About Quantum Computing

Quantum Computing Inc. (QCi) fabricates photonic computing engines using thin film lithium niobate (TFLN) technology to provide affordable quantum machines that operate at room temperature and low power. Their solutions enhance high-performance computing, communications, and artificial intelligence applications, addressing the need for accessible quantum technology in various industries.

```xml <problem> Traditional computing methods struggle with complex optimization problems, particularly in areas like high-performance computing, AI, cybersecurity, remote sensing, and biomedical imaging, due to limitations in processing power, energy consumption, and operational temperature requirements. Existing quantum computing solutions often lack accessibility and affordability, hindering widespread adoption across various industries. </problem> <solution> Quantum Computing Inc. (QCi) addresses these challenges by providing accessible and affordable quantum and photonic computing solutions that operate at room temperature and low power. QCi leverages integrated photonics and thin-film lithium niobate (TFLN) technology to fabricate photonic computing engines and quantum machines. These solutions enhance capabilities in high-performance computing, artificial intelligence, cybersecurity, remote sensing, and biomedical imaging. QCi's product portfolio includes quantum computers, reservoir computers, quantum random number generators, and components for quantum communication, offering versatile tools for solving complex problems. </solution> <features> - Dirac series: Entropy quantum computers (EQC) for binary and integer optimization, solving objective function minimization and maximization problems. - EmuCore: Reservoir computing product for time series analysis and temporal pattern recognition, boasting up to 60,000 virtual nodes and processing 1.25G nodes per second. - uQRNG: Portable quantum random number generator providing genuine random numbers derived directly from quantum processes for cryptographic protocols, gaming, blockchain, and simulations. - Entanglement Source: Creates broadband entangled photons across the entire telecom C-band for quantum communication applications. - Frequency Converter: Enables quantum frequency conversion for quantum optical information processing and sensing. - Single-photon imaging: Optical imaging system capable of reconstructing three-dimensional image structures hidden behind obscurants. - TFLN Foundry Services: Fabrication of photonic computing engines using thin film lithium niobate (TFLN) for integrated photonics. </features> <target_audience> QCi's primary customers include organizations in high-performance computing, artificial intelligence, cybersecurity, remote sensing, biomedical imaging, and quantum research seeking accessible and affordable quantum and photonic computing solutions. </target_audience> ```

What does Quantum Computing do?

Where is Quantum Computing located?

Quantum Computing is based in Leesburg, United States.

When was Quantum Computing founded?

Quantum Computing was founded in 2018.

Location

Leesburg, United States

Founded

2018

Employees

69 employees

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Quantum Computing

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Executive Summary

quantumcomputinginc.com 10K+

Founded 2018 – Leesburg, United States

Funding

No funding information available.

Team (50+)

No team information available.

Company Description

Problem

Traditional computing methods struggle with complex optimization problems, particularly in areas like high-performance computing, AI, cybersecurity, remote sensing, and biomedical imaging, due to limitations in processing power, energy consumption, and operational temperature requirements. Existing quantum computing solutions often lack accessibility and affordability, hindering widespread adoption across various industries.

Solution

Quantum Computing Inc. (QCi) addresses these challenges by providing accessible and affordable quantum and photonic computing solutions that operate at room temperature and low power. QCi leverages integrated photonics and thin-film lithium niobate (TFLN) technology to fabricate photonic computing engines and quantum machines. These solutions enhance capabilities in high-performance computing, artificial intelligence, cybersecurity, remote sensing, and biomedical imaging. QCi's product portfolio includes quantum computers, reservoir computers, quantum random number generators, and components for quantum communication, offering versatile tools for solving complex problems.

Features

Dirac series: Entropy quantum computers (EQC) for binary and integer optimization, solving objective function minimization and maximization problems.

EmuCore: Reservoir computing product for time series analysis and temporal pattern recognition, boasting up to 60,000 virtual nodes and processing 1.25G nodes per second.

uQRNG: Portable quantum random number generator providing genuine random numbers derived directly from quantum processes for cryptographic protocols, gaming, blockchain, and simulations.

Entanglement Source: Creates broadband entangled photons across the entire telecom C-band for quantum communication applications.

Frequency Converter: Enables quantum frequency conversion for quantum optical information processing and sensing.

Single-photon imaging: Optical imaging system capable of reconstructing three-dimensional image structures hidden behind obscurants.

TFLN Foundry Services: Fabrication of photonic computing engines using thin film lithium niobate (TFLN) for integrated photonics.

Target Audience

QCi's primary customers include organizations in high-performance computing, artificial intelligence, cybersecurity, remote sensing, biomedical imaging, and quantum research seeking accessible and affordable quantum and photonic computing solutions.