AI Agent Skill HUB

trotter-simulator

Hamiltonian simulation skill using Trotter-Suzuki decomposition

509 stars
bya5c-ai
View on GitHubInstallation ↓

Best use case

trotter-simulator is best used when you need a repeatable AI agent workflow instead of a one-off prompt.

Hamiltonian simulation skill using Trotter-Suzuki decomposition

Teams using trotter-simulator 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

$curl -o ~/.claude/skills/trotter-simulator/SKILL.md --create-dirs "https://raw.githubusercontent.com/a5c-ai/babysitter/main/library/specializations/domains/science/quantum-computing/skills/trotter-simulator/SKILL.md"

Manual Installation

  1. Download SKILL.md from GitHub
  2. Place it in .claude/skills/trotter-simulator/SKILL.md inside your project
  3. Restart your AI agent — it will auto-discover the skill

How trotter-simulator Compares

Feature / Agenttrotter-simulatorStandard Approach
Platform SupportNot specifiedLimited / Varies
Context Awareness High Baseline
Installation ComplexityUnknownN/A

Frequently Asked Questions

What does this skill do?

Hamiltonian simulation skill using Trotter-Suzuki decomposition

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

# Trotter Simulator

## Purpose

Provides expert guidance on Hamiltonian simulation using Trotter-Suzuki decomposition for quantum dynamics and chemistry calculations.

## Capabilities

- First-order Trotterization
- Higher-order product formulas
- Time step optimization
- Error bound analysis
- Randomized compilation
- Resource estimation
- Symmetry preservation
- Real-time evolution

## Usage Guidelines

1. **Hamiltonian Analysis**: Decompose Hamiltonian into simulatable terms
2. **Order Selection**: Choose Trotter order based on accuracy requirements
3. **Step Optimization**: Determine time step for error budget
4. **Circuit Generation**: Build Trotterized evolution circuits
5. **Error Analysis**: Estimate and bound Trotter errors

## Tools/Libraries

- Qiskit
- Cirq
- OpenFermion
- PennyLane
- TensorNetwork

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