INSTITUTO DE ASTRONOMIA – UNIVERSIDAD NACIONAL AUTONOMA DE MEXICO Apartado Postal 70-264 Cd. Universitaria 04510 MEXICO D.F. – Phone: 525556223907 – Fax: 525556160653

URL : http ://www.astro.unam.mx E-mail : beatriz@astro.unam.mx

Project Code: TSPM/HLREQ-001

Issue: 1.F Date: March 8, 2016

TSPM High Level Requirements

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Approvalcontrol

Preparedby

J.JesúsGonzálezAlanWatsonWilliamLee

DavidUrdaibayBeatrizSánchez

Approvedby

BeatrizSánchez

Authorizedby

WilliamLee

AlbertoCarramiñana

Date:xx-xx-xx

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Applicabledocuments

Nº Documenttitle Code Issue

A.1

A.2

A.3

A.4

A.5 Referencedocuments

Nº Documenttitle Code Issue

R.1 ReporteEncuestasobreIniciativaTSPM

R.2 LetterofIntentUNAM,INAOE,UA,SAO

R.3 Changescontrol

Nº Page Section Description

1.A Firstissue

1.E All All Requirementcodesadded

1.F 4 012-Modifiedandchangedtoguideline013 - Modified to quantify seeing at TSPM andaccepteddegradation014-RephrasedandTBDremoved022-MagellanisconfirmedandTBDremoved024-Modified025-Modified026-Added031-TBCremoved032-TBCremoved,BINOSPECisnotyetconfirmedbutitisnotexcludedatthepreviousrequirement035 - Clarification added about focal stationsavailabilityinonenight.061 - Survival limits reviewed and TBCs/TBDs

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removed.073-TBCremoved074-TBCremoved087-Non-availabilitypercentageadded093-Defined094-Updated(from1’’to5’’)andrephrased096 - Larger offsets are included here as pointingmovements.097-Quantity for theazimuthoffsetmodified.Largeroffsetarechangedaspointingmovements.098-Rephrased099-Rephrased100-TBCremoved122-TBDremoved161 - Operational limits reviewed and TBCs/TBDsremoved162 - Operational limits with degraded performanceadded163-Nominalconditionsadded179-TBDremoved

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ListofacronymsandabbreviationsCIDESI CentrodeIngenieríayDesarrolloIndustrialEMC ElectromagneticComplianceIA-UNAM InstitutodeAstronomía–UniversidadNacionalAutónomadeMéxicoINAOE InstitutoNacionaldeAstrofísica,ÓpticayElectrónicaMMT MultiMirrorTelescopeMTBF MeanTimeBeforeFailureMTTR MeanTimeToRecoveryOAN ObservatorioAstronómicoNacionalRMS Root-Mean-SquareSAO SmithsonianAstrophysicalObservatoryTSPM SanPedroMártirTelescopeSPM SanPedroMártirTBC TobeconfirmedTBD TobedeterminedUA UniversityofArizonaWFC Wide-FieldCorrector

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CONTENTS

1. SCOPE.................................................................................................................................72. DEFINITIONS....................................................................................................................72.1 USEOFSHALLANDSHOULD ............................................................................................................. 72.2 STABLEANDUNSTABLEREQUIREMENTS........................................................................................ 73. GENERALREQUIREMENTS..........................................................................................73.1 PROJECTDEVELOPMENT................................................................................................................... 73.2 WAVELENGTHRANGE,IMAGEQUALITYANDBACKGROUND ........................................................ 83.3 PLATESCALESANDFOCALSTATIONS............................................................................................. 83.4 SCIENCEINSTRUMENTS .................................................................................................................... 93.5 TSPMENCLOSURE&SERVICES................................................................................................... 103.6 TSPMLIFESPAN......................................................................................................................... 104. SURVIVALLIMITS........................................................................................................105. OPERATIONSANDSUPPORTREQUIREMENTS..................................................115.1 OBSERVINGMODES ........................................................................................................................ 115.2 GENERALOPERATIONREQUIREMENTS....................................................................................... 115.3 POINTING&TRACKING ................................................................................................................. 125.4 TARGETACQUISITION..................................................................................................................... 135.5 INSTRUMENTCONTROL ................................................................................................................. 135.6 DOMECONTROL.............................................................................................................................. 135.7 OBSERVATORYMONITORING........................................................................................................ 135.8 CONTROLSYSTEMARCHITECTURE .............................................................................................. 145.9 OBSERVINGLIMITS ......................................................................................................................... 145.10 SAFETY .......................................................................................................................................... 156. VERIFICATION..............................................................................................................16

