OBC`

Provisional v2 view — RES not wired

Generated by docs/atlas/generate.jl — a pure VIEW over the *_registry.jl claims + the static test/INVENTORY.jsonl AST scan. No test is executed and no src is run; test/INVENTORY.jsonl is regenerated in-place (idempotently) from that static scan; fetch/@register untouched. Assurance labels are PROVISIONAL: residuals / confidence are not shown yet (RES not wired). Badges reflect the committed test AST, not the latest CI run — a hub can read green while its @test is red between regenerations. @sweep = a graceful regime-resolution gap, not card omission.

Assurance level: corroborated-at-p

Independently corroborated. See the cards below.

`src` claim

method dense_ed, status exact, reliability high

Corroboration

regime	mechanism	independence	refs	file
`@gapless`	`ed_finite_size`	🟢 structural	ED black-box: S = β·(E - F) from full spectrum	`test/models/quantum/XXZ/test_xxz1d_obc_thermo_ED_batch.jl`
`@gapless`	`ed_finite_size`	🟢 structural	ED black-box: S = β·(E - F) from full spectrum	`test/models/quantum/XXZ/test_xxz1d_obc_thermo_ED_batch.jl`
`@gapless`	`ed_finite_size`	🟢 structural	ED black-box: S = β·(E - F) from full spectrum	`test/models/quantum/XXZ/test_xxz1d_obc_thermo_ED_batch.jl`
`@gapless`	`ed_finite_size`	🟢 structural	ED black-box: S = β·(E - F) from full spectrum	`test/models/quantum/XXZ/test_xxz1d_obc_thermo_ED_batch.jl`
`@gapped`	`ed_finite_size`	🟢 structural	ED black-box: S = β·(E - F) from full spectrum	`test/models/quantum/XXZ/test_xxz1d_obc_thermo_ED_batch.jl`
`@gapped`	`ed_finite_size`	🟢 structural	ED black-box: S = β·(E - F) from full spectrum	`test/models/quantum/XXZ/test_xxz1d_obc_thermo_ED_batch.jl`
`@gapped`	`ed_finite_size`	🟢 structural	ED black-box: S = β·(E - F) from full spectrum	`test/models/quantum/XXZ/test_xxz1d_obc_thermo_ED_batch.jl`
`@gapped`	`ed_finite_size`	🟢 structural	ED black-box: S = β·(E - F) from full spectrum	`test/models/quantum/XXZ/test_xxz1d_obc_thermo_ED_batch.jl`
`@su2`	`ed_finite_size`	🟢 structural	ED black-box: S = β·(E - F) from full spectrum	`test/models/quantum/XXZ/test_xxz1d_obc_thermo_ED_batch.jl`
`@su2`	`ed_finite_size`	🟢 structural	ED black-box: S = β·(E - F) from full spectrum	`test/models/quantum/XXZ/test_xxz1d_obc_thermo_ED_batch.jl`
`@su2`	`ed_finite_size`	🟢 structural	ED black-box: S = β·(E - F) from full spectrum	`test/models/quantum/XXZ/test_xxz1d_obc_thermo_ED_batch.jl`
`@su2`	`ed_finite_size`	🟢 structural	ED black-box: S = β·(E - F) from full spectrum	`test/models/quantum/XXZ/test_xxz1d_obc_thermo_ED_batch.jl`
`@sweep`	`limiting_case`	🟡 asserted	XXZ1D OBC T → 0: unique-singlet GS ⇒ s = 0 exactly	`test/models/quantum/XXZ/test_xxz1d_obc_thermal_batch.jl`
`@sweep`	`limiting_case`	🟡 asserted	XXZ1D OBC T → ∞: spin-1/2 paramagnet ⇒ s = log 2 per spin	`test/models/quantum/XXZ/test_xxz1d_obc_thermal_batch.jl`
`@sweep`	`limiting_case`	🟡 asserted	XXZ1D OBC T → 0: unique-singlet GS ⇒ s = 0 exactly	`test/models/quantum/XXZ/test_xxz1d_obc_thermal_batch.jl`
`@sweep`	`limiting_case`	🟡 asserted	XXZ1D OBC T → ∞: spin-1/2 paramagnet ⇒ s = log 2 per spin	`test/models/quantum/XXZ/test_xxz1d_obc_thermal_batch.jl`
`@sweep`	`limiting_case`	🟡 asserted	XXZ1D OBC T → 0: unique-singlet GS ⇒ s = 0 exactly	`test/models/quantum/XXZ/test_xxz1d_obc_thermal_batch.jl`
`@sweep`	`limiting_case`	🟡 asserted	XXZ1D OBC T → ∞: spin-1/2 paramagnet ⇒ s = log 2 per spin	`test/models/quantum/XXZ/test_xxz1d_obc_thermal_batch.jl`
`@sweep`	`limiting_case`	🟡 asserted	XXZ1D OBC T → 0: unique-singlet GS ⇒ s = 0 exactly	`test/models/quantum/XXZ/test_xxz1d_obc_thermal_batch.jl`
`@sweep`	`limiting_case`	🟡 asserted	XXZ1D OBC T → ∞: spin-1/2 paramagnet ⇒ s = log 2 per spin	`test/models/quantum/XXZ/test_xxz1d_obc_thermal_batch.jl`
`@sweep`	`limiting_case`	🟡 asserted	XXZ1D OBC T → 0: unique-singlet GS ⇒ s = 0 exactly	`test/models/quantum/XXZ/test_xxz1d_obc_thermal_batch.jl`
`@sweep`	`limiting_case`	🟡 asserted	XXZ1D OBC T → ∞: spin-1/2 paramagnet ⇒ s = log 2 per spin	`test/models/quantum/XXZ/test_xxz1d_obc_thermal_batch.jl`
`@sweep`	`limiting_case`	🟡 asserted	XXZ1D OBC T → 0: unique-singlet GS ⇒ s = 0 exactly	`test/models/quantum/XXZ/test_xxz1d_obc_thermal_batch.jl`
`@sweep`	`limiting_case`	🟡 asserted	XXZ1D OBC T → ∞: spin-1/2 paramagnet ⇒ s = log 2 per spin	`test/models/quantum/XXZ/test_xxz1d_obc_thermal_batch.jl`
`@sweep`	`limiting_case`	🟡 asserted	XXZ1D OBC T → 0: unique-singlet GS ⇒ s = 0 exactly	`test/models/quantum/XXZ/test_xxz1d_obc_thermal_batch.jl`
`@sweep`	`limiting_case`	🟡 asserted	XXZ1D OBC T → ∞: spin-1/2 paramagnet ⇒ s = log 2 per spin	`test/models/quantum/XXZ/test_xxz1d_obc_thermal_batch.jl`
`@sweep`	`limiting_case`	🟡 asserted	XXZ1D OBC T → 0: unique-singlet GS ⇒ s = 0 exactly	`test/models/quantum/XXZ/test_xxz1d_obc_thermal_batch.jl`
`@sweep`	`limiting_case`	🟡 asserted	XXZ1D OBC T → ∞: spin-1/2 paramagnet ⇒ s = log 2 per spin	`test/models/quantum/XXZ/test_xxz1d_obc_thermal_batch.jl`
`@sweep`	`limiting_case`	🟡 asserted	XXZ1D OBC T → 0: unique-singlet GS ⇒ s = 0 exactly	`test/models/quantum/XXZ/test_xxz1d_obc_thermal_batch.jl`
`@sweep`	`limiting_case`	🟡 asserted	XXZ1D OBC T → ∞: spin-1/2 paramagnet ⇒ s = log 2 per spin	`test/models/quantum/XXZ/test_xxz1d_obc_thermal_batch.jl`

