RESILIENT SPACE
COMPUTING SYSTEMS

INNOVATION TO DRIVE THE SPACE ECONOMY

Intelligent systems in space require advanced computing, storage and connectivity capabilities that can withstand the high radiation levels and extreme temperatures. Ramon.Space revolutionizes data-centric space missions, using proven technology that will radically transform satellites into SW-based, smart and autonomous systems. Combining in-house advanced IC integrated circuits and virtual radiation hardening technology designed for space and manufactured in standard high volume processes, creating a new generation of Space COTS (commercial off the shelf) components that set new benchmarks for the space economy.

2020 ESA SOLAR ORBITER
POWERED BY
RAMON.SPACE TECHNOLOGY

COMPUTE PLATFORM FOR SPACE INFRASTRUCTURE.

THE WORLD'S MOST PROGRAMMABLE
COMPUTING SYSTEMS IN SPACECRAFT

A platform of space computing products built from the ground up to enable advanced SW applications in space. With powerful processing, high-density storage and modular architecture, our computing systems are the core to enable next generation data-driven applications and space services.

CORE BUILDING BLOCKS
KEY FEATURES
COMPUTE PLATFORM BENEFITS

PROCESSOR ICS

  • World’s most advanced space ML/AI DSP
  • Manycore architecture
  • Supports multi-processor environment
  • In-house technology

SPACE STORAGE

  • High reliability
  • Intra-satellite RAID (redundant array of independent disks)
  • Distributed storage
  • High endurance

SW TECHNOLOGY

  • Upgradeable in Orbit
  • Digital signal processing
  • ML/AI frameworks
  • Networking

RADIATION TECHNOLOGY

  • Virtual Radiation Shield™
  • Correct radiation errors in external memories and data links
  • Monitor health, enforce recovery
  • FDIR (Fault Detection Isolation & Recovery)
  • LEO, MEO, GEO and deep space
  • Vertically integrated core technology
  • Modular and scalable architecture
  • In orbit SW upgrades
  • High-density storage
  • Multi-layered Radiation hardening

UNLIMITED MISSION FLEXIBILITY

EXTENDED ORBITAL LIFETIME

EARTH-LIKE COMPUTING, STORAGE AND CONNECTIVITY

SPACE RESILIENT IN ANY ORBIT

OPTIMIZED SWaP-C

ENABLES INFINITE MISSIONS

2023 ESA JUPITER ORBITER
POWERED BY
RAMON.SPACE TECHNOLOGY

BUILDING INFINITE SW-BASED SOLUTIONS

Our multi-service computing platform can be used for essential data handling to Store, Process and Connect data in infinite applications.

REMOTE SENSING, EARTH
OBSERVATION & IOT

Powered by AI & ML engines enabling the full span, from real-time processing of images or sensing data in orbit, to massive storage and downlink transmission. Our solution is cost effective, optimized SWaP (size, weight and power) and fully software programmable.

COMMUNICATION
CONSTELLATIONS

Ranging from mega LEO constellations to MEO and GEO satellites, our software-based communication solutions enable the realization of regenerative and non-regenerative smart communication satellites, including channelizers, inter-satellite links, routing in space, digital beamforming and beam hopping.

DATA CENTERS & EDGE
COMPUTING

With high-density space storage and high-performance computing capabilities, our computing platform enables data networks, edge computing, container applications and data compressions. Our solution allows for autonomous operations and onboard analytics for data driven customers.

SPACE
EXPLORATION

Our computing platforms power unique space exploration missions all over the solar system. With diverse applications and software, we support complex missions, delivering unmatched performance under hostile space conditions.

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