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SCOPEThisdocumentpresentsthehighlevelrequirementsfortheTSPMtelescopeproject.

Definitions1.1 Use of shall and should In thisdocument “shall” is tobe takenas indicating a requirement and “should” asindicating a guideline. Requirements are mandatory and guidelines are notmandatory,althoughtheirfulfillmentshouldbepursued.1.2 Stable and unstable requirements A“TBC”ora“TBD”identifiesunstableorundefinedrequirementsrespectively.

GeneralRequirements1.3 Project development 3.1.1. [RQ/TSPM/001] The TSPM project shall construct a new 6.5-m telescope at

SPM.TSPM shall be suitable for general scienceprojects. TSPM shall use theexisting6.5-mprimarymirrorownedbyINAOEandUA.Rationale:By “suitable forgeneral scienceprojects” it isunderstood thatTSPMshould have comparable flexibility to facilities such as MMT, Magellan, Keck,Gemini, VLT, and GTC, and not be a single-purpose facility such as LSST, PanSTARRS,andVISTA.

3.1.2. [RQ/TSPM/002] Under the assumption of the securing of approximately 70millionUSD(2014)optimallydistributedintime,TSPMshouldbeoperational6yearsafterPDR.

3.1.3. [RQ/TSPM/003]TSPMshallminimize risksby followingexistingandprovenreference designs (e.g., the MMT and Magellan) where appropriate andpossible.

3.1.4. [RQ/TSPM/004] The TSPM primary mirror shall be manufactured andpolishedtothesameopticalspecificationsastheMMTandMagellanprimaries.Rationale: This is to exchange secondaries, field-correctors and scienceinstruments with these facilities as well as to facilitate its polishing and tominimizefabricationandtestingrisks.

3.1.5. [RQ/TSPM/005] The TSPM design and development shall explicitly consideroperationsandoperationcosts. Theannualoperationcostshouldnotexceed11.5(goal5.75)millionUSD(2014).Rationale:We estimate the capital cost of TSPM to be about $115M including$15MforM1anditscell,$5MforM2anditssupport,and$15Mforoperationalscienceinstruments.Thesefiguresrepresent5%and10%ofthiscost.

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3.1.6. [RQ/TSPM/006] The development of TSPM shall take place in Mexico, byMexicaninstitutionsandcompanies,whereappropriateandpossible.

3.1.7. [RQ/TSPM/007] TSPM shall comply with applicable national environmentalregulations.

1.4 Wavelength range, image quality and background 3.2.1. [RQ/TSPM/011]TSPMshallbeoptimizedfromthenearultraviolettothenear

infrared(0.35-2.5μm).3.2.2. [RQ/TSPM/012] The effective thermal emissivity of the telescope at the

Cassegrain focus shall be less than 10% of that from a blackbody at theambienttemperatureandshouldbelessthan7%.

3.2.3. [RQ/TSPM/013] The delivered image quality of TSPM shall allow a 10%degradationof the10th-percentile seeing reportedbySkidmoreet al. (2009,PASP,121,1151).Thereported10th-percentileseeingis0.5”at5000Å.

3.2.4. [RQ/TSPM/014]Thetelescopebackgroundshallbeatmost5%oftheexpectedminimumatmosphericandastronomicalbackgroundsgiveninthetablebelow.

