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Computers for Eagle Eyes Scan

The following operating systems are compatible with Eagle Eyes Scan.

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Windows

Windows 10 or newer

Compatible with most modern Windows 10 and Windows 11 systems.

Supported
Apple Logo macOS Logo

macOS (Apple silicon)

M1, M2, M3, M4 chips

Optimized for Apple's ARM64 architecture. Best performance on modern Macs.

Supported
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macOS (Intel)

Intel-based Macs

For older Intel-based Mac computers (x86 architecture). Performance may vary.

Limited Support

💻 What kind of computer do I need to run it?

Eagle Eyes Scan (and its successor, Mirada) is deliberately built to run well on fairly modest laptops. It currently doesn't use the GPU and isn't especially memory-hungry, so there's little advantage to a high-end gaming machine — most of our own development happens on a 2020 M1 MacBook Air. A faster CPU mostly just makes the app more responsive.

Recommended specs
  • Operating system: Windows 10 or 11, or macOS Ventura (13)/Sonoma (14) and newer.
  • Processor — Windows: Intel Core i3/i5/i7 or AMD Ryzen from 2013 onward. The CPU must support AVX instructions, so low-end Celeron, Atom, and Pentium Silver chips are not supported for the TensorFlow-heavy detection workload.
  • Processor — Mac: Apple silicon (M1, M2, M3, M4) is officially supported and runs well. Pre-2020 Intel Macs aren't officially supported — you can try the x86_64 build, but may see errors or slower speeds (fuller support is in the works).
  • Memory (RAM): 8 GB minimum, 16 GB recommended.
  • Graphics (GPU): Not required and currently unused — though this may change as we add new detectors.
  • Storage: At least 2 GB of free space, with more recommended for storing imagery and video.
Drone footage & live video

Scan is essentially drone-agnostic: it can process recorded photos and video from any drone, and it's optimized for DJI (it reads DJI's per-frame GPS from .SRT files and uses DJI file-naming conventions such as _V/_T/_Z to group visual, thermal, and zoom files; there's limited support for Autel's MAX_*/IRX_* naming too). For live detection during a flight, you'll need either an HDMI capture card fed from a controller that can output a clean HDMI signal (no on-screen overlays), or an RTMP network stream.