website/docs/user-guide/skills/bundled/devops/devops-kanban-orchestrator.md

---
title: "Kanban Orchestrator"
sidebar_label: "Kanban Orchestrator"
description: "Decomposition playbook + specialist-roster conventions + anti-temptation rules for an orchestrator profile routing work through Kanban"
---

{/* This page is auto-generated from the skill's SKILL.md by website/scripts/generate-skill-docs.py. Edit the source SKILL.md, not this page. */}

# Kanban Orchestrator

Decomposition playbook + specialist-roster conventions + anti-temptation rules for an orchestrator profile routing work through Kanban. The "don't do the work yourself" rule and the basic lifecycle are auto-injected into every kanban worker's system prompt; this skill is the deeper playbook when you're specifically playing the orchestrator role.

## Skill metadata

| | |
|---|---|
| Source | Bundled (installed by default) |
| Path | `skills/devops/kanban-orchestrator` |
| Version | `2.0.0` |
| Tags | `kanban`, `multi-agent`, `orchestration`, `routing` |
| Related skills | [`kanban-worker`](/docs/user-guide/skills/bundled/devops/devops-kanban-worker) |

## Reference: full SKILL.md

:::info
The following is the complete skill definition that Hermes loads when this skill is triggered. This is what the agent sees as instructions when the skill is active.
:::

# Kanban Orchestrator — Decomposition Playbook

> The **core worker lifecycle** (including the `kanban_create` fan-out pattern and the "decompose, don't execute" rule) is auto-injected into every kanban process via the `KANBAN_GUIDANCE` system-prompt block. This skill is the deeper playbook when you're an orchestrator profile whose whole job is routing.

## When to use the board (vs. just doing the work)

Create Kanban tasks when any of these are true:

1. **Multiple specialists are needed.** Research + analysis + writing is three profiles.
2. **The work should survive a crash or restart.** Long-running, recurring, or important.
3. **The user might want to interject.** Human-in-the-loop at any step.
4. **Multiple subtasks can run in parallel.** Fan-out for speed.
5. **Review / iteration is expected.** A reviewer profile loops on drafter output.
6. **The audit trail matters.** Board rows persist in SQLite forever.

If *none* of those apply — it's a small one-shot reasoning task — use `delegate_task` instead or answer the user directly.

## The anti-temptation rules

Your job description says "route, don't execute." The rules that enforce that:

- **Do not execute the work yourself.** Your restricted toolset usually doesn't even include terminal/file/code/web for implementation. If you find yourself "just fixing this quickly" — stop and create a task for the right specialist.
- **For any concrete task, create a Kanban task and assign it.** Every single time.
- **If no specialist fits, ask the user which profile to create.** Do not default to doing it yourself under "close enough."
- **Decompose, route, and summarize — that's the whole job.**

## The standard specialist roster (convention)

Unless the user's setup has customized profiles, assume these exist. Adjust to whatever the user actually has — ask if you're unsure.

| Profile | Does | Typical workspace |
|---|---|---|
| `researcher` | Reads sources, gathers facts, writes findings | `scratch` |
| `analyst` | Synthesizes, ranks, de-dupes. Consumes multiple `researcher` outputs | `scratch` |
| `writer` | Drafts prose in the user's voice | `scratch` or `dir:` into their Obsidian vault |
| `reviewer` | Reads output, leaves findings, gates approval | `scratch` |
| `backend-eng` | Writes server-side code | `worktree` |
| `frontend-eng` | Writes client-side code | `worktree` |
| `ops` | Runs scripts, manages services, handles deployments | `dir:` into ops scripts repo |
| `pm` | Writes specs, acceptance criteria | `scratch` |

## Decomposition playbook

### Step 1 — Understand the goal

Ask clarifying questions if the goal is ambiguous. Cheap to ask; expensive to spawn the wrong fleet.

### Step 2 — Sketch the task graph

Before creating anything, draft the graph out loud (in your response to the user). Example for "Analyze whether we should migrate to Postgres":

```
T1  researcher        research: Postgres cost vs current
T2  researcher        research: Postgres performance vs current
T3  analyst           synthesize migration recommendation       parents: T1, T2
T4  writer            draft decision memo                       parents: T3
```

Show this to the user. Let them correct it before you create anything.

