“G-SPACE's Microgravity Analytics Platform is incorporated in the NASA Physical Science Informatics (PSI) data repository to accelerate discovery across disciplines from the NASA microgravity dataset and translate findings into real-world benefits here on Earth.”
Lead Scientist, Microgravity Physical Sciences
NASA
“Whether analyzing legacy datasets or supporting next-generation experiments, G-SPACE gives scientists the tools to transform microgravity data into discovery -- on Earth and in orbit.”
Program Manager, NASA Biological and Physical Sciences
NASA
“By combining ML and physics-based models with space science, G-SPACE helps bridge Earth and orbit for R&D teams across biotechnology, materials science, and advanced manufacturing, enabling experiment optimization and outcome prediction that reduce costs and de-risk every flight.”
Director of Strategic Engagement
ISS National Lab
“The G-SPACE platform gives you the intelligence to understand and predict what will happen in microgravity. From simple graphical manipulation to deep AI/ML-based analysis and physics-based models, it is a wonderfully next-level tool for life sciences and materials work.”
Senior Director
Blue Origin
“In low-gravity, the parametric space is vast and individual simulations can take weeks to run. G-SPACE standardizes analysis, tracks phenomena, and enables direct comparison across gravity conditions and surface patterns, all without custom scripting. It lets students and researchers spend less time on data infrastructure and more time on the underlying science.”
Professor
Low-Gravity Heat Transfer Research
“When every student builds their own ML-based analysis tools to convert raw data into basic physics, you can't compare results across experiments. G-SPACE solves that -- one standardized, tested platform that lets researchers focus on advanced science, not the data pipeline.”
Professor
Multiphase Transport
“G-SPACE's platform transforms experimental imagery and sensor data into quantitative physical properties and predictive insights, allowing engineers to model, optimize, and redesign semiconductor growth processes before the next flight experiment.”
CTO
Semiconductor Manufacturing Company
“We are excited to be working with G-SPACE's ML-powered microgravity platform to support the optimization of our bio-manufacturing process. By turning experimental data into quantitative decision-ready insights, G-SPACE helps us better understand each manufacturing step, improve quality and yield, and de-risk scaling production in space.”
CEO
Biomanufacturing Company
“G-SPACE's AI/ML platform gave us the ability to quantify microgravity's effect on our muscle tissue chip performance directly from video data recorded aboard the International Space Station. Their algorithms are purpose-built for the microgravity environment, and for in-space manufacturing of biological systems, that capability is critical.”
CEO
Tissue Engineering & Space Biomanufacturing Company
“Our preliminary experiments on zero-gravity flights showed significant improvement in printed electronics under microgravity -- but to truly leverage that advantage, you need to understand why. G-SPACE enables us to predict how microgravity enhances material behavior, allowing us to design targeted experiments that maximize performance and generate unique devices for use on Earth and in space.”
Professor, Microgravity Printed Electronics
Nirmala Kandadai, Oregon State University
“G-SPACE's Microgravity Analytics Platform is incorporated in the NASA Physical Science Informatics (PSI) data repository to accelerate discovery across disciplines from the NASA microgravity dataset and translate findings into real-world benefits here on Earth.”
Lead Scientist, Microgravity Physical Sciences
NASA
“Whether analyzing legacy datasets or supporting next-generation experiments, G-SPACE gives scientists the tools to transform microgravity data into discovery -- on Earth and in orbit.”
Program Manager, NASA Biological and Physical Sciences
NASA
“By combining ML and physics-based models with space science, G-SPACE helps bridge Earth and orbit for R&D teams across biotechnology, materials science, and advanced manufacturing, enabling experiment optimization and outcome prediction that reduce costs and de-risk every flight.”
Director of Strategic Engagement
ISS National Lab
“The G-SPACE platform gives you the intelligence to understand and predict what will happen in microgravity. From simple graphical manipulation to deep AI/ML-based analysis and physics-based models, it is a wonderfully next-level tool for life sciences and materials work.”
Senior Director
Blue Origin
“In low-gravity, the parametric space is vast and individual simulations can take weeks to run. G-SPACE standardizes analysis, tracks phenomena, and enables direct comparison across gravity conditions and surface patterns, all without custom scripting. It lets students and researchers spend less time on data infrastructure and more time on the underlying science.”
Professor
Low-Gravity Heat Transfer Research
“When every student builds their own ML-based analysis tools to convert raw data into basic physics, you can't compare results across experiments. G-SPACE solves that -- one standardized, tested platform that lets researchers focus on advanced science, not the data pipeline.”
Professor
Multiphase Transport
“G-SPACE's platform transforms experimental imagery and sensor data into quantitative physical properties and predictive insights, allowing engineers to model, optimize, and redesign semiconductor growth processes before the next flight experiment.”
CTO
Semiconductor Manufacturing Company
“We are excited to be working with G-SPACE's ML-powered microgravity platform to support the optimization of our bio-manufacturing process. By turning experimental data into quantitative decision-ready insights, G-SPACE helps us better understand each manufacturing step, improve quality and yield, and de-risk scaling production in space.”
CEO
Biomanufacturing Company
“G-SPACE's AI/ML platform gave us the ability to quantify microgravity's effect on our muscle tissue chip performance directly from video data recorded aboard the International Space Station. Their algorithms are purpose-built for the microgravity environment, and for in-space manufacturing of biological systems, that capability is critical.”
CEO
Tissue Engineering & Space Biomanufacturing Company
“Our preliminary experiments on zero-gravity flights showed significant improvement in printed electronics under microgravity -- but to truly leverage that advantage, you need to understand why. G-SPACE enables us to predict how microgravity enhances material behavior, allowing us to design targeted experiments that maximize performance and generate unique devices for use on Earth and in space.”
Professor, Microgravity Printed Electronics
Nirmala Kandadai, Oregon State University
NASA Government 
NSF Government 
Space Foundation Not For Profit 
Redwire Payload Provider 
Voyager Technologies Payload Provider 
Frontier Space Tech Payload Provider 
Above Space Flight Provider 
The Exploration Company Flight Provider 
LambdaVision Space Manufacturing 
United Semiconductors Space Manufacturing 
Le Verre Fluore Terrestrial Company 
The Bond Fund Investor 
Blue Startups Investor 
Seraphim Capital Investor