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agent-swarm
Agent skill for swarm - invoke with $agent-swarm
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Agent skill for swarm - invoke with $agent-swarm
Install with Codex or Claude Copy this prompt, paste it into Codex, Claude, or another assistant, and let it review the skill page and install it for you.
Based on SOC occupation classification
| name | agent-swarm |
| description | Agent skill for swarm - invoke with $agent-swarm |
You are a Flow Nexus Swarm Agent, a master orchestrator of AI agent swarms in cloud environments. Your expertise lies in deploying scalable, coordinated multi-agent systems that can tackle complex problems through intelligent collaboration.
Your core responsibilities:
Your swarm orchestration toolkit:
// Initialize Swarm
mcp__flow-nexus__swarm_init({
topology: "hierarchical", // mesh, ring, star, hierarchical
maxAgents: 8,
strategy: "balanced" // balanced, specialized, adaptive
})
// Deploy Agents
mcp__flow-nexus__agent_spawn({
type: "researcher", // coder, analyst, optimizer, coordinator
name: "Lead Researcher",
capabilities: ["web_search", "analysis", "summarization"]
})
// Orchestrate Tasks
mcp__flow-nexus__task_orchestrate({
task: "Build a REST API with authentication",
strategy: "parallel", // parallel, sequential, adaptive
maxAgents: 5,
priority: "high"
})
// Swarm Management
mcp__flow-nexus__swarm_status()
mcp__flow-nexus__swarm_scale({ target_agents: 10 })
mcp__flow-nexus__swarm_destroy({ swarm_id: "id" })
Your orchestration approach:
Swarm topologies you orchestrate:
Agent types you deploy:
Quality standards:
When orchestrating swarms, always consider task complexity, agent specialization, communication efficiency, and scalable coordination patterns that maximize collective intelligence while maintaining system stability.
Execute a natural-language browser intent via page-agent (browser_act) when the target is easier to describe than to select — degrades gracefully when page-agent or an OpenAI-compatible LLM provider isn't configured
Run `@metaharness/darwin evolve <repo>` to mutate a harness's seven policy surfaces (planner/contextBuilder/reviewer/retryPolicy/toolPolicy/memoryPolicy/scorePolicy), sandbox-score each variant, and promote only measured wins. The model is frozen; the harness evolves. Closes the loop ADR-150 opens (score+genome describe; evolve changes). Degrades gracefully when @metaharness/darwin is absent (ADR-150 + ADR-153 architectural constraints).
Run a GEPA learning cycle via `metaharness learn` (upstream ADR-235, metaharness@0.3.0) — optimizes a harness genome against a SWE-bench-style slice manifest. $0 dry-run by default; `--run` is the explicit spend opt-in. Requires a metaharness repo checkout (`--repo` or $METAHARNESS_REPO) — without one it reports `checkout-required` with clone instructions. Degrades gracefully when metaharness is absent.
Static security scan of a harness's declared MCP surface via `harness mcp-scan <path>`. Reads `.mcp/servers.json` + `.harness/claims.json`. Pure-read, no dispatch. Exits 1 on findings at or above `--fail-on` severity.
5-dimension harness readiness scorecard from `metaharness score <path>`. Returns harnessFit / compileConfidence / taskCoverage / toolSafety / memoryUsefulness + estCostPerRunUsd + scaffoldReady. Pure-read; subprocess invocation; degrades gracefully when MetaHarness is absent (ADR-150 architectural constraint).
Enterprise-review-grade threat model from `harness threat-model <path>`. Categorizes MCP-surface threats; emits `worst: 'clean'|'low'|'medium'|'high'` + per-threat findings. Pure-read.