> ## Documentation Index
> Fetch the complete documentation index at: https://docs.ntop.com/llms.txt
> Use this file to discover all available pages before exploring further.

# Overview

This course introduces parametric turbomachinery design using signed distance functions in nTop. By building a micro turbojet, you will learn to create robust, reusable workflows for impellers, combustion chambers, and blisks. We focus on high-fidelity geometric construction and assembly, providing a foundation for integration with performance analysis and multidisciplinary design optimization.

<Frame>
  <img src="https://storage.googleapis.com/files-learn/lessons/parametric-turbomachinery-design/turbomachinery-overview.png" alt="Transparent view of turbine engine core: compressor, combustor, and turbine" />
</Frame>

<CardGroup cols={2}>
  <Card title="Overview of Micro Turbojet Design" href="/lessons/parametric-turbomachinery-design/overview-of-micro-turbojet-design" cta="Open" />

  <Card title="Parametric Impeller" href="/lessons/parametric-turbomachinery-design/parametric-impeller" cta="Open" />

  <Card title="Combustion Chamber" href="/lessons/parametric-turbomachinery-design/combustion-chamber" cta="Open" />

  <Card title="Parametric Bladed Disk" href="/lessons/parametric-turbomachinery-design/parametric-bladed-disk" cta="Open" />

  <Card title="Parametric Housing and Component Placement" href="/lessons/parametric-turbomachinery-design/parametric-housing-and-component-placement" cta="Open" />
</CardGroup>