### Step 3 — Create tasks and link

```python
t1 = kanban_create(
    title="research: Postgres cost vs current",
    assignee="researcher",
    body="Compare estimated infrastructure costs, migration costs, and ongoing ops costs over a 3-year window. Sources: AWS/GCP pricing, team time estimates, current Postgres bills from peers.",
    tenant=os.environ.get("HERMES_TENANT"),
)["task_id"]

t2 = kanban_create(
    title="research: Postgres performance vs current",
    assignee="researcher",
    body="Compare query latency, throughput, and scaling characteristics at our expected data volume (~500GB, 10k QPS peak). Sources: benchmark papers, public case studies, pgbench results if easy.",
)["task_id"]

t3 = kanban_create(
    title="synthesize migration recommendation",
    assignee="analyst",
    body="Read the findings from T1 (cost) and T2 (performance). Produce a 1-page recommendation with explicit trade-offs and a go/no-go call.",
    parents=[t1, t2],
)["task_id"]

t4 = kanban_create(
    title="draft decision memo",
    assignee="writer",
    body="Turn the analyst's recommendation into a 2-page memo for the CTO. Match the tone of previous decision memos in the team's knowledge base.",
    parents=[t3],
)["task_id"]
```

`parents=[...]` gates promotion — children stay in `todo` until every parent reaches `done`, then auto-promote to `ready`. No manual coordination needed; the dispatcher and dependency engine handle it.

### Step 4 — Complete your own task

If you were spawned as a task yourself (e.g. `planner` profile was assigned `T0: "investigate Postgres migration"`), mark it done with a summary of what you created:

```python
kanban_complete(
    summary="decomposed into T1-T4: 2 researchers parallel, 1 analyst on their outputs, 1 writer on the recommendation",
    metadata={
        "task_graph": {
            "T1": {"assignee": "researcher", "parents": []},
            "T2": {"assignee": "researcher", "parents": []},
            "T3": {"assignee": "analyst", "parents": ["T1", "T2"]},
            "T4": {"assignee": "writer", "parents": ["T3"]},
        },
    },
)
```

### Step 5 — Report back to the user

Tell them what you created in plain prose:

> I've queued 4 tasks:
> - **T1** (researcher): cost comparison
> - **T2** (researcher): performance comparison, in parallel with T1
> - **T3** (analyst): synthesizes T1 + T2 into a recommendation
> - **T4** (writer): turns T3 into a CTO memo
>
> The dispatcher will pick up T1 and T2 now. T3 starts when both finish. You'll get a gateway ping when T4 completes. Use the dashboard or `hermes kanban tail <id>` to follow along.

## Common patterns

**Fan-out + fan-in (research → synthesize):** N `researcher` tasks with no parents, one `analyst` task with all of them as parents.

**Pipeline with gates:** `pm → backend-eng → reviewer`. Each stage's `parents=[previous_task]`. Reviewer blocks or completes; if reviewer blocks, the operator unblocks with feedback and respawns.

**Same-profile queue:** 50 tasks, all assigned to `translator`, no dependencies between them. Dispatcher serializes — translator processes them in priority order, accumulating experience in their own memory.

**Human-in-the-loop:** Any task can `kanban_block()` to wait for input. Dispatcher respawns after `/unblock`. The comment thread carries the full context.

## Pitfalls

**Reassignment vs. new task.** If a reviewer blocks with "needs changes," create a NEW task linked from the reviewer's task — don't re-run the same task with a stern look. The new task is assigned to the original implementer profile.

**Argument order for links.** `kanban_link(parent_id=..., child_id=...)` — parent first. Mixing them up demotes the wrong task to `todo`.

**Don't pre-create the whole graph if the shape depends on intermediate findings.** If T3's structure depends on what T1 and T2 find, let T3 exist as a "synthesize findings" task whose own first step is to read parent handoffs and plan the rest. Orchestrators can spawn orchestrators.

**Tenant inheritance.** If `HERMES_TENANT` is set in your env, pass `tenant=os.environ.get("HERMES_TENANT")` on every `kanban_create` call so child tasks stay in the same namespace.
docs(sidebar): collapse exploding skills tree to a single Skills node (#18259) * docs(sidebar): collapse exploding skills tree to a single Skills node The Skills sub-tree in the left sidebar expanded to 200+ entries (22 bundled categories + 15 optional categories, every skill a page). That's most of the nav on a first visit — docs for the actual product get drowned in it. Collapse the sidebar to: Skills godmode (hand-written spotlight) google-workspace (hand-written spotlight) Bundled catalog (reference/skills-catalog — table of all bundled) Optional catalog (reference/optional-skills-catalog — table of all optional) Per-skill pages still generate and are still reachable at their URLs; they're linked from the two catalog tables and from the Skills overview page. They just don't appear in the left nav anymore. sidebars.ts goes from 649 lines to 247. generate-skill-docs.py loses the bundled/optional sidebar render helpers. Also picks up incidental generator output drift on current main (comfyui skill content refresh; 4 new skill pages for devops-kanban-orchestrator, devops-kanban-worker, productivity-here-now, productivity-shopify; two catalog refreshes). These are what the generator produces on main today — keeping them committed avoids the next docs build showing 'working tree dirty'. * docs(sidebar): drop godmode and google-workspace spotlight pages Keep the Skills sidebar node strictly principled: two catalog links, nothing else. There was no rule for which skills got spotlight pages and which got auto-generated pages — just that these two happened to be hand-written first. Both pages still build and are still reachable at /docs/user-guide/skills/godmode and /docs/user-guide/skills/google-workspace. They're linked from the catalog tables and the Skills overview page. Sidebar Skills node now: Skills ├── Bundled catalog └── Optional catalog 2026-04-30 23:08:22 -07:00			`---`
			`title: "Kanban Orchestrator"`
			`sidebar_label: "Kanban Orchestrator"`
			`description: "Decomposition playbook + specialist-roster conventions + anti-temptation rules for an orchestrator profile routing work through Kanban"`
			`---`

