Product Portfolio

Key Features in Development:

• Radiation-tolerant design (TID, SEL, SEU protection)

• High-speed data processing with space-grade ARM Cortex processors

• Low power consumption for prolonged mission life

• Built-in redundancy for fault tolerance

• Compliance with aerospace standards (MIL-STD, ECSS)

• Operating temperature range: -55°C to +125°C

AeroSense - Space-Grade FPGA

AeroSense is an ongoing development project aimed at creating a radiation-hardened FPGA for critical space missions. The FPGA is being designed to ensure high reliability and performance under extreme conditions such as radiation exposure and temperature variations. The project involves 28nm and 16nm technology nodes and aims to comply with MIL-STD-883 and ECSS-Q-ST-60-13C standards.

StratoCore - Satellite Communication SoC

StratoCore is currently under development as an advanced SoC for satellite communication systems, with the goal of enabling high-speed data transmission for Earth observation, navigation, and broadband applications. This project is being fabricated using 22nm technology and will adhere to ITAR and space-grade radiation standards.

Key Features in Development:

• Integrated RF transceivers for Ka/Ku band communications

• Onboard AI for adaptive beamforming

• High-throughput modulation techniques (QPSK, QAM)

• Secure data encryption and compression

• Low latency real-time processing

• Radiation-hardened ARM Cortex-A53 processors

NanoTrack - GNSS Receiver SoC

NanoTrack is an ongoing project to develop a high-precision Global Navigation Satellite System (GNSS) receiver chip. The aim is to provide multi-constellation support for aerospace and defense applications with a focus on energy efficiency and accuracy.

Key Features in Development:

• Multi-band support (GPS, GLONASS, Galileo, BeiDou)

• Advanced anti-jamming and anti-spoofing features

• Low power consumption for extended operations

• High-accuracy positioning in dynamic environments

• Built-in atomic clock synchronization

• Compliance with DO-254 and RTCA DO-178C

SonicWave - Spaceborne Audio Processing SoC

SonicWave is under active research and development to provide superior noise cancellation and high-fidelity audio processing capabilities for aerospace communication systems.

Key Features in Development:

• High-fidelity audio output

• Noise suppression and echo cancellation

• Low latency processing

• Multi-channel support

• Adaptive audio enhancement algorithms

• Compliance with ITAR and DO-160G standards

VisionX - Spaceborne Imaging Processor

The VisionX project is aimed at designing an AI-powered image processing SoC for spaceborne cameras and sensors used in Earth observation and deep-space exploration.

Key Features in Development:

• Real-time high-resolution image processing

• AI-based object recognition and classification

• High dynamic range (HDR) support

• Low-latency data transmission capabilities

• Optimized for low power and harsh environments

• Compliance with NASA EEE-INST-002 standards

AutoDrive - Avionics Control SoC

AutoDrive is an ongoing effort to create a reliable SoC for aerospace avionics systems, focusing on real-time control and monitoring for flight-critical applications.

Key Features in Development:

• Redundant architecture for fail-safe operations

• Real-time telemetry and diagnostics

• Integrated secure boot and encryption

• Support for multiple aerospace protocols (ARINC, MIL-STD-1553)

• High-speed data acquisition capabilities

• Compliance with DO-254 standards

LumiScan - LIDAR Processing SoC

LumiScan is a future initiative targeting advanced LIDAR processing SoCs for precise 3D mapping and object detection in aerospace applications.

Key Features in Development:

• High-resolution 3D imaging

• Long-range detection

• Multi-beam scanning technology

• Energy-efficient operation

• Compact and lightweight design

• Compliance with MIL-STD-810G standards

EchoRad - RADAR Signal Processing SoC

EchoRad is being developed as a high-performance RADAR signal processing SoC for aerospace surveillance, navigation, and weather monitoring applications.

Key Features in Development:

• Wide frequency range coverage

• High sensitivity and accuracy

• Low power operation

• Compact integration with existing systems

• Robust interference rejection

• Designed per AS9100 aerospace quality standards

SignalPro - Aerospace DSP Core

SignalPro is an initiative to develop a digital signal processing core optimized for aerospace applications, aiming to provide real-time computation for telecommunications, radar, and imaging systems.

Key Features in Development:

• High-speed signal processing

• Low power architecture

• Scalable performance options

• AI and ML acceleration

• Integrated development support tools

• Compliance with ITAR and DO-254

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