664 research outputs found
Roadmap on optical security
Postprint (author's final draft
An overview of memristive cryptography
Smaller, smarter and faster edge devices in the Internet of things era
demands secure data analysis and transmission under resource constraints of
hardware architecture. Lightweight cryptography on edge hardware is an emerging
topic that is essential to ensure data security in near-sensor computing
systems such as mobiles, drones, smart cameras, and wearables. In this article,
the current state of memristive cryptography is placed in the context of
lightweight hardware cryptography. The paper provides a brief overview of the
traditional hardware lightweight cryptography and cryptanalysis approaches. The
contrast for memristive cryptography with respect to traditional approaches is
evident through this article, and need to develop a more concrete approach to
developing memristive cryptanalysis to test memristive cryptographic approaches
is highlighted.Comment: European Physical Journal: Special Topics, Special Issue on
"Memristor-based systems: Nonlinearity, dynamics and applicatio
Designing Hash and Encryption Engines using Quantum Computing
Quantum computing (QC) holds the promise of revolutionizing problem-solving
by exploiting quantum phenomena like superposition and entanglement. It offers
exponential speed-ups across various domains, from machine learning and
security to drug discovery and optimization. In parallel, quantum encryption
and key distribution have garnered substantial interest, leveraging quantum
engines to enhance cryptographic techniques. Classical cryptography faces
imminent threats from quantum computing, exemplified by Shors algorithms
capacity to breach established encryption schemes. However, quantum circuits
and algorithms, capitalizing on superposition and entanglement, offer
innovative avenues for enhancing security. In this paper we explore
quantum-based hash functions and encryption to fortify data security. Quantum
hash functions and encryption can have numerous potential application cases,
such as password storage, digital signatures, cryptography, anti-tampering etc.
The integration of quantum and classical methods demonstrates potential in
securing data in the era of quantum computing.Comment: 6 pages, VLSID Special sessio
Group theory in cryptography
This paper is a guide for the pure mathematician who would like to know more
about cryptography based on group theory. The paper gives a brief overview of
the subject, and provides pointers to good textbooks, key research papers and
recent survey papers in the area.Comment: 25 pages References updated, and a few extra references added. Minor
typographical changes. To appear in Proceedings of Groups St Andrews 2009 in
Bath, U
Quantum attacks on Bitcoin, and how to protect against them
The key cryptographic protocols used to secure the internet and financial
transactions of today are all susceptible to attack by the development of a
sufficiently large quantum computer. One particular area at risk are
cryptocurrencies, a market currently worth over 150 billion USD. We investigate
the risk of Bitcoin, and other cryptocurrencies, to attacks by quantum
computers. We find that the proof-of-work used by Bitcoin is relatively
resistant to substantial speedup by quantum computers in the next 10 years,
mainly because specialized ASIC miners are extremely fast compared to the
estimated clock speed of near-term quantum computers. On the other hand, the
elliptic curve signature scheme used by Bitcoin is much more at risk, and could
be completely broken by a quantum computer as early as 2027, by the most
optimistic estimates. We analyze an alternative proof-of-work called Momentum,
based on finding collisions in a hash function, that is even more resistant to
speedup by a quantum computer. We also review the available post-quantum
signature schemes to see which one would best meet the security and efficiency
requirements of blockchain applications.Comment: 21 pages, 6 figures. For a rough update on the progress of Quantum
devices and prognostications on time from now to break Digital signatures,
see https://www.quantumcryptopocalypse.com/quantum-moores-law
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