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Cellframe Network is a scalable, open-source, next-generation platform for building and bridging blockchains and services secured by post-quantum encryption.
Cellframe offers an environment for enterprises and developers to build a vast array of products ranging from simple low-level t-dApps to whole other blockchains on top of Cellframe Network.
Cellframe can provide extremely high transaction throughput based on an original sharding implementation. In addition, post-quantum cryptography makes the system resistant to hacking by quantum computers.
Cellframe Network is built with a unique implementation of dual-layer sharding, conditional transactions and multiparty computations. This allows seamless interoperability, as well as fast and economical transactions, all secured by integrated quantum safety measures.
Since the platform is built from scratch using plain C, t-dApps built on our SDK can be executed on anything from enterprise-level mainframes to a smart fridge, which enables developers to build a wide range of applications.
What is Cellframe?
Cellframe (CELL) stands out as a quantum-resistant layer-1 network designed to facilitate secure and scalable cross-chain transfers and fog computing services. At its core, Cellframe is an open-source, next-generation platform that enables enterprises and developers to build a diverse array of products, from simple low-level t-dApps to entire blockchains, all secured by post-quantum encryption.
The platform's architecture is built from scratch using plain C, which allows t-dApps to be executed on a wide range of devices, from enterprise-level mainframes to smart fridges. This flexibility opens up numerous possibilities for developers aiming to create innovative applications.
One of the key features of Cellframe is its high transaction throughput, achieved through an original sharding implementation. The network employs dual-layer sharding, conditional transactions, and multiparty computations, ensuring seamless interoperability and fast, economical transactions. These features are bolstered by integrated quantum safety measures, making the system resistant to hacking by quantum computers.
Cellframe's focus on post-quantum cryptography ensures that it remains secure against future threats posed by quantum computing. This makes it a robust choice for enterprises and developers looking to build secure, scalable blockchain solutions.
What is the technology behind Cellframe?
The technology behind Cellframe (CELL) is a sophisticated blend of advanced cryptographic techniques and innovative blockchain architecture. At its core, Cellframe is a scalable, open-source platform designed for building and bridging blockchains and services, all secured by post-quantum encryption. This means that the platform is built to withstand potential threats from quantum computers, which are expected to be capable of breaking traditional cryptographic methods.
One of the standout features of Cellframe is its implementation of dual-layer sharding. Sharding is a method of partitioning a blockchain network into smaller, more manageable pieces called shards. Each shard can process transactions independently, which significantly increases the overall transaction throughput of the network. Dual-layer sharding takes this concept further by adding an additional layer of shards, enhancing scalability and efficiency.
In addition to sharding, Cellframe employs conditional transactions and multiparty computations. Conditional transactions allow for more complex transaction logic, enabling transactions to occur only when certain conditions are met. This adds a layer of flexibility and security, as transactions can be programmed to execute only under specific circumstances. Multiparty computations, on the other hand, enable multiple parties to jointly compute a function over their inputs while keeping those inputs private. This is crucial for maintaining privacy and security in decentralized applications.
The platform's use of post-quantum cryptography is another critical aspect. Traditional cryptographic algorithms are vulnerable to attacks from quantum computers, which can solve complex mathematical problems much faster than classical computers. By integrating quantum-resistant algorithms, Cellframe ensures that its network remains secure even in the face of future technological advancements.
Cellframe is built from scratch using plain C, which is a low-level programming language known for its efficiency and performance. This choice of language allows t-dApps (transactional decentralized applications) built on the Cellframe SDK (Software Development Kit) to run on a wide range of devices, from enterprise-level mainframes to everyday smart devices like refrigerators. This versatility opens up numerous possibilities for developers to create diverse applications tailored to various use cases.
Interoperability is another key feature of Cellframe. The platform is designed to facilitate seamless communication and interaction between different blockchains and services. This is achieved through its unique architecture and the use of advanced cryptographic techniques, ensuring that data can be securely and efficiently transferred across different networks.
The combination of these technologies makes Cellframe a robust and versatile platform for building next-generation blockchain applications. Its focus on scalability, security, and interoperability positions it as a forward-thinking solution in the ever-evolving landscape of blockchain technology.
What are the real-world applications of Cellframe?
Cellframe (CELL) stands out as a next-generation platform designed to build and bridge blockchains and services, secured by post-quantum encryption. This unique service-oriented architecture opens up a myriad of real-world applications across various industries.
One of the primary applications of Cellframe is in the realm of high transaction throughput. Utilizing an original sharding implementation, Cellframe can handle a significant number of transactions simultaneously, making it suitable for industries that require fast and efficient transaction processing, such as finance and e-commerce.
