSEc8L2F0dHJsYWJsPg0KICAg ICAgICA8YXR0cmRlZj5QbGFudCBVbmFkanVzdGVkIEFubnVhbCBIZyBFbWlzc2lvbnMgKFVOSEcp IC0gVGhlIHRvdGFsIHBsYW50LWxldmVsIHVuYWRqdXN0ZWQgYW5udWFsIEhnIGVtaXNzaW9ucywg aW4gcG91bmRzLiBOb3QgY2FsY3VsYXRlZCBmb3IgZUdSSUQyMDE2LjwvYXR0cmRlZj4NCiAgICAg ICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4N CiAgICAgICAgPGF0dHJsYWJsPlVOSFRJPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxh bnQgVW5hZGp1c3RlZCBBbm51YWwgSGVhdCBJbnB1dCBmcm9tIENvbWJ1c3Rpb24gKFVOSFRJKSAt IFRoZSB0b3RhbCBwbGFudC1sZXZlbCB1bmFkanVzdGVkIGFubnVhbCBoZWF0IGlucHV0IGZyb20g Y29tYnVzdGlvbiwgaW4gTU1CdHUuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBL0NB TUQsIEVJQS05MjM8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAg ICAgIDxhdHRybGFibD5VTkhUSU9aPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQg VW5hZGp1c3RlZCBPem9uZSBTZWFzb24gSGVhdCBJbnB1dCBmcm9tIENvbWJ1c3Rpb24gKFVOSFRJ T1opIC0gVGhlIGZpdmUtbW9udGggb3pvbmUgc2Vhc29uIChNYXkgdGhyb3VnaCBTZXB0ZW1iZXIp IGhlYXQgaW5wdXQgZnJvbSBjb21idXN0aW9uLCBpbiBNTUJ0dSBmb3IgdGhlIHBsYW50PC9hdHRy ZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBL0NBTUQsIEVJQS05MjM8L2F0dHJkZWZzPg0KICAg ICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5VTkhUSVQ8L2F0dHJs YWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBUb3RhbCBVbmFkanVzdGVkIEFubnVhbCBIZWF0 IElucHV0IChVTkhUSVQpIC0gVGhlIHRvdGFsIHBsYW50LWxldmVsIHVuYWRqdXN0ZWQgYW5udWFs IGhlYXQgaW5wdXQgZnJvbSBjb21idXN0aW9uIGFuZCBub25jb21idXN0aW9uIHVuaXRzLCBpbiBN TUJ0dS48L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FUEEvQ0FNRCwgRUlBLTkyMzwvYXR0 cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlVO SFRJT1pUPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgVG90YWwgVW5hZGp1c3Rl ZCBPem9uZSBTZWFzb24gSGVhdCBJbnB1dCAoVU5IVElPWlQpIC0gVGhlIGZpdmUtbW9udGggb3pv bmUgc2Vhc29uIChNYXkgdGhyb3VnaCBTZXB0ZW1iZXIpIGhlYXQgaW5wdXQgZnJvbSBjb21idXN0 aW9uIGFuZCBub25jb21idXN0aW9uIHVuaXRzLCBpbiBNTUJ0dSBmb3IgdGhlIHBsYW50LjwvYXR0 cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQS9DQU1ELCBFSUEtOTIzPC9hdHRyZGVmcz4NCiAg ICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+VU5OT1hTUkM8L2F0 dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBVbmFkanVzdGVkIEFubnVhbCBOT3ggRW1p c3Npb25zIFNvdXJjZSAoVU5OT1hTUkMgKSAtIFRoZSBzb3VyY2Ugb2YgcGxhbnQtbGV2ZWwgdW5h ZGp1c3RlZCBhbm51YWwgTk94IGVtaXNzaW9ucy48L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVm cz5FUEE8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxh dHRybGFibD5VTk5PWlNSQzwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50IFVuYWRq dXN0ZWQgT3pvbmUgU2Vhc29uIE5PeCBFbWlzc2lvbnMgU291cmNlIChVTk5PWlNSQykgLSBUaGUg c291cmNlIG9mIHBsYW50LWxldmVsIHVuYWRqdXN0ZWQgb3pvbmUgTk94IGVtaXNzaW9ucy48L2F0 dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0K ICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5VTlNPMlNSQzwvYXR0cmxhYmw+DQogICAg ICAgIDxhdHRyZGVmPlBsYW50IFVuYWRqdXN0ZWQgQW5udWFsIFNPMiBFbWlzc2lvbnMgU291cmNl IChVTlNPMlNSQykgLSBUaGUgc291cmNlIG9mIHBsYW50LWxldmVsIHVuYWRqdXN0ZWQgYW5udWFs IFNPMiBlbWlzc2lvbnMuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVm cz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+VU5DTzJT UkM8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBVbmFkanVzdGVkIEFubnVhbCBD TzIgRW1pc3Npb25zIFNvdXJjZSAoVU5DTzJTUkMpIC0gVGhlIHNvdXJjZSBvZiBwbGFudC1sZXZl bCB1bmFkanVzdGVkIGFubnVhbCBDTzIgZW1pc3Npb25zLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0 dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAg ICAgPGF0dHJsYWJsPlVOQ0g0U1JDPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQg VW5hZGp1c3RlZCBBbm51YWwgQ0g0IEVtaXNzaW9ucyBTb3VyY2UgKFVOQ0g0U1JDKSAtIFRoZSBz b3VyY2Ugb2YgcGxhbnQtbGV2ZWwgdW5hZGp1c3RlZCBhbm51YWwgQ0g0IGVtaXNzaW9ucy48L2F0 dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0K ICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5VTk4yT1NSQzwvYXR0cmxhYmw+DQogICAg ICAgIDxhdHRyZGVmPlBsYW50IFVuYWRqdXN0ZWQgQW5udWFsIE4yTyBFbWlzc2lvbnMgU291cmNl IChVTk4yT1NSQykgLSBUaGUgc291cmNlIG9mIHBsYW50LWxldmVsIHVuYWRqdXN0ZWQgYW5udWFs IE4yTyBlbWlzc2lvbnMuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVm cz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+VU5IR1NS QzwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50IFVuYWRqdXN0ZWQgQW5udWFsIEhn