Electronic
Warfare
Modern EW platforms must detect, identify, and counter threats in increasingly congested and contested electromagnetic environments. The HyperX Midnight’s massively parallel architecture enables low latency, real-time signal processing. Through rapid algorithm updates and dynamic in-the-field reconfiguration, systems based on HyperX Midnight remain ahead of emerging threats.
Key Advantages for EW Systems:
- Low Latency Processing – Execute time-sensitive detection and countermeasure functions with microsecond-level response times.
- Massive Parallelism – Handle wideband spectrum monitoring, simultaneous signal demodulation, and multiple threat engagements in real time.
- Dynamic Reconfiguration – Adapt algorithms and countermeasure strategies on the fly without system downtime.
- Energy Efficiency – Reduce Size, Weight, and Power (SWaP) for airborne, naval, and ground-based EW platforms.
- Secure Processing – On-chip security features protect sensitive mission algorithms from exploitation.
The HyperX Midnight Processor’s architecture supports a full range of EW capabilities, including:
- Support – Signal detection, interception, direction finding, and classification.
- Attack – Jamming, deception, and denial of adversary sensors and communications.
- Protect – Counter-countermeasures to maintain system performance under attack.
The HyperX Midnight Processor supports common EW algorithms:
- Fast Fourier Transform
- Wavelet Transforms
- Energy Detection
- Matched Filtering
- Constellation Analysis
- Machine Learning Classifiers
- Noise Jamming Waveform Generation
- Repeater/Deceptive Jamming Techniques
- DRFM (Digital Radio Frequency Memory) Signal Synthesis
- Adaptive Beamforming for Jamming Nulls and Lobes
- Adaptive Filtering and Notch Filtering
- Spread Spectrum Processing (FHSS, DSSS)
- Adaptive Modulation and Coding
- Error Correction Coding