Table 1.Minimum astmospheric and astronomical backgrounds (AB magnitudes) atTSPM(BBstandforbroadbandandILstandsforinter-line).

Note:Itisbeingconsideredthattheinstrumentsbackgroundswouldbealsoatmost 5% of the expected minimum atmospherics and astronomicalbackgroundsgivenabove.

1.5 Plate scales and Focal Stations 3.3.1. [RQ/TSPM/021] TSPM shall start operations with an f/5 secondary and a

wide-fieldcorrectorataCassegrainstation.3.3.2. [RQ/TSPM/022]TSPMshallstartoperationswith theexistingsecondaryand

wide-fieldcorrectornowinoperationatMagellan.

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3.3.3. [RQ/TSPM/023]TSPMshallpermitupgradestoprovideotherfocalratiosthatarecompatiblewiththosepresentlyatMagellanandMMT,namelyclassicalf/9and f/15 and Gregorian f/11, as described in the document “TSPM OpticalConfigurations”.

3.3.4. [RQ/TSPM/024]TSPMshallpermitupgradestoprovideatleasttwoNasmythfocalstationscompatiblethef/11andf/5Nasmythconfigurationsdescribedinthedocument“TSPMOpticalConfigurations”,andeachwithamechanicalde-rotator,guidesensorandWFSsimilartotheexistingsensorsintheexistingf/5Cassegrain corrector, and a science instrument with a minimal unobscuredfocal surface at least 0.60m in diameter. TheNasmyth focal stationsweightandenvelopelimitsshallbeasfollows:o TheloadcapacityoftheNasmythrotatorshallbeatleast4Tnat1.5m.o TheNasmythstaticinstrumentsweightshallbelessthan4Tno Themaximum total envelope of Nasmyth rotatingmodules (including AGandinstrument)shallbelessthan3mdiameterand2.7mlength.

o ThemaximumtotalenvelopeofNasmythstaticmodulesshallbe less than2.7mx3m(area)x3mheight.

3.3.5. [RQ/TSPM/025] TSPM shall permit upgrades to provide at least four foldedCassegrainfocalstationscompatiblethef/11andf/5Nasmythconfigurationsdescribed in the document “TSPM Optical Configurations”, and each with amechanicalde-rotator,guidesensorandWFSsimilartotheexistingsensorsintheexistingf/5Cassegraincorrector,andascienceinstrumentwithaminimalunobscured focal surface at least 0.30m in diameter. The FoldedCassegrainfocalstationsweightandenvelopelimitsshallbeasfollows:o Thetotalweightof theFCmodules(includingrotator,AGandinstrument)shallbeatleast1.5Tnat0.75m.

o The maximum total envelope of FC modules (including rotator, AG andinstrument)shallbelessthan1mdiameterand1.5mlength.

3.3.6. [RQ/TSPM/026]TheCassegrainfocalstationweightandenvelopelimitsshallbeasfollows:o The load capacityof theCassegrain rotator shall be2.7TnswithaCoGat0.76m,or1.36TnwhentheCoGisat1.26m.

o ThemaximumtotalenvelopeofCassegraininstrumentsshallbelessthan3mdiameterand2.7mlength.

1.6 Science Instruments 3.4.1. [RQ/TSPM/031] The TSPM f/5 Cassegrain station shall permit the use of at

least the following science instruments presently in use at or underconstructionforthef/5CassegrainstationsofMMTandMagellan:MEGACAM,MMIRS,BINOSPEC,SWIRCandMAESTRO.

3.4.2. [RQ/TSPM/032] TSPM shall be commissioned and initially operate with thefollowingf/5Cassegraininstruments:MEGACAMandMMIRS.

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3.4.3. [RQ/TSPM/033] After initial operations with the existing f/5 Cassegraininstruments,TSPMshouldnotprecludefuturededicatedorlong-termprojects,other specializedor general instrumentation, orotherobservingmodes suchasclassical,queued,remoteorroboticmodes.

