wiki:docs/CommissioningPlan

Version 144 (modified by kradhakrishnan, 4 years ago) (diff)

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SHARK-NIR Commissioning Plan (SHARK-NIR-INAFP-COM-001 Issue 0.1)

This commissioning planning document lays out and details the activities needed to bring SHARK-NIR online for regular scientific exploitation. The document incorporates activities starting from the unpacking of the boxes at the LBT mountain bay to the early science /science verification at its final destination on the LBT platform. Although called the commissioning document, it lists the pre-commissioning, commissioning, and science verification activities.

The activities are classified into four phases:

Phase 1: We start by inspecting the boxes at LBT mountain bay, unpacking, and installing the instrument at the mountain lab (clean room) for alignment verification and functionality checks. All of these are daytime activities. [Pre-commissioning: Unpack, assemble, and clean-room verification]. This forms the content of the PSR-09 Preliminary Laboratory Integration & Test (I&T) Procedure (at LBT).

Phase 2: The activities starting from the installation of SHARK-NIR at the SX central bent Gregorian focus of LBT, followed by preliminary functional checks, aligning SHARK-NIR to the telescope (daytime), and daytime closed dome engineering/technical testing. All of these are daytime activities. [Pre-commissioning: Installation, functional checks, and closed-dome testing]

Phase 3: Phase 3 commences the nighttime commissioning, starting from sending preset to the telescope to testing individual SHARK-NIR observation modes for performance to the total SHARK-NIR performance. All the activities are nighttime. However, some daytime activities may be anticipated as well. By the end of this phase, SHARK-NIR is ready for early science observations. [Commissioning]

Phase 4: SHARK-NIR is ready for the final phase of the commissioning - the science verification / early science observations. The final form of the SHARK-NIR software, observing blocks, data-reduction pipeline, etc., will be tested for all the modes (and sub-modes) of the instrument. The final performance of the SHARK-NIR will be analyzed using the data from this run. All the activities are nighttime. By the end of this phase, SHARK-NIR is ready for 'shared-risk' science. [Science Verification / Early Science]

Applicable Documents

No. Title Number & Issue
AD1 SHARK-NIR Schedule SHARK-NIR-INAFP-SCH-001 Issue 1.3
AD2 SHARK-NIR SHINS Interface Control Document SHARK-NIR-INAFP-ICD-002 Issue 0.4
AD3 SHARK-NIR Installation Plan SHARK-NIR-INAFP-MAN-001 Issue 2.0
AD4 SHARK-NIR Calibration Procedures SHARK-NIR-INAFP-MAN-004 Issue 0.2
AD5 SHARK-NIR System Design Analysis SHARK-NIR-INAFP-SDA-001 Issue 1.0
AD6 SHARK-NIR Cryostat Procedures SHARK-NIR-SO-MAN-001 Issue 0.4 draft

Category

The table below lists the categories of commissioning activities.

Category NameCategory Number
Unpack, Assemble, and VerificationC1
Installation of SHARK-NIR at LBT platform C2
Daytime testing (functionality and operability)C3
Daytime calibrationC4
Nighttime testing (functionality and operability)C5
Nighttime Science CalibrationC6
Nighttime testing for performanceC7
Science verification / Early scienceC8

Naming structure of the commissioning activity

Each commissioning test/activity has a unified structure as follows:

Name of the commissioning activity
  - phase : states the phase of the commissioning (1/2/3/4)
  - status : reports the current status of the test description (draft, final, complete)
  - category : one of the categories mentioned above
  - recurrence : describes how frequently the test must be executed
  - duration: estimates the time required to complete the test (the duration mentioned here is valid only for commissioning)

Description
  - Contains a general description of the test

Prerequisites
  - Lists items that must be in place before the test begins

Procedure
  - Explains in detail how to execute the test

Success Criteria
  - Enumerates the outcome associates with successful completion of the test

Notes
  - Additional supporting information

LBTO Support
  - Mention if (and what) support required from LBTO

Associated SHARK-NIR personnel
  - Mentions here who are the associated personnel to the test

Date performed and by whom
  - Mentions who performed the test and when

Commissioning Activity

In this section, you can see all the commissioning activities listed in chronological order. If you click the individual activity, you can see more details of it. 8 hours is considered as the duration of day/night. Of course, depending on the month of the year, we will modify the actual number of days required for that specific commissioning run. From experience at the LBT, for the daytime activities at the telescope platform, the telescope can be handed over around 9 am local time. And we need to hand it over back to the LBT ~2 hours before the sunset (unless we have the first half of the night Or full night). Note that the durations mentioned in this document will not match with that of AD4 for the same activities.