IEVtaXNzaW9ucyBTb3VyY2UgKFVOSEdTUkMpIC0gVGhlIHNvdXJjZSBvZiBwbGFudC1sZXZlbCB1 bmFkanVzdGVkIGFubnVhbCBIZyBlbWlzc2lvbnMuIE5vdCBjYWxjdWxhdGVkIGZvciBlR1JJRDIw MTYuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwv YXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+VU5IVElTUkM8L2F0dHJsYWJs Pg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBVbmFkanVzdGVkIEFubnVhbCBIZWF0IElucHV0IFNv dXJjZSAoVU5IVElTUkMpIC0gVGhlIHNvdXJjZSBvZiBwbGFudC1sZXZlbCB1bmFkanVzdGVkIGFu bnVhbCBoZWF0IGlucHV0LjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRl ZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlVOSE9a U1JDPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgVW5hZGp1c3RlZCBPem9uZSBT ZWFzb24gSGVhdCBJbnB1dCBTb3VyY2UgKFVOSE9aU1JDKSAtIFRoZSBzb3VyY2Ugb2YgcGxhbnQt bGV2ZWwgdW5hZGp1c3RlZCBvem9uZSBzZWFzb24gaGVhdCBpbnB1dC48L2F0dHJkZWY+DQogICAg ICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+ DQogICAgICAgIDxhdHRybGFibD5CSU9OT1g8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5Q bGFudCBBbm51YWwgTk94IEJpb21hc3MgRW1pc3Npb25zIChCSU9OT1gpIC0gVGhlIGFubnVhbCBw bGFudC1sZXZlbCBOT3ggYmlvbWFzcyBlbWlzc2lvbnMsIGluIHRvbnMuIFRoaXMgaXMgdGhlIHZh bHVlIHRoZSB0b3RhbCBlbWlzc2lvbnMgYXJlIGFkanVzdGVkIGJ5IGZvciB0aGUgYmlvbWFzcyBl bWlzc2lvbnMgYWRqdXN0bWVudHMuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RUlBLTky MzwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJs YWJsPkJJT05PWE9aPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgT3pvbmUgU2Vh c29uIE5PeCBCaW9tYXNzIEVtaXNzaW9ucyAoQklPTk9YT1opIC0gVGhlIGZpdmUtbW9udGggb3pv bmUgc2Vhc29uIChNYXkgdGhyb3VnaCBTZXB0ZW1iZXIpIHBsYW50LWxldmVsIE5PeCBiaW9tYXNz IGVtaXNzaW9ucywgaW4gdG9ucy4gVGhpcyBpcyB0aGUgdmFsdWUgdGhlIHRvdGFsIGVtaXNzaW9u cyBhcmUgYWRqdXN0ZWQgYnkgZm9yIHRoZSBiaW9tYXNzIGVtaXNzaW9ucyBhZGp1c3RtZW50cy48 L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FSUEtOTIzPC9hdHRyZGVmcz4NCiAgICAgIDwv YXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+QklPU08yPC9hdHRybGFibD4N CiAgICAgICAgPGF0dHJkZWY+UGxhbnQgQW5udWFsIFNPMiBCaW9tYXNzIEVtaXNzaW9ucyAoQklP U08yKSAtIFRoZSBhbm51YWwgcGxhbnQtbGV2ZWwgU08yIGJpb21hc3MgZW1pc3Npb25zLCBpbiB0 b25zLiBUaGlzIGlzIHRoZSB2YWx1ZSB0aGUgdG90YWwgZW1pc3Npb25zIGFyZSBhZGp1c3RlZCBi eSBmb3IgdGhlIGJpb21hc3MgZW1pc3Npb25zIGFkanVzdG1lbnRzLjwvYXR0cmRlZj4NCiAgICAg ICAgPGF0dHJkZWZzPkVJQS05MjM8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0 dHI+DQogICAgICAgIDxhdHRybGFibD5CSU9DTzI8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRl Zj5QbGFudCBBbm51YWwgQ08yIEJpb21hc3MgRW1pc3Npb25zIChCSU9DTzIpIC0gVGhlIGFubnVh bCBwbGFudC1sZXZlbCBDTzIgYmlvbWFzcyBlbWlzc2lvbnMsIGluIHRvbnMuIFRoaXMgaXMgdGhl IHZhbHVlIHRoZSB0b3RhbCBlbWlzc2lvbnMgYXJlIGFkanVzdGVkIGJ5IGZvciB0aGUgYmlvbWFz cyBlbWlzc2lvbnMgYWRqdXN0bWVudHMuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RUlB LTkyMzwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0 dHJsYWJsPkJJT0NINDwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50IEFubnVhbCBD SDQgQmlvbWFzcyBFbWlzc2lvbnMgKEJJT0NINCkgLSBUaGUgYW5udWFsIHBsYW50LWxldmVsIENI NCBiaW9tYXNzIGVtaXNzaW9ucywgaW4gcG91bmRzLiBUaGlzIGlzIHRoZSB2YWx1ZSB0aGUgdG90 YWwgZW1pc3Npb25zIGFyZSBhZGp1c3RlZCBieSBmb3IgdGhlIGJpb21hc3MgZW1pc3Npb25zIGFk anVzdG1lbnRzLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVJQS05MjM8L2F0dHJkZWZz Pg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5CSU9OMk88 L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBBbm51YWwgTjJPIEJpb21hc3MgRW1p c3Npb25zIChCSU9OMk8pIC0gVGhlIGFubnVhbCBwbGFudC1sZXZlbCBOMk8gYmlvbWFzcyBlbWlz c2lvbnMsIGluIHBvdW5kcy4gVGhpcyBpcyB0aGUgdmFsdWUgdGhlIHRvdGFsIGVtaXNzaW9ucyBh cmUgYWRqdXN0ZWQgYnkgZm9yIHRoZSBiaW9tYXNzIGVtaXNzaW9ucyBhZGp1c3RtZW50cy48L2F0 dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FSUEtOTIzPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0 cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+Q0hQQ0hUSTwvYXR0cmxhYmw+DQog ICAgICAgIDxhdHRyZGVmPlBsYW50IENvbWJ1c3Rpb24gQW5udWFsIEhlYXQgSW5wdXQgQ0hQIEFk anVzdG1lbnQgVmFsdWUgKENIUENIVEkpIOKAkyBUaGUgYW5udWFsIHBsYW50LWxldmVsIGhlYXQg aW5wdXQgYWRqdXN0bWVudCB2YWx1ZSBmb3IgQ0hQIHBsYW50cywgaW4gTU1CdHU8L2F0dHJkZWY+ DQogICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAg PGF0dHI+DQogICAgICAgIDxhdHRybGFibD5DSFBDSFRJT1o8L2F0dHJsYWJsPg0KICAgICAgICA8 YXR0cmRlZj5QbGFudCBDb21idXN0aW9uIE96b25lIFNlYXNvbiBIZWF0IElucHV0IENIUCBBZGp1 