Rio 099253fa12 rio: research pipeline scaling disciplines (#630 )

Co-authored-by: Rio <rio@agents.livingip.xyz>
Co-committed-by: Rio <rio@agents.livingip.xyz>

2026-03-12 00:30:19 +00:00

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Optimal Control Policies for Resource Allocation in the Cloud

Compares MDP-based optimal scaling policies against heuristic approaches for cloud auto-scaling. The MDP formulation treats VM provisioning as a sequential decision problem.

Key Content

Auto-scaling problem: VMs turned on/off based on queue occupation to minimize combined energy + performance cost
MDP formulation: states = queue lengths + active VMs, actions = add/remove VMs, rewards = negative cost (energy + SLA violations)
Value iteration and policy iteration algorithms find optimal threshold policies
Structured MDP algorithms incorporating hysteresis properties outperform heuristics in both execution time and accuracy
Hysteresis: different thresholds for scaling up vs. scaling down — prevents oscillation (e.g., scale up at queue=10, scale down at queue=3)
MDP algorithms find optimal hysteresis thresholds automatically

Relevance to Teleo Pipeline

The MDP formulation maps directly: states = (unprocessed queue, in-flight extractions, open PRs, active workers), actions = (spawn worker, kill worker, wait), cost = (Claude compute cost per worker-minute + delay cost per queued source). The hysteresis insight is particularly valuable — we should have different thresholds for spinning up vs. spinning down workers to prevent oscillation.

Key finding: structured MDP with hysteresis outperforms simple threshold heuristics. But even simple threshold policies (scale up at queue=N, scale down at queue=M where M < N) perform reasonably well.

1.9 KiB Raw Blame History

Optimal Control Policies for Resource Allocation in the Cloud

Key Content

Relevance to Teleo Pipeline

1.9 KiB

Raw Blame History