[GUEST ACCESS MODE: Data is scrambled or limited to provide examples. Make requests using your API key to unlock full data. Check https://lunarcrush.ai/auth for authentication information.]  ⏩ Tiur [@tiur_eth](/creator/twitter/tiur_eth) on x 7315 followers Created: 2025-07-17 15:54:45 UTC Hi cysors! Cysic is a high-performance ZK proof layer capable of providing proof generation and verification services for the entire blockchain ecosystem with unprecedented speed and cost-effectiveness. Simply put, @cysic_xyz aims to “hyperscale” the ZK technology revolution by making proofs as fast, accessible, and inexpensive as possible for developers and users. At the core of Cysic is a blockchain network built on the Cosmos SDK and compatible with EVM. The network acts as a kind of proof market: any project can use a smart contract to post a task to generate a ZK proof, specifying a reward, and this task is distributed across the network nodes. The network participants are provers - nodes that provide their computing power for proof calculations - and verifiers - lightweight nodes that check the correctness of the received proofs. Cysic allows a wide variety of devices to connect to the network: from powerful servers with GPUs to laptops, smartphones, and even specialized ASIC chips of its own design (the first C1 chip from Cysic is expected in 2025). This means that virtually anyone with the right hardware can contribute to the calculation of proofs and earn rewards in Cysic tokens. When a new proof task arrives, the network decentralizedly determines the executors. A random selection mechanism selects several verifiers in proportion to their contribution (e.g., the share of locked tokens and reputation). The selected verifiers compete to see who can generate the proof faster. Only the fastest (e.g., the first three) get the right to send the result to the blockchain. This is followed by the verification stage: a set of independent verifiers (from which a random subset is selected in the same way as validators) check the received proof. To confirm the task, several (e.g., six) verifiers must approve the proof; once the confirmation threshold is reached, the task is marked as successful. Finally, the smart contract automatically pays rewards to the validators and verifiers involved in the successful completion of the task. This process ensures reliability (multiple checks guarantee correctness) and speed by distributing the work among many nodes simultaneously. The unique consensus mechanism of the Cysic network is worth mentioning separately. Unlike classical models, it implements Proof-of-Compute, a hybrid approach that combines the ideas of Proof-of-Work and Proof-of-Stake. The basic consensus algorithm is borrowed from CometBFT, ensuring the security and finality of the blockchain. However, the right to produce new blocks and receive rewards depends not only on the number of tokens staked, but also on the node's actual contribution to the network's computing power. Simply put, validators in Cysic gain “weight” both through token staking and through accumulated Computing Governance credits, which reflect the amount of computing power they have contributed to the network. This model encourages participants to make maximum use of their hardware for the benefit of the network, because the more computational work you contribute, the greater your voice and share of the reward. The project's economy is based on a dual token model: the main utility token, $CYS, is used to pay commissions, rewards to validators/verifiers, and maintain the viability of the network, while the second token serves as a unique governance token - it is obtained for staking CYS and active participation in calculations, and it gives the right to vote in the management of the protocol. This system is designed to support decentralization, fair rewards, and long-term growth of the Cysic ecosystem. The Cysic project is impressive not only for its current architecture, but also for its ambitious technical roadmap. The team is actively working on scaling its GPU fleet for even heavier loads and implementing high-performance CUDA pipelines to squeeze the most out of the capabilities of graphics processors. At the same time, support for specialized ASIC solutions is improving: the proprietary C1 chip, optimized for ZK proofs, is designed to radically increase the speed of proof generation while consuming significantly less energy compared to GPUs alone. Moreover, Cysic is expanding its support for various proof algorithms - for example, it is integrating the advanced GKR (Generalized Knowledge Proof) backend in collaboration with Polyhedra. This software-hardware symbiosis (software innovations such as GKR + hardware from Cysic) is already showing impressive results – thousands of hashes (Keccak, BLAKE2, etc.) can be processed per second, bringing us closer to the era of real-time ZK proofs. Cysic Network combines the best of both worlds – cryptographic protocols and high-performance hardware – to solve the bottlenecks in the speed and cost of ZK proofs. From a decentralized pool of GPU/ASIC miners to its own ASIC chip and new proof algorithms, @cysic_xyz is paving the way for a future where proofs are generated instantly, securely, and at scale. Cysic is setting a new standard, and there are clearly more exciting advancements to come in the world of ZK technology!  XXXXX engagements  **Related Topics** [hardware](/topic/hardware) [specialized](/topic/specialized) [stocks technology](/topic/stocks-technology) [blockchain](/topic/blockchain) [zk](/topic/zk) [cysic](/topic/cysic) [$issc](/topic/$issc) [Post Link](https://x.com/tiur_eth/status/1945874825354080290)
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⏩ Tiur @tiur_eth on x 7315 followers
Created: 2025-07-17 15:54:45 UTC
Hi cysors! Cysic is a high-performance ZK proof layer capable of providing proof generation and verification services for the entire blockchain ecosystem with unprecedented speed and cost-effectiveness. Simply put, @cysic_xyz aims to “hyperscale” the ZK technology revolution by making proofs as fast, accessible, and inexpensive as possible for developers and users.