			`{/* This page is auto-generated from the skill's SKILL.md by website/scripts/generate-skill-docs.py. Edit the source SKILL.md, not this page. */}`

			`# Kanban Orchestrator`

			`Decomposition playbook + specialist-roster conventions + anti-temptation rules for an orchestrator profile routing work through Kanban. The "don't do the work yourself" rule and the basic lifecycle are auto-injected into every kanban worker's system prompt; this skill is the deeper playbook when you're specifically playing the orchestrator role.`

			`## Skill metadata`

			`\| \| \|`
			`\|---\|---\|`
			`\| Source \| Bundled (installed by default) \|`
			\| Path \| `skills/devops/kanban-orchestrator` \|
			\| Version \| `2.0.0` \|
			\| Tags \| `kanban`, `multi-agent`, `orchestration`, `routing` \|
			\| Related skills \| [`kanban-worker`](/docs/user-guide/skills/bundled/devops/devops-kanban-worker) \|

			`## Reference: full SKILL.md`

			`:::info`
			`The following is the complete skill definition that Hermes loads when this skill is triggered. This is what the agent sees as instructions when the skill is active.`
			`:::`

			`# Kanban Orchestrator — Decomposition Playbook`

			> The core worker lifecycle (including the `kanban_create` fan-out pattern and the "decompose, don't execute" rule) is auto-injected into every kanban process via the `KANBAN_GUIDANCE` system-prompt block. This skill is the deeper playbook when you're an orchestrator profile whose whole job is routing.

			`## When to use the board (vs. just doing the work)`

			`Create Kanban tasks when any of these are true:`

			`1. Multiple specialists are needed. Research + analysis + writing is three profiles.`
			`2. The work should survive a crash or restart. Long-running, recurring, or important.`
			`3. The user might want to interject. Human-in-the-loop at any step.`
			`4. Multiple subtasks can run in parallel. Fan-out for speed.`
			`5. Review / iteration is expected. A reviewer profile loops on drafter output.`
			`6. The audit trail matters. Board rows persist in SQLite forever.`

			If none of those apply — it's a small one-shot reasoning task — use `delegate_task` instead or answer the user directly.

			`## The anti-temptation rules`

			`Your job description says "route, don't execute." The rules that enforce that:`

			`- Do not execute the work yourself. Your restricted toolset usually doesn't even include terminal/file/code/web for implementation. If you find yourself "just fixing this quickly" — stop and create a task for the right specialist.`
			`- For any concrete task, create a Kanban task and assign it. Every single time.`
			`- If no specialist fits, ask the user which profile to create. Do not default to doing it yourself under "close enough."`
			`- Decompose, route, and summarize — that's the whole job.`

			`## The standard specialist roster (convention)`

			`Unless the user's setup has customized profiles, assume these exist. Adjust to whatever the user actually has — ask if you're unsure.`

			`\| Profile \| Does \| Typical workspace \|`
			`\|---\|---\|---\|`
			\| `researcher` \| Reads sources, gathers facts, writes findings \| `scratch` \|
			\| `analyst` \| Synthesizes, ranks, de-dupes. Consumes multiple `researcher` outputs \| `scratch` \|
			\| `writer` \| Drafts prose in the user's voice \| `scratch` or `dir:` into their Obsidian vault \|
			\| `reviewer` \| Reads output, leaves findings, gates approval \| `scratch` \|
			\| `backend-eng` \| Writes server-side code \| `worktree` \|
			\| `frontend-eng` \| Writes client-side code \| `worktree` \|
			\| `ops` \| Runs scripts, manages services, handles deployments \| `dir:` into ops scripts repo \|
			\| `pm` \| Writes specs, acceptance criteria \| `scratch` \|

			`## Decomposition playbook`

			`### Step 1 — Understand the goal`

			`Ask clarifying questions if the goal is ambiguous. Cheap to ask; expensive to spawn the wrong fleet.`

			`### Step 2 — Sketch the task graph`

			`Before creating anything, draft the graph out loud (in your response to the user). Example for "Analyze whether we should migrate to Postgres":`

