DataRecoveryService

We will take care of your drive and neatly recover each data. Please feel free to consult with us.

SORA L2 Blockchain DataRecovery

Simply connect the damaged data recovery target drive and the drive where the data will be transferred, and each piece of data will be automatically recovered.

SORA L2 Blockchain HDD/SSD Drive Inspection

We conduct failure analysis of HDD/SSD using cutting-edge L2 blockchain technology. Please feel free to make use of it.

SORA L1 L2 Blockchain tec info

This is a development technology blog for L1 and L2 blockchains. It includes summaries of smart contracts, atomic swaps, connecting AI to DAOs, data recovery processes, and more.

Building the base for drive inspection and data recovery features, SORA L2 Blockchain FromHDDtoSSD

It has been determined that quantum resistance is [unnecessary] for blockchain. The inverse image of a hash is too complex to handle, and the inverse of elliptic curve scalar multiplication is far removed from the monotonic discrete logarithm problem that is believed to be solvable by quantum computing. Even at this point, that monotonic discrete logarithm has not been solved. These are the reasons for this decision.

SSDs cannot be tested with HDD inspection software

Due to differing characteristics.

Download: SORA L2 Blockchain FromHDDtoSSD

This represents the convergence of drive inspection technologies that have become the basis for current AI products.

In the field of data recovery, there are instances of malpractice

In the field of data recovery, there are cases of malpractice. Then, since 2020, we have been recording and managing these characteristics on the SORA L2 Blockchain.

About SORA L1 Blockchain-Core

The SORA L1 Blockchain is the development of the blockchain core. Lets share technology through the development of the blockchain core! Particularly in SORA, we develop from a relatively older core, which conversely leads to technological development for the latest core porting.

Optimization of CDataStream

This leads to the acceleration of each operation, with the most notable improvement being during startup.

Introduction of Ethereum-style Addresses

These will be utilized for blockchain abstraction and in DAOs. At the same time, they will also be adapted for use with BSC and similar platforms.

Lightweight Implementation

Memory management has been optimized to ensure a lighter and more efficient operation.

Research on Quantum Resistance

At the current stage, there is no necessity to implement quantum resistance in blockchain. However, we firmly believe it is beneficial to experiment with implementations that demonstrate this, suggesting that such a direction is favorable.

Guaranteeing 100% Internal Cleanliness

We have thoroughly reviewed all code and confirmed the cleanliness of the internal structure. This is especially important in wallets, where strict cleanliness is required. Even for open-source projects, we believe that a 100% code review is necessary.

Integration of AI and Blockchain

We are planning to deploy AI in L1, not L2. To integrate blockchain with AI effectively, we believe it is necessary to implement AI at the L1 level.