SEALSQ Corp (NASDAQ: LAES) ("SEALSQ" or "Company"), a company that
focuses on developing and selling Semiconductors, PKI and
Post-Quantum technology hardware and software products, today
announces its intention to complete traditional existing Public Key
Infrastructure (PKI) technology with advanced Post-Quantum
Cryptography (PQC) and post-quantum semiconductors. This
development reflects SEALSQ's commitment to staying ahead of the
rapidly evolving cybersecurity landscape and safeguarding sensitive
data from emerging quantum threats.
For over two decades, traditional cryptographic standards such
as RSA and ECC (Elliptic Curve Cryptography) have formed the
foundation of internet security, protecting billions of online
interactions and transactions. However, with the rise of quantum
computing, these standards face significant vulnerabilities. As
quantum technology progresses, it is becoming increasingly likely
that powerful quantum computers could break RSA and ECC encryption,
rendering existing security methods inadequate.
To address these challenges, SEALSQ is adopting post-quantum
cryptography algorithms like Crystals-Kyber, Crystals-Dilithium,
Sphincs+, and Falcon. These cutting-edge algorithms, designed to
withstand the computational power of quantum computers, can also
operate seamlessly on classical computer hardware, ensuring
compatibility with current devices and systems. Importantly, these
algorithms do not require a quantum computer to function, making
the transition more practical and efficient.In 2022, the National
Institute of Standards and Technology (NIST) took a significant
step toward securing the future of cryptography by announcing the
standardization of these post-quantum algorithms. SEALSQ’s adoption
of these standards demonstrates its proactive approach to
implementing robust, future-proof security solutions.
In addition to cryptography, SEALSQ is integrating
post-quantum semiconductors into its solutions,
further enhancing the resilience of connected devices and systems
in the post-quantum era. These semiconductors, designed with
quantum-resistant architectures, provide enhanced performance,
power efficiency, and security in anticipation of quantum computing
breakthroughs. By combining post-quantum cryptographic algorithms
with innovative semiconductor technology, SEALSQ is pioneering a
comprehensive approach to safeguarding digital infrastructures from
quantum threats.As part of the WISeKey Group, SEALSQ has been
operating a PKI Root of Trust since 1999, managing a robust
infrastructure that has delivered over 6 billion secure downloads
to date. By transitioning to post-quantum cryptography and
semiconductors, SEALSQ continues to enhance its PKI offerings,
ensuring resilience against tomorrow’s quantum computing threats
while maintaining the highest levels of trust and
reliability.Introduction to Post-Quantum
Cryptography
Understanding the Need for Quantum-Resistant
CryptographyAs we venture further into the digital age,
the security of our information systems becomes increasingly
paramount. Classical cryptographic techniques, which have long
safeguarded our data, are now under threat from the advent of
quantum computing. Quantum computers leverage the principles of
quantum mechanics to perform computations that are infeasible for
classical computers. This immense processing power poses a
significant risk to traditional cryptographic algorithms, such as
RSA and ECC, which form the backbone of our current security
infrastructure.Quantum computers have the potential to solve
complex mathematical problems exponentially faster than classical
computers. For example, Shor's algorithm, a quantum algorithm, can
efficiently factor large integers, undermining the security of RSA
encryption. Similarly, elliptic curve cryptography (ECC) can be
compromised by quantum computers using advanced algorithms. This
looming threat has sparked a global effort to develop cryptographic
methods that are resistant to quantum attacks—hence, the need for
quantum-resistant cryptography.The Implications of Quantum
Computing on Current Cryptographic StandardsThe
implications of quantum computing for current cryptographic
standards are profound. Cryptographic algorithms that have been
considered secure for decades could become obsolete almost
overnight, exposing sensitive data to potential breaches. The
transition to quantum-resistant cryptography is not merely a matter
of enhancing existing algorithms; it requires fundamentally new
approaches to ensure data remains secure against quantum-enabled
adversaries.Post-quantum cryptography (PQC) involves the
development of cryptographic algorithms that can withstand the
power of quantum computing. The National Institute of Standards and
Technology (NIST) has been at the forefront of this initiative,
evaluating and standardising PQC algorithms to replace or augment
existing standards. Among the leading candidates are lattice-based
algorithms such as Kyber (a key encapsulation mechanism) and
Dilithium (a digital signature algorithm), both of which offer
robust security against quantum attacks while maintaining
efficiency and performance.The shift to PQC is crucial for
safeguarding not only future data but also information that is
currently encrypted and may be susceptible to "harvest now, decrypt
later" attacks. In these scenarios, adversaries collect encrypted
data now, with the intention of decrypting it once quantum
computers become available. By transitioning to quantum-resistant
algorithms, we can ensure the long-term confidentiality and
integrity of our digital communications and data storage.In
conclusion, the emergence of quantum computing necessitates a
proactive approach to cryptographic security. Understanding the
need for quantum-resistant cryptography and the implications for
current standards is the first step in preparing for a post-quantum
world. SealSQ is committed to leading this transition with advanced
solutions like the QS7001 platform, designed to provide robust
security for IoT devices in an era where quantum threats are no
longer theoretical but imminent.SealSQ's Commitment to
Post-Quantum SecuritySealSQ is leading the charge in
securing our digital future against quantum threats. With a focus
on innovation, SealSQ has developed the QS7001 platform, a
state-of-the-art microcontroller designed to provide
quantum-resistant security for IoT devices. This platform
incorporates advanced NIST-recommended algorithms, Kyber and
Dilithium, ensuring robust protection against quantum
attacks.SealSQ’s commitment to innovation and security is reflected
in its rigorous adherence to industry standards and certifications.