Phase 1 (Pre-commissioning)

SHARK-NIR Location: LBT mountain bay and clean room (Some of the activities may run in parallel). All daytime activities. In the cleanroom, usually, there are no restrictions on daytime or nighttime activity.

NumberActivity NameDay / NightDuration (days)CategoryLBTO Support
P1.1Inspection of the boxesDay0.5C1crane operator to lift and move containers/boxes (mountain bay), 1-2 crew to support moving
P1.2Opening boxes, their visual inspection, and mounting the units on the handlingDay1C1crane operator to lift and move containers/boxes (mountain bay), 1-2 crew to support unpacking and moving
P1.3Complete the installation of SHARK-NIR in the cleanroom with its electronics cabinetDay1C1crane operator to lift and move containers/boxes (mountain bay & cleanroom), 1-2 crew to support installation on the mechanical structure, Access to the LBTO electronics cabinet where the motor rack of SHARK-NIR will be installed.
P1.4Cable in the instrument, power on, install workstations, and connect to LBT networkDay0.5C1support to connect to LBT network, IT support to install/set the workstations in the proper location
P1.5Start all the services and initialize all the motorsDay1C1-
P1.6Cool down the cryostatDay1C1Liquid N2 fill in the cleanroom
P1.7Verification of the operability of the motors and light sourcesDay0.5C1optical bench needed in the cleanroom, Liquid N2 fill in the cleanroom
P1.8Verification of the internal alignment of the instrumentDay4C1optical bench needed in the cleanroom, Liquid N2 fill in the cleanroom
P1.9Science detector calibrationsDay1C1Liquid N2 fill in the cleanroom
P1.10Testing of SCICAM image grabbing by SOUL-AODay2C1LBTO SW support maybe required, Liquid N2 fill in the cleanroom
P1.11Check the working of the internal NCPA routine and looking for filter defects/artifactsDay1C1Liquid N2 fill in the cleanroom
TotalContingency included within 13.5

Phase 2 (Pre-commissioning)

SHARK-NIR Location: LBT platform (Some of the activities may run parallel). All daytime activities.

NumberActivity NameDay / NightDuration (days)CategoryLBTO Support
P2.0AInstallation of the SHARK-NIR at LBT platform - 1Day2(preparation) + 2(lift-off) + 1(contingency)C2Crew members' support for the preparation, lift-off, and installation of SHARK-NIR, crane operator (mountain bay, LBT platform), safety officer, working platform installed in front of the Gregorian focal-station SX, installation of electronics in LBTI/SHARK cabinet, check the installation document, AD3, for more details.
P2.0BInstallation of the SHARK-NIR at LBT platform - 2Day2C2Support for the installation and checking of electronics cabinets, cabling, and their checking, safety officer, working platform installed in front of the Gregorian focal-station SX, check the installation document, AD3, for more details.
P2.1Activating the instrument, basic check, initiate cryostat cool downDay1C3support to verify the working of emergency button/stop?, Testing the electronics and SW working of the knob (motor) controlling the cooling flow rate, Liquid Nitrogen fill.
P2.2Instrument operability and functioningDay1C3-
P2.3TCS communication testDay1C3Authorize SHARK-NIR, connecting to ASM+LBTI AO system, able to send preset, receiving LBT telemetry (inc. the derotator trajectory) and details for the fitswriter, support from LBT SW team
P2.4Align SHARK-NIR to the telescopeDay2+1C3working platform installed in front of the Gregorian focal-station SX, Mounting RR on the SX side. Support on running SOUL AO
P2.5SOUL AO system testDay5C3Authorize SHARK-NIR on SX side. Permission to use the Argos Swing Arm. If not Argos swing arm, RR will be required on the SX side. Support from LBT SW Team, LBTI/Arcetri team on running SOUL AO
P2.6Measurement of NCPADay5+5C3 + C4Authorize SHARK-NIR on SX side. Permission to use the Argos Swing Arm. When not using Argos swing arm and for different elevation angle tests, RR will be required on the SX side. Support from LBT SW Team, LBTI/Arcetri team to run SOUL AO
P2.7Checking pointing offset between SHARK-NIR and SOUL-AODay3C3Mounting RR on the SX side. Support on running SOUL AO
P2.8Science detector calibrations and total check upDay1C3-
P2.9Flexure testsDay3C3 + C4Mounting RR on the SX side. Support on running SOUL AO, the telescope need to move in elevation
P2.10Cryostat warm up checkDay2C3-
TotalContingency included within 36 days

Phase 3 (Commissioning)

SHARK-NIR Location: LBT platform. All nighttime activities. Some daytime support (within SHARK-NIR) is anticipated. Also, the SHARK-NIR software, SHINS, is expected to be almost ready to be tested.