3.4.4. [RQ/TSPM/034]TSPMshallnotexcludefutureinstrumentsthatmaintainitatthefrontierofcompetitiveastronomicalresearch.

3.4.5. [RQ/TSPM/035] TSPM shall not exclude the future development of thecapacitytousemultipleNasmythandFolded-CassegrainstationsinonenightNote thatCassegrain focal station shallnotbeavailable the samenights thattheNasmythandFoldedCassegrainstations(i.e.,daytimeactionsarerequiredforchangingbetweenCassegrainandtheotherfocalstations).

1.7 TSPM Enclosure & Services 3.5.1. [RQ/TSPM/041]TSPMshallincludeprovisionofallnecessaryservicesforthe

observatory operations including aluminizing, power supplies, gases, fluids,telecommunications, building maintenance, janitorial, snow clearing, storageandaccommodations,possiblymakinguseofexistingsitefacilities.

3.5.2. [RQ/TSPM/042]TheTSPMdesignshallincludespaceforanobservingroom,acontrolroomandinstrumentstorageareaandaninstrumentlaboratorywithenvironmentalcontrol.

3.5.3. [RQ/TSPM/043] TSPM shall conform to all applicable environmental, safetyandengineeringregulationsandcodes.

1.8 TSPM LIFESPAN 3.6.1. [RQ/TSPM/051] The scientific lifespan of TSPM shall be at least 40 years,

countedfromthestartofscienceoperations.3.6.2. [RQ/TSPM/052]AfteritslifeTSPMshallbedecommissioned.

survivalLIMITS[RQ/TSPM/061]TSPMshallsurvivethefollowingexternalnaturalconditions:

− Relativehumidityrange:0%to100%− Temperaturerange:-25oto+35oC− Atmosphericpressurerange:710mbarto740mbar− Maximumprecipitationrate:300mmin24hoursand120mmin1hour.− Wind:170km/h− Snowload:400kg/m2− Iceheight:100mm(density917kg/m3)− Earthquake accelerations: horizontal 0.4g, vertical 0.2g (use SDC-C),

Ss=0.492g,Sds=0.39g,S1=0.1414g,Sd1=0.15g,SiteClassC− Electricalstorms− Winterstormevacuationperiod:2weeksmaximum

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Rationale:Thewinterstormevacuationperiodwillrequirepreparatorywork.Waterpipesmustbedrained and instrumentsmustbeput onbackuppower in order forthemtowarmupsafelytoambienttemperatureandallowfortheircoolantsupplytobeconsumed(oforder60hours).Atthatpoint,backuppowercouldbeswitchedoff.Thetemperaturerangemustspanmorethan100%oftherecordedvalues.Attheseextreme temperatures, it may not be feasible to rotate the dome or operate thetelescope, see operational limits. The seismic data will have to be updated usingCFE’sstudy.Inthiscontext“survive”meansthattheobservatoryiscompletelyundamagedandnocorrectivemaintenance is required to return the observatory to normal operationsoncetheconditionsrelent.

OPerationsandsupportrequirements1.9 Observing Modes [RQ/TSPM/071]Weconsiderfiveobservingmodes:engineering,queued,classical,remoteandroboticmodes.Definitions:

− Engineeringmode iswhen theTSPMusage isnotpartofa scienceprogram,andisperformedbytheobservatorystaff fordevelopment,maintenanceandcalibrationofthetelescope,subsystemsorinstruments.

− Inqueuemode,astaffastronomerdirectsastronomicalobservations.− In classicalmode, amember of the proposing team directs observations on

site.− In remote mode, a member of the proposing team directs observations

remotely.− Inroboticmode,anautonomoussystemdirectsobservations.

5.1.1. [RQ/TSPM/072]TSPMshallimplementengineeringmodeandqueuemode.5.1.2. [RQ/TSPM/073]TSPMshallpermitupgradestoclassicalandremotemodes.5.1.3. [RQ/TSPM/074]TSPMshouldpermitupgradestoroboticmode.5.1.4. [RQ/TSPM/075]TSPMshallprovideroutinecalibrationoftheinstruments.

