Systems, computer program products, and methods are described herein for generating pre-authorized request for conditional resource transfers within a real-time resource transfer network in response to supply chain updates. The present invention is configured to electronically receive, from a computing device of a user, a request to establish a resource transfer program within a real-time payment (RTP) network, with a third party for acquisition of an item or product; generate the resource transfer program, wherein generating further comprises generating one or more requests for resource transfers (RRTs) to be fulfilled by the user; transmit control signals configured to cause the computing device of the user to display the one or more RRTs; in response, electronically receive, from the computing device of the user, an acknowledgement of the one or more RRTs; and generate a virtual dynamic resource transfer hold pre-authorizing fulfillment.

Systems and methods are provided. Operations of systems include determining a first level progressive award that includes a first initial progressive award amount and a first additional amount funded by at least one of multiple wagers placed to initiate a first primary game on a first gaming device. Operations include determining a second level progressive award that includes a second initial progressive award amount and a second additional amount funded by either of the at least one of the wagers placed to initiate the first primary game on the first gaming device or a second one of the wagers placed to initiate a second primary game on one of the first gaming device or a second gaming device. Operations provide data corresponding to the first level progressive award and the second level progressive award to multiple gaming devices that includes the first gaming device and the second gaming device.

Techniques for allocating investment deposits are described. A user can request that investment deposits to an existing account be allocated between investment accounts associated with the user's investment portfolio. The investment accounts can be of different asset classes (e.g., cryptocurrency, securities, commercial paper, fiat currency, non-fiat currency, etc.). The particular allocation amounts and/or percentages can be based on a machine-trained model.

A method for pooling and retrieving block rewards in a reward pool including an operator node and a set of member nodes in a distributed network extending a proof-of-space-based blockchain includes: submitting a transaction configured to generate a singleton in a set of singletons, the singleton including: an outer puzzle hash linking the singleton to a singleton puzzle hash; and an inner puzzle hash defining a pool address associated with the reward pool; generating a block including a proof-of-space and a block reward allocated to the singleton puzzle hash; detecting the block reward allocated to the singleton puzzle hash; identifying the singleton linked to the singleton puzzle hash; and submitting a transaction configured to: remove the singleton from the set of singletons; and transfer the block reward from the singleton puzzle hash to the pool address.

A composite cryptographic data structure is described, and corresponding methods, systems, and computer readable media. The composite cryptographic data structure is instantiated based on an underlying set of cryptographic tokens (e.g., blockchain/distributed ledger tokens) that, in some embodiments, are transferrable through on-chain transactions established on one or more distributed ledger networks. Identity validation, in some embodiments, may occur at one of composite cryptographic data structure instantiation or composite cryptographic data structure redemption, or both, through the use of a whitelist or a blacklist data structure.

Systems and methods for facilitating a transaction between a first entity and a second entity using a digital currency are described. In some aspects, a computing node participates in a private distributed ledger for a financial institution and stores one or more transaction blocks representing transactions in a digital currency. The digital currency is issued by the financial institution and is fixed with respect to a fiat currency. The computing node is configured to receive a transaction for transferring an amount of digital currency from a first entity to a second entity, generate a new transaction block representing the transaction, transmit the new transaction block to other computing nodes participating in the private distributed ledger, receive an indication of validity of the new transaction block, and insert the new transaction block into the private distributed ledger.

An Autonomous Exchange via Entrusted Ledger (AXEL) blockchain is discussed herein. The AXEL blockchain enables users to perform transactions in a private setting while enabling the transaction records thereof to be verified by other network users without publicly divulging the contents or details of the transaction records. The token identification system and method allows the tokens to carry an immutable identification to prevent negative blockchain occurrences such as double spending. A payment methodology allowing integration of external financial institutions with user owned and managed wallet. The AXEL blockchain can also interface with and utilize a distributed database to create an immutable record of each transaction while providing a complete backup of the transactions that occur within the system and on the AXEL blockchain. A method for protecting the private key ensures wallet access is only granted to the account owner.

Methods and systems for automatically conducting a continuous forward rate agreement in a cryptocurrency using smart contracts. An obligation object is generated and provided with control of a first smart contract, which may be a collateralized debt position smart contract, and control of a lender amount. The obligation object is executed to update balances for first and second parties until the obligation object is liquidated or terminated. Additional parties may be introduced. Upon liquidation or termination, the obligation object accounts to each of the parties based on their balances, and based on tokens generated to track positions in the obligation object.

Systems and methods of managing a shared cryptographic account for a first user and at least one second user in a blockchain based computer network, including: generating, by a first computing device of the first user, a first share of a cryptographic key, generating, by a server, a corresponding second share of the cryptographic key, wherein the cryptographic key corresponds to a public key and private key pair, and wherein the private key is configured to decrypt shares of the cryptographic key that are encrypted by the public key, generating a group ID for a group of users of the shared cryptographic account, distributing, by the server, the first share among each of the at least one second user, and enforcing a signing logic scheme for users of the group when signing with the shared cryptographic account.

A smart contract including one or more rules is defined and stored on a blockchain in conjunction with a pool of one or more tokens owned by the smart contract. A plurality of conflicting claims to the pool of one or more tokens is received and provided to the blockchain. An indication that a trigger condition is met is received from the blockchain. The trigger condition to determined using the one or more rules. Information indicating a distribution of the one or more tokens to resolve the plurality of conflicting claims is also received. The information is generated using the one or more rules in response to the trigger condition being met.