Blockchain

Pi Squared Raises $12.5 Million in Seed Funding Led by Polychain Capital to Build a Universal ZK Circuit Powered by Proof of Proof

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    Champaign, Illinois, United States, July 2nd, 2024, Chainwire

     

    Pi Squared, (Proof of Proof), announced the closure of their first capital raise. Led by Polychain Capital, the syndicate includes ABCDE, Bloccelerate, Generative Ventures, Robot Ventures, and Samsung Next. Angel investors include Shumo Chu, Harish Devarajan, Justin Drake, Sreeram Kanaan, Csongor Kiss, George Lambeth, Yilong Li, Calvin Liu, Lucian Mincu, Karthik Raju, and Common Prefix.

    Using zero-knowledge (ZK) technology in a correct-by-construction and fundamentally unique way, Pi Squared will enable trustless remote computing, AI, and interoperable smart contracts for any blockchain or dApp. This will be made possible through the creation of a universal and disarmingly small ZK circuit that checks the integrity of mathematical proofs, which will provide verifiable-computing correctness guarantees to all languages and virtual machines (VMs) alike directly from their formal semantics, without any translation to a common language, VM, or instruction set architecture (ISA).

    “Our mission is to revolutionize verifiable computing, making it universal for all languages and virtual machines, inherently correct-by-construction, and lightning-fast,” says Grigore Roșu, CEO of Pi Squared and CS Professor at University of Illinois Urbana-Champaign. “This will have many applications, including a universal settlement layer (USL) so all Blockchains, L1s and L2s, can be universal, correct, inter-operable and efficient. It does not end there, our long-term mission is to settle all science and knowledge on USL.”

    “Pi Squared’s proof of proof technology will have a transformative impact across Web3 and beyond,” said Karthik Raju, GP at Polychain Capital. “Pi Squared’s universal ZK circuit will significantly increase the reach and applicability of Web3 for everyone, from builders to end users.”

    Pi Squared will enable the next generation of verifiable computing that is universal and scalable with an optimally minimal trust base. The first product powered by Pi Squared is the Universal Settlement Layer (USL), an architecture for modular blockchains that enables the following characteristics:

    Universality

    Computations can be expressed in any high-level or virtual machine language, without the need for compilers or translators.

    Provable correctness

    Computations verified by the USL are mathematically proven to be correct, and any external entity can independently verify the correctness of the state of the USL.

    Trust Base Minimality

    USL exposes any trust assumptions in upper-layer computations for increased transparency, end-user awareness, and will minimize the trust base through correctness proofs.

    App Interoperability

    The USL will support interoperability between different application modules and networks (e.g. appchains).

    Determinism and reproducibility

    The validation is reproducible and independently verifiable by any external entity.

    Pi Squared’s USL therefore provides end-to-end correctness guarantees for generic computations while minimizing the trust base underlying these computations. USL promotes verifiable computing as the standard distributed computing paradigm without requiring or promoting particular domain-specific languages (DSLs), VMs, or execution environments, all while being efficient and scalable.

    Pi Squared will be presenting and exhibiting at events around EthCC in Brussels from July 8th to 11th. Attendees can listen to Pi Squared’s CEO, Grigore Roșu, speak at Restaking & Infra Day on July 8th and L2con on July 9th.

    About Pi Squared

    Pi Squared means ZK proofs of mathematical proofs. Pi Squared uses ZK technology in a correct-by-construction and fundamentally unique way. A universal and disarmingly small ZK circuit provides verifiable-computing correctness guarantees to all languages and VMs alike, without any translation to a common language, VM, or ISA. Pi Squared is led by UIUC professor Grigore Rosu, founder of the K framework and of Runtime Verification, and consists of researchers and founders of successful projects in formal methods, blockchain, and AI/ML.

    To book a meeting with Pi Squared’s CEO and team, attendees can reach out to [email protected].

    To learn more about Pi Squared’s vision and Proof of Proof, visit pi2.network and follow Pi Squared on social media.

     

    Contact

    Head of Marketing
    Chris Hazelton
    Pi Squared Inc
    [email protected]

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    Global Cybersecurity for Critical Infrastructure in Financial Sector Research Report 2024-2030: Cost of Cyber Incidents Pushes Financial Firms to Strengthen Security Protocols

    2024-09-30T10:49:39Z

    Dublin, Sept. 30, 2024 (GLOBE NEWSWIRE) -- The "Global Cybersecurity for Critical Infrastructure in Financial Sector Market (2024 Edition): Market Size, Trends, Opportunities and Forecast, by Industry Sector, Deployment, Component Region, By Country: 2020-2030" report has been added to ResearchAndMarkets.com's offering.

    Cybersecurity for Critical Infrastructure in Financial Sector Market registered market value of around USD 9.9 Billion in 2023 is expected to grow at a CAGR of 7.2% during 2025-2030.

    The cybersecurity market for critical infrastructure in the financial sector is driven by a myriad of factors, each contributing to the increasing complexity and urgency of deploying robust security measures. Primarily, the escalating frequency and sophistication of cyber threats stand as the foremost driver. Financial institutions are prime targets for cybercriminals due to the vast amounts of money and valuable data they hold. Attacks such as data breaches, ransomware, and phishing have become more sophisticated, prompting banks, investment firms, and insurance companies to continually evolve their cybersecurity defenses.

    Moreover, the regulatory environment significantly influences market dynamics. Global financial entities such as the Financial Stability Board (FSB) and national regulators like the Federal Reserve in the United States, the European Central Bank in Europe, and similar bodies worldwide have tightened cybersecurity regulations and guidelines. Compliance with these regulations is not merely a legal formality; it is imperative for maintaining consumer trust and operational integrity. For example, regulations such as the General Data Protection Regulation (GDPR) in Europe and the New York State Department of Financial Services (NYDFS) cybersecurity regulations in the U.S. have set stringent standards for data protection and security, driving the adoption of advanced cybersecurity solutions.

