Who We Are
Integrated Quantum Photonics (IQP) develops solid-state silicon photomultiplier (SiPM) sensors that bring single-photon precision into scalable, real-world systems. Headquartered in Houston, we design our own chips, building the foundation for advanced LiDAR, medical imaging, robotics, and optical technologies.
Who We Are
Integrated Quantum Photonics (IQP) develops solid-state silicon photomultiplier (SiPM) sensors that bring single-photon precision into scalable, real-world systems. Headquartered in Houston, we design our own chips, building the foundation for advanced LiDAR, medical imaging, robotics, and optical technologies.
Who We Are
Integrated Quantum Photonics (IQP) develops solid-state silicon photomultiplier (SiPM) sensors that bring single-photon precision into scalable, real-world systems. Headquartered in Houston, we design our own chips, building the foundation for advanced LiDAR, medical imaging, robotics, and optical technologies.
Who We Are
Integrated Quantum Photonics (IQP) develops solid-state silicon photomultiplier (SiPM) sensors that bring single-photon precision into scalable, real-world systems. Headquartered in Houston, we design our own chips, building the foundation for advanced LiDAR, medical imaging, robotics, and optical technologies.
Our Founder
Prof. Dr. Dr. Valeriy Savelyev is the original inventor of the SiPM sensor. Trained as a high-energy physicist at the Moscow Engineering and Physics Institute, he went on to lead research at institutes across Europe and the United States, contributing to projects at DESY, CERN, and Fermilab. His work established the physical principles behind modern single-photon detection, and he founded IQP to translate those advances into practical, deployable technology.
Our Founder
Prof. Dr.Valeriy Savelyev is the original inventor of the SiPM sensor. Trained as a high-energy physicist at the Moscow Engineering and Physics Institute, he went on to lead research at institutes across Europe and the United States, contributing to projects at DESY, CERN, and Fermilab. His work established the physical principles behind modern single-photon detection, and he founded IQP to translate those advances into practical, deployable technology.
Our Founder
Prof. Dr. Valeriy Savelyev is the original inventor of the SiPM sensor. Trained as a high-energy physicist at the Moscow Engineering and Physics Institute, he went on to lead research at institutes across Europe and the United States, contributing to projects at DESY, CERN, and Fermilab. His work established the physical principles behind modern single-photon detection, and he founded IQP to translate those advances into practical, deployable technology.
Our Founder
Prof. Dr. Dr. Valeriy Savelyev is the original inventor of the SiPM sensor. Trained as a high-energy physicist at the Moscow Engineering and Physics Institute, he went on to lead research at institutes across Europe and the United States, contributing to projects at DESY, CERN, and Fermilab. His work established the physical principles behind modern single-photon detection, and he founded IQP to translate those advances into practical, deployable technology.
our mission
Designing the baseline for reliable perception.
The next generation of autonomy and sensing will be defined not only by incremental software, but by the quality of the data that feeds it. Our mission is to push photon-level detection into every system that depends on vision — from vehicles to medical devices — ensuring decisions are built on measurements that cannot be compromised.
our mission
Designing the baseline for reliable perception.
The next generation of autonomy and sensing will be defined not only by incremental software, but by the quality of the data that feeds it. Our mission is to push photon-level detection into every system that depends on vision — from vehicles to medical devices — ensuring decisions are built on measurements that cannot be compromised.
our mission
Designing the baseline for reliable perception.
The next generation of autonomy and sensing will be defined not only by incremental software, but by the quality of the data that feeds it. Our mission is to push photon-level detection into every system that depends on vision — from vehicles to medical devices — ensuring decisions are built on measurements that cannot be compromised.
Our Mission
Designing
perception.
the baseline
for reliable
Designing the baseline for reliable perception.
The next generation of autonomy and sensing will be defined not only by incremental software, but by the quality of the data that feeds it. Our mission is to push photon-level detection into every system that depends on vision — from vehicles to medical devices — ensuring decisions are built on measurements that cannot be compromised.
