Quantum Blockchain Technologies Plc announced that its cryptography expert and Cryptographic Optimisation team have developed what the Board believes to be an innovative approach to SHA-256 optimised computation for Bitcoin (?BTC?) mining. The Company believes that this novel approach, called Message Scheduling For Cryptographic Hashing, addresses one of the most challenging problems in BTC mining: partial pre-computing of future blockchains? blocks.

A patent application in respect of MSFCA has been filed at the UK Intellectual Property Office. If the application is successful, the Company intends to apply for the patent to be extended internationally. Approximately every ten minutes a block is added to the BTC blockchain.

Each new block represents the confirmation of the validity of the encrypted transactions, i.e. transfer of BTCs between senders and receivers, usually between, on average, 2,000 and 3,000. The miner who finds the winning hash for the block within ten minutes, causes the block to be closed and receives the reward; currently 6.25 BTCs, plus the transaction fees. A new block in the following ten minutes can then start to be processed, but only when the previous block has been closed, because the starting information to compute the new blocks, contains information from the previous closed block.

The computational optimisation obtained by MSFCA allows, under BTC mining special conditions, the miner to asynchronously perform (i.e. not within the temporal boundaries of the current block being computed) partial pre-computations of future blocks, before the ten minute computation ?time target? for closing a new block begins. The benefit being that all the logical gates and computation time on the ASIC chip needed for the specific partial pre-computation are saved.

  QBT believes this is a novel procedure, potentially capable, in certain conditions, of addressing a key BTC mining limitation that prevents asynchronous pre-computation of a new block in the blockchain prior to the previous block being closed.   Application of MSFCA is not believed to enhance SHA-256?s computation performance time; however, by enabling partial SHA-256 pre-processing of the block, it makes it possible to save the hardware resources otherwise necessary for standard SHA-256 computation. From this perspective, it is anticipated that energy would be saved due to less logic gates being present on the ASIC allowing the same chip area to be used to implement additional SHA-256 engines and increasing the overall speed of the process.

  The key principle of this approach is that the partial pre-computation can occur asynchronously. Implementation of MSFCA will require a specific ASIC architecture, hence a specific ASIC chip will need to be designed, however the Company believes this would only require a feasible modification of the current SHA-256 proprietary implementation being developed by QBT.   In terms of SHA-256 ASIC chip areas, the projected potential saving would be in the region of 25% for one instance of SHA256 out of the three instances involved in Bitcoin mining.

However, because of other well-known optimisation techniques, the effective potential area saving of MSFCA is estimated by the Company?s ASIC designer to be around 8% on average.   The handling of pre-processed data requires additional circuitry, the impact of which is expected to be negligible in the near future.   While MSFCA can be implemented with currently available technology, by adding a logical gate overhead, in the near future, the Company believes these overheads will be less relevant, making this approach even more competitive.

  Despite present technological limitations, (for example, the limited throughput of memory chips), the Company believes that it is strategically important to file a patent application covering the novel approach created through the use of MSFCA.