    The integration of technology into financial services, commonly referred to as 'fintech,' is another critical driver. As banks and financial institutions leverage technologies like blockchain, artificial intelligence (AI), and cloud computing to enhance efficiency and customer service, they also increase their vulnerability to cyber-attacks. This technological adoption creates a paradox where the very tools that enhance capability also expose institutions to greater risks, necessitating advanced cybersecurity measures.

    Another significant driver is the cost implications of cyber incidents. Financial implications include direct costs such as recovery and remediation costs, and indirect costs like reputational damage and loss of customer trust, which can be even more detrimental in the long term. The potential financial losses resulting from cyber incidents can dwarf the investment in cybersecurity, making a compelling case for proactive expenditure in this area.

    Furthermore, the shift towards digital and remote operations, accelerated by the COVID-19 pandemic, has expanded the attack surface for many financial institutions. The increased adoption of remote work models and reliance on digital channels for customer interactions have exposed new vulnerabilities, such as insecure home networks and the use of personal devices for work-related activities. This shift necessitates a reevaluation and often a redesign of cybersecurity strategies to cover endpoints and secure data across more dispersed networks.

    Segment Insights

    By Deployment, On-Premise accounts for around 66% share in the year 2023. The enduring preference for on-premise cybersecurity solutions in the financial sector is driven primarily by the need for control and security. Financial institutions, particularly those with extensive legacy systems and stringent regulatory requirements, often find on-premise solutions more feasible as they offer greater control over the security environment. This control is crucial not only for managing the complex and sensitive nature of financial data but also for complying with strict data residency and privacy laws that govern the sector.

    Geographical Insights

    Americas is the largest region in the Global Cybersecurity for Critical Infrastructure in Financial Sector Market. One of the most significant drivers in the Americas' cybersecurity market is the increasing incidence and sophistication of cyberattacks. Financial institutions are inherently attractive targets due to their financial assets and the sensitive financial data they manage. In recent years, cybercriminals have demonstrated increased capabilities with attacks becoming more diverse and sophisticated, including ransomware, phishing, and Advanced Persistent Threats (APTs).

    This threat landscape mandates continuous enhancements in cybersecurity defenses, which drives significant investment in the sector. Regulatory compliance is another crucial driver. In the Americas, particularly in the United States and Canada, regulatory bodies have established stringent cybersecurity frameworks that financial institutions must comply with. In the U.S., frameworks such as the Cybersecurity Maturity Model Certification (CMMC) and guidelines from the Federal Financial Institutions Examination Council (FFIEC) set the bar for cybersecurity practices.

    Similarly, in Canada, the Office of the Superintendent of Financial Institutions (OSFI) mandates cybersecurity compliance to safeguard the financial system. These regulations ensure that cybersecurity is not just about risk management but is also a compliance necessity, pushing financial institutions to allocate substantial resources to meet these standards.

    Global Cybersecurity for Critical Infrastructure in Financial Sector Market : Historic and Forecast

    Impact Analysis of Macro Economic Factors on Market

    • Global Prevalence of Cybersecurity for Critical Infrastructure in Financial Sector (% of overall cybersecurity)
    • Cybersecurity for Critical Infrastructure in Financial Sector Matrix
    • Market: Dashboard
    • Market: Market Size and CAGR, By Value, 2020-2030 (USD Billion & CAGR)
    • Market: Market Size and CAGR, By Volume, 2020-2030 (Number of Software Installations) & CAGR)
    • Market: Market Value Assessment
    • Assessment of Degree of Impact of COVID-19 on Market

    Market Segmentation: By Industry Sector

    • Market By Industry Sector Overview
    • Market Attractiveness Index, By Industry Sector (2025-2030)
    • Market Size, By Banking, By Value, 2020H-2030F (USD Billion & CAGR)
    • Market Size, By Financial Services, By Value, 2020H-2030F (USD Billion & CAGR)
    • Market Size, By Insurance, By Value, 2020H-2030F (USD Billion & CAGR)
    • Market Size, By Fintech Companies , By Value, 2020H-2030F (USD Billion & CAGR)
    • Market Size, By Other Industry Sectors, By Value, 2020H-2030F (USD Billion & CAGR)

    Market Segmentation: By Component

    • Market By Component Overview
    • Market Attractiveness Index, By Component (2025-2030)
    • Market Size, By Solutions, By Value, 2020H-2030F (USD Billion & CAGR)
    • Market Size, By Services, By Value, 2020H-2030F (USD Billion & CAGR)
    • Market Size, By Software, By Value, 2020H-2030F (USD Billion & CAGR)
    • Market Size, By Other Components, By Value, 2020H-2030F (USD Billion & CAGR)

    Market Segmentation: By Deployment

    • Market By Deployment Overview
    • Market Attractiveness Index, By Deployment (2025-2030)
    • Market Size, By On-Premise, By Value, 2020H-2030F (USD Billion & CAGR)
    • Market Size, By Cloud, By Value, 2020H-2030F (USD Billion & CAGR)

    Key Companies

    • Okta Inc.
    • Wipro Inc.
    • Infosys Limited
    • Rapid7
    • Zscaler
    • Broadcom Inc.
    • Accenture
    • Tata Consultancy Services (TCS)
    • HCL Technologies
    • L&T Technology Services Limited (LTTS)

    For more information about this report visit https://www.researchandmarkets.com/r/7pg448

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