# FUTURE-TS validity envelope This page states what the current repository supports and where claims should stop. It is intended for reviewers comparing the design paper, empirical paper, and code. ## Supported today FUTURE-TS v0.1.0 is a runnable benchmark package and integrity scaffold. Its strict `benchmarks/v1` surface implements: - task cards with issue times, horizons, delayed sources, revision metadata, resource budgets, anchors, metrics, and adaptation budgets - submission and actual validation, including full visible-label coverage at score time - leakage auditing through `available_at`, `first_published_at`, and `last_updated_at` - archived prediction scoring with deterministic `prediction_hash` and `manifest_hash` - strict pretraining manifests for `benchmarks/v1`; manifest source entries are included in the manifest hash and carry evidence/confidence metadata - local sealed-runner MVP execution with platform-stamped `platform_issued_at` and `platform_received_at`, CPU/wall-clock limits, best-effort memory limits, and Linux network namespace isolation where available - prequential cutoff scoring for tasks that declare `cutoff_schedule`, emitted as a backward-compatible aggregate task score - capability-vector reports plus tier-weighted and rank-style aggregate leaderboard surfaces This supports the claim that FUTURE-TS is an executable future-aware benchmark protocol and local evaluation package. ## Not supported yet The repository does not by itself establish a fully hosted, externally attested live benchmark. These remain service-layer or data-expansion milestones: - immutable remote submission deadlines and live waves where labels physically do not exist at submission time - signed external timestamps, container digest attestation, and artifact-bucket immutability - production-grade no-egress execution on every host; non-Linux local runs are warning-only unless a Docker/Kubernetes `--network=none` backend is used - fixed-hardware, platform-measured per-prediction runtime/memory telemetry for cross-model efficiency claims - PEFT and full fine-tuning under sealed training/evaluation - broad decision-utility coverage; v1 grounds capD in one newsvendor task, so grid redispatch, hospital staffing, and capacity-planning tasks are needed before making broad operational-utility claims - frozen anchor prediction artifacts and alternate-anchor sensitivity tables - a source ontology with canonical IDs and aliases for stronger pretraining overlap matching ## Claim wording Use: > FUTURE-TS introduces a runnable future-aware benchmark protocol for TSFMs, > with task-card semantics, leakage auditing, strict submission validation, > archived predictions, manifest-based contamination flags, multi-dimensional > scoring, and an empirical TSFM.ai run demonstrating the protocol on real > data. The current release is a local package plus sealed-runner MVP; hosted > attested live evaluation is the next milestone. Avoid: > FUTURE-TS structurally solves live benchmark integrity. The latter requires the hosted attested service, immutable submission windows, and label release controls. ## Covariates and multimodal context Task cards may declare known covariates or multimodal context. Those fields are eligibility metadata unless the actual task-window payload handed to a submission contains the corresponding inputs. A task should only be described as operationally measuring covariate-aware or multimodal use when its runner payload includes those typed inputs. ## Empirical scope The empirical paper should be read as a first real-data slice: real hosted TSFMs, temporally constrained tasks, archived predictions, and diagnostic family differences. It does not establish a final ordering of TSFMs. Wider waves, more tasks, stronger manifests, external attestation, and full multi-budget adaptation are required before presenting a definitive public leaderboard.