Every evening of the nighttime commissioning, all the required calibrations (including dark, bias, flat-field, etc. for all the filters required) will be taken using the SHARK-NIR calibration unit.

NumberActivity NameDay / NightDuration (nights)CategoryLBTO Support
P3.0Large spatial scale instrument and telescope flat fieldTwilight2 hoursC6-
P3.1Telescope control – sending presetNight0.25C5-
P3.2Telescope control – telescope mode, offset, and focal plane geometry estimationNight0.25C5-
P3.3SOUL-AO verificationNight1C5AO support
P3.4Pupil alignmentNight1C5AO support
P3.5Orient the coronagraphsNight1C5AO support
P3.6PSF AlignmentNight1C5AO support
P3.7Verify the ADC rotation on skyNight2C5AO support
P3.8Checking field-stabilized mode/bearing rotation serviceNight1C5AO support
P3.9Internal TT loop working and performanceNight2C5AO support
P3.10NCPA working and performanceNight4C5AO support
P3.11Check the acquisition procedureNight2C5AO support
P3.12Star center Fourier mode imagesNight0.25C6AO support
P3.13Center the slitNight2C5AO support
P3.14Sky backgroundNight0.25C6-
P3.15Astrometry plate scale and orientationNight0.25C6AO support
P3.16Flux calibration (off-centered target observation)Night0.25C6AO support
P3.17Instrumental throughput and absolute flux calibrationNight0.5C6AO support
P3.18Atmospheric calibration and absolute flux calibrationNight0.5C6AO support
P3.19Distortion mapNight1C6AO support
TotalContingency included within 20.5

Phase 4 (Science Verification / Early Science)

SHARK-NIR Location : LBT platform. All nighttime activities. Some daytime support (within SHARK-NIR) is anticipated. SHINS is tested and working properly. Only tweaking or parameter adjustment, if any, is expected from SHINS at this stage.

Every evening of the nighttime commissioning, all the required calibrations (including dark, bias, flat-field, etc. for all the filters required) will be taken using the SHARK-NIR calibration unit.

NumberActivity NameDay / NightDuration (nights)CategoryLBTO Support
P4.1Direct imaging + field stabilized mode testingNight1.5C5 + C7AO support
P4.2Direct imaging + pupil stabilized mode testingNight0.5C5 + C7AO support
P4.3Coronagraphic imaging + field stabilization mode testingNight1C5 + C7AO support
P4.4Coronagraphic imaging + pupil stabilization mode testingNight3C5 + C7AO support
P4.5Long-slit spectrograph mode testingNight2C5 + C7AO support
P4.6Exo-planet: Giant planets and brown dwarfs in SFR, stellar associations, & young open clustersNight10C8AO support
P4.7Exo-planet: AstrometryNight1C8AO support
P4.8Exo-planet: Spectroscopic Characterization of known sub-stellar companionsNight5C8AO support
P4.9Disk: High-contrast images of circumstellar disksNight4C8AO support
P4.10Disk: Coronagraphic imaging of stellar jetsNight1C8AO support
P4.11Disk: Jets investigated with long-slit spectraNight1C8AO support
P4.12Extragalactic: QSO & AGNsNight4C8AO support
P4.13Solar system: Size and shape of main-belt astroidsNight1C8AO support
P4.14Solar system: Surface heterogeneity of trans-neptunian objectsNight1C8AO support
TotalContingency included within 36

Additional Information

To be added:

  1. Other performance activities, if any
  2. Look-up tables, if any

Comments

MDP

  • all operation that should be supported by control software automated procedures should be defined by the responsible person with software person in copy or accordance with software department (better) (e.g., P1.8 and P1.9)

Reminders

  • make sure if all the support from LBTI and iLOCATOR team are mentioned clearly (related to the installation of electronics in their cabinets, sharing space, access permissions, IP addresses, etc.)