{"id":"bare-metal-edge-fully-autonomous","text":"Bare metal edge deployments achieve full autonomy — provisioned via ZTP, updated via TALM canary gates, and operating with reduced capability profiles — only when SR-IOV drain issues on single-node topology are resolved and the node configuration pipeline validates all inputs.","truth_value":"OUT","source":"","source_url":"","source_hash":"","justifications":[{"type":"SL","antecedents":["bare-metal-edge-maximum-divergence-from-platform-model","node-config-delivery-fully-validated"],"outlist":["sriov-sno-disable-drain","kubeletconfig-no-api-validation"],"label":"depth-5 bare-metal edge divergence assumes the full stack works; depth-3 node config validation ensures changes are caught before deployment — but SR-IOV requiring drain disable on SNO and missing kubelet API validation both create gaps where the autonomous model silently degrades"}],"dependents":[],"metadata":{},"explanation":{"steps":[{"node":"bare-metal-edge-fully-autonomous","truth_value":"OUT","reason":"SL justification invalid","failed_antecedents":["node-config-delivery-fully-validated"],"label":"depth-5 bare-metal edge divergence assumes the full stack works; depth-3 node config validation ensures changes are caught before deployment — but SR-IOV requiring drain disable on SNO and missing kubelet API validation both create gaps where the autonomous model silently degrades","violated_outlist":["sriov-sno-disable-drain","kubeletconfig-no-api-validation"]}]}}