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Dispatching Parallel Agents

Use when facing 2+ independent tasks that can be worked on without shared state or sequential dependencies

agent
By Houseofmvps
10913Updated 1 day agoJavaScriptMIT

Skill Content

# Dispatching Parallel Agents

## Overview

You delegate tasks to specialized agents with isolated context. By precisely crafting their instructions and context, you ensure they stay focused and succeed at their task. They should never inherit your session's context or history — you construct exactly what they need. This also preserves your own context for coordination work.

When you have multiple unrelated failures (different test files, different subsystems, different bugs), investigating them sequentially wastes time. Each investigation is independent and can happen in parallel.

**Core principle:** Dispatch one agent per independent problem domain. Let them work concurrently.

**Nesting and scale:** Subagents can spawn their own subagents up to 5 levels deep, so a dispatched agent owning a large domain can fan out helpers for its sub-steps rather than doing everything serially. When the work-list is large, repetitive, or unknown in size (every route, every package in a monorepo, every finding to verify), stop hand-dispatching and escalate to a **dynamic Workflow** — describe the task and include the word "workflow" so an orchestration script pipelines the items across background subagents with a verification stage built in. Rule of thumb: a few independent tasks → dispatch agents here; dozens of items or fan-out-then-verify → a Workflow.

## When to Use

```dot
digraph when_to_use {
    "Multiple failures?" [shape=diamond];
    "Are they independent?" [shape=diamond];
    "Single agent investigates all" [shape=box];
    "One agent per problem domain" [shape=box];
    "Can they work in parallel?" [shape=diamond];
    "Sequential agents" [shape=box];
    "Parallel dispatch" [shape=box];

    "Multiple failures?" -> "Are they independent?" [label="yes"];
    "Are they independent?" -> "Single agent investigates all" [label="no - related"];
    "Are they independent?" -> "Can they work in parallel?" [label="yes"];
    "Can they work in parallel?" -> "Parallel dispatch" [label="yes"];
    "Can they work in parallel?" -> "Sequential agents" [label="no - shared state"];
}
```

**Use when:**
- 3+ test files failing with different root causes
- Multiple subsystems broken independently
- Each problem can be understood without context from others
- No shared state between investigations

**Don't use when:**
- Failures are related (fix one might fix others)
- Need to understand full system state
- Agents would interfere with each other

## The Pattern

### 1. Identify Independent Domains

Group failures by what's broken:
- File A tests: Tool approval flow
- File B tests: Batch completion behavior
- File C tests: Abort functionality

Each domain is independent - fixing tool approval doesn't affect abort tests.

### 2. Create Focused Agent Tasks

Each agent gets:
- **Specific scope:** One test file or subsystem
- **Clear goal:** Make these tests pass
- **Constraints:** Don't change other code
- **Expected output:** Summary of what you found and fixed

### 3. Dispatch in Parallel

```typescript
// In Claude Code / AI environment
Task("Fix agent-tool-abort.test.ts failures")
Task("Fix batch-completion-behavior.test.ts failures")
Task("Fix tool-approval-race-conditions.test.ts failures")
// All three run concurrently
```

### 4. Review and Integrate

When agents return:
- Read each summary
- Verify fixes don't conflict
- Run full test suite
- Integrate all changes

## Agent Prompt Structure

Good agent prompts are:
1. **Focused** - One clear problem domain
2. **Self-contained** - All context the agent needs, INCLUDING relevant code snippets
3. **Specific about output** - What should the agent return?
4. **Permission to explore** - Agent can read files it needs, not just files you anticipated

**The #1 reason subagents fail is context starvation.** The controller thinks it provided enough context but didn't. When in doubt, include more:
- Paste the actual error messages, not paraphrases
- Paste relevant code snippets inline (don't make the agent find them)
- Name the exact files and line numbers involved
- Describe the patterns/conventions the codebase uses
- Tell the agent what adjacent files exist and what they do

```markdown
Fix the 3 failing tests in src/agents/agent-tool-abort.test.ts:

1. "should abort tool with partial output capture" - expects 'interrupted at' in message
2. "should handle mixed completed and aborted tools" - fast tool aborted instead of completed
3. "should properly track pendingToolCount" - expects 3 results but gets 0

These are timing/race condition issues. The abort implementation is in
src/agents/agent-tool-handler.ts (the abortTool method around line 150).
Tests use a helper createMockToolStream() from test-utils.ts.

Your task:

1. Read the test file and the implementation file
2. Identify root cause - timing issues or actual bugs?
3. Fix by:
   - Replacing arbitrary timeouts with event-based waiting
   - Fixing bugs in abort implementation if found
   - Adjusting test expectations if testing changed behavior
4. You may read other files if needed to understand the system

Do NOT just increase timeouts - find the real issue.

Return: Summary of what you found and what you fixed.
```

