β‘οΈ February Updates Recap!
Weβve gathered the key development updates and major news in these cards.
Swipe through to see what the team has been working on.
#worklog_cards_cellframe
Weβve gathered the key development updates and major news in these cards.
Swipe through to see what the team has been working on.
#worklog_cards_cellframe
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βοΈ Fresh Worklog & February Highlights!
February was a busy month for the Cellframe team. We continued active development of key ecosystem components, improved user experience, and prepared the infrastructure for major updates.
Hereβs what we accomplished in February:
β’ Cellframe Bridge: integrated with Cellframe DEX, enhanced bridge security, and sped up transaction processing.
β’ DEX: completed a major overhaul of architecture and interface. Added new trading and analytics tools, improved order management, and updated the UI.
β’ Cellframe Wallet: official iOS release on the App Store, along with UI improvements and feature enhancements.
β’ Cellframe SDK: replaced external libraries in DAP SDK, optimized key components and GDB, prepared changes for v6.0, and implemented a plugin system.
β’ Other activities: participated in Consensus Hong Kong 2026, wrapped up the first season of the Ambassador Program, and held the first AMA of 2026 with Dmitry Gerasimov.
Full details are available in the extended worklog!π
The team continues to actively grow the ecosystem: more updates and major releases are coming soon.
#cellframe_worklog_text
February was a busy month for the Cellframe team. We continued active development of key ecosystem components, improved user experience, and prepared the infrastructure for major updates.
Hereβs what we accomplished in February:
β’ Cellframe Bridge: integrated with Cellframe DEX, enhanced bridge security, and sped up transaction processing.
β’ DEX: completed a major overhaul of architecture and interface. Added new trading and analytics tools, improved order management, and updated the UI.
β’ Cellframe Wallet: official iOS release on the App Store, along with UI improvements and feature enhancements.
β’ Cellframe SDK: replaced external libraries in DAP SDK, optimized key components and GDB, prepared changes for v6.0, and implemented a plugin system.
β’ Other activities: participated in Consensus Hong Kong 2026, wrapped up the first season of the Ambassador Program, and held the first AMA of 2026 with Dmitry Gerasimov.
Full details are available in the extended worklog!
The team continues to actively grow the ecosystem: more updates and major releases are coming soon.
#cellframe_worklog_text
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β¨ February 2026 in the Cellframe ecosystem!
Major updates, new partnerships, improvements, and product progress from Node.sys, Dotflat, KelVPN, QEVM, and CPUNK.
A lot has been building behind the scenes: here are the key highlights.
π Full recap.
#ecosystem_news_cellframe
Major updates, new partnerships, improvements, and product progress from Node.sys, Dotflat, KelVPN, QEVM, and CPUNK.
A lot has been building behind the scenes: here are the key highlights.
#ecosystem_news_cellframe
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π What Is Actually Called Post-Quantum Cryptography?
Not every cryptographic method that is resistant to quantum computers is called post-quantum. This often leads to confusion.
Why are some quantum-resistant algorithms considered Post-Quantum Cryptography (PQC) while others are not?
What exactly qualifies as post-quantum cryptography, and why did this definition appear in the first place?
In this video, we explain:
β’ which cryptographic mechanisms form the foundation of Internet and blockchain security
β’ why ensuring quantum resistance in asymmetric cryptography is especially important
β’ and why itβs already crucial to start preparing for the transition to new security standards.
πΊ Watch the new episode to understand what exactly is called post-quantum cryptography and why it matters for the future of security.
#PostQuantum #PQC #QuantumComputing #Cryptography #CyberSecurity #Blockchain #QuantumSecurity #QDay #Cellframe
Not every cryptographic method that is resistant to quantum computers is called post-quantum. This often leads to confusion.
Why are some quantum-resistant algorithms considered Post-Quantum Cryptography (PQC) while others are not?
What exactly qualifies as post-quantum cryptography, and why did this definition appear in the first place?
In this video, we explain:
β’ which cryptographic mechanisms form the foundation of Internet and blockchain security
β’ why ensuring quantum resistance in asymmetric cryptography is especially important
β’ and why itβs already crucial to start preparing for the transition to new security standards.
πΊ Watch the new episode to understand what exactly is called post-quantum cryptography and why it matters for the future of security.
#PostQuantum #PQC #QuantumComputing #Cryptography #CyberSecurity #Blockchain #QuantumSecurity #QDay #Cellframe
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The Future of Blockchain: How to Survive Q-day and Stay Afloat π₯
Quantum technologies are advancing faster than many expected: and are already calling blockchain security into question.
π Why donβt L2 solutions and other add-ons actually solve the problem?
π And which approaches can truly help survive Q-day?
We break it all down in our latest article!
#blockchain #quantum #PQC #Qday #web3 #blockchainsecurity #Cellframe
Quantum technologies are advancing faster than many expected: and are already calling blockchain security into question.
We break it all down in our latest article!
#blockchain #quantum #PQC #Qday #web3 #blockchainsecurity #Cellframe
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π₯ What is Post-Quantum Cryptography (PQC) and why itβs already time to talk about it?
Quantum computers pose a threat to all current encryption standards. For some algorithms, quantum resistance can be achieved simply by lengthening the key, while others require a complete overhaul of their mathematical foundations.
We explain exactly how and why this works, and what cryptography is officially considered post-quantum, in our latest video.
Explained in simple terms!
π Full version.
Subscribe, a series of videos on post-quantum algorithms is coming soon π
#PostQuantum #PQC #QuantumComputing #Cryptography #CyberSecurity #Blockchain #QuantumSecurity #QDay #Cellframe
Quantum computers pose a threat to all current encryption standards. For some algorithms, quantum resistance can be achieved simply by lengthening the key, while others require a complete overhaul of their mathematical foundations.
We explain exactly how and why this works, and what cryptography is officially considered post-quantum, in our latest video.
Explained in simple terms!
Subscribe, a series of videos on post-quantum algorithms is coming soon π
#PostQuantum #PQC #QuantumComputing #Cryptography #CyberSecurity #Blockchain #QuantumSecurity #QDay #Cellframe
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Classical privacy-focused cryptography and other tools used in some blockchain projects can hide the sender, receiver, and transaction amount, but not the fact that a transaction has taken place: even when one-time keys are used. Knowing this, a quantum computer could reconstruct the private key and gain access to the senderβs wallet, including its funds and transaction history.
As a result, even wallets with non-exposed keys simply become more difficult targets and may be compromised later.
Classical privacy-focused cryptography does not solve the problem of quantum attacks. Full post-quantum protection is required in any case.
For our part, we are also working on post-quantum privacy-focused cryptography as a separate direction.
#cellframe_technology
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