Shor

WISeKey AI Capabilities to Increase Cybersecurity and Performance of Post-Quantum Semiconductors by Assisting in the Design and Optimization

Retrieved on: 
Tuesday, April 18, 2023
Quantum sensor, Semiconductor, Internet of things, WIHN, Research, WKEY, Environmental monitoring, Machine learning, Anomaly, Algorithm, Drug discovery, Quantum information science, Quantum machine learning, AI, Quantum computing, Behavior, Shor, Medical device, Microscope

Geneva, Switzerland – April 18, 2023: WISeKey International Holding (“WISeKey”, SIX: WIHN, NASDAQ: WKEY), a leading cybersecurity, AI and IoT company, announced today that using AI capabilities to increase the performance of post-quantum semiconductors by assisting in the design and optimization of these materials.

Key Points: 
  • Geneva, Switzerland – April 18, 2023: WISeKey International Holding (“WISeKey”, SIX: WIHN, NASDAQ: WKEY), a leading cybersecurity, AI and IoT company, announced today that using AI capabilities to increase the performance of post-quantum semiconductors by assisting in the design and optimization of these materials.
  • AI can also improve the performance of post-quantum semiconductors is by accelerating the discovery of new materials with desirable properties.
  • Machine learning algorithms can be trained on large datasets of known semiconductors to identify patterns and correlations between their properties and performance.
  • For example, post-quantum semiconductors can be used to create new quantum key distribution protocols that are more secure than classical cryptography.

Fujitsu quantum simulator assesses vulnerability of RSA cryptosystem to potential quantum computer cryptography threat

Retrieved on: 
Monday, January 23, 2023
RIKEN, Confidentiality, Shor, SCIS, Data, Research, RSA, Computer, Information, SNS, Microscope, Cryptocurrency, Fujitsu

Fujitsu researchers discovered that a fault-tolerant quantum computer (3) with a scale of approximately 10,000 qubits and 2.23 trillion quantum gates would be required to crack RSA -- well beyond the capabilities of even the most advanced quantum computers in the world today.

Key Points: 
  • Fujitsu researchers discovered that a fault-tolerant quantum computer (3) with a scale of approximately 10,000 qubits and 2.23 trillion quantum gates would be required to crack RSA -- well beyond the capabilities of even the most advanced quantum computers in the world today.
  • Researchers further estimated that it would be necessary to conduct fault-tolerant quantum computation for about 104 days to successfully crack RSA .
  • Despite this, concerns remain that once available, fault-tolerant quantum computers will be able to factor even huge composite numbers, and thus pose a potential threat to RSA cryptography.
  • This means that one day, it will become necessary to shift from the RSA cryptosystem to alternative technologies such as post-quantum cryptography.

Xiphera and Flex Logix Publish Joint White Paper on Solving the Quantum Threat with Post-Quantum Cryptography on eFPGA

Retrieved on: 
Monday, November 7, 2022
Field-programmable gate array, VP, Algorithm, Time, Application-specific integrated circuit, AI, Logic, SOC, PQC, Post-quantum cryptography, Organization, Intellectual property, Entrepreneurship, IP, Shor, Technology, Solution, Cryptocurrency, FPGA

While quantum computing and its development offer answers to various computational problems, they also threaten the security of current cryptosystems.

Key Points: 
  • While quantum computing and its development offer answers to various computational problems, they also threaten the security of current cryptosystems.
  • "Using eFPGA as implementation platforms for PQC enables a smooth and secure shift from traditional cryptosystems to the new PQC systems."
  • The white paper discusses implementation of PQC algorithms on eFPGA and how this can deliver tremendous advantages to SoC designers.
  • About Flex Logix Technologies Inc.
    Flex Logix is a reconfigurable computing company providing leading edge eFPGA and AI Inference technologies for semiconductor and systems companies.

Enterprise Executive Tamar Shor Joins Databook as Senior Vice President, Product

Retrieved on: 
Friday, January 28, 2022
Software, Technology, Internet, Data Management, Leadership, Marketing, Shor, Automation, BA, Software as a service, Technology, Intelligence, Research, McKinsey & Company, Software, Computer science, Company, BS, Acquisition, Senior, Tamar, CRM, Multimedia, MBA, INSEAD, Super Mario, BMC Software, Management, Sales, Product

Databook, the leading platform in enterprise customer intelligence, today announced that Tamar Shor has been named the companys Senior Vice President of Product.

Key Points: 
  • Databook, the leading platform in enterprise customer intelligence, today announced that Tamar Shor has been named the companys Senior Vice President of Product.
  • View the full release here: https://www.businesswire.com/news/home/20220128005479/en/
    Tamar Shor is named Senior Vice President, Product, for Databook.
  • Shor has also held senior product and strategy positions with BMC Software and McKinsey & Company, driving transformative value at global enterprises.
  • Together with the entire executive team, I am thrilled to have Tamar join us and bring her vast leadership and product experience to Databook, says Anand Shah, Databook CEO.

Scientists Develop a Way to Lengthen a Satellite's Lifespan 10 Times for Absolutely Secure Quantum Communications, NUST MISIS Reports

Retrieved on: 
Thursday, October 21, 2021
Quantum information science, Technology, Radiation, Physics, Proton, Central heating, NUST, University, Travel, Telescope, Fiber, Algorithm, Photon, Electronics, Noise, Institute for Quantum Computing, Communication, QKD, Semiconductor, Quantum, Heat, Light, European Physical Journal, Silicon, Temperature, Institute, Shor, Associate, Orbit, Microscope

This prolongs the life of the satellite by reducing the level of "noise" that disables the quantum communication system.

Key Points: 
  • This prolongs the life of the satellite by reducing the level of "noise" that disables the quantum communication system.
  • The exchange of secret keys between users of a communication network enables a safe way to exchange messageswithout eavesdropping and information leakage.
  • However, a quantum computer is, basically, capable of breaking even such encryption due to the so-called Shor's factoring algorithm .
  • They make use of public optical channels to securely distribute keys by exchange of quantum bits, carried by single photons of light.

Scientists Develop a Way to Lengthen a Satellite's Lifespan 10 Times for Absolutely Secure Quantum Communications, NUST MISIS Reports

Retrieved on: 
Thursday, October 21, 2021
Quantum information science, Technology, Radiation, Physics, Proton, Central heating, NUST, University, Travel, Telescope, Fiber, Algorithm, Photon, Electronics, Noise, Institute for Quantum Computing, Communication, QKD, Semiconductor, Quantum, Heat, Light, European Physical Journal, Silicon, Temperature, Institute, Shor, Associate, Orbit, Microscope

This prolongs the life of the satellite by reducing the level of "noise" that disables the quantum communication system.

Key Points: 
  • This prolongs the life of the satellite by reducing the level of "noise" that disables the quantum communication system.
  • The exchange of secret keys between users of a communication network enables a safe way to exchange messageswithout eavesdropping and information leakage.
  • However, a quantum computer is, basically, capable of breaking even such encryption due to the so-called Shor's factoring algorithm .
  • They make use of public optical channels to securely distribute keys by exchange of quantum bits, carried by single photons of light.