A data collection and analysis method includes applying a first noise step to an original data stream with an original character to generate a first data stream with a first character; and applying a second noise step to the first data stream to generate a second data stream with a second character, wherein a first variation between the original character and the first character is greater than a second variation between the original character and the second character.

An apparatus is provided, connectable to a memory and one or more peripherals. The apparatus includes translation request circuitry to receive a translation request from one of the peripherals to translate an input address within an input domain to an output address within an output domain. Signing circuitry generates a signature of at least part of the output address using a private key. Translation response circuitry responds to the translation request by transmitting to the one of the peripherals a translation response, including the output address and the signature. Gateway circuitry receives access requests to the memory. Each of the access requests comprises a desired memory address in the output domain and a signature of the desired memory address. The gateway performs validation of the signature of the desired memory address using the private key and in response to the validation of a given access request failing, performs an error action.

The disclosure provides a blockchain random number generating system and blockchain random number generating method. The blockchain random number generating system includes a smart contract. A second electronic device generates a second random number and a second hash value corresponding to the second random number, and transmits the second hash value to a first block of the smart contract. A first electronic device generates a first random number and a first hash value corresponding to the first random number, and transmits the first hash value to a second block of the smart contract. A fifth block of the smart contract receives a real-time transaction index, and generates a random seed according to the real-time transaction index, the first random number and the second random number and calculates a result of the smart contract in the fifth block according to the random seed.

A method for performing an auction implemented via an exchange computer system, including receiving, from a user device, a security transaction order, receiving a first matching order, initiating a delay timer that runs for a first period of time, determining that the first period of time has expired, initiating an auction timer that runs for a second period of time, receiving, during the second period of time, one or more additional matching orders, wherein each of the one or more additional matching orders includes a request for participation in the auction, determining that the second period of time has expired, and facilitating a transaction based on the security transaction order.

Methods and a system of generating a master seed using location-based data. The system includes a pseudo-random number generator configured to generate a random number and a global positioning system module configured to determine a location of the system. The system also includes an encryption module configured to generate a signing request message. The signing request message includes the random number and the location. The system further includes a communication device configured to transmit the signing request message to a location authority for authorization. The communication device further configured to receive a signature from the location authority upon authorization of the signing request message. The system is further configured to generate a master seed based on the signature.

A processing system includes a pseudo-random bit sequence (PRBS) control unit and a PRBS generator that is used to dynamically generate a PRBS from, for example, a first PRBS and a second PRBS. The PRBS generator is coupled to the PRBS control unit. The PRBS generator generates the second PRBS by dynamically adjusting from a first set of flip-flops of a master set of flip-flops that generate the first PRBS to a second set of flip-flops of the first master set of flip-flops that generate the second PRBS. The PRBS generator includes a plurality of PRBS logic engines coupled to a first PRBS multiplexer, the first PRBS multiplexer being used to select either the first PRBS or the second PRBS that is output by the PRBS generator.

A computer-implemented method is provided for reducing a measure time of a measure process in a multi-shot simulation performed by a quantum computing simulation system. The method includes calculating probabilities from probability amplitudes before the measure process. The method further includes creating, for each node of the quantum computing simulation system, an index of probability by incrementally summing respective different ones of the probabilities into respective sums. The method also includes generating a random number for each of the multi-shots, the random number for sampling a probability distribution of the probabilities. The method additionally includes selecting the index of probability which is larger than the random number by comparing the random number generated for a given one of the multi-shots to the index of probability created for the given one of the multi-shots.

Mechanisms for defending a computing system from attack, comprising: maintaining a round counter that tracks a round number for a local host; determining a location in a graph for each of a plurality of hosts including the local host; determining monitor hosts of the plurality of hosts that are monitoring the local host; determining monitoree hosts of the plurality of hosts that are being monitored by the local host; sending a message to each of the monitor hosts identifying a value of the round counter; forwarding a first set of heartbeat messages from previous monitoree hosts to the monitor hosts; attempting to receive messages from the monitoree hosts; determining whether any messages were not received from the monitoree hosts; and in response to determining that one or more messages were not received from the monitoree hosts, generating an alert.

A pseudo speckle pattern generation apparatus includes a light source, a beam expander, and a spatial light modulator. The spatial light modulator has an intensity modulation distribution based on a pseudo speckle pattern calculated from a pseudo random number pattern and a correlation function, receives light output from the light source and increased in beam diameter by the beam expander, spatially modulates the received light according to the modulation distribution, and outputs modulated light.

Implementations are directed to methods, systems, and computer-readable media for scheduling threads for instruction sequence generation. In one aspect, scheduling threads for instruction sequence generation can include obtaining a model of a central processing unit (CPU) that includes a plurality of threads, wherein the model includes a plurality of model threads that correspond to the plurality of threads of the CPU. A seed value can be input into a pseudorandom number generator and in response to the input seed value, a sequence of pseudorandom values can be obtained from the pseudorandom number generator. Using the sequence of pseudorandom values and a thread scheduling algorithm, a thread execution order of the plurality of model can be generated.