1.10 General Operation Requirements 5.2.1. [RQ/TSPM/081]TSPMshould,whereappropriate,minimizeengineeringtime,

downtimeandsetuptime,andensureclearandsimpleoperations.5.2.2. [RQ/TSPM/082] TSPM shall bemaintained and operated by specialized and

dedicatedsupportandoperationstaff.5.2.3. [RQ/TSPM/083] TSPM shall provide adequate training, simulators and

documentation for support and user astronomers and operations andmaintenancestaff.

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5.2.4. [RQ/TSPM/084]TSPMshallprovideappropriatetoolsandsystemstoplanandcarryoutobservationsefficientlyintheimplementedobservingmodes.

5.2.5. [RQ/TSPM/085] TSPM shall provide the appropriate tools and systems forqualitycontroloftheobservations.

5.2.6. [RQ/TSPM/086] TSPM equipment shall conform to applicable EMCrequirementsforproperoperation.

5.2.7. [RQ/TSPM/087]TheallowedMTBFforsmallscaleeventsrequiringaMTTRofonehourorlessshallbeoneweek.TheallowedMTBFforintermediateeventsrequiringaMTTRof24hoursshallbe3months.TheallowedMTTFformajoreventsrequiringaMTTRofoneweekshallbeoneyear.Therefore,theannualdowntimepercentageshallbeamaximumof4.5%.

1.11 Pointing & Tracking 5.3.1. [RQ/TSPM/091] The nominal pointing and tracking region of TSPM shall be

betweenelevationanglesof18and89.5degrees.5.3.2. [RQ/TSPM/092]Forservicing,TSPMshallpointtothehorizonatleastatone

azimuth.5.3.3. [RQ/TSPM/093] It shall be possible to select any PA of the rotator over the

nominalpointingandtrackingregion5.3.4. [RQ/TSPM/094] TSPM shall track any object moving at up to 5 arcsec per

secondrelativetosiderealrate,overitsnominaltrackingrange.5.3.5. [RQ/TSPM/095]TSPMshallpointandtrackandmaintainfieldrotationfrom

when an object first enters the nominal tracking region until it leaves thenominaltrackingregion.

5.3.6. [RQ/TSPM/096]Open-looppointingaccuracy:o Forzenithanglesbetween5and60degrees:10arcsec(goal<2arcsec)o Forzenithanglesless5degreesormorethan60degrees:20arcsec(goal<4arcsec)

o Offsetsupto1degreeinelevationand3degreesinazimuth:1.0arcsec.Rationale:Tocomebacktotheguider

5.3.7. [RQ/TSPM/097]Open-loopoffsetaccuracy:o Offsets up to 10 arcmin in elevation and 20 arcmin (goal: 30 arcmin) inazimuth:0.1arcsec.Rationale:inordertocomebackintoslit

5.3.8. [RQ/TSPM/098]Open-loopoffsettotaltimeoverhead:o Offsetsupto5arcsecinelevationand15arcsecinazimuth:1seco Offsetsupto10arcmininelevationand30arcmininazimuth:10seco Offsetsupto1degreeinelevationand3degreesinazimuth:30sec

5.3.9. [RQ/TSPM/099]Open-looppointingtotaltimeoverhead:o Telescopepointingmovementsupto10degreesinelevationand30degreesinazimuth:30sec(goal20sec)

o Largertelescopepointingmovements:5minutes(goal3minutes).5.3.10. [RQ/TSPM/100]Open-looptrackingaccuracyatsiderealrate:

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o In10minutes:0.1arcseco In1hour:0.5arcsec

5.3.11. [RQ/TSPM/101] Closed-loop jitter over 1000 s under steady wind(consideringaperfectguidingsignalat1Hz):0.03arcsecRMSRationale:Thisislikelytobethelongestexposuretimeswecommonlyuse.

