Abstract: Systems and methods for a random number generator including a systolic array to receive a plurality of first inputs, and to provide a random number output. In one embodiment, the systolic array can be arranged in two or greater dimensions, and each cell of the array comprises a ring oscillator. Data is read from a random access memory to provide the inputs to the systolic array. A linear feedback shift register receives the random number output as a feedback signal used to address the memory to read data to provide as the inputs to the systolic array.

Abstract: A system includes programmable systolic cryptographic modules for security processing of packets from a data source. A first programmable input/output interface routes each incoming packet to one of the systolic cryptographic modules for encryption processing. A second programmable input/output interface routes the encrypted packets from the one systolic cryptographic module to a common data storage. In one embodiment, the first programmable input/output interface is coupled to an interchangeable physical interface that receives the incoming packets from the data source. In another embodiment, each cryptographic module includes a programmable systolic packet input engine, a programmable cryptographic engine, and a programmable systolic packet output engine, each configured as a systolic array (e.g., using FPGAs) for data processing.

Abstract: A system includes a security device, configured for cryptographic processing, coupled to receive incoming data from a plurality of data sources (e.g., data from different customers), wherein the incoming data includes first data from a first data source; a controller (e.g., an external key manager) configured to select a first set of keys from a plurality of key sets, each of the key sets corresponding to one of the plurality of data sources, wherein the first set of keys is used by the security device to encrypt the first data; and a common encrypted data storage, coupled to receive the encrypted first data from the security device.

Abstract: A system includes a security device, configured for cryptographic processing, coupled to receive incoming data from a plurality of data sources (e.g., data from different customers), wherein the incoming data includes first data from a first data source; a controller (e.g., an external key manager) configured to select a first set of keys from a plurality of key sets, each of the key sets corresponding to one of the plurality of data sources, wherein the first set of keys is used by the security device to encrypt the first data; and a common encrypted data storage, coupled to receive the encrypted first data from the security device.

Abstract: A system includes a removable or replaceable I/O interface (e.g., a panel and associated electronics card). In one embodiment, a security device includes an FPGA I/O array that can be programmed for different interfaces. The interchangeable I/O panel and card is designed with a selected interface's matching physical electronics and connectors. This permits the main physical chassis of a security device to remain unchanged and avoid re-design, so that a user can readily use different interface options that can be changed by the user.

Abstract: Systems and methods to send or write data or file objects to a remote cloud storage or data server using an encryption gateway. In one embodiment, a communication system includes: an encryption gateway configured to receive TLS (or an equivalent security) encrypted data in a payload from a client application, to terminate the client TLS connection, and to extract the payload and encrypt the payload data with keys from the key manager. The encryption gateway establishes a TLS connection and inserts the encrypted-authenticated data into the TLS payload and sends or writes the TLS encrypted data to a remote cloud storage or data server for storage. The system further includes a key manager configured to provide at least one key to the encryption gateway for encryption of the data in the payload.

Abstract: A system includes a plurality of data input ports, each port corresponding to one of a plurality of different levels of security classification; a security device, configured for cryptographic processing, coupled to receive incoming data from each of the plurality of input ports, wherein the incoming data includes first data having a first classification level; a key manager configured to select and tag-identified first set of keys from a plurality of key sets, each of the key sets corresponding to one of the different levels of security classification, wherein the first set of keys is used by the security device to encrypt the first data; and a common encrypted data storage, coupled to receive the encrypted first data from the security device for storage.

Abstract: A secure end-to-end communication system is implemented via one or more security processing devices. In one embodiment, a method includes: loading, by a key manager, a first set of keys into a security device; encrypting first data with the first set of keys using the security device; and sending, over a network, the encrypted first data to an external site or a mobile device. The method may further include: requesting the encrypted data from the external site or mobile device; receiving, over the network, the encrypted first data; and decrypting the received encrypted first data with the first set of keys using the security device.

Abstract: A system includes a security device, configured for cryptographic processing, coupled to receive incoming data from a plurality of data sources (e.g., data from different customers), wherein the incoming data includes first data from a first data source; a controller (e.g., an external key manager) configured to select a first set of keys from a plurality of key sets, each of the key sets corresponding to one of the plurality of data sources, wherein the first set of keys is used by the security device to encrypt the first data; and a common encrypted data storage, coupled to receive the encrypted first data from the security device.

Abstract: A system includes programmable systolic cryptographic modules for security processing of packets from a data source. A first programmable input/output interface routes each incoming packet to one of the systolic cryptographic modules for encryption processing. A second programmable input/output interface routes the encrypted packets from the one systolic cryptographic module to a common data storage. In one embodiment, the first programmable input/output interface is coupled to an interchangeable physical interface that receives the incoming packets from the data source. In another embodiment, each cryptographic module includes a programmable systolic packet input engine, a programmable cryptographic engine, and a programmable systolic packet output engine, each configured as a systolic array (e.g., using FPGAs) for data processing.