Ultrasound AI is limited by data.
Real data is realistic but lacks ground truth
Clinical ultrasound data provides authentic imaging characteristics, but often lacks precise annotations and ground truth labels needed for supervised learning.
Synthetic data has labels but lacks realism
Generated synthetic data offers perfect labels and controlled scenarios, but often fails to capture the complex artifacts and variations present in real ultrasound imaging.
Data is hard to scale
Collecting and annotating sufficient ultrasound data for robust AI training is slow, expensive, and limited by patient privacy and clinical constraints.
Physics simulation forged with real-world data.
ForgeAcoustics turns ultrasound AI development from a data bottleneck into a repeatable engineering process: real data informs simulation, simulation generates ground truth, and the result becomes task-specific software.
Real Ultrasound Data
Physics Simulation
Synthetic Ground Truth
Model Training
Finished Software
One workflow. Two deployment modes.
Forge Flow
A cloud-based pipeline for end-to-end ultrasound algorithm development: data ingestion, simulation generation, synthetic ground truth, training, evaluation, and deployment-ready outputs.
- • Automated data processing
- • Physics-informed synthetic generation
- • GPU-accelerated training and evaluation
Forge Suite
A secure local development environment for procedural, physics-informed tissue phantom generation and task-specific simulation.
- • On-premise deployment
- • Secure handling of sensitive data
- • Customizable anatomy and simulation parameters
Tailor-made ultrasound software.
Vascular & Cardiac Segmentation
Real-time segmentation for vascular and cardiac ultrasound acquisition, supporting deformation analysis, motion quantification, and task-specific clinical workflows.
- • Vessel and tissue segmentation
- • Cardiac deformation analysis
- • Acquisition support
Lung Speckle Tracking
A lung ultrasound application that tracks speckle movement across frames to estimate tissue displacement, stress, and strain.
- • Speckle motion tracking
- • Stress and strain analysis
- • Quantitative lung mechanics
Optic Nerve Sheath Measurement
Automated multi-parameter optic nerve sheath assessment for faster, more repeatable ultrasound analysis.
- • Automated detection
- • Multi-parameter measurements
- • Improved consistency
From data bottleneck to algorithm factory.
For Researchers
- • Faster hypothesis testing
- • Controlled ground truth
- • Reproducible experiments
- • Task-specific models and software
For Investors
- • Platform technology, not a single algorithm
- • Multiple clinical verticals
- • Scalable software and data infrastructure
- • Strong positioning in ultrasound AI development
Build your next ultrasound algorithm faster.
Book a demo to see how ForgeAcoustics turns real-world ultrasound data and physics simulation into tailor-made AI software.
Book a Demo