1.12 Target acquisition 5.4.1. [RQ/TSPM/111] Each instrument or its adapter shall provide appropriate

meanstoacquiretargets.5.4.2. [RQ/TSPM/112] TSPM shall provide the means to instruments to execute

offsetsprogrammatically.1.13 Instrument Control 5.5.1. [RQ/TSPM/121] The control systems of future TSPM instruments shall have

interfacesthatarecompatiblewiththecontrolsystemofthetelescope.5.5.2. [RQ/TSPM/122] TSPM shall adapt the control systems of existing or under-

constructioninstrumentstotheTSPMcontrolsystem.Rationale: The control systems of existing instruments such as MEGACAM,MMIRS,andBINOSPECarealmostcertainlynotcompletelycompatiblewiththefutureTSPMcontrolsystem.Therefore,TSPMwillneedtoprovidea“gluelayer”betweentheinstrumentcontrolsystemandtheTSPMcontrolsystem.

5.5.3. [RQ/TSPM/123]ThecontrolsystemsoffuturenewinstrumentsshouldfollowtherequirementsandguidelinesoftheTSPMcontrolsystemarchitecture.

5.5.4. [RQ/TSPM/124] Each instrument shall provide appropriate hardware (e.g.,lamps)foritsroutinecalibration.

1.14 Dome Control 5.6.1. [RQ/TSPM/131] The TSPM dome shall provide a clear aperture on sky for

elevation angles between 18o and 90o. The dome shall allow continuousobservationofanunvignettedfieldatleast1oindiameterwhiletrackinginthenominaltrackingregion.

1.15 Observatory Monitoring 5.7.1. [RQ/TSPM/141]TheTSPMstateandservicesshallbecontinuouslymonitored.5.7.2. [RQ/TSPM/142]Along-termdatabaseofTSPMcalibrationandstateshallbe

implementedforfaultandperformanceanalysis.5.7.3. [RQ/TSPM/143]TherelevantaspectsofTSPMmonitoringforoperationsshall

bedisplayedandproperfaultanddiagnosticalarmsimplemented.5.7.4. [RQ/TSPM/144]TSPMobserving(meteorologicalandatmospheric)conditions

shallbeanintegralpartofthecontrolsystem.

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1.16 Control System Architecture ThearchitectureoftheTSPMcontrolsystemshallconsider:5.8.1. [RQ/TSPM/151]TSPMshouldadoptrecognizedstandardsandbestpractices

ofreferenceobservatories.5.8.2. [RQ/TSPM/152] TSPM should use commercial products where appropriate

andpossible.5.8.3. [RQ/TSPM/153] The control system architecture of TSPM shall adopt a

modulardesigninwhicheachsubsystemhasstandalonecapabilities.o Rationale: So that hardware/software modifications can be performed inparallelwithminimalinterferencewiththeobservatoryoperations.

5.8.4. [RQ/TSPM/154]TSPMsoftware shouldbe independentof hardwareand theoperatingsystemwhereappropriateandpossible.

5.8.5. [RQ/TSPM/155] TSPM shall implement self-diagnostics, which should runcontinuouslywhileoperating.

5.8.6. [RQ/TSPM/156] The TCS architecture of TSPM shall provide automaticcalibration,set-upanddiagnosticprocedures.

1.17 Observing limits [RQ/TSPM/161]Operationallimits

− Allthesurvivallimitsexcept− Noprecipitationorelectricalstorms− Nohighlevelsofsuspendedparticulates− Sustainedwindspeedlimit:50km/h− Windgustsspeedlimit:70km/h− Sustainedwindspeedlimitfordomeclosure:80km/h(max)− Relativehumiditylimitfordomeclosure:90%oratcondensationpoint− Temperaturerange:-2°Cto+18°C(goal:-5ºCto+18ºC)

Rationale: The temperature range spans almost 90% of all recorded values. Thetemperature range indicated as the goal spans almost 95% of all recorded values.Theparticulatespecificationallowsthetelescopeoperatororotherhumantojudgewhetherobservationscanbecarriedoutsafely. [RQ/TSPM/162]Operationallimitswithdegradedperformance