Their new QS7001 platform is certified to Common Criteria EAL5+ and
compliant with FIPS SP800-90B, demonstrating its reliability and
robustness in providing advanced security solutions. By pioneering
these technologies, SealSQ is not only enhancing IoT security but
also paving the way for a secure digital future amidst the
challenges posed by quantum computing. We explore how this
game-changing platform will be a vital tool in securing the world's
IoT devices for the future Post-Quantum world.
Key Features of the QS7001 Platform
Quantum-Resistant Cryptography AlgorithmsThe
QS7001 platform is equipped with advanced quantum-resistant
algorithms, Kyber and Dilithium, which are recommended by NIST.
These algorithms provide strong security against potential quantum
computing attacks, ensuring that IoT devices remain secure in the
post-quantum era.High-Performance Secure RISC-V
ArchitectureAt the core of the QS7001 is a
high-performance, low-power 32-bit RISC-V architecture. This secure
microcontroller delivers robust computational power while
maintaining energy efficiency, making it ideal for a wide range of
IoT applications. The RISC-V architecture is known for its
flexibility and scalability, allowing for seamless integration into
various devices and systems.Advanced Cryptographic
AcceleratorsThe QS7001 features a suite of cryptographic
accelerators designed to enhance the performance of security
operations. These include accelerators for AES (128/192/256), RSA
(up to 4096 bits), ECC (256/384 bits), and SHA2/3 (256/384 bits).
These accelerators enable fast and efficient encryption,
decryption, and authentication processes, providing robust security
without compromising performance.Comprehensive Security
MeasuresThe QS7001 platform incorporates multiple layers
of security to protect against various attack vectors. These
include:
- Physical Attack
Resistance: Dedicated hardware protection against
side-channel attacks, such as SPA, DPA, SEMA, and DEMA.
- Environmental
Protection: Monitors for voltage, frequency, temperature,
and light to safeguard against environmental manipulation.
- Secure Memory
Management: Features such as secure memory access and
supervisor mode ensure that sensitive data is protected at all
times.
- Flexible Communication
Interfaces
- The QS7001 supports various
communication protocols, including I2C and SPI, with auto-detection
capabilities. It features a high-speed SPI controller that operates
up to 33Mbps and a robust I2C interface with speeds up to 1Mbps.
These interfaces ensure seamless connectivity and interoperability
with other devices in an IoT ecosystem.
Robust Memory and Storage CapabilitiesWith 512K
bytes of flash memory, 80K bytes of RAM, and 128K bytes of ROM, the
QS7001 provides ample storage for firmware, applications, and
cryptographic operations. The flash memory supports up to 500k
write/erase cycles with wear leveling, ensuring long-term data
retention and reliability.By integrating these key features, the
QS7001 platform stands out as a powerful and versatile solution for
enhancing the security of IoT devices, ready to face the challenges
posed by quantum computing advancements.Certification and
Compliance
Common Criteria EAL5+ CertificationThe QS7001
platform has achieved Common Criteria EAL5+ certification, a
prestigious recognition in the realm of security standards. This
certification indicates that the platform has undergone rigorous
evaluation and testing to ensure it meets the highest security
requirements. The EAL5+ level is particularly significant for
devices requiring a high degree of assurance, such as those used in
sensitive IoT applications.
