Battery Simulation Platform
Simulate Before You Build
The future of battery development begins with simulation. Our platform helps you
validate designs, predict performance, and optimize configurations.
Join our beta program to help shape the next generation of battery research tools.
Live Simulation Engine
Watch Battery Simulation In Action
Watch a live drone battery simulation showing real-time discharge during flight,
landing, and fast-charging cycles.
Advanced Capabilities
Comprehensive Battery Modeling
From electrochemical fundamentals to system-level behavior, our platform covers
every aspect of battery performance.
Multi-Chemistry Support
Simulate all major battery chemistries including LiPo,
LiFePO4, NMC, NCA, and LTO with validated models.
Chemistry-specific parameters
Validated against real data
Custom formulation support
Electrical Modeling
Simulate electrical characteristics including DC fast-
charge behavior, power capability analysis, and real-
world mission profiles.
DCFC (DC Fast-charge) simulation
Power capability analysis
Mission profile modeling
Vehicle/drone flight profiles
Performance Optimization
Test different configurations, charge profiles, and use
cases before physical prototyping.
Design space exploration
Parameter optimization
Trade-off analysis
Degradation Prediction
Predict capacity fade, impedance growth, and cycle life
under various operating conditions.
Calendar aging models
Cycle aging simulation
Stress factor analysis
Thermal Modeling
Thermal simulation including average cell temperature
monitoring, battery pack temperature distribution, and
cooling system analysis.
Average cell temperature tracking
Pack-level temperature monitoring
Cooling system optimization
Chemistry Support
All Major Battery Chemistries
Simulate battery cathode-anode combinations with thermal monitoring, cell-level
temperature tracking, and cooling system optimization based on real-world
testing data.
NMC-Gr
Nickel Manganese Cobalt - Graphite
• Electric Vehicles
• Grid Storage
• Power Tools
LFP-Gr
Lithium Iron Phosphate - Graphite
• Energy Storage
• Electric Vehicles
• Marine Applications
NCA-Gr
Nickel Cobalt Aluminum - Graphite
• High-Performance EVs
• Aerospace
• Premium Electronics
NCA-Gr/Si
Nickel Cobalt Aluminum - Graphite/Silicon
• Next-Gen EVs
• High Energy Density
• Fast Charging
NMC-Gr/Si
Nickel Manganese Cobalt - Graphite/Silicon
• Advanced EVs
• High Capacity Storage
• Fast Charging
LFP-Gr/Si
Lithium Iron Phosphate - Graphite/Silicon
• Next-Gen Storage
• Long-Life EVs
• Grid Applications
LCO-Gr
Lithium Cobalt Oxide - Graphite
• Smartphones
• Laptops
• Consumer Electronics
Simulation Questions
Everything
About Battery
Simulation
Learn how our simulation platform can transform
your battery development process and accelerate
innovation.
How accurate will your battery simulations be compared to real-world testing?
Our simulation platform is currently in beta development with validation from partner research institutions. We're building our models on established electrochemical fundamentals and collaborating with leading labs to ensure accuracy. Beta users will help us refine and validate our predictions before public release.
Can I simulate different battery chemistries and configurations?
Yes! Our simulation platform supports all major battery cathode-anode combinations including NMC-Gr, LFP-Gr, NCA-Gr, NMCA-Gr/Si, LiPo, and LCO-Gr. You can test different cell configurations, pack designs, thermal management systems, and use cases before building physical prototypes.
Do I need specialized expetise to run battery simulations?
Not at all. Our simulation tools are designed for researchers and engineers at any level. We provide intuitive interfaces, pre-configured templates for common scenarios, and guided workflows. Advanced users can still access detailed parameters and custom modeling options.
How much time and cost could simulation save compared to physical testing?
Battery simulation has the potential to dramatically reduce development time and costs. Our goal is to enable rapid design iteration that would typically take weeks in physical testing to happen in minutes. Early beta users are already seeing significant time savings in their research workflows.
Will I be able to validate simulation results with real testing data?
Yes! Our platform is being designed to seamlessly integrate simulation and experimental data. You'll be able to compare predictions with actual results, helping to improve model accuracy over time. This validation capability is a key focus of our current development efforts.
What types of battery scenarios can I simulate?
Our platform covers the full range of battery applications: EV drive cycles, grid storage profiles, consumer electronics usage patterns, aerospace missions, and custom duty cycles. You can simulate thermal behavior, degradation mechanisms, safety scenarios, and performance under various environmental conditions.
Real-World Applications
Accelerate Development Across Industries
From automotive to aerospace, our simulation platform empowers engineers to
innovate faster and build better batteries.
Drones & Electric Aviation
Electric Vehicle Development
Consumer Electronics
Grid Energy Storage
Drones & Electric Aviation
Optimize battery systems for aerial vehicles, from consumer drones to electric aircraft with
mission-critical power requirements.
Flight profile simulation
Weight optimization
Mission range analysis
Development Impact
Target 80% reduction in test flights
From flight testing to simulation
Risk Reduction
Validate designs before costly prototyping
Start Simulating Today
Ready to Transform Your
Development Process?
Join leading battery developers who are using simulation to innovate faster, reduce costs, and
build better products.