The ANTARDHWANI platform integrates a full ultrasound transducer array, analog front-end, digital signal processing, and an AI inference engine — all on a single chip.
At the core of ANTARDHWANI's innovation is a next-generation semiconductor ultrasound platform capable of outperforming conventional ultrasound systems while dramatically reducing size, cost, and infrastructure dependency. This is not an incremental improvement — it is a fundamental reimagining of how ultrasound technology is built.
Our proprietary semiconductor architecture integrates the full ultrasound transducer array, analog front-end, and digital processing on a single chip — shrinking what once filled a cart into a device that fits in your palm. Decades of miniaturization work compressed into one production-ready platform.
Our platform exceeds the imaging resolution and clinical performance of conventional ultrasound — without the bulk, cost, or maintenance overhead of legacy systems. Real-time, high-fidelity acoustic data processed entirely on-device, with no compromise on diagnostic accuracy.
Seamless pairing with standard smartphones transforms any mobile device into a clinical-grade diagnostic workstation — enabling consistent, high-quality imaging from ICUs in Tokyo to community clinics in sub-Saharan Africa.
ANTARDHWANI's platform is powered by an advanced on-chip artificial intelligence engine purpose-built for real-world clinical environments — no cloud dependency, no latency, no connectivity barrier. The AI runs entirely on the device, making it equally capable in a connected urban hospital and an off-grid rural clinic.
The AI platform is designed to augment clinical decision-making — providing physicians with real-time analytical support across neurodevelopmental screening, prenatal assessment, and therapeutic guidance, without exposing patients to radiation.
Designed for point-of-care use by clinicians, community health workers, and emergency responders. Pairs with any modern smartphone. Fits in a coat pocket.
Miniaturized form factor for continuous in-body monitoring — enabling real-time, longitudinal data collection without repeat clinical visits or patient burden.
Scalable deployment for fixed clinical settings — from primary care clinics to community health centers — delivering enterprise-grade imaging without enterprise infrastructure.