c3RtZW50IFZhbHVlIChDSFBDSFRJT1opIC0gVGhlIGZpdmUtbW9udGggb3pvbmUgc2Vhc29uIChN YXkgdGhyb3VnaCBTZXB0ZW1iZXIpIHBsYW50LWxldmVsIGhlYXQgaW5wdXQgYWRqdXN0bWVudCB2 YWx1ZSBmb3IgQ0hQIHBsYW50cywgaW4gTU1CdHUuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRl ZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8 YXR0cmxhYmw+Q0hQTk9YPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgQW5udWFs IE5PeCBFbWlzc2lvbnMgQ0hQIEFkanVzdG1lbnQgVmFsdWUgKENIUE5PWCkgLSBUaGUgYW5udWFs IHBsYW50LWxldmVsIE5PeCBlbWlzc2lvbnMgYWRqdXN0bWVudCB2YWx1ZSBmb3IgQ0hQIHBsYW50 cywgaW4gdG9ucy48L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0K ICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5DSFBOT1hPWjwv YXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50IE96b25lIHNlYXNvbiBOT3ggRW1pc3Np b25zIENIUCBBZGp1c3RtZW50IFZhbHVlIChDSFBOT1hPWikgLSBUaGUgZml2ZS1tb250aCBvem9u ZSBzZWFzb24gKE1heSB0aHJvdWdoIFNlcHRlbWJlcikgcGxhbnQtbGV2ZWwgTk94IGVtaXNzaW9u cyBhZGp1c3RtZW50IHZhbHVlIGZvciBDSFAgcGxhbnRzLCBpbiB0b25zLjwvYXR0cmRlZj4NCiAg ICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0 cj4NCiAgICAgICAgPGF0dHJsYWJsPkNIUFNPMjwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVm PlBsYW50IEFubnVhbCBTTzIgRW1pc3Npb25zIENIUCBBZGp1c3RtZW50IFZhbHVlIChDSFBTTzIp IC0gVGhlIGFubnVhbCBwbGFudC1sZXZlbCBTTzIgZW1pc3Npb25zIGFkanVzdG1lbnQgdmFsdWUg Zm9yIENIUCBwbGFudHMsIGluIHRvbnMuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBB PC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxh Ymw+Q0hQQ08yPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgQW5udWFsIENPMiBF bWlzc2lvbnMgQ0hQIEFkanVzdG1lbnQgVmFsdWUgKENIUENPMikgLSBUaGUgYW5udWFsIHBsYW50 LWxldmVsIENPMiBlbWlzc2lvbnMgYWRqdXN0bWVudCB2YWx1ZSBmb3IgQ0hQIHBsYW50cywgaW4g dG9ucy48L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAg PC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5DSFBDSDQ8L2F0dHJsYWJs Pg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBBbm51YWwgQ0g0IEVtaXNzaW9ucyBDSFAgQWRqdXN0 bWVudCBWYWx1ZSAoQ0hQQ0g0KSAtIFRoZSBhbm51YWwgcGxhbnQtbGV2ZWwgQ0g0IGVtaXNzaW9u cyBhZGp1c3RtZW50IHZhbHVlIGZvciBDSFAgcGxhbnRzLCBpbiBwb3VuZHMuPC9hdHRyZGVmPg0K ICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxh dHRyPg0KICAgICAgICA8YXR0cmxhYmw+Q0hQTjJPPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJk ZWY+UGxhbnQgQW5udWFsIE4yTyBFbWlzc2lvbnMgQ0hQIEFkanVzdG1lbnQgVmFsdWUgKENIUE4y TykgLSBUaGUgYW5udWFsIHBsYW50LWxldmVsIE4yTyBlbWlzc2lvbnNhZGp1c3RtZW50IHZhbHVl IGZvciBDSFAgcGxhbnRzLCBpbiBwb3VuZHMuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+ RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0 cmxhYmw+UExIVFJUPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgTm9taW5hbCBI ZWF0IFJhdGUgKFBMSFRSVCkgLSBUaGUgcGxhbnQgbm9taW5hbCBoZWF0IHJhdGUsIGluIEJ0dS9r V2gsIGZvciBhdCBsZWFzdCBwYXJ0aWFsbHkgY29tYnVzdGVkIHBsYW50cy4gSXQgaXMgY2FsY3Vs YXRlZCBhcyBmb2xsb3dzOiBQTEhUUlQgPSAxMDAwICogKFBMSFRJQU4gLyBQTE5HRU5BTikgZm9y IGNvbWJ1c3Rpb24gcGxhbnRzOyBhbmQgUExIVFJUID0gMTAwMCAqIChQTEhUSUFOIC8gUExHRU5B Q1kpIGZvciBwYXJ0aWFsIGNvbWJ1c3Rpb24gcGxhbnRzLiBGb3IgQ0hQIHBsYW50cywgdGhlIHZh bHVlIGlzLCBpbiBlZmZlY3QsIGFkanVzdGVkIGJ5IHRoZSBlbGVjdHJpYyBhbGxvY2F0aW9uIGZh Y3Rvciwgc2luY2UgdGhlIGhlYXQgaW5wdXQgaGFzIGJlZW4gYWRqdXN0ZWQuPC9hdHRyZGVmPg0K ICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxh dHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExHRU5BQ0w8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0 cmRlZj5QbGFudCBBbm51YWwgQ29hbCBOZXQgR2VuZXJhdGlvbiAoUExHRU5BQ0wpIC0gVGhlIHBs YW50IGFubnVhbCBuZXQgZ2VuZXJhdGlvbiwgaW4gTVdoLCBmb3IgY29hbC4gRnVlbCBjb2RlcyB0 aGF0IGFyZSBpbmNsdWRlZCBpbiBjb2FsIGFyZSBCSVQsIENPRywgU1VCLCBMSUcsIFdDLCBhbmQg U0MuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwv YXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExHRU5BT0w8L2F0dHJsYWJs Pg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBBbm51YWwgT2lsIE5ldCBHZW5lcmF0aW9uIChQTEdF TkFPTCkgLSBUaGUgcGxhbnQgYW5udWFsIG5ldCBnZW5lcmF0aW9uLCBpbiBNV2gsIGZvciBvaWwu IEZ1ZWwgY29kZXMgaW5jbHVkZWQgaW4gb2lsIGFyZSBERk8sIEpGLCBLRVIsIE9PLCBQQywgUkZP LCBSRywgYW5kIFdPLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+ DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMR0VOQUdT PC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgQW5udWFsIEdhcyBOZXQgR2VuZXJh