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"""Cross-provider GPU allocation: the cheapest class that comfortably fits the run.
Given a base model (+ algorithm), compute the VRAM the FULL run needs — sized for the
heavier phase, GRPO, since the typical pipeline is SFT followed by GRPO — then rank
every provisionable candidate across ALL registered providers by live $/hr and pick the
cheapest:
runpod every Flash-provisionable class (live pricing, cached; static fallback)
vast live verified-datacenter offers (usable_offers' quality floors applied)
Allocation happens at SUBMIT time in the runner (offers are a volatile market);
the parse-time resolution in schema is a RunPod-static provisional for
validation/dry-run display. Offline (AUTOSLM_SKIP_NET) the allocator degrades to exactly
``cheapest_gpu``'s deterministic static-rate answer (RunPod only — Vast is offline-off).
Provider-agnostic by construction: it walks the registered providers and asks each for
its ``gpu_classes()`` + ``hourly_rate()``; the only provider-specific knowledge is that
Vast classes come from a live offer book (collected through the provider's
``usable_offers`` and carried opaquely on ``Candidate.offer``).
"""
from __future__ import annotations
from autoslm._logging import get_logger
from autoslm.providers import PROVIDER_NAMES, available_providers, get_provider
from autoslm.providers.base import (
Allocation,
Candidate,
UnsupportedGpuError,
canonical_gpu,
unvalidated_allowed,
)
logger = get_logger(__name__)
# "Comfortably" = the open-model VRAM estimate plus headroom, so a full SFT+GRPO run
# never lands in check_fit's "tight" band by construction. Curated catalog entries
# already carry measured minimums and are used as-is. The headroom (default 1.1 ==
# model_required_vram_gb's own default) is read at call time via vram_headroom() so allocate()
# and resolve_gpu_policy size identically and pick up a value exported after import.
def vram_headroom() -> float:
"""The sizing headroom multiplier, honored by both the submit-time allocator and the
parse-time resolve_gpu_policy so they never disagree (PR #176 review). A validated constant."""
return 1.1
def required_vram_gb(
model_id: str,
algorithm: str,
*,
train=None,
thinking: bool = False,
) -> int:
"""VRAM the full run needs, sized to the run's actual knobs (context length, LoRA
rank, batch / group size, thinking) via the shared ``model_required_vram_gb`` matrix.
Catalog GRPO floors stay hard floors (never under-provision a validated model); the
matrix sizes up from there for big contexts/groups and down to a cheaper card for
small runs. Unlisted open models size from HF metadata, falling back to the 24 GB tier
when unreadable (handled inside model_required_vram_gb)."""
from autoslm.engine.vram import model_required_vram_gb
return model_required_vram_gb(
model_id,
algorithm,
train=train,
thinking=thinking,
headroom=vram_headroom(),
)
def _runpod_candidates(need: int, pinned_gpu: str | None, allow_unval: bool) -> list[Candidate]:
"""RunPod's fitting classes priced live (static fallback)."""
provider = get_provider("runpod")
out: list[Candidate] = []
for g in provider.gpu_classes():
if g.vram_gb < need:
continue
if pinned_gpu and g.name != pinned_gpu:
continue
if "runpod" not in g.validated_on and not allow_unval:
continue
out.append(
Candidate(
"runpod",
g.name,
provider.hourly_rate(g.name),
g.vram_gb,
"runpod" in g.validated_on,
)
)
return out
def _vast_candidates(
need: int,
pinned_gpu: str | None,
allow_unval: bool,
disk_gb: int,
exclude_machine_ids,
*,
required: bool,
) -> tuple[list[Candidate], tuple]:
"""Vast's fitting classes from the live offer book (cheapest per class).
Returns (candidates, full_offer_book). ``required`` (a hard ``provider="vast"``
pin) re-raises a search failure; otherwise it degrades to RunPod-only.
"""
from autoslm.providers.base import GPU_INFO
from autoslm.providers.vast.jobs import MIN_DISK_GB, usable_offers
# When a larger class is pinned for a small model, search at the PINNED class's VRAM,
# not the (smaller) model requirement: the offer search returns the cheapest ``limit``
# offers from a VRAM floor, so a search at ``need`` can fill that window entirely with
# small cheap cards and never surface the pinned larger class. ``need`` is still the
# validity floor (allocate() rejects an undersized pin before we get here).
search_vram = max(need, GPU_INFO[pinned_gpu].vram_gb) if pinned_gpu else need
book: list = []
try:
# The offer search must use the SAME disk floor instances are actually
# provisioned with (``create_instance``/``_effective_disk_gb``); searching at a
# smaller requested ``disk_gb`` would surface offers that then fail to rent.
book = usable_offers(
search_vram, max(float(disk_gb), MIN_DISK_GB), exclude_machine_ids=exclude_machine_ids
)
except Exception as exc:
if required:
raise UnsupportedGpuError(f"vast offer search failed: {exc}") from exc
logger.warning("vast offer search failed (%s); allocating on runpod only", exc)
out: list[Candidate] = []
seen: set[str] = set()
for o in book:
if pinned_gpu and o.gpu != pinned_gpu:
continue
info = GPU_INFO[o.gpu]
if "vast" not in info.validated_on and not allow_unval:
continue
if o.gpu in seen: # offers are price-sorted; keep the cheapest per class
continue
seen.add(o.gpu)
out.append(
Candidate(
"vast", o.gpu, o.dph_total, info.vram_gb, "vast" in info.validated_on, offer=o
)
)
return out, tuple(book)
def allocate(
model_id: str,
algorithm: str,
*,
gpu: str | None = None,
provider: str = "auto",
disk_gb: int = 60,
allow_unvalidated: bool | None = None,
exclude_machine_ids: set[int] | frozenset[int] = frozenset(),
train=None,
thinking: bool = False,
) -> Allocation:
"""Pick the cheapest (provider, GPU class) able to run the job across providers.
