Tutorials: Difference between revisions
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* [[Octave|'''How to use Octave or Matlab with GNU Radio''']] | * [[Octave|'''How to use Octave or Matlab with GNU Radio''']] | ||
* [http://www.trondeau.com/blog/2013/9/15/explaining-the-gnu-radio-scheduler.html '''The GNU Radio Scheduler'''] | * [http://www.trondeau.com/blog/2013/9/15/explaining-the-gnu-radio-scheduler.html '''The GNU Radio Scheduler'''] | ||
* [[CustomBuffers]'''Using Custom Buffers for Hardware Accelerated Blocks'''] | * [[CustomBuffers] '''Using Custom Buffers for Hardware Accelerated Blocks'''] |
Revision as of 20:24, 26 October 2021
GNU Radio Academy
The following sequence of tutorials will carry a new user through the core GNU Radio concepts, while providing examples along the way. If you already have experience with GNU Radio, feel free to skip the first several.
- A Brief Introduction to GNU Radio, SDR, and DSP
- Introduction to GNU Radio Usage: GRC and Flowgraphs
- Porting Existing Flowgraphs to a Newer Version
- Understanding Sample Rate
- IQ and Complex Signals
- Simulation Examples (we recommend going through at least one):
- Using GNU Radio with Hardware
- Understanding a Flowgraph's Python Code
- Writing your own block (using Embedded Python Block)
- Polymorphic Types (PMTs)
- Stream Tags
- Message Passing
- Understanding ZMQ Blocks
- Packet Communications
- Out of Tree modules
- Writing the XML file for a block (for 3.7) or Writing the YAML file for a block (for 3.8+)
- Writing blocks in C++
Developer Resources
- Volk- what it does, why it rocks, how to write new kernels
- Porting Existing OOTs from 3.7 to 3.8
- Porting Existing OOTs from 3.8 to 3.9
- Working with ALSA and Pulse Audio
- Using Visual Studio Code for Source level debugging of C++ OOTs
- Using Eclipse for Building and Source level debugging C++ OOTs
- Using Code::Blocks IDE for GNU Radio Development
- Git and GNU Radio
- How to use Octave or Matlab with GNU Radio
- The GNU Radio Scheduler
- [[CustomBuffers] Using Custom Buffers for Hardware Accelerated Blocks]