Ushering in the era of
Computational Bioprocess
Using the physics, chemistry, and biology of upstream cell culture, Ark's virtual bioreactor software simulates the complex interactions between biological materials and the bioreactor environment — with high predictive power.
BIOPROCESS X MODELING
Modeling superpowers for scientists everywhere.
By using advanced multiphysics models that capture the complex dynamics of upstream cell culture, Ark turns convoluted data into actionable insights for real-world impact.
Ark is fundamentally transforming how bioprocess is performed through democratizing computational tools, empowering innovators to achieve more breakthroughs, faster.
Precision through dynamic simulation.
Unlock real-time process insights
Ark's dynamic simulation capabilities mirror the inherent complexity of bioprocesses in real-time.
By modeling continuous changes in cell growth, titer, and product quality, we capture the cumulative effects essential for optimizing performance across scales.
Our approach provides a holistic view of bioreactor operations, revealing critical insights about cell metabolism, mass transfer, and chemical kinetics as they evolve over time.
Outperform steady-state models
Unlike spreadsheet calculations with steady-state models, Ark's dynamic modeling approach captures real-time fluctuations and interdependencies between key process parameters and state variables.
By embedding custom metabolic models trained on your data into a first-principles simulation engine, our tool enables advanced time-series and sensitivity analyses.
A more fine-grained representation of the process allows for precise controller tuning, uncertainty estimation, and comprehensive design space exploration—adapting to the complex needs of cell culture optimization.
The world's most sophisticated bioprocess models made accessible.
Comprehensive interdependencies
Dynamic simulations that integrate physical, chemical, and biological factors for deeper insights.
Validated mechanistic equations
Refined equations and parameters by resolving inconsistencies in literature and validating through targeted experiments.
Metabolism and quality modeling
High-fidelity simulations of cell growth, titer, and product quality to optimize performance.
Realistic controls
Controls designed to mirror real-world automation complexities, ensuring model fidelity.
Time-series simulations
Insights on dynamic and accumulative effects to identify and solve complex issues.
Accessible by any scientist
Advanced models in an intuitive, no-code interface—enabling every scientist to easily run simulations.
Ark helps breakthroughs
break through.
With Ark, today’s innovators can make better decisions and fundamentally de-risk development.
Understand cell culture
Uncover complex interactions in upstream cell culture, and transform bioprocess development from time-consuming iterations to insight-driven science.
Drive development with model-aided design
Uplift bioprocess development with synergy of predictive models and highly targeted experiments.
Design and test without limits
Simulate thousands of experiments in silico, so you can map unexplored spaces, understand complex constraints, and avoid dead ends.
Test complex hypotheses
Test hypotheses with minimal activation energy and accelerate investigation cycle.
Better bioprocess,
better outcomes.
