Solution 01

Q-RaNGe
(यादृच्छिक)

Encryption

The user sending a sensitive information usually wraps this in an envelope (encoding). The envelope is a random sequence of bits which can be interpreted by only the recipient (decoding). However classical RNGs are not truly random, meaning that it is possible to locate the underlying patten with enough observations. Our product is a semi device-independent quantum Random Number Generator that produces truly random bits that are certifiable by the principles of Quantum Mechanics. This enhances the security of encryption, manifold and ensures heightened protection for sensitive data. Furthermore, the other potential applications of this technology span across cryptography, weather forecasting, and various research areas in the basic sciences.

Features

  • Secure Random Numbers are certified locks to protect your data in cryptography.
  • Inherently Random Quantum Processes are excellent sources(QRNG's), but lack the ability to verify its Quantum Nature.
  • Quantum RNG's require Quantum Certificates i.e. tests that validate its Quantum Nature.
  • We provide high speed QRNG's which can be validated by certain tests, which certify the Quantumness of the system.
  • We harness the randomness of single systems, which you can self verify using the outputs. (Based on publications and patent filed in collaboration with Raman Research Institute).
  • Your data's security is attested by the authenticity of Quantum Mechanics. Can you identify a more secure alternative?

Use Cases

Financial Services
Government & Defense
Telecommunications

High-Assurance Cryptographic Key Generation

Secure generation of one-time pads and session keys for banking transaction networks, inter-bank data exchanges, and secure VPN tunnels.

Unbreakable Keys

Critical Infrastructure Protection

QRNG systems deliver true, device-independent randomness certified by quantum temporal correlations, ensuring keys cannot be predicted by adversaries.

Eliminates PRNG Vulnerabilities

Secure Communications

Generation of cryptographic keys for secure communications in telecom and cloud service providers.

Quantum-Certified Randomness
Solution 02

Q-Crypt
(रक्षित)

Security and Communication

Is your transmission line secure? Is your bank account password secure? Well, yes, to an extent. Classical algorithms provide a security against classical interception attempts. But how can we prevent someone with a quantum computer from intercepting our communications or hacking our passwords and other sensitive data? This question has gained great momentum with the advent of quantum computers. To answer this, we are focused on few fundamental aspects of a quantum secure network such as security, encryption and device imperfections (noisy environments). Our software application focusses on each of these aspects to provide a secure encryption even with imperfect devices, ensuring heightened security in transmission of sensitive data.

Features

  • Communications secured by shared key
  • Shared Key is a quantum state
  • Part of key is random
  • Automated reporting

Our solution

  • A shared key that is truly random using [Q-RaNGe].
  • Guaranteed certifiability of randomness. (Based on publication and patent filed in collaboration with Raman Research Institute).
  • Alice and Bob have imperfections (noise) accounted for.
  • Fully developed and patented front and back end solutions.
  • Agile and reliable for security and end-end encryption in versatile scenarios.
  • Deployment ready. (Based on patent in collaboration with Raman Research Institute).

Global Secure Communications

🛡️

Satellite-Based QKD

Enabling truly secure, long-distance encryption key exchange over intercontinental distances via satellite links.

🌐

Global Coverage

Seamless connectivity for remote regions, maritime vessels, and mobile platforms.

Unconditional Security

Guaranteed by quantum mechanics against any computational attack.

National Security Global Finance Critical Infrastructure
Solution 03

Q-Sight
(दृष्टि)

Imaging and Sensing

Our web based software application, Q-Sight, employs quantum algorithms for feature extraction in images covering a wide range of applications from anomaly detection in medical images to facial recognition, NLP and satellite based terrain mapping. We have already established classical algorithms for feature based categorization of ECGs in a user-friendly application. Our ongoing product development platform uses quantum techniques to further optimize the feature selection. Both our classical and quantum algorithms are extremely simple, highly robust and readily generalizable to higher dimensional signals (images) with minimal cost, promising a leap forward in the field of computer vision. The salient features of our algorithms are discussed below.

1. Classical imaging

  • Precise detection and analysis of signals
  • Feature extraction
  • Classification using techniques from Quantum Field Theory

2. Quantum Imaging

  • Enhanced focussing for anomaly detection
  • Quantum data compression for resource optimization
  • Disease based classification and categorization

Quantum-Enhanced Medical Imaging

Superior Image Reconstruction

Quantum algorithms for image denoising and feature extraction deliver enhanced contrast and resolution beyond classical limits.

Reduced Photon Exposure

Sub-shot-noise imaging reduces required photon counts, minimizing patient radiation dose while preserving image fidelity.

Early Detection

Advanced quantum feature recognition identifies microtumors, vascular lesions, and cellular abnormalities at their earliest stages.

Applications

  • Clinical diagnostics and radiology
  • Pharmaceutical R&D for in-vivo studies
  • Next-generation quantum imaging systems
Solution 04

Q-Lite
(अव्यक्त)

Portable Quantum Photon Source

A single photon source generates light one photon at a time, enabling truly random number generation, secure quantum communication, scalable quantum computing, and fundamental tests of quantum physics. QuSyn's Correlated Photon-Pair Sources employ spontaneous parametric down-conversion (SPDC) to create photon pairs. These sources are aimed at being compact, portable, and self-contained, featuring an integrated pump laser and offering high-brightness photon-pair generation rates.

Features

  • Continuous integration
  • Container orchestration
  • Infrastructure as code
  • Performance optimization

Secure Authentication for IoT

Industrial IoT

Device identity provisioning and firmware update signing in smart factories and industrial control systems.

Healthcare IoT

Hardware-rooted key generation for medical devices and remote patient monitoring systems.

Energy & Utilities

Mutual device authentication for smart grid infrastructure and substations.

Transportation

Unique, non-reproducible secrets for connected vehicles and asset tracking systems.

Prevents large-scale botnet takeovers and protects sensitive data at the network edge
Solution 05

QSI

Quantum State Interferography

Quantum State Interferography (QSI) is a resource-efficient method for estimating quantum states using interference patterns, offering a faster alternative to traditional Quantum State Tomography (QST). It enables single-shot measurements by analyzing visibility and phase shifts, without disturbing the system. Validated through photonic experiments, QSI works for both pure and mixed states and scales linearly with system dimension—ideal for high-dimensional qudits and entangled systems. Its non-invasive nature and compatibility with quantum computing platforms make it valuable for real-time diagnostics and scalable quantum technologies. Developed by Indian research institutes and published in Physical Review Letters, QSI marks a shift toward pattern-based quantum inference and automated state analysis.

Features

  • Continuous integration
  • Container orchestration
  • Infrastructure as code
  • Performance optimization