dGlvbiAoUExHRU5BR1MpIC0gVGhlIHBsYW50IGFubnVhbCBuZXQgZ2VuZXJhdGlvbiwgaW4gTVdo LCBmb3IgbmF0dXJhbCBnYXMuIEZ1ZWwgY29kZXMgaW5jbHVkZWQgaW4gZ2FzIGFyZSBORyBhbmQg UEcuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwv YXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExHRU5BTkM8L2F0dHJsYWJs Pg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBBbm51YWwgTnVjbGVhciBOZXQgR2VuZXJhdGlvbiAo UExHRU5BTkMpIC0gVGhlIHBsYW50IGFubnVhbCBuZXQgZ2VuZXJhdGlvbiwgaW4gTVdoLCBmb3Ig bnVjbGVhci4gRnVlbCBjb2RlcyBpbmNsdWRlIE5VQy48L2F0dHJkZWY+DQogICAgICAgIDxhdHRy ZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAg IDxhdHRybGFibD5QTEdFTkFIWTwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50IEFu bnVhbCBIeWRybyBOZXQgR2VuZXJhdGlvbiAoUExHRU5BSFkpIC0gVGhlIHBsYW50IGFubnVhbCBu ZXQgZ2VuZXJhdGlvbiwgaW4gTVdoLCBmb3IgaHlkcm8uIEZ1ZWwgY29kZXMgaW5jbHVkZSBXQVQu PC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0 cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExHRU5BQk08L2F0dHJsYWJsPg0K ICAgICAgICA8YXR0cmRlZj5QbGFudCBBbm51YWwgQmlvbWFzcyBOZXQgR2VuZXJhdGlvbiAoUExH RU5BQk0pIC0gVGhlIGFubnVhbCBuZXQgZ2VuZXJhdGlvbiwgaW4gTVdoLCBmb3IgYmlvbWFzcy4g QmlvbWFzcyBpcyBhIGZ1ZWwgZGVyaXZlZCBmcm9tIG9yZ2FuaWMgbWF0dGVyIHN1Y2ggYXMgd29v ZCBhbmQgcGFwZXIgcHJvZHVjdHMsIGFncmljdWx0dXJhbCB3YXN0ZSwgb3IgbWV0aGFuZSAoZS5n LiwgZnJvbSBsYW5kZmlsbHMpLiBUaGUgcmVuZXdhYmxlIHBvcnRpb24gb2Ygc29saWQgd2FzdGUs IGZ1ZWwgY29kZSBNU0IsIGlzIGluY2x1ZGVkIGFzIGJpb21hc3MsIGFzIGFyZSBBQiwgQkxRLCBE RywgTEZHLCBNRSwgT0JMLCBPQlMsIFBQLCBTTFcsIFdETCwgYW5kIFdEUy48L2F0dHJkZWY+DQog ICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0 dHI+DQogICAgICAgIDxhdHRybGFibD5QTEdFTkFXSTwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRy ZGVmPlBsYW50IEFubnVhbCBXaW5kIE5ldCBHZW5lcmF0aW9uIChQTEdFTkFXSSkgLSBUaGUgcGxh bnQgYW5udWFsIG5ldCBnZW5lcmF0aW9uLCBpbiBNV2gsIGZvciB3aW5kLiBGdWVsIGNvZGVzIGlu Y2x1ZGUgV05ELjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQog ICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMR0VOQVNPPC9h dHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgQW5udWFsIFNvbGFyIE5ldCBHZW5lcmF0 aW9uIChQTEdFTkFTTykgLSBUaGUgcGxhbnQgYW5udWFsIG5ldCBnZW5lcmF0aW9uLCBpbiBNV2gs IGZvciBzb2xhci4gRnVlbCBjb2RlcyBpbmNsdWRlIFNVTi48L2F0dHJkZWY+DQogICAgICAgIDxh dHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAg ICAgIDxhdHRybGFibD5QTEdFTkFHVDwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50 IEFubnVhbCBHZW90aGVybWFsIE5ldCBHZW5lcmF0aW9uIChQTEdFTkFHVCkgLSBUaGUgcGxhbnQg YW5udWFsIG5ldCBnZW5lcmF0aW9uLCBpbiBNV2gsIGZvciBnZW90aGVybWFsLiBGdWVsIGNvZGVz IGluY2x1ZGUgR0VPLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+ DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMR0VOQU9G PC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgQW5udWFsIE90aGVyIEZvc3NpbCBO ZXQgR2VuZXJhdGlvbiAoUExHRU5BT0YpIC0gVGhlIHBsYW50IGFubnVhbCBuZXQgZ2VuZXJhdGlv biwgaW4gTVdoLCBmb3Igb3RoZXIgZm9zc2lsIGZ1ZWwgdGhhdCBjYW5ub3QgYmUgY2F0ZWdvcml6 ZWQgYXMgY29hbCwgb2lsLCBvciBnYXMuIE90aGVyIGZvc3NpbCBmdWVsIGNvZGVzIGluY2x1ZGUg QkZHLCBDT0csIEhZLCBMQiwgTUgsIE1TRiwgT0csIFBSRywgYW5kIFRERi48L2F0dHJkZWY+DQog ICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0 dHI+DQogICAgICAgIDxhdHRybGFibD5QTEdFTkFPUDwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRy ZGVmPlBsYW50IEFubnVhbCBPdGhlciBVbmtub3duLyBQdXJjaGFzZWQgRnVlbCBOZXQgR2VuZXJh dGlvbiAoUExHRU5BT1ApIC0gVGhlIHBsYW50IGFubnVhbCBuZXQgZ2VuZXJhdGlvbiwgaW4gTVdo LCBmb3Igb3RoZXIgdW5rbm93bi9wdXJjaGFzZWQuIEZ1ZWwgY29kZXMgaW5jbHVkZSBPVEgsIFBV Uiwgb3IgV0guPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAg ICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExHRU5BVE48L2F0 dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBBbm51YWwgVG90YWwgTm9ucmVuZXdhYmxl cyBOZXQgR2VuZXJhdGlvbiAoUExHRU5BVE4pIC0gVGhlIGFubnVhbCB0b3RhbCBub25yZW5ld2Fi bGVzIG5ldCBnZW5lcmF0aW9uLCBpbiBNV2gsIGZvciB0aGUgcGxhbnQuIE5vbnJlbmV3YWJsZXMg YXJlIGV4aGF1c3RpYmxlIGVuZXJneSByZXNvdXJjZXMgc3VjaCBhcyBjb2FsLCBvaWwsIGdhcywg b3RoZXIgZm9zc2lsLCBudWNsZWFyIHBvd2VyLCBhbmQgb3RoZXIgdW5rbm93bi9wdXJjaGFzZWQg ZnVlbC4gVGhpcyBmaWVsZCBpcyB0aGUgc3VtIG9mIFBMR0VOQUNMLCBQTEdFTkFPTCwgUExHRU5B R1MsIFBMR0VOQU9GLCBQTEdFTkFOQywgYW5kIFBMR0VOQU9QLjwvYXR0cmRlZj4NCiAgICAgICAg PGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAg ICAgICAgPGF0dHJsYWJsPlBMR0VOQVRSPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxh bnQgQW5udWFsIFRvdGFsIFJlbmV3YWJsZXMgTmV0IEdlbmVyYXRpb24gKFBMR0VOQVRSKSAtIFRo ZSBhbm51YWwgdG90YWwgcmVuZXdhYmxlcyBuZXQgZ2VuZXJhdGlvbiwgaW4gTVdoLCBmb3IgdGhl IHBsYW50LiBSZW5ld2FibGVzIGFyZSBpbmV4aGF1c3RpYmxlIGVuZXJneSByZXNvdXJjZXMgc3Vj aCBhcyBiaW9tYXNzLCB3aW5kLCBzb2xhciwgZ2VvdGhlcm1hbCwgYW5kIGh5ZHJvLiBUaGlzIGZp ZWxkIGlzIHRoZSBzdW0gb2YgUExHRU5BQk0sIFBMR0VOQVdJLCBQTEdFTkFTTywgUExHRU5BR1Qs IGFuZCBQTEdFTkFIWS48L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZz Pg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5QTEdFTkFU SDwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50IEFubnVhbCBUb3RhbCBOb25oeWRy byBSZW5ld2FibGVzIE5ldCBHZW5lcmF0aW9uIChQTEdFTkFUSCkgLSBUaGUgYW5udWFsIHRvdGFs IG5vbmh5ZHJvIHJlbmV3YWJsZXMgbmV0IGdlbmVyYXRpb24sIGluIE1XaCwgZm9yIHRoZSBwbGFu dC4gVGhpcyBmaWVsZCBpcyB0aGUgc3VtIG9mIFBMR0VOQUJNLCBQTEdFTkFXSSwgUExHRU5BU08s IGFuZCBQTEdFTkFHVC48L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZz Pg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5QTEdFTkFD WTwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50IEFubnVhbCBUb3RhbCBDb21idXN0 aW9uIE5ldCBHZW5lcmF0aW9uIChQTEdFTkFDWSkgLSBUaGUgYW5udWFsIHRvdGFsIGNvbWJ1c3Rp b24gbmV0IGdlbmVyYXRpb24sIGluIE1XaCwgZm9yIHRoZSBwbGFudC4gVGhpcyBmaWVsZCBpcyB0 aGUgc3VtIG9mIFBMR0VOQUNMLCBQTEdFTkFPTCwgUExHRU5BR1MsIFBMR0VOQU9GLCBQTEdFTkFC TSwgYW5kIFBMR0VOQU9QLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRl ZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMR0VO QUNOPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgQW5udWFsIFRvdGFsIE5vbmNv bWJ1c3Rpb24gTmV0IEdlbmVyYXRpb24gKFBMR0VOQUNOKSAtIFRoZSBhbm51YWwgdG90YWwgbm9u Y29tYnVzdGlvbiBuZXQgZ2VuZXJhdGlvbiwgaW4gTVdoLCBmb3IgdGhlIHBsYW50LiBUaGlzIGZp ZWxkIGlzIHRoZSBzdW0gb2YgUExHRU5BTkMsIFBMR0VOQUhZLCBQTEdFTkFXSSwgUExHRU5BU08s IGFuZCBQTEdFTkFHVC48L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZz Pg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5QTENMUFI8 L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBDb2FsIEdlbmVyYXRpb24gUGVyY2Vu dCAoUExDTFBSKSAtIFRoZSBjb2FsIHJlc291cmNlIG1peCBleHByZXNzZWQgYXMgYSBwZXJjZW50 IG9mIHBsYW50IGFubnVhbCBuZXQgZ2VuZXJhdGlvbi4gUExDTFBSID0gMTAwICogKFBMR0VOQUNM IC8gUExOR0VOQU4pLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+ DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMT0xQUjwv YXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50IE9pbCBHZW5lcmF0aW9uIFBlcmNlbnQg KFBMT0xQUikgLSBUaGUgb2lsIHJlc291cmNlIG1peCBleHByZXNzZWQgYXMgYSBwZXJjZW50IG9m IHBsYW50IGFubnVhbCBuZXQgZ2VuZXJhdGlvbi4gUExPTFBSID0gMTAwICogKFBMR0VOQU9MIC8g UExOR0VOQU4pLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQog ICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMR1NQUjwvYXR0 cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50IEdhcyBHZW5lcmF0aW9uIFBlcmNlbnQgKFBM R1NQUikgLSBUaGUgZ2FzIHJlc291cmNlIG1peCBleHByZXNzZWQgYXMgYSBwZXJjZW50IG9mIHBs YW50IGFubnVhbCBuZXQgZ2VuZXJhdGlvbi4gUExHU1BSID0gMTAwICogKFBMR0VOQUdTIC8gUExO R0VOQU4pLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQogICAg ICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMTkNQUjwvYXR0cmxh Ymw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50IE51Y2xlYXIgR2VuZXJhdGlvbiBQZXJjZW50IChQ TE5DUFIpIC0gVGhlIG51Y2xlYXIgcmVzb3VyY2UgbWl4IGV4cHJlc3NlZCBhcyBhIHBlcmNlbnQg b2YgcGxhbnQgYW5udWFsIG5ldCBnZW5lcmF0aW9uLiBQTE5DUFIgPSAxMDAgKiAoUExHRU5BTkMg LyBQTE5HRU5BTikuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4N CiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExIWVBSPC9h dHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgSHlkcm8gR2VuZXJhdGlvbiBQZXJjZW50 IChQTEhZUFIpIC0gVGhlIGh5ZHJvIHJlc291cmNlIG1peCBleHByZXNzZWQgYXMgYSBwZXJjZW50 IG9mIHBsYW50IGFubnVhbCBuZXQgZ2VuZXJhdGlvbi4gUExIWVBSID0gMTAwICogKFBMR0VOQUhZ IC8gUExOR0VOQU4pLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+ DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMQk1QUjwv YXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50IEJpb21hc3MgR2VuZXJhdGlvbiBQZXJj ZW50IChQTEJNUFIpIC0gVGhlIGJpb21hc3MgcmVzb3VyY2UgbWl4IGV4cHJlc3NlZCBhcyBhIHBl cmNlbnQgb2YgcGxhbnQgYW5udWFsIG5ldCBnZW5lcmF0aW9uLiBQTEJNUFIgPSAxMDAgKiAoUExH RU5BQk0gLyBQTE5HRU5BTikuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRy ZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExX SVBSPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgV2luZCBHZW5lcmF0aW9uIFBl cmNlbnQgKFBMV0lQUikgLSBUaGUgd2luZCByZXNvdXJjZSBtaXggZXhwcmVzc2VkIGFzIGEgcGVy Y2VudCBvZiBwbGFudCBhbm51YWwgbmV0IGdlbmVyYXRpb24uIFBMV0lQUiA9IDEwMCAqIChQTEdF TkFXSSAvIFBMTkdFTkFOKS48L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJk ZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5QTFNP UFI8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5QbGFudCBTb2xhciBHZW5lcmF0aW9uIFBl cmNlbnQgKFBMU09QUikgLSBUaGUgc29sYXIgcmVzb3VyY2UgbWl4IGV4cHJlc3NlZCBhcyBhIHBl cmNlbnQgb2YgcGxhbnQgYW5udWFsIG5ldCBnZW5lcmF0aW9uLiBQTFNPUFIgPSAxMDAgKiAoUExH RU5BU08gLyBQTE5HRU5BTikuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRy ZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExH VFBSPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgR2VvdGhlcm1hbCBHZW5lcmF0 aW9uIFBlcmNlbnQgKFBMR1RQUikgLSBUaGUgZ2VvdGhlcm1hbCByZXNvdXJjZSBtaXggZXhwcmVz c2VkIGFzIGEgcGVyY2VudCBvZiBwbGFudCBhbm51YWwgbmV0IGdlbmVyYXRpb24uOiBQTEdUUFIg PSAxMDAgKiAoUExHRU5BR1QgLyBQTE5HRU5BTikuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRl ZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8 YXR0cmxhYmw+UExPRlBSPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgT3RoZXIg Rm9zc2lsIEdlbmVyYXRpb24gUGVyY2VudCAoUExPRlBSKSAtIFRoZSBvdGhlciBmb3NzaWwgcmVz b3VyY2UgbWl4IGV4cHJlc3NlZCBhcyBhIHBlcmNlbnQgb2YgcGxhbnQgYW5udWFsIG5ldCBnZW5l cmF0aW9uLiBQTE9GUFIgPSAxMDAgKiAoUExHRU5BT0YgLyBQTE5HRU5BTikuPC9hdHRyZGVmPg0K ICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxh dHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExPUFBSPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJk ZWY+UGxhbnQgT3RoZXIgVW5rbm93bi9QdXJjaGFzZWQgRnVlbCBHZW5lcmF0aW9uIFBlcmNlbnQg KFBMT1BQUikgLSBUaGUgb3RoZXIgdW5rbm93bi9wdXJjaGFzZWQgZnVlbC93YXN0ZSBoZWF0IHJl c291cmNlIG1peCBleHByZXNzZWQgYXMgYSBwZXJjZW50IG9mIHBsYW50IGFubnVhbCBuZXQgZ2Vu ZXJhdGlvbi4gUExPUFBSID0gMTAwICogKFBMR0VOQU9QIC8gUExOR0VOQU4pLjwvYXR0cmRlZj4N CiAgICAgICAgPGF0dHJkZWZzPkVQQTwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8 YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPlBMVE5QUjwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRy ZGVmPlBsYW50IFRvdGFsIE5vbnJlbmV3YWJsZXMgR2VuZXJhdGlvbiBQZXJjZW50IChQTFROUFIp IC0gVGhlIHRvdGFsIG5vbnJlbmV3YWJsZXMgcmVzb3VyY2UgbWl4IGV4cHJlc3NlZCBhcyBhIHBl cmNlbnQgb2YgcGxhbnQgYW5udWFsIG5ldCBnZW5lcmF0aW9uLiBQTFROUFIgPSAxMDAgKiAoUExH RU5BVE4gLyBQTE5HRU5BTikuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRy ZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExU UlBSPC9hdHRybGFibD4NCiAgICAgICAgPGF0dHJkZWY+UGxhbnQgVG90YWwgUmVuZXdhYmxlcyBH ZW5lcmF0aW9uIFBlcmNlbnQgKFBMVFJQUikgLSBUaGUgdG90YWwgcmVuZXdhYmxlcyByZXNvdXJj ZSBtaXggZXhwcmVzc2VkIGFzIGEgcGVyY2VudCBvZiBwbGFudCBhbm51YWwgbmV0IGdlbmVyYXRp b24uIFBMVFJQUiA9IDEwMCAqIChQTEdFTkFUUiAvIFBMTkdFTkFOKS48L2F0dHJkZWY+DQogICAg ICAgIDxhdHRyZGVmcz5FUEE8L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+ DQogICAgICAgIDxhdHRybGFibD5QTFRIUFI8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5Q bGFudCBUb3RhbCBOb25oeWRybyBSZW5ld2FibGVzIEdlbmVyYXRpb24gUGVyY2VudCAoUExUSFBS KSAtIFRoZSB0b3RhbCBub25oeWRybyByZW5ld2FibGVzIHJlc291cmNlIG1peCBleHByZXNzZWQg YXMgYSBwZXJjZW50IG9mIHBsYW50IGFubnVhbCBuZXQgZ2VuZXJhdGlvbi4gUExUSFBSID0gMTAw ICogKFBMR0VOQVRIIC8gUExOR0VOQU4pLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkVQ QTwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJs YWJsPlBMQ1lQUjwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPlBsYW50IFRvdGFsIENvbWJ1 c3Rpb24gR2VuZXJhdGlvbiBQZXJjZW50IChQTENZUFIpIC0gVGhlIHRvdGFsIGNvbWJ1c3Rpb24g cmVzb3VyY2UgbWl4IGV4cHJlc3NlZCBhcyBhIHBlcmNlbnQgb2YgcGxhbnQgYW5udWFsIG5ldCBn ZW5lcmF0aW9uLiBQTENZUFIgPSAxMDAgKiAoUExHRU5BQ1kgLyBQTE5HRU5BTikuPC9hdHRyZGVm Pg0KICAgICAgICA8YXR0cmRlZnM+RVBBPC9hdHRyZGVmcz4NCiAgICAgIDwvYXR0cj4NCiAgICAg IDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+UExDTlBSPC9hdHRybGFibD4NCiAgICAgICAgPGF0 dHJkZWY+UGxhbnQgVG90YWwgTm9uY29tYnVzdGlvbiBHZW5lcmF0aW9uIFBlcmNlbnQgKFBMQ05Q UikgLSBUaGUgdG90YWwgbm9uY29tYnVzdGlvbiByZXNvdXJjZSBtaXggZXhwcmVzc2VkIGFzIGEg cGVyY2VudCBvZiBwbGFudCBhbm51YWwgbmV0IGdlbmVyYXRpb24uIFBMQ05QUiA9IDEwMCAqIChQ TEdFTkFDTiAvIFBMTkdFTkFOKS48L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5FUEE8L2F0 dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5O T1RFUzwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPk5vdGVzIGFib3V0IHRoZSBwbGFudC48 L2F0dHJkZWY+DQogICAgICAgIDxhdHRyZGVmcz5HZW9QbGFuPC9hdHRyZGVmcz4NCiAgICAgIDwv YXR0cj4NCiAgICAgIDxhdHRyPg0KICAgICAgICA8YXR0cmxhYmw+TlVDTEVBUjwvYXR0cmxhYmw+ DQogICAgICAgIDxhdHRyZGVmPldoZXRoZXIgdGhlIFBsYW50IHVzZXMgbnVjbGVhciBwb3dlciBv ciBub3QgKFlFUyA9IE51Y2xlYXIgUG93ZXIgUGxhbnQpLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0 dHJkZWZzPkdlb1BsYW48L2F0dHJkZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQog ICAgICAgIDxhdHRybGFibD5ERVNDUklQVDwvYXR0cmxhYmw+DQogICAgICAgIDxhdHRyZGVmPkJh c2VkIG9uIFBOQU1FLjwvYXR0cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkdlb1BsYW48L2F0dHJk ZWZzPg0KICAgICAgPC9hdHRyPg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5MQVRf REQ8L2F0dHJsYWJsPg0KICAgICAgICA8YXR0cmRlZj5MYXRpdHVkZSBpbiBkZWNpbWFsIGRlZ3Jl ZXMuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+R2VvUGxhbjwvYXR0cmRlZnM+DQogICAg ICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPkxPTkdfREQ8L2F0dHJs YWJsPg0KICAgICAgICA8YXR0cmRlZj5Mb25naXR1ZGUgaW4gZGVjaW1hbCBkZWdyZWVzLjwvYXR0 cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkdlb1BsYW48L2F0dHJkZWZzPg0KICAgICAgPC9hdHRy Pg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5NR1JTPC9hdHRybGFibD4NCiAgICAg ICAgPGF0dHJkZWY+TWlsaXRhcnkgR3JpZCBSZWZlcmVuY2UgU3lzdGVtIChNR1JTKSBDb29yZGlu YXRlIG9mIHRoZSBGYWNpbGl0eS4gVGhlIE1HUlMgaXMgdGhlIGdlb2Nvb3JkaW5hdGUgc3RhbmRh cmQgdXNlZCBieSBOQVRPIG1pbGl0YXJpZXMgZm9yIGxvY2F0aW5nIHBvaW50cyBvbiB0aGUgZWFy dGguIFRoZSBNR1JTIHByb3ZpZGVzIGEgbWVhbnMgdG8gcmVwcmVzZW50IGFueSBsb2NhdGlvbiBv biB0aGUgc3VyZmFjZSBvZiB0aGUgRWFydGggdXNpbmcgYW4gYWxwaGFudW1lcmljIHN0cmluZy4g SGllcmFyY2hpY2FsIHJlZmVyZW5jZXMgYXJlIGJhc2VkIG9uIHRoZSBVbml2ZXJzYWwgVHJhbnN2 ZXJzZSBNZXJjYXRvciAoVVRNKSBjb29yZGluYXRlIHN5c3RlbS4gVGhlIE1HUlMgaXMgdXNlZCBm b3IgdGhlIGVudGlyZSBlYXJ0aC4gaHR0cDovL21ncnMtZGF0YS5vcmcvPC9hdHRyZGVmPg0KICAg ICAgICA8YXR0cmRlZnM+R2VvUGxhbjwvYXR0cmRlZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8 YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPkdPT0dMRU1BUDwvYXR0cmxhYmw+DQogICAgICAgIDxh dHRyZGVmPldlYnBhZ2UgaHlwZXJsaW5rIHRvIGxvY2F0aW9uIGluIEdvb2dsZSBNYXBzLjwvYXR0 cmRlZj4NCiAgICAgICAgPGF0dHJkZWZzPkdlb1BsYW48L2F0dHJkZWZzPg0KICAgICAgPC9hdHRy Pg0KICAgICAgPGF0dHI+DQogICAgICAgIDxhdHRybGFibD5GR0RMQVFEQVRFPC9hdHRybGFibD4N CiAgICAgICAgPGF0dHJkZWY+VGhlIGRhdGUgR2VvUGxhbiBhY3F1aXJlZCB0aGUgZGF0YSBmcm9t IHRoZSBzb3VyY2UuPC9hdHRyZGVmPg0KICAgICAgICA8YXR0cmRlZnM+R2VvUGxhbjwvYXR0cmRl ZnM+DQogICAgICA8L2F0dHI+DQogICAgICA8YXR0cj4NCiAgICAgICAgPGF0dHJsYWJsPkFVVE9J RDwvYXR0cmxhYmw+DQogICAgICA8L2F0dHI+DQogICAgPC9kZXRhaWxlZD4NCiAgPC9lYWluZm8+ DQogIDxkaXN0aW5mbz4NCiAgICA8ZGlzdHJpYj4NCiAgICAgIDxjbnRpbmZvPg0KICAgICAgICA8 Y250b3JncD4NCiAgICAgICAgICA8Y250b3JnPkZsb3JpZGEgR2VvZ3JhcGhpYyBEYXRhIExpYnJh cnkgKEZHREwpPC9jbnRvcmc+DQogICAgICAgIDwvY250b3JncD4NCiAgICAgICAgPGNudGFkZHI+ DQogICAgICAgICAgPGFkZHJ0eXBlPm1haWxpbmc8L2FkZHJ0eXBlPg0KICAgICAgICAgIDxhZGRy ZXNzPjQzMSBBcmNoaXRlY3R1cmUgUE8gQm94IDExNTcwNjwvYWRkcmVzcz4NCiAgICAgICAgICA8 Y2l0eT5HYWluZXN2aWxsZTwvY2l0eT4NCiAgICAgICAgICA8c3RhdGU+Rkw8L3N0YXRlPg0KICAg ICAgICAgIDxwb3N0YWw+MzI2MTEtNTcwNjwvcG9zdGFsPg0KICAgICAgICAgIDxjb3VudHJ5PlVT PC9jb3VudHJ5Pg0KICAgICAgICA8L2NudGFkZHI+DQogICAgICAgIDxjbnR2b2ljZT5Ob25lPC9j bnR2b2ljZT4NCiAgICAgICAgPGNudGVtYWlsPldlYiBzaXRlOiBodHRwOi8vd3d3LmZnZGwub3Jn PC9jbnRlbWFpbD4NCiAgICAgIDwvY250aW5mbz4NCiAgICA8L2Rpc3RyaWI+DQogICAgPHJlc2Rl c2M+RE9XTkxPQURBQkxFIERBVEE8L3Jlc2Rlc2M+DQogICAgPGRpc3RsaWFiPlRoZSBGbG9yaWRh IEdlb2dyYXBoaWMgRGF0YSBMaWJyYXJ5IGlzIGEgY29sbGVjdGlvbiBvZiBHZW9zcGF0aWFsIERh dGEgY29tcGlsZWQgYnkgdGhlIFVuaXZlcnNpdHkgb2YgRmxvcmlkYSBHZW9QbGFuIENlbnRlciB3 aXRoIHN1cHBvcnQgZnJvbSB0aGUgRmxvcmlkYSBEZXBhcnRtZW50IG9mIFRyYW5zcG9ydGF0aW9u LiBHSVMgZGF0YSBhdmFpbGFibGUgaW4gRkdETCBpcyBjb2xsZWN0ZWQgZnJvbSB2YXJpb3VzIHN0 YXRlLCBmZWRlcmFsLCBhbmQgb3RoZXIgYWdlbmNpZXMgKGRhdGEgc291cmNlcykgd2hvIGFyZSBk YXRhIHN0ZXdhcmRzLCBwcm9kdWNlcnMsIG9yIHB1Ymxpc2hlcnMuIFRoZSBkYXRhIGF2YWlsYWJs ZSBpbiBGR0RMIG1heSBub3QgYmUgdGhlIG1vc3QgY3VycmVudCB2ZXJzaW9uIG9mIHRoZSBkYXRh IG9mZmVyZWQgYnkgdGhlIGRhdGEgc291cmNlLiBVbml2ZXJzaXR5IG9mIEZsb3JpZGEgR2VvUGxh