LinkedIn The Future of Ultrasound is Here
We’re building the next generation of ultrasound technology. With highly dense 2D arrays and an in-house silicon chip, our third generation of technology brings unlimited imaging modalities, omni-shear imaging, and 3D volumetric reconstructions to your fingertips.
Our Third Generation Ultrasound Technology
The next leap in our technology pushes the physical limits of ultrasound hardware. Our palm-sized systems combine ultra-dense 2D arrays, proprietary silicon chips, and machine learning that distills petabytes of acoustic data into clear, actionable insights.
- 24576
- Transducers
- 3.0
- Tbps
- 300
- Volumes Per Second
Next-generation 2D arrays deliver higher spatial
resolution and true volumetric imaging
Massive 2D Arrays
High-density 2D arrays deliver markedly higher spatial resolution and true volumetric imaging, enabling finer detection of defects and faster, more repeatable inspections.
Powered by G3
Powered by our proprietary G3 silicon, our 3rd generation ultrasound tech delivers real-time volumetric imaging with superior signal-to-noise ratio and on-chip beamforming. Compact, rugged, and low-latency, it enables faster, more reliable defect detection.
Unlimited Flexibility
One system – all materials, geometries, and defect types. Our 2D-array and G3 silicon combine to deliver unmatched material and geometric versatility—inspecting composites, metals, and plastics in any form-factor with a single platform. Detect hairline delaminations, porosity, cracks, inclusions, and bond failures while performing inline quality checks and batch inspections.
Scalable and Adaptable
Designed to be stackable, integratable, and modular, our ultrasound platform fits industries from aerospace and energy to manufacturing, infrastructure, and energy. Stack modules for broader coverage, integrate via standard APIs and robotic interfaces for inline or automated inspections, and swap configurable elements (frequency, form factor, compute) to match specific needs.
Foundational ML Models
DarkVision has already amassed the world’s largest UT datasets and utilizes scalable GPU compute to find and quantify defects hidden in billions of ultrasound images. Building on our existing 13 foundational AI models, deploying this next generation of ultrasound technology will take AI in the physical world to the next level.
Applications
Aerospace
Composite laminate quality, delamination, bond inspection
Prevent catastrophic incidents, loss of life, & improve manufacturing yield by finding & quantifying defects & damage early
Defense
Rapid inspection of structural parts and assemblies
Ensure military equipment availability to guarantee asset deployment speed
Manufacturing
Inline QA for high-volume production
Catch flaws early in base or finished products to reduce or eliminate costly downstream issues
Process Industries
Highly accurate quantification of corrosion, deformation, and cracking
Prevent plant downtime by quantifying key corrosion and cracking risks within assets in processing streams
Electronics
Lithium battery cell and PCB integrity
Prevent safety-critical anomalies from making it off the production line
Power Generation & Data Centers
Turbine blades, nuclear facilities, and data-center cooling systems
Inspection of critical power and process equipment to ensure power grids are reliable, including uptime protection of critical cooling systems in the age of AI