HyperHDR

HyperHDR

Docker app from emp83's Repository

Overview

Open source ambient lighting implementation for television and music sets based on the video and audio streams analysis. Focused on stability while ensuring performance and quality. Single and multi-threaded video processing optimization for Windows, macOS and Linux x64 & ARM (Raspberry Pi and others).

C++20 CMake MIT Objective‑C++ JavaScript HTML Linear Algebra JSON API Bootstrap 5 DirectX Wayland‑PipeWire Sound Reactive MQTT mDNS‑Zeroconf USB Grabbers Raspberry Pi ARM x64 ARM WLED Home Assistant Adalight

About

HyperHDR is an open-source ambient lighting system for TVs and music setups. It performs real-time analysis of video and audio streams to create immersive LED lighting. Designed with a strong focus on stability, high performance, and high-fidelity video decoding and mapping, HyperHDR delivers precise and vibrant LED visuals. Optimized for both single- and multi-threaded video processing, it runs seamlessly on Windows, macOS (x64 & arm64), and Linux (x64 & ARM, including Raspberry Pi).

v20

Main Features of HyperHDR

At the heart of HyperHDR lies the Infinite Color Engine ( :new: HyperHDR v22), our own in-house rendering pipeline designed for maximum precision and visual fidelity. By leveraging floating-point processing, it produces smoother gradients, eliminates rounding artifacts, and ensures stable, consistent color transformations. While many other solutions rely on basic 24-bit color operations that introduce precision loss and visible banding, the Infinite Color Engine achieves uncompromised accuracy and professional-grade results. With deep-color support for Philips Hue, LIFX and HD108 devices, HyperHDR provides richer, more vibrant illumination than ever before.

The Infinite Color Engine has also paved the way for our bespoke, internally developed RGB-to-RGBW conversion, featuring energy-preserving extraction, temperature-aware mapping, and temporal dithering with motion-adaptive diffusion and hysteresis to eliminate flickering.

Key advantages of the Infinite Color Engine ( :new: HyperHDR v22):

  • Floating-Point Precision: All color computations use high-precision floating-point arithmetic, eliminating cumulative rounding errors for more accurate results
  • Linear sRGB Accuracy: Core color transformations are processed in linear sRGB space, ensuring physically correct and consistent light reproduction
  • Deep-Color Support: Compatible devices, including Philips Hue lamps, LIFX and HD108 LEDs, can take advantage of rendering beyond standard 24-bit RGB color depth
  • Advanced Color Smoothing Algorithms: Inertial-physics, exponential, and perceptually-uniform YUV/RGB interpolators for more fluid and natural color transitions
  • High-precision RGB-to-RGBW conversion: Energy-aware power balancing, white point temperature calibration, temporal dithering and anti-flicker hysteresis

Additional features:

  • Ultra-low CPU usage on SoCs like Raspberry Pi or Intel N100
  • Lightweight design with no heavy dependencies (e.g. no Python or Java)
  • Low-latency video processing for LED strips and lamps
  • Optimized multithreading, enabling Raspberry Pi to process high-quality video streams
  • High portability across ARM-based embedded platforms
  • System diagnostics: live CPU/RAM usage, CPU temperature, undervoltage detection, USB grabber and LED performance
  • USB grabber support on Linux, Windows 10/11, and macOS for P010/NV12/YUYV/MJPEG/UYVY/I420/RGB
  • Hardware-accelerated capture: PipeWire/Portal (Linux/Wayland), DirectX (Windows 10/11)
  • HDR-ready DirectX screen grabbing: Supports DXGI_FORMAT_R16G16B16A16_FLOAT and multiple monitors
  • Optimized video processing: Our pipeline smoothly handles 1080p P010/NV12/YUYV even on Rpi4
  • Built-in audio visualization powered by spectrum analysis
  • MQTT support for IoT integration
  • Home Assistant and zigbee2mqtt integration
  • Automatic tone mapping for SDR/HDR content
  • Automatic LUT calibration for optimal HDR/SDR grabber quality using MP4 test files
  • Latency benchmarking for USB grabbers
  • P010 support on Windows & Linux (our patched Raspberry Pi OS image - P010 is not supported in mainline OS)
  • Intuitive LED strip editor, with automatic or manual geometry editing via mouse and context menus
  • Smart signal detection with adaptive learning for USB grabbers
  • External tone mapping support for flatbuffers/protobuf sources
  • Wide LED strip compatibility including WS281x, APA102, HD107, SK9822, SK6812 and our ultra-fast LED controllers:

HyperHDR’s advanced video pipeline significantly enhances LED output, creating a smoother, more immersive ambient lighting experience. It works with SDR, HDR, and Dolby Vision (Low Latency Dolby Vision / LLDV only, if supported by your hardware). Instead of relying on USB grabbers, you can also use software screen capture directly from your PC.

example

Downloads

Official releases:
https://github.com/awawa-dev/HyperHDR/releases

Windows installers are code-signed by SignPath Foundation. See our Code Signing Policy.

Official Linux repository:
https://awawa-dev.github.io/

Latest test builds (GitHub Actions):
View latest builds on master branch

Login required → select the latest build from the master branch → download setups from the ZIP artifacts.

Documentation

👉 Explore Our Wiki 👈

Community

HyperHDR Support Forum

How to Compile HyperHDR from Source

Compiling HyperHDR

In the Press

Make: Magazine #84 (2023)
MagPi #117 (2022)
Comparison of modern ambient lighting systems (2023)
Tutorial on raspberrypi.com
Building a 4K HDMI TV Backlight (2021)




License

Released under the MIT License
GitHub license

Install HyperHDR on Unraid in a few clicks.

Find HyperHDR in Community Apps on your Unraid server, review the template, and click Install. Unraid handles the Docker app or plugin setup from the published template.

Open the Apps tab on your Unraid server Search Community Apps for HyperHDR Review the template variables and paths Click Install

Download Statistics

105,631
Total Downloads
3,321
This Month
3,601
Avg / Month

Total Downloads Over Time

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Details

Repository
nocturno/hyper-hdr:latest
Last Updated2025-03-27
First Seen2024-01-29

Runtime arguments

Web UI
http://[IP]:[PORT:8090]
Network
bridge
Shell
sh
Privileged
false

Template configuration

HTTP Web UIPorttcp

Port used to access the web interface of the application via http.

Target
8090
Default
8090
Value
8090
HTTPS Web UIPorttcp

Port used to access the web interface of the application via https.

Target
8092
Default
8092
Value
8092
JSON ServerPorttcp
Target
19444
Default
19444
Value
19444
Flatbuffers ServerPorttcp
Target
19400
Default
19400
Value
19400
Protocol Buffers ServerPorttcp
Target
19445
Default
19445
Value
19445
Boblight ServerPorttcp
Target
19333
Default
19333
Value
19333
UDP RAW ReceiverPortudp
Target
5568
Default
5568
Value
5568
PUIDVariable
Default
99
Value
99
PGIDVariable
Default
100
Value
100
Local configuration folderPathrw
Target
/config