biBDZW50ZXIgbWFrZXMgbm8gZ3VhcmFudGVlcyBhYm91dCB0aGUgY3VycmVudG5lc3Mgb2YgdGhl IGRhdGEgYW5kIHN1Z2dlc3RzIHRoYXQgZGF0YSB1c2VycyBjaGVjayB3aXRoIHRoZSBkYXRhIHNv dXJjZSB0byBzZWUgaWYgbW9yZSByZWNlbnQgdmVyc2lvbnMgb2YgdGhlIGRhdGEgZXhpc3QuIEZ1 cnRoZXJtb3JlLCB0aGUgR0lTIGRhdGEgYXZhaWxhYmxlIGluIHRoZSBGR0RMIGFyZSBwcm92aWRl ZCAnYXMgaXMnLiBUaGUgVW5pdmVyc2l0eSBvZiBGbG9yaWRhIEdlb1BsYW4gQ2VudGVyIG1ha2Vz IG5vIHdhcnJhbnRpZXMsIGd1YXJhbnRpZXMgb3IgcmVwcmVzZW50YXRpb25zIGFzIHRvIHRoZSB0 cnV0aCwgYWNjdXJhY3kgb3IgY29tcGxldGVuZXNzIG9mIHRoZSBkYXRhIHByb3ZpZGVkIGJ5IHRo ZSBkYXRhIHNvdXJjZXMuIFRoZSBVbml2ZXJzaXR5IG9mIEZsb3JpZGEgR2VvUGxhbiBDZW50ZXIg bWFrZXMgbm8gcmVwcmVzZW50YXRpb25zIG9yIHdhcnJhbnRpZXMgYWJvdXQgdGhlIHF1YWxpdHkg b3Igc3VpdGFiaWxpdHkgb2YgdGhlIG1hdGVyaWFscywgZWl0aGVyIGV4cHJlc3NseSBvciBpbXBs aWVkLCBpbmNsdWRpbmcgYnV0IG5vdCBsaW1pdGVkIHRvIGFueSBpbXBsaWVkIHdhcnJhbnRpZXMg b2YgbWVyY2hhbnRhYmlsaXR5LCBmaXRuZXNzIGZvciBhIHBhcnRpY3VsYXIgcHVycG9zZSwgb3Ig bm9uLWluZnJpbmdlbWVudC4gVGhlIFVuaXZlcnNpdHkgb2YgRmxvcmlkYSBHZW9QbGFuIENlbnRl ciBzaGFsbCBub3QgYmUgbGlhYmxlIGZvciBhbnkgZGFtYWdlcyBzdWZmZXJlZCBhcyBhIHJlc3Vs dCBvZiB1c2luZywgbW9kaWZ5aW5nLCBjb250cmlidXRpbmcgb3IgZGlzdHJpYnV0aW5nIHRoZSBt YXRlcmlhbHMuIEEgbm90ZSBhYm91dCBkYXRhIHNjYWxlOiBTY2FsZSBpcyBhbiBpbXBvcnRhbnQg ZmFjdG9yIGluIGRhdGEgdXNhZ2UuIENlcnRhaW4gc2NhbGUgZGF0YXNldHMgYXJlIG5vdCBzdWl0 YWJsZSBmb3Igc29tZSBwcm9qZWN0LCBhbmFseXNpcywgb3IgbW9kZWxpbmcgcHVycG9zZXMuIFBs ZWFzZSBiZSBzdXJlIHlvdSBhcmUgdXNpbmcgdGhlIGJlc3QgYXZhaWxhYmxlIGRhdGEuIDE6MjQw MDAgc2NhbGUgZGF0YXNldHMgYXJlIHJlY29tbWVuZGVkIGZvciBwcm9qZWN0cyB0aGF0IGFyZSBh dCB0aGUgY291bnR5IGxldmVsLiAxOjI0MDAwIGRhdGEgc2hvdWxkIE5PVCBiZSB1c2VkIGZvciBo aWdoIGFjY3VyYWN5IGJhc2UgbWFwcGluZyBzdWNoIGFzIHByb3BlcnR5IHBhcmNlbCBib3VuZGFy aWVzLiAxOjEwMDAwMCBzY2FsZSBkYXRhc2V0cyBhcmUgcmVjb21tZW5kZWQgZm9yIHByb2plY3Rz IHRoYXQgYXJlIGF0IHRoZSBtdWx0aS1jb3VudHkgb3IgcmVnaW9uYWwgbGV2ZWwuIDE6MTI1MDAw IHNjYWxlIGRhdGFzZXRzIGFyZSByZWNvbW1lbmRlZCBmb3IgcHJvamVjdHMgdGhhdCBhcmUgYXQg dGhlIHJlZ2lvbmFsIG9yIHN0YXRlIGxldmVsIG9yIGxhcmdlci4gVmVjdG9yIGRhdGFzZXRzIHdp dGggbm8gZGVmaW5lZCBzY2FsZSBvciBhY2N1cmFjeSBzaG91bGQgYmUgY29uc2lkZXJlZCBzdXNw ZWN0LiBNYWtlIHN1cmUgeW91IGFyZSBmYW1pbGlhciB3aXRoIHlvdXIgZGF0YSBiZWZvcmUgdXNp bmcgaXQgZm9yIHByb2plY3RzIG9yIGFuYWx5c2lzLiBFdmVyeSBlZmZvcnQgaGFzIGJlZW4gbWFk ZSB0byBzdXBwbHkgdGhlIHVzZXIgd2l0aCBkYXRhIGRvY3VtZW50YXRpb24uIEZvciBhZGRpdGlv bmFsIGluZm9ybWF0aW9uLCBzZWUgdGhlIFJlZmVyZW5jZXMgc2VjdGlvbiBhbmQgdGhlIERhdGEg U291cmNlIENvbnRhY3Qgc2VjdGlvbiBvZiB0aGlzIGRvY3VtZW50YXRpb24uIEZvciBtb3JlIGlu Zm9ybWF0aW9uIHJlZ2FyZGluZyBzY2FsZSBhbmQgYWNjdXJhY3ksIHNlZSBvdXIgd2VicGFnZSBh dDogaHR0cDovL2dlb3BsYW4udWZsLmVkdS9lZHVjYXRpb24uaHRtbDwvZGlzdGxpYWI+DQogICAg PHN0ZG9yZGVyPg0KICAgICAgPGRpZ2Zvcm0+DQogICAgICAgIDxkaWd0b3B0Pg0KICAgICAgICAg IDxvbmxpbm9wdD4NCiAgICAgICAgICAgIDxjb21wdXRlcj4NCiAgICAgICAgICAgICAgPG5ldHdv cmthPg0KICAgICAgICAgICAgICAgIDxuZXR3b3Jrcj5odHRwczovL3d3dy5mZ2RsLm9yZy88L25l dHdvcmtyPg0KICAgICAgICAgICAgICA8L25ldHdvcmthPg0KICAgICAgICAgICAgPC9jb21wdXRl cj4NCiAgICAgICAgICAgIDxhY2NpbnN0cj5ET1dOTE9BREFCTEUgREFUQTwvYWNjaW5zdHI+DQog ICAgICAgICAgPC9vbmxpbm9wdD4NCiAgICAgICAgPC9kaWd0b3B0Pg0KICAgICAgPC9kaWdmb3Jt Pg0KICAgIDwvc3Rkb3JkZXI+DQogIDwvZGlzdGluZm8+DQogIDxtZXRhaW5mbz4NCiAgICA8bWV0 ZD4yMDIyMDkwMjwvbWV0ZD4NCiAgICA8bWV0Yz4NCiAgICAgIDxjbnRpbmZvPg0KICAgICAgICA8 Y250b3JncD4NCiAgICAgICAgICA8Y250b3JnPlUuUy4gRW52aXJvbm1lbnRhbCBQcm90ZWN0aW9u IEFnZW5jeSBDbGVhbiBBaXIgTWFya2V0cyBEaXZpc2lvbjwvY250b3JnPg0KICAgICAgICA8L2Nu dG9yZ3A+DQogICAgICAgIDxjbnRhZGRyPg0KICAgICAgICAgIDxhZGRydHlwZT5tYWlsaW5nPC9h ZGRydHlwZT4NCiAgICAgICAgICA8YWRkcmVzcz4xMjAwIFBlbm5zeWx2YW5pYSBBdmVudWUsIE5X IChNQyA2MjA0TSk8L2FkZHJlc3M+DQogICAgICAgICAgPGNpdHk+V2FzaGluZ3RvbjwvY2l0eT4N CiAgICAgICAgICA8c3RhdGU+RC5DLjwvc3RhdGU+DQogICAgICAgICAgPHBvc3RhbD4yMDQ2MDwv cG9zdGFsPg0KICAgICAgICAgIDxjb3VudHJ5PlVTPC9jb3VudHJ5Pg0KICAgICAgICA8L2NudGFk ZHI+DQogICAgICAgIDxjbnRlbWFpbD5odHRwczovL3d3dy5lcGEuZ292L2VncmlkL2Zvcm1zL2Nv bnRhY3QtdXMtYWJvdXQtZWdyaWQ8L2NudGVtYWlsPg0KICAgICAgPC9jbnRpbmZvPg0KICAgIDwv bWV0Yz4NCiAgICA8bWV0c3Rkbj5GR0RDIENvbnRlbnQgU3RhbmRhcmQgZm9yIERpZ2l0YWwgR2Vv c3BhdGlhbCBNZXRhZGF0YTwvbWV0c3Rkbj4NCiAgICA8bWV0c3Rkdj5GR0RDLVNURC0wMDEtMTk5 ODwvbWV0c3Rkdj4NCiAgICA8bWV0dGM+bG9jYWwgdGltZTwvbWV0dGM+DQogIDwvbWV0YWluZm8+ DQo8L21ldGFkYXRhPg==