UNCONDITIONAL SECURITY
based on the quantum basic laws
Despite being widely used on the Web the nowaday cryptography is expected to be unsecured. The quantum computing algorithms for hacking are already in existence.

The only thing is quantum computing that is forthcoming to the market over the next several years. So that the encrypted data will be available to the public.

By now quantum cryptography shields from such "future attacks". It rules out the risk of surreptitious communications monitoring by applying basic properties of elementary particles.

Even as we speak the quantum encrypting should be used by banks, corporate organizations, authorities and others, who are responsible for sustainable data privacy.
Industrial system
Product description
QRate Key Distributor is created for integration into existing solutions for cryptographic protection of information. By means of QRate Key Distributor the possibility of frequent and safe updating of encryption keys is implemented.
Technical characteristics
  • Laser pulse repetition, MHz - 300
  • Quantum key distribution distance, km - 100
  • Key generation rate at 25 km not less than 10 Kbps
  • QKD protocol (for standard configuration) - ВВ84 decoy state
  • Transmitter/receiver dimensions - 450х600х177(4U) mm
Academic system
Product description
Academic system is the end-to-end solution for education and research in quantum communications. Modular design provides optical schemes modifications, easy integration with new components and QKD protocols researches.
Technical characteristics
  • Laser pulse repetition rate, MHz - 5
  • Distance of quantum key distribution, max, km ≤ 50
  • QKD protocol (for standard configuration) - ВВ84



Single Photon detector
Product description
QRate single-photon avalanche detector (SPAD) is designed to apply for quantum communication. It is better used on the telecommunication frequencies. Its advantages are the low detector dark count rates and configurable parameters of delays, sampling and dead time. Therefore, QRate SPD is the perfect choice to apply in following areas:
  • quantum secured data transfer networks;
  • photon entanglement experiments;
  • single photon generation in Quantum optics fibre;
  • low optical signals detection in microbiology testing;
  • 3-dimensional high-altitude ground mapping.
Technical characteristics
  • Detector type: semiconductor, InGaAs/InP
  • Operating wavelength, nm - 1550
  • Quantum efficiency, % - 10
  • Detector dark count rate, kHz < 1
  • Gate duration – 400 picoseconds
  • Sampling frequency, MHz - 300
  • Afterpulsing, % < 1
Quantum Random Number Generator
Product description
To provide the numbers subsequence, where the current numbers don't correlate to previous one, is the main purpose of Quantum Random Number Generator (QRNG).

The pseudorandom number algorithmic generators are the most widely used. They are deterministic computer programs, used for generating random exit sequence of longer length by means of entry random data. However, pseudorandom number algorithmic generators are inoperative for Quantum cryptography due to the existence of hacking threats.
    QRate development milestones
    2015
    • Electronic control system designed
    • The Company granted by The Ministry of Education and Science Grand
    2016
    • Quantum key Processing platform is designed
    • Quantum cryptography technology is tested by Gazprom Bank
    2017
    • High-speed control electronics designed.
    • Pilot model of industrial system is tested in collaboration with Sberbank
    2018
    • Serial production of QKD Industrial system is implemented
    Contacts


    Clients
    enquiries@goqrate.com
    Press
    Anna Shangina
    ash@rqc.ru
    Career
    careers@goqrate.com
    Address
    Business-center "Ural", 100, Novaya street, Skolkovo, Moscow, 143025 RUSSIA
    Contacts

    Clients
    enquiries@goqrate.com
    Press
    Анна Шангина
    ash@rqc.ru
    Career
    careers@goqrate.com
    Address
    Business-center "Ural", 100, Novaya street, Skolkovo, Moscow, 143025 RUSSIA