Moreover, Cellframe's post-quantum cryptography ensures that the platform is resistant to hacking by quantum computers. This level of security is crucial for sectors that handle sensitive data, including healthcare and government services. By providing quantum safety measures, Cellframe ensures that data remains secure even as quantum computing technology advances.
The platform's dual-layer sharding, conditional transactions, and multiparty computations facilitate seamless interoperability. This means that different blockchains and services can interact with each other efficiently, which is particularly beneficial for supply chain management and logistics. Companies can track products in real-time, ensuring transparency and reducing the risk of fraud.
Cellframe also supports the development of t-dApps (trusted decentralized applications) that can run on a wide range of devices, from enterprise-level mainframes to smart fridges. This flexibility allows developers to create applications tailored to specific needs, whether it's for smart home devices, industrial automation, or even IoT (Internet of Things) ecosystems.
Additionally, the platform's open-source nature encourages innovation and collaboration among developers. Enterprises can leverage Cellframe to build custom solutions that address their unique challenges, fostering growth and technological advancement in various fields.
In essence, Cellframe's robust architecture and advanced security features make it a versatile tool for building secure, scalable, and efficient blockchain solutions across multiple industries.
What key events have there been for Cellframe?
Cellframe Network is a scalable, open-source, next-generation platform designed for building and bridging blockchains and services secured by post-quantum encryption. It offers an environment for enterprises and developers to create a wide array of products, from simple low-level t-dApps to entire blockchains on top of the Cellframe Network. The platform's unique implementation of dual-layer sharding, conditional transactions, and multiparty computations allows for seamless interoperability, fast and economical transactions, all secured by integrated quantum safety measures.
In early 2021, Cellframe made a significant leap with the release of their mainnet. This event marked a crucial milestone, enabling the network to transition from theoretical frameworks and test environments to a fully operational blockchain platform. The mainnet release allowed developers to start building and deploying decentralized applications (dApps) and other blockchain-based services on the Cellframe Network.
Following the mainnet launch, Cellframe organized a competition offering 100 CELL tokens as a prize. This initiative aimed to engage the community and incentivize participation in the network's ecosystem. Competitions like these are essential for fostering a vibrant and active user base, which is critical for the long-term success of any blockchain project.
Throughout 2021 and 2022, Cellframe continued to expand its ecosystem by forming strategic partnerships and collaborations. These alliances were pivotal in enhancing the platform's capabilities and extending its reach within the blockchain industry. By working with other blockchain projects and technology companies, Cellframe aimed to create a more interconnected and robust blockchain environment.
In addition to partnerships, Cellframe focused on technological advancements and updates to its platform. The development team consistently worked on improving the network's scalability, security, and functionality. These updates were crucial in maintaining the platform's competitive edge and ensuring it could handle the increasing demands of its users.
Cellframe's commitment to post-quantum cryptography is another noteworthy aspect. As quantum computing technology advances, the threat to traditional cryptographic methods grows. By integrating post-quantum cryptography, Cellframe ensures that its platform remains secure against potential future threats posed by quantum computers. This forward-thinking approach highlights the project's dedication to long-term security and resilience.
The platform's versatility is further demonstrated by its ability to support a wide range of applications. Built from scratch using plain C, t-dApps on the Cellframe SDK can be executed on various devices, from enterprise-level mainframes to smart fridges. This flexibility allows developers to create innovative solutions across different industries and use cases.
Cellframe's ongoing efforts to enhance its platform and ecosystem have positioned it as a promising player in the blockchain space. The combination of high transaction throughput, quantum-resistant security, and broad application support makes it an attractive option for developers and enterprises looking to leverage blockchain technology.
Who are the founders of Cellframe?
Cellframe (CELL) is a next-generation blockchain platform designed for scalability and security, leveraging post-quantum encryption. The founders of Cellframe are Dmitry Gerasimov and Mira Brezhinskaya. Dmitry Gerasimov, with a background in software development and cryptography, played a pivotal role in the technical architecture of Cellframe, focusing on its unique dual-layer sharding and post-quantum cryptography. Mira Brezhinskaya, known for her expertise in blockchain project management and strategic development, contributed significantly to the project's vision and execution. Together, they have driven the creation of a platform that supports a wide range of applications, from simple t-dApps to entire blockchains.
The live Cellframe price today is $1.24 USD with a 24-hour trading volume of $6,524,152 USD. We update our CELL to USD price in real-time. Cellframe is up 10.23% in the last 24 hours. The current CoinMarketCap ranking is #811, with a live market cap of $35,463,707 USD. It has a circulating supply of 28,599,168 CELL coins and a max. supply of 30,300,000 CELL coins.