At the core of Cysic is a blockchain network built on the Cosmos SDK and compatible with EVM. The network acts as a kind of proof market: any project can use a smart contract to post a task to generate a ZK proof, specifying a reward, and this task is distributed across the network nodes. The network participants are provers - nodes that provide their computing power for proof calculations - and verifiers - lightweight nodes that check the correctness of the received proofs. Cysic allows a wide variety of devices to connect to the network: from powerful servers with GPUs to laptops, smartphones, and even specialized ASIC chips of its own design (the first C1 chip from Cysic is expected in 2025). This means that virtually anyone with the right hardware can contribute to the calculation of proofs and earn rewards in Cysic tokens.
When a new proof task arrives, the network decentralizedly determines the executors. A random selection mechanism selects several verifiers in proportion to their contribution (e.g., the share of locked tokens and reputation). The selected verifiers compete to see who can generate the proof faster. Only the fastest (e.g., the first three) get the right to send the result to the blockchain. This is followed by the verification stage: a set of independent verifiers (from which a random subset is selected in the same way as validators) check the received proof. To confirm the task, several (e.g., six) verifiers must approve the proof; once the confirmation threshold is reached, the task is marked as successful. Finally, the smart contract automatically pays rewards to the validators and verifiers involved in the successful completion of the task. This process ensures reliability (multiple checks guarantee correctness) and speed by distributing the work among many nodes simultaneously.
The unique consensus mechanism of the Cysic network is worth mentioning separately. Unlike classical models, it implements Proof-of-Compute, a hybrid approach that combines the ideas of Proof-of-Work and Proof-of-Stake. The basic consensus algorithm is borrowed from CometBFT, ensuring the security and finality of the blockchain. However, the right to produce new blocks and receive rewards depends not only on the number of tokens staked, but also on the node's actual contribution to the network's computing power. Simply put, validators in Cysic gain “weight” both through token staking and through accumulated Computing Governance credits, which reflect the amount of computing power they have contributed to the network. This model encourages participants to make maximum use of their hardware for the benefit of the network, because the more computational work you contribute, the greater your voice and share of the reward. The project's economy is based on a dual token model: the main utility token, $CYS, is used to pay commissions, rewards to validators/verifiers, and maintain the viability of the network, while the second token serves as a unique governance token - it is obtained for staking CYS and active participation in calculations, and it gives the right to vote in the management of the protocol. This system is designed to support decentralization, fair rewards, and long-term growth of the Cysic ecosystem.
The Cysic project is impressive not only for its current architecture, but also for its ambitious technical roadmap. The team is actively working on scaling its GPU fleet for even heavier loads and implementing high-performance CUDA pipelines to squeeze the most out of the capabilities of graphics processors. At the same time, support for specialized ASIC solutions is improving: the proprietary C1 chip, optimized for ZK proofs, is designed to radically increase the speed of proof generation while consuming significantly less energy compared to GPUs alone. Moreover, Cysic is expanding its support for various proof algorithms - for example, it is integrating the advanced GKR (Generalized Knowledge Proof) backend in collaboration with Polyhedra. This software-hardware symbiosis (software innovations such as GKR + hardware from Cysic) is already showing impressive results – thousands of hashes (Keccak, BLAKE2, etc.) can be processed per second, bringing us closer to the era of real-time ZK proofs.
Cysic Network combines the best of both worlds – cryptographic protocols and high-performance hardware – to solve the bottlenecks in the speed and cost of ZK proofs. From a decentralized pool of GPU/ASIC miners to its own ASIC chip and new proof algorithms, @cysic_xyz is paving the way for a future where proofs are generated instantly, securely, and at scale.
Cysic is setting a new standard, and there are clearly more exciting advancements to come in the world of ZK technology!
XXXXX engagements
Related Topics hardware specialized stocks technology blockchain zk cysic $issc