Test calls

The exact verify(...) call the harness executed for this hub (reconstructed from the test AST):

verify(XXZ1D(; 1.0 = 1.0, Δ = 0.5), ThermalEntropy(), OBC(3); route = :ed_finite_size, independent = ed_S, at = ["N=$(3)"], agree_within = 1.0e-9, refs = ["ED black-box: S = β·(E - F) from full spectrum"], fetch_kw = (; 0.5 = 0.5))

verify(XXZ1D(; 1.0 = 1.0, Δ = 0.5), ThermalEntropy(), OBC(3); route = :ed_finite_size, independent = ed_S, at = ["N=$(3)"], agree_within = 1.0e-9, refs = ["ED black-box: S = β·(E - F) from full spectrum"], fetch_kw = (; 5.0 = 5.0))

verify(XXZ1D(; 1.0 = 1.0, Δ = 0.5), ThermalEntropy(), OBC(4); route = :ed_finite_size, independent = ed_S, at = ["N=$(4)"], agree_within = 1.0e-9, refs = ["ED black-box: S = β·(E - F) from full spectrum"], fetch_kw = (; 0.5 = 0.5))

verify(XXZ1D(; 1.0 = 1.0, Δ = 0.5), ThermalEntropy(), OBC(4); route = :ed_finite_size, independent = ed_S, at = ["N=$(4)"], agree_within = 1.0e-9, refs = ["ED black-box: S = β·(E - F) from full spectrum"], fetch_kw = (; 5.0 = 5.0))

verify(XXZ1D(; 1.0 = 1.0, Δ = 2.0), ThermalEntropy(), OBC(3); route = :ed_finite_size, independent = ed_S, at = ["N=$(3)"], agree_within = 1.0e-9, refs = ["ED black-box: S = β·(E - F) from full spectrum"], fetch_kw = (; 0.5 = 0.5))

verify(XXZ1D(; 1.0 = 1.0, Δ = 2.0), ThermalEntropy(), OBC(3); route = :ed_finite_size, independent = ed_S, at = ["N=$(3)"], agree_within = 1.0e-9, refs = ["ED black-box: S = β·(E - F) from full spectrum"], fetch_kw = (; 5.0 = 5.0))

verify(XXZ1D(; 1.0 = 1.0, Δ = 2.0), ThermalEntropy(), OBC(4); route = :ed_finite_size, independent = ed_S, at = ["N=$(4)"], agree_within = 1.0e-9, refs = ["ED black-box: S = β·(E - F) from full spectrum"], fetch_kw = (; 0.5 = 0.5))

verify(XXZ1D(; 1.0 = 1.0, Δ = 2.0), ThermalEntropy(), OBC(4); route = :ed_finite_size, independent = ed_S, at = ["N=$(4)"], agree_within = 1.0e-9, refs = ["ED black-box: S = β·(E - F) from full spectrum"], fetch_kw = (; 5.0 = 5.0))

verify(XXZ1D(; 1.0 = 1.0, Δ = 1.0), ThermalEntropy(), OBC(3); route = :ed_finite_size, independent = ed_S, at = ["N=$(3)"], agree_within = 1.0e-9, refs = ["ED black-box: S = β·(E - F) from full spectrum"], fetch_kw = (; 0.5 = 0.5))

verify(XXZ1D(; 1.0 = 1.0, Δ = 1.0), ThermalEntropy(), OBC(3); route = :ed_finite_size, independent = ed_S, at = ["N=$(3)"], agree_within = 1.0e-9, refs = ["ED black-box: S = β·(E - F) from full spectrum"], fetch_kw = (; 5.0 = 5.0))

verify(XXZ1D(; 1.0 = 1.0, Δ = 1.0), ThermalEntropy(), OBC(4); route = :ed_finite_size, independent = ed_S, at = ["N=$(4)"], agree_within = 1.0e-9, refs = ["ED black-box: S = β·(E - F) from full spectrum"], fetch_kw = (; 0.5 = 0.5))

verify(XXZ1D(; 1.0 = 1.0, Δ = 1.0), ThermalEntropy(), OBC(4); route = :ed_finite_size, independent = ed_S, at = ["N=$(4)"], agree_within = 1.0e-9, refs = ["ED black-box: S = β·(E - F) from full spectrum"], fetch_kw = (; 5.0 = 5.0))

verify(XXZ1D(; 1.0 = 1.0, 0.5 = 0.5), ThermalEntropy(), OBC(4); route = :limiting_case, independent = 0.0, agree_within = 1.0e-9, refs = ["XXZ1D OBC T → 0: unique-singlet GS ⇒ s = 0 exactly"], fetch_kw = (; beta = 1.0e6))

verify(XXZ1D(; 1.0 = 1.0, 0.5 = 0.5), ThermalEntropy(), OBC(4); route = :limiting_case, independent = log(2), agree_within = 1.0e-5, refs = ["XXZ1D OBC T → ∞: spin-1/2 paramagnet ⇒ s = log 2 per spin"], fetch_kw = (; beta = 0.001))

verify(XXZ1D(; 1.0 = 1.0, 0.5 = 0.5), ThermalEntropy(), OBC(6); route = :limiting_case, independent = 0.0, agree_within = 1.0e-9, refs = ["XXZ1D OBC T → 0: unique-singlet GS ⇒ s = 0 exactly"], fetch_kw = (; beta = 1.0e6))

verify(XXZ1D(; 1.0 = 1.0, 0.5 = 0.5), ThermalEntropy(), OBC(6); route = :limiting_case, independent = log(2), agree_within = 1.0e-5, refs = ["XXZ1D OBC T → ∞: spin-1/2 paramagnet ⇒ s = log 2 per spin"], fetch_kw = (; beta = 0.001))

verify(XXZ1D(; 1.0 = 1.0, 0.5 = 0.5), ThermalEntropy(), OBC(8); route = :limiting_case, independent = 0.0, agree_within = 1.0e-9, refs = ["XXZ1D OBC T → 0: unique-singlet GS ⇒ s = 0 exactly"], fetch_kw = (; beta = 1.0e6))

verify(XXZ1D(; 1.0 = 1.0, 0.5 = 0.5), ThermalEntropy(), OBC(8); route = :limiting_case, independent = log(2), agree_within = 1.0e-5, refs = ["XXZ1D OBC T → ∞: spin-1/2 paramagnet ⇒ s = log 2 per spin"], fetch_kw = (; beta = 0.001))

