The rate at which quantum computing is hitting the media stream is ever-increasing. This piece is a collection of articles and reports covering various aspects of quantum computing from the lens of cybersecurity and cryptography. Mea Cubitt
The rate at which quantum computing is hitting the media stream is ever-increasing. This piece is a collection of articles and reports covering various aspects of quantum computing from the lens of cybersecurity and cryptography. Mea Cubitt
Low Power-High Performance
WHITEPAPERS
The background, impact, and urgency of the threat of quantum computing to the contemporary cryptographic infrastructure, and what can be done about it.
August 11th, 2021 –
By: Arm
Quantum computing is increasingly seen as a threat to communications security: rapid progress towards realizing practical quantum computers has drawn attention to the long understood potential of such machines to break fundamentals of contemporary cryptographic infrastructure. While this potential is so far firmly theoretical, the cryptography community is preparing for this possibility by developing Post-Quantum Cryptography (PQC), that is, cryptography resisting the increased capabilities of quantum computers. In this white paper, we explore the background, impact, and urgency of this threat, and summarize the cryptographic schemes being evaluated. We also provide recommendations on what steps should be taken today to be prepared for the changes to come, and discuss how Arm is approaching PQC.
Click here to read more.
The Inter-American Development Bank and its innovation laboratory, IDB Lab, together with Cambridge Quantum (CQ) and Tecnológico de Monterrey have identified and resolved potential threats to blockchain networks posed by the advent of quantum computer development. In response to these threats, the project team developed a cryptographic layer that allows blockchain networks to protect themselves from this new generation of computing technologies.
The rate at which quantum computing is hitting the media stream is ever-increasing. This piece is a collection of articles and reports covering various aspects of quantum computing from the lens of cybersecurity and cryptography. Mea Cubitt
The rate at which quantum computing is hitting the media stream is ever-increasing. This piece is a collection of articles and reports covering various aspects of quantum computing from the lens of cybersecurity and cryptography. Mea Cubitt
A team of scientists at Los Alamos National Laboratory propose that modulated quantum metasurfaces can control all properties of photonic qubits, a breakthrough that could impact the fields of quantum information, communications, sensing and imaging, as well as energy and momentum harvesting.
A team of scientists at Los Alamos National Laboratory propose that modulated quantum metasurfaces can control all properties of photonic qubits, a breakthrough that could impact the fields of quantum information, communications, sensing and imaging, as well as energy and momentum harvesting.
The rate at which quantum computing is hitting the media stream is ever-increasing. This piece is a collection of articles and reports covering various aspects of quantum computing from the lens of cybersecurity and cryptography. Mea Cubitt
The rate at which quantum computing is hitting the media stream is ever-increasing. This piece is a collection of articles and reports covering various aspects of quantum computing from the lens of cybersecurity and cryptography. Mea Cubitt
