Model

The developer's by-kind index: where each CORA aggregate's SST content lives. It hosts no content of its own. Design-phase scaffold.

For the aggregate shapes see the architecture model and the per-BC modules.

Aggregate (BC)	Where at SST
Asset (Equipment)	Inventory (in this zone)
Computed / virtual axes (Equipment)	Inventory (EnergyAxis)
Capability, Method (Recipe)	Techniques
Enclosure (Enclosure)	The beamline (7-ID-A optics, SST-1 soft, SST-2 tender)
Zone, Conduit, Policy (Trust); Actor (Access)	Governance
Procedure, Recipe, Caution, Supply, Subject, Run, Campaign, Dataset, Decision	deferred (design-phase; see below)

Deliberately not here yet

This is a design-phase scaffold (descriptor + docs), mirroring the other NSLS-II and Diamond beamlines. Left out on purpose:

• No new Family. SST is a reuse-and-reinforce deployment at Site scale: the soft PGM binds GratingMonochromator (graduated across SIX / CSX / ESM, a fourth sighting), the tender DCM Monochromator, the sample manipulators Manipulator (graduated by ESM, bound twice more here), the soft-scattering CCD and viewing cameras Camera, the microcalorimeter EnergyDispersiveSpectrometer, the flux channels FluxMonitor, the thermal stage TemperatureController, the mirrors Mirror, the slits Slit, the shutters Shutter, the beamstop BeamStop.
• The ElectronAnalyzer graduation. The HAXPES Scienta SES hemispherical analyzer binds the ElectronAnalyzer family NSLS-II ESM introduced. SST-HAXPES is the second sighting (the same Scienta SES type), so it earned the rule-of-three, the way GratingMonochromator (CSX) and Manipulator (ESM) graduated at their second sighting. The abstraction is settled (a hemispherical electron analyzer is a distinct, recurring photon-in / electron-out device, not a photon detector), so it GRADUATED into the catalog (ARPES-1); ESM's references were swept loose to graduated alongside.
• The held BeamPositionMonitor. The beam-position diagnostics bind the loose BeamPositionMonitor family that several deployments use; it stays loose pending the sensor fold-vs-promote decision (DIAG-1).
• No new Capability or Method. Soft-scattering, absorption, and photoemission sit on deferred / pending Capabilities (TECH-1, ENERGY-1, the ESM angle_resolved_photoemission); SST reinforces all three without coining any, and records no Practice. The per-technique reduction is ComputePort work.
• The deferred endstations and in-situ accessories. The NEXAFS endstation detail (drain-current / partial-electron-yield channels), the UCAL microcalorimeter ADR cryostat, the VPPEM microscope, the HAXPES flood gun and source-measure unit, and the RSoXS syringe pump are named in a question (INSITU-1); none fits an existing family cleanly, so they are deferred rather than modelled. SST models the RSoXS, HAXPES, and NEXAFS-microcalorimeter legs as the representative endstations, the way SRX modelled one of its endstations and 32-ID one of several instruments.
• Operations and experiment views, integration scenarios, vendor Models. A runbook and registered Assets for a beamline CORA does not yet drive would be invention; they land when the design firms and the team confirms. The 2-BM Model page shows the shape a fully-modelled deployment carries.