## Common Mistakes

**❌ Too broad:** "Fix all the tests" - agent gets lost
**✅ Specific:** "Fix agent-tool-abort.test.ts" - focused scope

**❌ No context:** "Fix the race condition" - agent doesn't know where
**✅ Context:** Paste the error messages, test names, AND relevant source code inline

**❌ No constraints:** Agent might refactor everything
**✅ Constraints:** "Do NOT change production code" or "Fix tests only"

**❌ Vague output:** "Fix it" - you don't know what changed
**✅ Specific:** "Return summary of root cause and changes"

**❌ "Don't explore":** Agent can't read files → guesses → fails → you redo the work
**✅ Permission:** "Read any files you need to understand the system"

**❌ Tight tool budget (15 calls):** Agent rushes → BLOCKED → you redo the work
**✅ Reasonable budget:** Let agents work until done, cap at 25-30 for safety

## When NOT to Use

**Related failures:** Fixing one might fix others - investigate together first
**Need full context:** Understanding requires seeing entire system
**Exploratory debugging:** You don't know what's broken yet
**Shared state:** Agents would interfere (editing same files, using same resources)

## Real Example from Session

**Scenario:** 6 test failures across 3 files after major refactoring

**Failures:**
- agent-tool-abort.test.ts: 3 failures (timing issues)
- batch-completion-behavior.test.ts: 2 failures (tools not executing)
- tool-approval-race-conditions.test.ts: 1 failure (execution count = 0)

**Decision:** Independent domains - abort logic separate from batch completion separate from race conditions

**Dispatch:**
```
Agent 1 → Fix agent-tool-abort.test.ts
Agent 2 → Fix batch-completion-behavior.test.ts
Agent 3 → Fix tool-approval-race-conditions.test.ts
```

**Results:**
- Agent 1: Replaced timeouts with event-based waiting
- Agent 2: Fixed event structure bug (threadId in wrong place)
- Agent 3: Added wait for async tool execution to complete

**Integration:** All fixes independent, no conflicts, full suite green

**Time saved:** 3 problems solved in parallel vs sequentially

## Key Benefits

1. **Parallelization** - Multiple investigations happen simultaneously
2. **Focus** - Each agent has narrow scope, less context to track
3. **Independence** - Agents don't interfere with each other
4. **Speed** - 3 problems solved in time of 1

## Verification

After agents return:
1. **Review each summary** - Understand what changed
2. **Check for conflicts** - Did agents edit same code?
3. **Run full suite** - Verify all fixes work together
4. **Spot check** - Agents can make systematic errors

## Real-World Impact

From debugging session (2025-10-03):
- 6 failures across 3 files
- 3 agents dispatched in parallel
- All investigations completed concurrently
- All fixes integrated successfully
- Zero conflicts between agent changes

How to use

  1. Copy the skill content above
  2. Create a .claude/skills directory in your project
  3. Save as .claude/skills/ultraship-dispatching-parallel-agents.md
  4. Use /ultraship-dispatching-parallel-agents in Claude Code to invoke this skill
<div align="center"> <img src="assets/hero-banner.jpg" alt="Ultraship — Claude Code Plugin" width="100%"/>

Claude Code plugin. 43 expert-level skills for building, shipping, and scaling production software. 37 audit tools (accessibility, vibe-coding security, AI evals, pentest, code quality, bundle size, SEO + AI Readiness check) plus a blocking ship-gate close the loop before deploy. A built-in Currency Guard keeps Claude on current docs, not stale training data.

npm version npm downloads npm total GitHub stars License: MIT CI Sponsor


Follow @kaileskkhumar LinkedIn houseofmvps.com kailxlabs.co

Built by Kaileskkhumar, founder of HouseofMVPs and Kailxlabs

</div>
0 dependencies · 274 tests · Node.js ESM · MIT

Install

# Claude Code plugin
claude plugin marketplace add Houseofmvps/ultraship
claude plugin install ultraship

# Or standalone via npx
npx ultraship ship .
npx ultraship seo .
npx ultraship security .

How It Works

flowchart LR
    U["You type a<br/>slash command"] --> S["Skill<br/>(markdown instructions)"]
    S --> A["Agent<br/>(dispatched worker)"]
    S --> T["Tools<br/>(Node.js scripts)"]
    A --> T
    T --> O["JSON Results"]
    O --> R["Scorecard / Report /<br/>Actionable Fixes"]

