Industrial-Scale Quantum Computing with Room Temperature Photonics  

Read our blueprint

QC82 is on a bold journey to deliver industrial-scale photonic QC with millions of qubits by using its breakthroughs in room temperature photodetection and low-loss photonic chip designs.

 

Estimated market

BCG, Where Will Quantum Computers Create Value – and When?, bcg.com (2019)

 
/ Materials $0.4B
/ Pharma $0.2B
— 3-5 years
/ Materials $2.5B
/ Pharma $1.5B
— ~ 10 years
/ Materials $27B
/ Pharma $35B
— ~ 20 years

Photonics is one of the most promising approaches for scaling quantum computers to millions of qubits.

To realize the scaling of photonic QC we are developing breakthrough photon number resolving detectors integrated on photonic chips working at room temperature.

And, to open up practical photonic QC applications, we have devised architectures that generate photonic qubits at very high probabilities, eliminate error-prone photonic components, and limit the requirements for demanding photon number resolution.

We are building the future of QC with room temperature, low-loss, scalable, quantum photonics.

Cofounders

We are a powerhouse of QC and photonic experts working together to make quantum computing a reality.

Hussain Zaidi

CEO
QC82

Olivier Pfister

Professor Physics
UVA

Andreas Beling

Professor ECE
UVA

Xu Yi

Assistant Professor ECE
UVA

Joe Campbell

Professor ECE
UVA

 

Our partners

 
 
 
 

Latest news

 
News
DARPA Partners with QC82

QC82 partners with DARPA on US2QC

QC82 Wins Build Our Future Grant
QC82 Wins Maryland Industrial Partnerships Grant