Abstract: Embodiments provide systems and techniques for a network architecture design for a converged media facility. An example system includes a plurality of internet protocol (IP) networks, where each IP network is configured to provide a different service for the media facility. At least one of the IP networks is a production media network configured to route multicast media traffic. The system also includes a plurality of first network devices coupled to the plurality of IP networks and a controller configured to manage at least one IP traffic flow within at least one of the plurality of IP networks.

Abstract: A method of performing a funds transfer includes receiving a request for a cryptogram and generating an authentication code. The authentication code is divided into a first code portion and a second code portion. The first code portion is transmitted to a user device. The second code portion is transmitted to a transaction originator. A request for transaction data is received, including both code portions. The authentication code is verified based on the two code portions. A cryptogram is generated and transmitted to the transaction originator.

Abstract: Systems and methods for providing push payment transaction processing in a card-present environment are provided. The described push payment transactions processing enables a user having any form factor visiting at a merchant location accepting payment cards to perform push payment transactions. Indeed, push payment transactions can be supported from physical point-of-sale (“POS”) or originate from POS terminals. During the described push payment transaction processing, a merchant acquirer can receive, from a POS terminal, a push payment transaction request comprising at least a transaction type indicating a push payment transaction, transaction information, authorization data, and sender information. In response to receiving the push payment transaction request, the merchant acquirer can generate an application programming interface (API) request package comprising the push payment transaction request; and communicate the API request package to an intermediary platform connected to a payment network.

Abstract: Embodiments provide systems and techniques for a network architecture design for a converged media facility. An example system includes a plurality of internet protocol (IP) networks, where each IP network is configured to provide a different service for the media facility. At least one of the IP networks is a production media network configured to route multicast media traffic. The system also includes a plurality of first network devices coupled to the plurality of IP networks and a controller configured to manage at least one IP traffic flow within at least one of the plurality of IP networks.

Abstract: Embodiments disclosed herein provide techniques to selectively distribute Precision Time Protocol (PTP) data in a network. The network can include multiple different network devices (e.g., switches) connected to form a network architecture (e.g., a spine/leaf architecture). Rather than distributing the PTP data (e.g., PTP timestamps) through all the network devices in order to synchronize local clocks to a global, master clock, the embodiments herein describe an out-of-band distribution network which selectively distributes the PTP data to select network devices in the network.

Abstract: A method of performing a funds transfer includes receiving a request for a cryptogram and generating an authentication code. The authentication code is divided into a first code portion and a second code portion. The first code portion is transmitted to a user device. The second code portion is transmitted to a transaction originator. A request for transaction data is received, including both code portions. The authentication code is verified based on the two code portions. A cryptogram is generated and transmitted to the transaction originator.

Abstract: A method of performing a funds transfer includes receiving a request for a cryptogram and generating an authentication code. The authentication code is divided into a first code portion and a second code portion. The first code portion is transmitted to a user device. The second code portion is transmitted to a transaction originator. A request for transaction data is received, including both code portions. The authentication code is verified based on the two code portions. A cryptogram is generated and transmitted to the transaction originator.

Abstract: Embodiments disclosed herein provide techniques to selectively distribute Precision Time Protocol (PTP) data in a network. The network can include multiple different network devices (e.g., switches) connected to form a network architecture (e.g., a spine/leaf architecture). Rather than distributing the PTP data (e.g., PTP timestamps) through all the network devices in order to synchronize local clocks to a global, master clock, the embodiments herein describe an out-of-band distribution network which selectively distributes the PTP data to select network devices in the network.

Abstract: Embodiments disclosed herein provide techniques to selectively distribute Precision Time Protocol (PTP) data in a network. The network can include multiple different network devices (e.g., switches) connected to form a network architecture (e.g., a spine/leaf architecture). Rather than distributing the PTP data (e.g., PTP timestamps) through all the network devices in order to synchronize local clocks to a global, master clock, the embodiments herein describe an out-of-band distribution network which selectively distributes the PTP data to select network devices in the network.