FIPS SP800-90B ComplianceIn addition to its
EAL5+ certification, the QS7001 platform is compliant with FIPS
SP800-90B standards. This compliance ensures that the random number
generation and cryptographic mechanisms within the platform adhere
to the stringent requirements set forth by the Federal Information
Processing Standards (FIPS). This standard is critical for
maintaining the integrity and security of cryptographic functions,
particularly in environments where data security is
paramount.Meeting Industry StandardsBy adhering to
these certifications, the QS7001 demonstrates SealSQ's commitment
to providing secure, reliable solutions for the IoT industry. These
certifications not only validate the robustness of the QS7001’s
security features but also assure customers that the platform is
equipped to handle the most demanding security
challenges.Ensuring Long-Term Security and
TrustAchieving these certifications underscores the
long-term reliability and security of the QS7001 platform. As the
landscape of cybersecurity continues to evolve, having a certified
and compliant platform ensures that IoT devices can maintain
high-security standards and protect sensitive data against emerging
threats.In summary, the QS7001's certification and compliance with
industry-leading standards like Common Criteria EAL5+ and FIPS
SP800-90B reinforce its position as a top-tier solution for
post-quantum IoT security, offering unparalleled assurance and
peace of mind to users and developers alike.Practical
Applications of the QS7001
Smart CitiesIn the realm of smart cities, the
QS7001 platform plays a crucial role in securing various
interconnected systems. From smart grids to traffic management and
public safety systems, the QS7001 ensures that data transmitted and
stored across city infrastructure is protected against quantum and
classical attacks. Its robust cryptographic capabilities and secure
communication interfaces make it an ideal solution for managing the
vast amount of data and numerous connections inherent in smart city
environments.HealthcareThe healthcare industry
relies heavily on the secure transmission and storage of sensitive
patient data. The QS7001 provides the necessary security measures
to protect electronic health records (EHRs), medical devices, and
telemedicine platforms from cyber threats. Its quantum-resistant
cryptographic algorithms safeguard patient information against
future quantum computing threats, ensuring long-term data
confidentiality and integrity.AutomotiveIn the
automotive sector, the QS7001 platform enhances the security of
connected vehicles and their communication systems. As vehicles
become increasingly autonomous and connected, the need for secure
communication between vehicle-to-vehicle (V2V) and
vehicle-to-infrastructure (V2I) systems becomes paramount. The
QS7001’s advanced cryptographic accelerators and secure memory
management provide robust protection for these critical systems,
preventing unauthorised access and ensuring the safe operation of
connected vehicles.Industrial IoT (IIoT)Industrial
IoT applications, such as smart manufacturing and supply chain
management, benefit significantly from the QS7001’s security
features. The platform’s ability to secure data exchange between
machines, sensors, and control systems ensures the integrity and
confidentiality of operational data. Its resistance to physical and
side-channel attacks makes it suitable for deployment in harsh
industrial environments, where security and reliability are
critical.Financial ServicesIn the financial
sector, the QS7001 can be used to secure transactions, protect
customer data, and ensure the integrity of financial systems. Its
compliance with high-security standards and support for
quantum-resistant algorithms make it an ideal choice for securing
online banking, mobile payments, and blockchain applications. The
platform's robust security features help prevent fraud and cyber
attacks, ensuring trust and confidence in digital financial
services.
Consumer IoTFor consumer IoT devices, such as
smart home appliances, wearables, and personal gadgets, the QS7001
offers unparalleled security to protect user data and privacy. Its
flexible communication interfaces and low-power consumption make it
suitable for a wide range of consumer electronics, ensuring that
these devices can securely interact with each other and with cloud
services. By implementing QS7001, manufacturers can enhance the
security and trustworthiness of their products, providing peace of
mind to consumers.Government and DefenceGovernment
and defence applications require the highest levels of security to
protect sensitive information and communication systems. The
QS7001’s advanced cryptographic capabilities and compliance with
stringent security standards make it an excellent choice for
securing government networks, defence communications, and critical
infrastructure. Its robust protection against quantum and classical
attacks ensures that classified information remains secure, even in
the face of emerging quantum threats.
By integrating the QS7001 platform into these various
applications, SealSQ is helping to secure the future of IoT in a
post-quantum world. Its versatile and powerful features make it a
vital component for any system requiring strong, long-term security
measures.
Benefits of Implementing QS7001 in IoT
Devices
Enhanced Security Against Quantum AttacksOne of
the most significant benefits of adopting the QS7001 is its robust
defense against quantum attacks. By integrating NIST-recommended
quantum-resistant algorithms such as Kyber and Dilithium, the
QS7001 ensures that your IoT devices are future-proofed against the
computational power of quantum computers. This foresight protects
sensitive data and maintains system integrity, providing long-term
security assurance.Scalability and FlexibilityThe
QS7001’s high-performance RISC-V architecture offers excellent
scalability and flexibility, making it suitable for a wide range of
applications. Whether you're deploying in a small-scale consumer
device or a large-scale industrial system, the QS7001 can be
tailored to meet specific requirements. Its flexible communication
interfaces (I2C, SPI) and extensive peripheral support enable
seamless integration into various devices, simplifying the
engineering process and reducing time to market.Low Power
ConsumptionIn the world of IoT, power efficiency is
crucial. The QS7001 is designed with low-power operation in mind,
featuring idle and power-down modes that help conserve energy. This
low power consumption is particularly beneficial for
battery-operated devices, extending their operational life and
reducing maintenance costs. Engineers can leverage this efficiency
to develop sustainable, long-lasting products.
