jupyter-live-kernel
Use a live Jupyter kernel for stateful, iterative Python execution via hamelnb. Load this skill when the task involves exploration, iteration, or inspecting intermediate results — data science, ML experimentation, API exploration, or building up complex code step-by-step. Uses terminal to run CLI commands against a live Jupyter kernel. No new tools required.
Best use case
jupyter-live-kernel is best used when you need a repeatable AI agent workflow instead of a one-off prompt.
Use a live Jupyter kernel for stateful, iterative Python execution via hamelnb. Load this skill when the task involves exploration, iteration, or inspecting intermediate results — data science, ML experimentation, API exploration, or building up complex code step-by-step. Uses terminal to run CLI commands against a live Jupyter kernel. No new tools required.
Teams using jupyter-live-kernel should expect a more consistent output, faster repeated execution, less prompt rewriting.
When to use this skill
- You want a reusable workflow that can be run more than once with consistent structure.
When not to use this skill
- You only need a quick one-off answer and do not need a reusable workflow.
- You cannot install or maintain the underlying files, dependencies, or repository context.
Installation
Claude Code / Cursor / Codex
Manual Installation
- Download SKILL.md from GitHub
- Place it in
.claude/skills/jupyter-live-kernel/SKILL.mdinside your project - Restart your AI agent — it will auto-discover the skill
How jupyter-live-kernel Compares
| Feature / Agent | jupyter-live-kernel | Standard Approach |
|---|---|---|
| Platform Support | Not specified | Limited / Varies |
| Context Awareness | High | Baseline |
| Installation Complexity | Unknown | N/A |
Frequently Asked Questions
What does this skill do?
Use a live Jupyter kernel for stateful, iterative Python execution via hamelnb. Load this skill when the task involves exploration, iteration, or inspecting intermediate results — data science, ML experimentation, API exploration, or building up complex code step-by-step. Uses terminal to run CLI commands against a live Jupyter kernel. No new tools required.
Where can I find the source code?
You can find the source code on GitHub using the link provided at the top of the page.
SKILL.md Source
# Jupyter Live Kernel (hamelnb)
Gives you a **stateful Python REPL** via a live Jupyter kernel. Variables persist
across executions. Use this instead of `execute_code` when you need to build up
state incrementally, explore APIs, inspect DataFrames, or iterate on complex code.
## When to Use This vs Other Tools
| Tool | Use When |
|------|----------|
| **This skill** | Iterative exploration, state across steps, data science, ML, "let me try this and check" |
| `execute_code` | One-shot scripts needing hermes tool access (web_search, file ops). Stateless. |
| `terminal` | Shell commands, builds, installs, git, process management |
**Rule of thumb:** If you'd want a Jupyter notebook for the task, use this skill.
## Prerequisites
1. **uv** must be installed (check: `which uv`)
2. **JupyterLab** must be installed: `uv tool install jupyterlab`
3. A Jupyter server must be running (see Setup below)
## Setup
The hamelnb script location:
```
SCRIPT="$HOME/.agent-skills/hamelnb/skills/jupyter-live-kernel/scripts/jupyter_live_kernel.py"
```
If not cloned yet:
```
git clone https://github.com/hamelsmu/hamelnb.git ~/.agent-skills/hamelnb
```
### Starting JupyterLab
Check if a server is already running:
```
uv run "$SCRIPT" servers
```
If no servers found, start one:
```
jupyter-lab --no-browser --port=8888 --notebook-dir=$HOME/notebooks \
--IdentityProvider.token='' --ServerApp.password='' > /tmp/jupyter.log 2>&1 &
sleep 3
```
Note: Token/password disabled for local agent access. The server runs headless.
### Creating a Notebook for REPL Use
If you just need a REPL (no existing notebook), create a minimal notebook file:
```
mkdir -p ~/notebooks
```
Write a minimal .ipynb JSON file with one empty code cell, then start a kernel
session via the Jupyter REST API:
```
curl -s -X POST http://127.0.0.1:8888/api/sessions \
-H "Content-Type: application/json" \
-d '{"path":"scratch.ipynb","type":"notebook","name":"scratch.ipynb","kernel":{"name":"python3"}}'
```
## Core Workflow
All commands return structured JSON. Always use `--compact` to save tokens.
### 1. Discover servers and notebooks
```
uv run "$SCRIPT" servers --compact
uv run "$SCRIPT" notebooks --compact
```
### 2. Execute code (primary operation)
```
uv run "$SCRIPT" execute --path <notebook.ipynb> --code '<python code>' --compact
```
State persists across execute calls. Variables, imports, objects all survive.
Multi-line code works with $'...' quoting:
```
uv run "$SCRIPT" execute --path scratch.ipynb --code $'import os\nfiles = os.listdir(".")\nprint(f"Found {len(files)} files")' --compact
```
### 3. Inspect live variables
```
uv run "$SCRIPT" variables --path <notebook.ipynb> list --compact
uv run "$SCRIPT" variables --path <notebook.ipynb> preview --name <varname> --compact
```
### 4. Edit notebook cells
```
# View current cells
uv run "$SCRIPT" contents --path <notebook.ipynb> --compact
# Insert a new cell
uv run "$SCRIPT" edit --path <notebook.ipynb> insert \
--at-index <N> --cell-type code --source '<code>' --compact
# Replace cell source (use cell-id from contents output)
uv run "$SCRIPT" edit --path <notebook.ipynb> replace-source \
--cell-id <id> --source '<new code>' --compact
# Delete a cell
uv run "$SCRIPT" edit --path <notebook.ipynb> delete --cell-id <id> --compact
```
### 5. Verification (restart + run all)
Only use when the user asks for a clean verification or you need to confirm
the notebook runs top-to-bottom:
```
uv run "$SCRIPT" restart-run-all --path <notebook.ipynb> --save-outputs --compact
```
## Practical Tips from Experience
1. **First execution after server start may timeout** — the kernel needs a moment
to initialize. If you get a timeout, just retry.
2. **The kernel Python is JupyterLab's Python** — packages must be installed in
that environment. If you need additional packages, install them into the
JupyterLab tool environment first.
3. **--compact flag saves significant tokens** — always use it. JSON output can
be very verbose without it.
4. **For pure REPL use**, create a scratch.ipynb and don't bother with cell editing.
Just use `execute` repeatedly.
5. **Argument order matters** — subcommand flags like `--path` go BEFORE the
sub-subcommand. E.g.: `variables --path nb.ipynb list` not `variables list --path nb.ipynb`.
6. **If a session doesn't exist yet**, you need to start one via the REST API
(see Setup section). The tool can't execute without a live kernel session.
7. **Errors are returned as JSON** with traceback — read the `ename` and `evalue`
fields to understand what went wrong.
8. **Occasional websocket timeouts** — some operations may timeout on first try,
especially after a kernel restart. Retry once before escalating.
## Timeout Defaults
The script has a 30-second default timeout per execution. For long-running
operations, pass `--timeout 120`. Use generous timeouts (60+) for initial
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