    style U fill:#f59e0b,stroke:#d97706,color:#000
    style S fill:#8b5cf6,stroke:#7c3aed,color:#fff
    style A fill:#3b82f6,stroke:#2563eb,color:#fff
    style T fill:#10b981,stroke:#059669,color:#000
    style R fill:#ef4444,stroke:#dc2626,color:#fff
flowchart TD
    subgraph Lifecycle["Full Lifecycle Coverage"]
        direction LR
        I["Idea<br/>/brainstorm"] --> B["Build<br/>/sprint"]
        B --> AU["Audit<br/>/ship /seo /secure"]
        AU --> D["Ship<br/>/deploy"]
        D --> L["Launch<br/>/launch /compete"]
        L --> G["Grow<br/>/grow /cost"]
        G --> RE["Rescue<br/>/rescue /canary"]
    end

    style I fill:#8b5cf6,stroke:#7c3aed,color:#fff
    style B fill:#3b82f6,stroke:#2563eb,color:#fff
    style AU fill:#f59e0b,stroke:#d97706,color:#000
    style D fill:#10b981,stroke:#059669,color:#000
    style L fill:#06b6d4,stroke:#0891b2,color:#000
    style G fill:#84cc16,stroke:#65a30d,color:#000
    style RE fill:#ef4444,stroke:#dc2626,color:#fff

What /ship Does

/ship runs 6 tools in parallel and outputs a scorecard:

flowchart LR
    SHIP["/ship"] --> SEO["seo-scanner<br/>63 rules"]
    SHIP --> A11Y["a11y-scanner<br/>WCAG 2.2"]
    SHIP --> SEC["secret-scanner<br/>+ npm audit"]
    SHIP --> CODE["code-profiler<br/>N+1, leaks, ReDoS"]
    SHIP --> BUNDLE["bundle-tracker<br/>JS/CSS/images"]
    SHIP --> ENV["env-validator<br/>+ migration-checker"]

    SEO --> SC["Scorecard<br/>READY TO SHIP"]
    A11Y --> SC
    SEC --> SC
    CODE --> SC
    BUNDLE --> SC
    ENV --> SC

    style SHIP fill:#f59e0b,stroke:#d97706,color:#000
    style SC fill:#10b981,stroke:#059669,color:#000
    style SEO fill:#3b82f6,stroke:#2563eb,color:#fff
    style SEC fill:#3b82f6,stroke:#2563eb,color:#fff
    style CODE fill:#3b82f6,stroke:#2563eb,color:#fff
    style BUNDLE fill:#3b82f6,stroke:#2563eb,color:#fff
    style ENV fill:#3b82f6,stroke:#2563eb,color:#fff
+===========================================+
|      U L T R A S H I P   S C O R E       |
+===========================================+
|  SEO + AI Vis.  92/100  ############-    |
|  Security        95/100  ############-    |
|  Code Quality    88/100  ###########--    |
|  Bundle Size     97/100  ############-    |
+===========================================+
|   OVERALL         90/100                  |
|   STATUS          READY TO SHIP           |
+===========================================+
<details> <summary>Demo</summary> <img src="assets/demo.gif" alt="Ultraship — SEO audit, secret scanning, scorecard" width="100%"/> </details>

Tools (40)

Each tool is a standalone Node.js script (node tools/<name>.mjs). JSON output. Exit 0 always. No build step.

Auditing

ToolWhat it checks
seo-scanner63 rules: 39 SEO (meta tags, canonicals, headings, OG tags, structured data, sitemap, cross-page duplicate/orphan detection), 20 GEO (AI bot access in robots.txt, snippet restrictions, llms.txt, structured data for AI extraction), 4 AEO (FAQPage/HowTo/speakable schema)
a11y-scannerWCAG 2.2 A/AA static checks: missing alt text, unlabeled form controls, icon-only buttons, missing lang/title/main, heading order, positive tabindex, zoom disabled, duplicate ids, broken aria references. Zero false positives.
ship-gateBlocking quality gate — scores all auditors (shared math with /ship), compares to .ultraship/ship-gate.json thresholds, hard-fails on leaked secrets / critical findings, exits 1 on fail. Generates a pre-push hook + GitHub Actions workflow.
secret-scannerAWS keys, Stripe keys, JWT secrets, database URLs, private keys. Redacts values in output.
vibe-security-scannerVibe-Coding Security Sentinel — context secret-scanner misses: server-only secrets behind a NEXT_PUBLIC_/VITE_ prefix, a decoded Supabase service_role key exposed to the client, service_role in a "use client" file, Supabase tables with no RLS. Zero false positives.
eval-scannerLocates every LLM call site (Anthropic, OpenAI, Gemini, Mistral, Cohere, Ollama, Vercel AI SDK, LangChain) by provider + model id, detects the test runner and whether an eval suite exists. Flags AI features shipping with no evals. Seeds /evals. Zero false positives.
code-profilerN+1 queries, sync I/O in handlers, unbounded queries, missing indexes, memory leaks, sequential awaits, ReDoS risk
bundle-trackerJS/CSS/image sizes in build output. Detects heavy deps (momentdayjs, lodash→native). History for before/after. Monorepo-aware.
dep-doctorUnused dependencies via import graph analysis (not just grep). Dead wrapper files. Outdated packages.
content-scorerFlesch-Kincaid readability, keyword density, thin content detection, GEO heading analysis
lighthouse-runnerLighthouse via headless Chrome. Core Web Vitals, render-blocking resources, diagnostics.

