8, 2015, entitled “Social Aggregated Fractional Equity Transaction Partitioned Acquisition Apparatuses, Methods and Systems” U.S. 14, 2015, entitled “Point-to-Point Transaction Guidance Apparatuses, Methods and Systems” U.S. 14, 2016, which in turn claims benefit to priority under 35 USC § 120 as a continuation-in-part of: U.S. 15/210,781 titled “Computationally Efficient Transfer Processing, Auditing, and Search Apparatuses, methods and Systems” filed on Jul. 31, 2015, entitled “Social Aggregating, Fractionally Efficient Transfer Guidance, Conditional Triggered Transaction, Datastructures, Apparatuses, Methods and Systems,”.Īpplicant hereby claims benefit to priority under 35 USC § 120 for this application as a continuation of U.S. 31, 2015, entitled “Social Aggregating, Fractionally Efficient Transfer Guidance, Conditional Triggered Transaction, Datastructures, Apparatuses, Methods and Systems” U.S. The Matrix Conversion component adds the source wallet address as a first row and a column entry to a stored distance matrix representing the plurality of transactions, adds the destination wallet address as a second row and column entry to the stored distance matrix representing the plurality of transactions, adds the transaction amount and the timestamp as an entry to the row corresponding to the source wallet address and the column corresponding to the destination wallet address and generate a list representation of the matrix, where each entry in the list comprises a tuple having the source wallet address, the destination wallet address, the transaction amount and the timestamp.Īpplicant hereby claims benefit to priority under 35 USC § 119 as a non-provisional conversion of: U.S. The Bloom Filter component receives the source address and the destination address, hashes the source address using a Bloom Filter to generate a source wallet address, and hashes the destination address using the Bloom Filter to generate a destination wallet address. The blockchain recordation component receives a plurality of transaction records for each of a plurality of transactions, each transaction record comprising a source address, a destination address, a transaction amount and a timestamp of a transaction the source address comprising a source wallet address corresponding to a source digital wallet, and the destination address comprising a destination wallet address corresponding to a destination virtual currency wallet verifies that the transaction amount is available in the source virtual currency wallet and when the transaction amount is available, cryptographically records the transaction in a blockchain comprising a plurality of hashes of transaction records. A blockchain transaction data auditing apparatus comprises a blockchain recordation component, a matrix Conversion component, and a bloom filter component. Also, SOCOACT transforms transaction record inputs via SOCOACT components into matrix and list tuple outputs for computationally efficient auditing. The Computationally Efficient Transfer Processing, Auditing, and Search Apparatuses, Methods and Systems (“SOCOACT”) transforms smart contract request, crypto currency deposit request, crypto collateral deposit request, crypto currency transfer request, crypto collateral transfer request inputs via SOCOACT components into transaction confirmation outputs.
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