Abstract: A blockchain tokenization involving minting tokens on one blockchain that are backed by cryptoassets on a different blockchain. A node processor stakes an amount of cryptoassets on a value blockchain by transferring the amount of cryptoassets from a staker address on the value blockchain to an address of a smart contract on the value blockchain. The node processor, responsive to the staking, mints an amount of utility tokens on the utility blockchain. The amount of minted utility tokens are stored on the utility blockchain mapped to the staker address. The amount of minted utility tokens are backed by the amount of staked cryptoassets on the value blockchain at a fixed conversion rate between the amount of cryptoassets staked on the value blockchain and the amount of minted utility tokens on the utility blockchain.

Abstract: Embodiments disclosed herein provide techniques to selectively distribute Precision Time Protocol (PTP) data in a network. The network can include multiple different network devices (e.g., switches) connected to form a network architecture (e.g., a spine/leaf architecture). Rather than distributing the PTP data (e.g., PTP timestamps) through all the network devices in order to synchronize local clocks to a global, master clock, the embodiments herein describe an out-of-band distribution network which selectively distributes the PTP data to select network devices in the network.

Abstract: A method of performing a funds transfer includes receiving a request for a cryptogram and generating an authentication code. The authentication code is divided into a first code portion and a second code portion. The first code portion is transmitted to a user device. The second code portion is transmitted to a transaction originator. A request for transaction data is received, including both code portions. The authentication code is verified based on the two code portions. A cryptogram is generated and transmitted to the transaction originator.

Abstract: Systems, methods, apparatus and computer program code are provided to receive payment card and mobile identity information from a mobile device associated with a user, determine account and mobile device eligibility and capability and in the case where the mobile device is NFC capable, triggering a tokenization process to generate a tokenization record associated with the payment card, storing the payment card information associated with the user securely, and transmitting card reference information associated with at least one of (i) the tokenization record, and (ii) the stored payment card information to the mobile device for use in transactions.

Abstract: Systems, methods, apparatus and computer program code are provided to receive payment card and mobile identity information from a mobile device associated with a user, determine account and mobile device eligibility and capability and in the case where the mobile device is NFC capable, triggering a tokenization process to generate a tokenization record associated with the payment card, storing the payment card information associated with the user securely, and transmitting card reference information associated with at least one of (i) the tokenization record, and (ii) the stored payment card information to the mobile device for use in transactions.

Abstract: Computer system to facilitate video gaming comprising a processing unit and a computer readable medium coupled to the processing unit comprising instructions executable by the processing unit. Instructions are for a video game to process first input triggered by operation of multiple input devices. Instructions are for input adaptation module to facilitate playing the same video game using an input device such as the game controller that is free from facility to provide the first input using the multiple input devices. The input adaptation module receives second input triggered by operation of the input device such as the game controller used to navigate the game. It generates the first input from the second input, based at least upon a translation mapping between input events receivable from the input device such as the game controller and input events receivable from the multiple input devices. Associated method is also provided.

Abstract: Computer system to facilitate video gaming comprising a processing unit and a computer readable medium coupled to the processing unit comprising instructions executable by the processing unit. Instructions are for a video game that receives first input events triggered by operation of first input devices used to navigate the video game. Instructions are for input adaptation module to facilitate playing the same video game using the second input device that is free from facility to provide the first input events using the first input devices. The input adaptation module receives second input events triggered by operation of the second input device used to navigate the game. It generates the first input events from the second input events, based at least upon the game-specific translation mapping between input events receivable from the second input device and input events receivable from the first input devices. Associated method is also provided.

Abstract: Video gaming over television has been popular. Such video gaming is typically facilitated using a “game console” connected to the television display. The game console is typically a computer system that executes the game software and produces audio and video signal for the display device such as the television. The video game player typically uses a device called “game controller” or gamepad that is connected to the game console to navigate the game and the game menus. The game console also often includes facility for connection to a computer network such as the Internet. Video gaming systems such as Xbox provided by Microsoft Corporation and PlayStation provided by Sony Corporation have been popular. Some game consoles such as Wii provided by Nintendo also offer the ability to play games using motion input.