The comprehensive computation suite that empowers materials scientists and formulation engineers to discover, optimize, and validate. Faster than ever before, with your IP never leaving your infrastructure.
The Platform
Designer Space™ is a unified computation platform that brings together the tools your team needs to optimize formulations, discover material relationships, and accelerate product development — all within a single, intuitive environment.
Single Pane of Glass
Projects, experiments, materials data, and every module live in one workspace. Your team moves from question to validated formulation without ever leaving the platform.
Tool Suite
Purpose-built modules support every stage of the formulation workflow, from material screening through optimization and validation. Click any screen to explore it full-size.
Grounded answers — every claim cited.
A materials-science copilot that answers in plain language and shows its work. Every claim is traced to a source, and a live agent trace lets you watch how it reached the answer — no invented citations, just evidence you can follow back to your own literature and data.
Navigate the whole design space at a glance.
Interactive visualization and parameter space exploration environment that lets your team visually navigate composition-property relationships and identify optimal regions.
Structured experiments, fewer runs.
Experimental design and statistical analysis tools that enable structured, efficient exploration of your formulation parameter space with fewer experiments.
Identify and match materials by spectrum.
Intelligent material identification and matching capabilities that help your team rapidly characterize and compare materials across your formulation library.
From ingredients to predicted performance.
AI-powered formulation assistant that leverages your organization's data and domain knowledge to suggest optimized compositions and predict material performance.
Deployment
Designer Space™ is designed to run within your organization's own infrastructure — keeping your proprietary formulation data, models, and IP entirely under your control.
Deploy on your own servers or private network. All computation and data storage remain within your organization's security perimeter — no external data transmission.
Your formulation data and proprietary models never leave your environment. Role-based access controls and encrypted storage ensure complete data sovereignty.
Add tools as your needs grow. Each module operates independently within the suite, enabling tailored configurations for different teams, projects, or research domains.
Enabling Sustainable Innovation
Bridging advanced computation with materials science to accelerate the transition to high-performance, sustainable products across the value chain.
AI-integrated computation platforms are compressing traditional materials discovery timelines from years to months, enabling organizations to bring sustainable formulations to market faster.
The U.S. EPA has set a national target to reach 50% recycling by 2030. State-level single-use plastics bans across California, New York, and Oregon are driving demand for bio-based and recycled material optimization.
The EU Green Deal mandates a 55% emission reduction by 2030 vs. 1990 levels, while REACH's Safe & Sustainable by Design framework and Canada's zero plastic waste strategy create global convergence on sustainable material development.
Computational approaches to formulation optimization are delivering dramatic cost reductions across polymer compounding, bio-based material development, and recycled content integration.
The North American bioplastics and biopolymers market is forecast to exceed $3 billion by 2030, growing at 10.5% CAGR, with USDA BioPreferred programs and corporate sustainability commitments accelerating adoption.
Federal ambitions to replace 90% of fossil-derived plastics with bio-based alternatives, combined with major brand commitments to sustainable packaging, create a massive addressable market for formulation tools.
Market Context
AI-driven materials informatics is among the fastest-growing segments in enterprise software, with North America leading global adoption.
U.S. leads globally in materials informatics adoption, driven by aerospace, electronics, and pharmaceutical demand for advanced materials.
Federal agencies (DOE, NSF, USDA) actively fund AI-based material innovation and industry-academia partnerships.
State-level single-use plastics bans in California, New York, Washington, and Oregon accelerate demand for bio-based formulation tools.
Canada's Zero Plastic Waste strategy and a strong presence of AI materials companies bolster the regional ecosystem.
EU Green Deal (55% emission cut by 2030) and REACH regulations mandate sustainable material development across chemical industries.
Corporate sustainability commitments — Walmart, Unilever, and others pledging 100% sustainable packaging — create massive downstream demand.
Asia-Pacific is emerging as the fastest-growing region, with China and Japan investing heavily in computational material science infrastructure.
The global biodegradable plastics market is projected at $42.4B by 2035 (11.5% CAGR), requiring optimized formulations at scale.
Discover how Designer Space™ can accelerate your formulation development, reduce costs, and help you deliver sustainable products to market faster.