Advanced Cryptographic PerformanceThe QS7001 is
equipped with powerful cryptographic accelerators for AES, RSA,
ECC, and SHA algorithms, ensuring fast and efficient encryption and
decryption processes. This advanced cryptographic performance not
only enhances security but also boosts overall system performance.
Businesses benefit from reduced latency and improved user
experience, which can be critical for time-sensitive
applications.Cost-Effective SolutionImplementing
the QS7001 can lead to significant cost savings over time. Its
durable design, capable of withstanding up to 500k write/erase
cycles with wear leveling, ensures longevity and reduces the need
for frequent replacements. Additionally, its comprehensive security
features minimise the potential costs associated with data breaches
and cyber attacks, such as financial losses, legal repercussions,
and damage to brand reputation.Market
DifferentiationAdopting the QS7001 allows businesses to
differentiate their products in a competitive market by emphasising
superior security features. This differentiation can be a key
selling point, particularly in industries where security is a
critical concern. Offering a product with quantum-resistant
capabilities positions a company as an industry leader, attracting
customers who prioritise long-term security.
Future-Proofing InvestmentsBy investing in the
QS7001, businesses can future-proof their IoT devices against
evolving security threats. As quantum computing advances, having a
platform that is already equipped to handle these new challenges
ensures that products remain viable and secure for years to come.
This strategic foresight protects investment and reduces the need
for costly upgrades or replacements in the future.In conclusion,
the QS7001 provides a multitude of practical benefits, from
enhanced security and low power consumption to regulatory
compliance and market differentiation. Its adoption not only
strengthens the security posture of IoT devices but also offers
significant engineering and business advantages, making it a
valuable asset for any organisation looking to secure its future in
a post-quantum world.
SealSQ is at the forefront of securing the future of IoT in a
rapidly evolving digital landscape. With the QS7001 platform, you
can ensure your devices are protected against the emerging threats
posed by quantum computing while benefiting from advanced
cryptographic performance and comprehensive security features.
About SEALSQSEALSQ focuses on
selling integrated solutions based on Semiconductors, PKI and
Provisioning services, while developing Post-Quantum technology
hardware and software products. Our solutions can be used in a
variety of applications, from Multi-Factor Authentication tokens,
Smart Energy, Smart Home Appliances, Medical and Healthcare and IT
Network Infrastructure, to Automotive, Industrial Automation and
Control Systems.
Post-Quantum Cryptography (PQC) refers to
cryptographic methods that are secure against an attack by a
quantum computer. As quantum computers become more powerful, they
may be able to break many of the cryptographic methods that are
currently used to protect sensitive information, such as RSA and
Elliptic Curve Cryptography (ECC). PQC aims to develop new
cryptographic methods that are secure against quantum attacks. For
more information, please visit www.sealsq.com.
Forward-Looking StatementsThis
communication expressly or implicitly contains certain
forward-looking statements concerning SEALSQ Corp and its
businesses. Forward-looking statements include statements regarding
our business strategy, financial performance, results of
operations, market data, events or developments that we expect or
anticipates will occur in the future, as well as any other
statements which are not historical facts. Although we believe that
the expectations reflected in such forward-looking statements are
reasonable, no assurance can be given that such expectations will
prove to have been correct. These statements involve known and
unknown risks and are based upon a number of assumptions and
estimates which are inherently subject to significant uncertainties
and contingencies, many of which are beyond our control. Actual
results may differ materially from those expressed or implied by
such forward-looking statements. Important factors that, in our
view, could cause actual results to differ materially from those
discussed in the forward-looking statements include the expected
success of our technology strategy and solutions for IoMT Security
for Medical and Healthcare sectors, SEALSQ's ability to implement
its growth strategies, SEALSQ's ability to continue beneficial
transactions with material parties, including a limited number of
significant customers; market demand and semiconductor industry
conditions; and the risks discussed in SEALSQ's filings with the
SEC. Risks and uncertainties are further described in reports filed
by SEALSQ with the SEC.
SEALSQ Corp is providing this communication as
of this date and does not undertake to update any forward-looking
statements contained herein as a result of new information, future
events or otherwise.
Press and Investor Contacts
SEALSQ
Corp.Carlos MoreiraChairman & CEOTel: +41 22 594
3000info@sealsq.com |
SEALSQ Investor Relations
(US)The Equity Group Inc.Lena CatiTel: +1 212 836-9611 /
lcati@equityny.comKatie MurphyTel: +212 836-9612 /
kmurphy@equityny.com |
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