verify(XXZ1D(; 1.0 = 1.0, 1.0 = 1.0), ThermalEntropy(), OBC(4); route = :limiting_case, independent = 0.0, agree_within = 1.0e-9, refs = ["XXZ1D OBC T → 0: unique-singlet GS ⇒ s = 0 exactly"], fetch_kw = (; beta = 1.0e6))

verify(XXZ1D(; 1.0 = 1.0, 1.0 = 1.0), ThermalEntropy(), OBC(4); route = :limiting_case, independent = log(2), agree_within = 1.0e-5, refs = ["XXZ1D OBC T → ∞: spin-1/2 paramagnet ⇒ s = log 2 per spin"], fetch_kw = (; beta = 0.001))

verify(XXZ1D(; 1.0 = 1.0, 1.0 = 1.0), ThermalEntropy(), OBC(6); route = :limiting_case, independent = 0.0, agree_within = 1.0e-9, refs = ["XXZ1D OBC T → 0: unique-singlet GS ⇒ s = 0 exactly"], fetch_kw = (; beta = 1.0e6))

verify(XXZ1D(; 1.0 = 1.0, 1.0 = 1.0), ThermalEntropy(), OBC(6); route = :limiting_case, independent = log(2), agree_within = 1.0e-5, refs = ["XXZ1D OBC T → ∞: spin-1/2 paramagnet ⇒ s = log 2 per spin"], fetch_kw = (; beta = 0.001))

verify(XXZ1D(; 1.0 = 1.0, 1.0 = 1.0), ThermalEntropy(), OBC(8); route = :limiting_case, independent = 0.0, agree_within = 1.0e-9, refs = ["XXZ1D OBC T → 0: unique-singlet GS ⇒ s = 0 exactly"], fetch_kw = (; beta = 1.0e6))

verify(XXZ1D(; 1.0 = 1.0, 1.0 = 1.0), ThermalEntropy(), OBC(8); route = :limiting_case, independent = log(2), agree_within = 1.0e-5, refs = ["XXZ1D OBC T → ∞: spin-1/2 paramagnet ⇒ s = log 2 per spin"], fetch_kw = (; beta = 0.001))

verify(XXZ1D(; 1.0 = 1.0, 2.0 = 2.0), ThermalEntropy(), OBC(4); route = :limiting_case, independent = 0.0, agree_within = 1.0e-9, refs = ["XXZ1D OBC T → 0: unique-singlet GS ⇒ s = 0 exactly"], fetch_kw = (; beta = 1.0e6))

verify(XXZ1D(; 1.0 = 1.0, 2.0 = 2.0), ThermalEntropy(), OBC(4); route = :limiting_case, independent = log(2), agree_within = 1.0e-5, refs = ["XXZ1D OBC T → ∞: spin-1/2 paramagnet ⇒ s = log 2 per spin"], fetch_kw = (; beta = 0.001))

verify(XXZ1D(; 1.0 = 1.0, 2.0 = 2.0), ThermalEntropy(), OBC(6); route = :limiting_case, independent = 0.0, agree_within = 1.0e-9, refs = ["XXZ1D OBC T → 0: unique-singlet GS ⇒ s = 0 exactly"], fetch_kw = (; beta = 1.0e6))

verify(XXZ1D(; 1.0 = 1.0, 2.0 = 2.0), ThermalEntropy(), OBC(6); route = :limiting_case, independent = log(2), agree_within = 1.0e-5, refs = ["XXZ1D OBC T → ∞: spin-1/2 paramagnet ⇒ s = log 2 per spin"], fetch_kw = (; beta = 0.001))

verify(XXZ1D(; 1.0 = 1.0, 2.0 = 2.0), ThermalEntropy(), OBC(8); route = :limiting_case, independent = 0.0, agree_within = 1.0e-9, refs = ["XXZ1D OBC T → 0: unique-singlet GS ⇒ s = 0 exactly"], fetch_kw = (; beta = 1.0e6))

verify(XXZ1D(; 1.0 = 1.0, 2.0 = 2.0), ThermalEntropy(), OBC(8); route = :limiting_case, independent = log(2), agree_within = 1.0e-5, refs = ["XXZ1D OBC T → ∞: spin-1/2 paramagnet ⇒ s = log 2 per spin"], fetch_kw = (; beta = 0.001))

Assurance (provisional)

level: corroborated-at-p 🟢
cards: 30 · model ED-feasible
RES not wired — measured residuals / confidence are not shown yet.

← Model: XXZ1D · Quantity: ThermalEntropy · Atlas index

🟢 XXZ1D/ThermalEntropy/OBC

src claim

Corroboration

Test calls

Assurance (provisional)

🟢 `XXZ1D/ThermalEntropy/OBC`

`src` claim