``gpu`` pins the class (the allocator then only picks the provider); ``provider``
pins the substrate ("auto"/"runpod"/"vast"). Both default to fully automatic.
``train``/``thinking`` size the requirement to the run's actual knobs (context, group,
rank, batch) via the matrix — long context / large group route up, small runs down.
"""
if provider not in ("auto", *PROVIDER_NAMES):
raise UnsupportedGpuError(
f"unknown provider {provider!r} (auto, {', '.join(PROVIDER_NAMES)})"
)
pinned_gpu = canonical_gpu(gpu) if gpu else None
# The model's requirement is the floor regardless of a pin: an undersized concrete
# pin (e.g. Qwen3-8B on a 24 GB card) must drop out of the candidate filter and
# raise here, not provision a paid worker that OOMs. The pin only narrows WHICH
# fitting class is chosen, never lowers the VRAM bar.
need = required_vram_gb(model_id, algorithm, train=train, thinking=thinking)
allow_unval = unvalidated_allowed(allow_unvalidated)
live = available_providers()
if provider != "auto" and provider not in live:
raise UnsupportedGpuError(
f"provider {provider!r} requested but not available on this control plane "
f"(available: {', '.join(live) or '(none)'}; vast needs VAST_API_KEY)"
)
def _gather(pin: str | None) -> tuple[list[Candidate], tuple]:
cands: list[Candidate] = []
book: tuple = ()
if provider in ("auto", "runpod") and "runpod" in live:
cands += _runpod_candidates(need, pin, allow_unval)
if provider in ("auto", "vast") and "vast" in live:
vcands, book = _vast_candidates(
need, pin, allow_unval, disk_gb, exclude_machine_ids, required=(provider == "vast")
)
cands += vcands
return cands, book
candidates, offer_book = _gather(pinned_gpu)
# NEVER hard-fail on availability: a pin that no live provider can serve (the class isn't
# offered right now, or is below ``need`` so it's filtered out) escalates to the cheapest
# FITTING class across providers instead of raising -- "one spot larger, and so on". The
# ``need`` floor is still absolute (we never drop below it -> no OOM), and the pin is only a
# preference. We only raise when NOTHING >= need is available anywhere (truly unsatisfiable).
escalated_from = None
if not candidates and pinned_gpu is not None:
escalated_from = pinned_gpu
candidates, offer_book = _gather(None)
if not candidates:
raise UnsupportedGpuError(
f"no allocatable GPU (>= {need} GB VRAM for {model_id}, provider={provider}, "
f"validated_only={not allow_unval}); widen with gpu.allow_unvalidated = true, add a "
f"provider (VAST_API_KEY), or the run genuinely exceeds every available GPU class"
)
if escalated_from is not None:
order0 = {n: i for i, n in enumerate(PROVIDER_NAMES)}
_cheapest = sorted(candidates, key=lambda c: (c.hourly_usd, c.vram_gb, order0.get(c.provider, 99)))[0]
# WARNING level so it surfaces at default `slm train` verbosity (configure_logging is
# WARNING) — a silently-escalated pin changes cost/hardware and operators must see it;
# still routed through the logger (stderr), so machine-readable stdout stays clean.
logger.warning(
"pinned GPU %r unavailable or below need (%s GB) on provider=%s; "
"escalated to cheapest fitting class %s (%s GB, %s)",
escalated_from,
need,
provider,
_cheapest.gpu,
_cheapest.vram_gb,
_cheapest.provider,
)
# Cheapest first; equal rates prefer less VRAM (don't burn a big card on a small
# job), then registry order (runpod is the longest-validated substrate).
order = {n: i for i, n in enumerate(PROVIDER_NAMES)}
ranked = sorted(candidates, key=lambda c: (c.hourly_usd, c.vram_gb, order.get(c.provider, 99)))
best = ranked[0]
return Allocation(
provider=best.provider,
gpu=best.gpu,
hourly_usd=best.hourly_usd,
min_vram_gb=need,
candidates=tuple(ranked),
offer=best.offer,
provider_offers=offer_book,
)
def allocation_summary(a: Allocation) -> str:
head = (
f"allocated {a.gpu} on {a.provider} at ${a.hourly_usd:.2f}/hr "
f"(need >= {a.min_vram_gb} GB VRAM"
)
# ``a.offer`` is an OPAQUE per-provider provisioning hint, not necessarily a Vast
# offer — only format Vast specifics when the chosen provider is vast, so a future
# provider's hint never misformats or raises on a missing attribute.
if a.provider == "vast" and a.offer is not None:
head += f", vast offer {a.offer.offer_id} in {a.offer.geolocation}"
head += ")"
if len(a.candidates) > 1:
nxt = a.candidates[1]
head += f"; next-best: {nxt.gpu}@{nxt.provider} ${nxt.hourly_usd:.2f}/hr"
return head