− Alloftheoperationallimitsexcept− Temperaturerange:-18°Cto+30°C

Rationale: This temperature range spans 100% of the recorded values. In thisextendedrange,thehydrostaticoilwillnottracktheambienttemperaturebutwillbelimitedtotheextremevaluesfortheoperationallimits.[RQ/TSPM/163]Nominalconditions:

− Daytimemediantemperature:10.4C− Nighttimemediantemperature:6.8C− Meanatmosphericpressure:730mbar

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− Meanrelativehumidity:54%− Medianwindspeed:13km/h− Dominantwinddirection:southwesttonortheast(andviceversa)− Photometricnights:57%− Spectroscopicnights:80%− Skybrightness(darksky):B=22mag/arcsec2− Opticalturbulence(seeing):0.5arcsecat15m− Atmosphericwatervapor:2.5mmH2O− Atmosphericinversionlayer(oversealevel):1000m

1.18 Safety 5.10.1. [RQ/TSPM/171]TSPMshallbeassafeassimilarinternationalfacilities.5.10.2. [RQ/TSPM/172] The safety priorities of TSPM shall be (in order of

importance):1. Humanintegrityandprotection2. TSPMfacilitysafeguardingandintegrity3. Sciencedataprotection

Safetycriteria:5.10.3. [RQ/TSPM/173]TSPMshallcomplywithapplicablenationalandinternational

safetyregulations.5.10.4. [RQ/TSPM/174] TSPM operation and maintenance procedures shall be

documentedandvalidated.5.10.5. [RQ/TSPM/175]TheTSPMoperationplan shall explicitly address the safety

implicationsofhumanfactors.5.10.6. [RQ/TSPM/176]All acquired equipment or any services subcontracted shall

complywithTSPMsafetystandards.5.10.7. [RQ/TSPM/177]TSPMshall implementhardwareandsoftwarelimitsforthe

operationofallrelevantsystems.5.10.8. [RQ/TSPM/178] The TSPM shall not be operated beyond its defined

operationallimits.5.10.9. [RQ/TSPM/179] For safety reasons, it shall be possible to shut the dome in

under2minutes.5.10.10. [RQ/TSPM/180] The TSPM premises should be protected from the

accessofunauthorizedpersons.5.10.11. [RQ/TSPM/181] The TSPM control and communications systems

shouldbeprotectedfromunauthorizedaccessatthepremisesorthroughtheInternet. Access codes and privileges should be established for the differentclassesofusers.

5.10.12. [RQ/TSPM/182]TSPMoperation andmaintenanceprocedures shouldprovideprotectionagainstaccidentallossofscientificdata.

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VerificationThefulfillmentofthehighlevelrequirementsoftheTSPMwillbeverifiedalongtheProjectonadistributedbasis.Itwillbeperformedmainlybymeansof:

− ValidationoftheTSPMsubsystems,throughdesignreviewsandinspection

and testing of products. Every subsystem must include a verificationsectiondescribingtheplantoverifytherequirements.

− TSPM integration, testing and commissioning. The Integration and TestPlan of TSPM will describe the validation of the TSPM to be performedduringthefinalintegrationofthesubsystemsandduringTSPMtestingandcommissioning.

This document contains the high level requirements for all TSPM subsystems.Specificationsforeachsubsystemshallbederivedconsideringthecontributionofallsubsystems to the compliance of these high level requirements. Therefore, thesubsystemsvalidationthroughdesignreviewsandinspectionandtestingofproductswill partially perform the verification of these TSPM high-level requirements. Theidentificationoftheparentrequirementsforthesubsystemsrequirementswillhelpto identify which part of the high level requirements TSPM is violated when anysubsystemdidnotmatchanyof itsrequirements.However, inordertovalidatetheTSPM as a whole, the verification of high-level requirements of TSPM shall becompletedduringtheTSPMintegration,test,andcommissioning.