Quantum Imaging

High-resolution images and signals from quantum dot detection systems.

A series of computer microchips are aligned in a diagonal pattern against a black background filled with binary code and blue curved lines. The microchips feature intricate circuitry details.
A series of computer microchips are aligned in a diagonal pattern against a black background filled with binary code and blue curved lines. The microchips feature intricate circuitry details.
A close-up view of a microchip on a circuit board being worked on with precision instruments. The scene is illuminated, highlighting the intricate electronic components and the fine details of the circuit.
A close-up view of a microchip on a circuit board being worked on with precision instruments. The scene is illuminated, highlighting the intricate electronic components and the fine details of the circuit.
A close-up view of a green circuit board featuring a prominent black microchip with metallic pins. The microchip has white alphanumeric markings on its surface, and the surrounding area displays various circuit patterns and solder points.
A close-up view of a green circuit board featuring a prominent black microchip with metallic pins. The microchip has white alphanumeric markings on its surface, and the surrounding area displays various circuit patterns and solder points.
A person wearing safety glasses and gloves operates a scientific instrument, possibly in a laboratory setting. They hold a small vial near a device labeled 'Applied Nanofluorescence' while a computer monitor shows data graphs and charts in the background.
A person wearing safety glasses and gloves operates a scientific instrument, possibly in a laboratory setting. They hold a small vial near a device labeled 'Applied Nanofluorescence' while a computer monitor shows data graphs and charts in the background.

Data Collection Services

We specialize in high-resolution image and signal gathering from quantum dot detection systems.

Model Development

Design AI models that analyze quantum dot signals to classify wafer defects effectively and accurately.

A small green electronic component or device placed on a rough surface. The component has orange and white markings, with text that reads 'PB 08G300 CA07 01006'. The surface appears to be made of concrete or a similar material and has some dark spots and imperfections.
A small green electronic component or device placed on a rough surface. The component has orange and white markings, with text that reads 'PB 08G300 CA07 01006'. The surface appears to be made of concrete or a similar material and has some dark spots and imperfections.
Fine-Tuning AI

Optimize GPT-4 for interpreting complex quantum dot data and identifying defect patterns in wafers.

Integrate models into real-time environments to enhance accuracy, speed, and reliability of defect detection.

Real-Time Testing
A pattern of square chips arranged in a grid, each featuring a prominent blue center surrounded by a greenish-brown circuit-like design. The lighting emphasizes the central area, creating a vignette effect around the edges.
A pattern of square chips arranged in a grid, each featuring a prominent blue center surrounded by a greenish-brown circuit-like design. The lighting emphasizes the central area, creating a vignette effect around the edges.
A small electronic device, likely a microcontroller or a sensor, is placed on a dark surface. It has a green circuit board and is labeled with 'Elementz.' There are visible components, including a small rectangular screen or panel.
A small electronic device, likely a microcontroller or a sensor, is placed on a dark surface. It has a green circuit board and is labeled with 'Elementz.' There are visible components, including a small rectangular screen or panel.
Insights

Advanced analysis of quantum dot defect signals.

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