Validation

ToolWhat it checks
health-checkHTTP status, response time, SSL certificate (issuer, expiry), 6 security headers
env-validatorCompares .env.example against actual .env. Catches missing/empty/placeholder vars.
migration-checkerPending DB migrations for Drizzle, Prisma, Knex
og-validatorOpen Graph tags, image reachability, size validation
redirect-checkerRedirect chains, loops, mixed HTTP/HTTPS. Sitemap-based bulk check.
api-smoke-testHit API endpoints, check status codes, response times, CORS headers

Generators

ToolWhat it creates
sitemap-generatorsitemap.xml from HTML files and routes
robots-generatorAI-friendly robots.txt (allows GPTBot, PerplexityBot, ClaudeBot)
llms-txt-generatorllms.txt for AI assistant discoverability
structured-data-generatorJSON-LD schema markup

Competitive & Launch

ToolWhat it does
compete-analyzerCompares two URLs: tech stack, SEO score, security headers, response time. ASCII comparison card.
launch-prepReads project, generates PH/Twitter/LinkedIn/HN copy, 14-item checklist, press kit
demo-prepFinds console.logs, TODOs, placeholder text, missing favicons. Scores demo readiness.

Operations

ToolWhat it does
incident-commanderHealth check + git culprit analysis + error patterns + rollback commands + post-mortem template
growth-trackerUptime, git velocity, SEO trajectory, dep health. Stores snapshots for week-over-week comparison.
cost-trackerLog AI token usage per feature/model. Built-in pricing for Claude, GPT-4o, Gemini. Daily trends.
pentest-scannerAutomated penetration testing: XSS, SQLi, SSTI, command injection, path traversal, CORS, JWT, GraphQL introspection, prototype pollution, race conditions, request smuggling. Zero false positives, every finding has proof-of-concept.
canary-monitorPost-deploy canary monitoring: HTTP status, response time, error patterns, baseline regression detection. Auto-saves baselines for future comparison.
retro-analyzerSprint retrospective: git velocity, commit patterns (features vs fixes), test health, hot files, shipping cadence. Generates insights and recommendations.
learnings-managerProject learnings CRUD: save, search, list, prune, export. Structured knowledge that compounds across sessions.

Project Analysis

ToolWhat it does
onboard-generatorAuto-generates developer guide: stack, directory tree, routes, schema, env vars, Mermaid diagram
architecture-mapper4 Mermaid diagrams: system overview, route tree, DB ER, data flow. Circular dependency + orphan detection.
pattern-analyzerAnalyzes testing, error handling, TypeScript usage, CI/CD, git practices. Cross-repo comparison.
audit-historySaves/compares audit scores over time

Integrations (optional)

ToolWhat it does
gsc-clientGoogle Search Console: submit sitemaps, inspect URLs, query rankings (requires ULTRASHIP_GSC_CREDENTIALS)
bing-webmasterBing Webmaster: submit sitemaps/URLs, IndexNow instant push, keyword research, backlinks, site-scan, URL inspection (requires ULTRASHIP_BING_KEY). Powers ChatGPT Search + Microsoft Copilot.
ga4-clientGoogle Analytics 4: overview, top-pages, landing-pages, traffic-sources, conversions, user-journey, devices, realtime, ai-traffic (ChatGPT/Perplexity/Copilot tracking), organic (search-only). --organic flag.
keyword-intelligence12-command keyword engine: analyze, quick-wins, cannibalization, content-gaps, intent-map, trending, high-intent, page-keywords, content-decay, difficulty, anomalies (CTR anomalies), cross-reference (GSC↔GA4). --brand flag for non-brand filtering.
index-doctorIndex diagnosis: inspect URLs via GSC URL Inspection API, diagnose 15+ coverage states, auto-fix and submit to Bing.

View source on GitHub