			```
			`T1 researcher research: Postgres cost vs current`
			`T2 researcher research: Postgres performance vs current`
			`T3 analyst synthesize migration recommendation parents: T1, T2`
			`T4 writer draft decision memo parents: T3`
			```

			`Show this to the user. Let them correct it before you create anything.`

			`### Step 3 — Create tasks and link`

			```python
			`t1 = kanban_create(`
			`title="research: Postgres cost vs current",`
			`assignee="researcher",`
			`body="Compare estimated infrastructure costs, migration costs, and ongoing ops costs over a 3-year window. Sources: AWS/GCP pricing, team time estimates, current Postgres bills from peers.",`
			`tenant=os.environ.get("HERMES_TENANT"),`
			`)["task_id"]`

			`t2 = kanban_create(`
			`title="research: Postgres performance vs current",`
			`assignee="researcher",`
			`body="Compare query latency, throughput, and scaling characteristics at our expected data volume (~500GB, 10k QPS peak). Sources: benchmark papers, public case studies, pgbench results if easy.",`
			`)["task_id"]`

			`t3 = kanban_create(`
			`title="synthesize migration recommendation",`
			`assignee="analyst",`
			`body="Read the findings from T1 (cost) and T2 (performance). Produce a 1-page recommendation with explicit trade-offs and a go/no-go call.",`
			`parents=[t1, t2],`
			`)["task_id"]`

			`t4 = kanban_create(`
			`title="draft decision memo",`
			`assignee="writer",`
			`body="Turn the analyst's recommendation into a 2-page memo for the CTO. Match the tone of previous decision memos in the team's knowledge base.",`
			`parents=[t3],`
			`)["task_id"]`
			```

			`parents=[...]` gates promotion — children stay in `todo` until every parent reaches `done`, then auto-promote to `ready`. No manual coordination needed; the dispatcher and dependency engine handle it.

			`### Step 4 — Complete your own task`

			If you were spawned as a task yourself (e.g. `planner` profile was assigned `T0: "investigate Postgres migration"`), mark it done with a summary of what you created:

			```python
			`kanban_complete(`
			`summary="decomposed into T1-T4: 2 researchers parallel, 1 analyst on their outputs, 1 writer on the recommendation",`
			`metadata={`
			`"task_graph": {`
			`"T1": {"assignee": "researcher", "parents": []},`
			`"T2": {"assignee": "researcher", "parents": []},`
			`"T3": {"assignee": "analyst", "parents": ["T1", "T2"]},`
			`"T4": {"assignee": "writer", "parents": ["T3"]},`
			`},`
			`},`
			`)`
			```

			`### Step 5 — Report back to the user`

			`Tell them what you created in plain prose:`

			`> I've queued 4 tasks:`
			`> - T1 (researcher): cost comparison`
			`> - T2 (researcher): performance comparison, in parallel with T1`
			`> - T3 (analyst): synthesizes T1 + T2 into a recommendation`
			`> - T4 (writer): turns T3 into a CTO memo`
			`>`
			> The dispatcher will pick up T1 and T2 now. T3 starts when both finish. You'll get a gateway ping when T4 completes. Use the dashboard or `hermes kanban tail <id>` to follow along.

			`## Common patterns`

			Fan-out + fan-in (research → synthesize): N `researcher` tasks with no parents, one `analyst` task with all of them as parents.

			Pipeline with gates: `pm → backend-eng → reviewer`. Each stage's `parents=[previous_task]`. Reviewer blocks or completes; if reviewer blocks, the operator unblocks with feedback and respawns.

			Same-profile queue: 50 tasks, all assigned to `translator`, no dependencies between them. Dispatcher serializes — translator processes them in priority order, accumulating experience in their own memory.

			Human-in-the-loop: Any task can `kanban_block()` to wait for input. Dispatcher respawns after `/unblock`. The comment thread carries the full context.

			`## Pitfalls`

			`Reassignment vs. new task. If a reviewer blocks with "needs changes," create a NEW task linked from the reviewer's task — don't re-run the same task with a stern look. The new task is assigned to the original implementer profile.`

			Argument order for links. `kanban_link(parent_id=..., child_id=...)` — parent first. Mixing them up demotes the wrong task to `todo`.

			`Don't pre-create the whole graph if the shape depends on intermediate findings. If T3's structure depends on what T1 and T2 find, let T3 exist as a "synthesize findings" task whose own first step is to read parent handoffs and plan the rest. Orchestrators can spawn orchestrators.`

			Tenant inheritance. If `HERMES_TENANT` is set in your env, pass `tenant=os.environ.get("HERMES_TENANT")` on every `kanban_create` call so child tasks stay in the same namespace.