We introduce a new method for hardware nonuniform random number generation based on the transfer characteristics of graphene field-effect transistors (GFETs) which requires as few as two transistors and a resistor. We implement the method by fabricating multiple GFETs and experimentally validating that their transfer characteristics exhibit the nonlinearity on which our method depends. We use characterisation data in simulations of a proposed architecture for generating samples from dynamically selectable non-uniform probability distributions. The method we present has the potential for Gb/s sample rates, is reconfigurable for arbitrary target distributions, and has a wide range of possible applications. Using a combination of experimental ...
The use of graphene, which has high mobility of charge carriers, high thermal conductivity and a num...
The article presents approach to implementation of random number generator on FPGA unit. The objecti...
An approach to simulate the steady-state and small-signal behavior of GNR MOSFETs (graphene nanoribb...
We introduce a new method for hardware nonuniform random number generation based on the transfer cha...
This dissertation provides applications in the form of Monte Carlo simulations and Bayesian inferenc...
We introduce a method for non-uniform random number generation based on sampling a physical process ...
Abstract—For numerous computationally complex applica-tions, like financial modelling and Monte Carl...
Mersenne Twister (MT) uniform random number generators are key cores for hardware acceleration of Mo...
Non-deterministic random bits are needed in many scientific fields. Unfortunately today's computers ...
Abstract — The necessity of random number generators is found in numerous applications like simulati...
© 2019 SPIE. Compact random number generator (RNG) is presented and demonstrated on the basis of fie...
The article presents approach to implementation of random number generator in FPGA unit. The objecti...
Stochastic computing (SC) is an unconventional computing paradigm that operates on stochastic bit st...
Abstract — The multivariate Gaussian distribution is used to model random processes with distinct pa...
Abstract—We present an automated methodology for producing hardware-based random number generator (R...
The use of graphene, which has high mobility of charge carriers, high thermal conductivity and a num...
The article presents approach to implementation of random number generator on FPGA unit. The objecti...
An approach to simulate the steady-state and small-signal behavior of GNR MOSFETs (graphene nanoribb...
We introduce a new method for hardware nonuniform random number generation based on the transfer cha...
This dissertation provides applications in the form of Monte Carlo simulations and Bayesian inferenc...
We introduce a method for non-uniform random number generation based on sampling a physical process ...
Abstract—For numerous computationally complex applica-tions, like financial modelling and Monte Carl...
Mersenne Twister (MT) uniform random number generators are key cores for hardware acceleration of Mo...
Non-deterministic random bits are needed in many scientific fields. Unfortunately today's computers ...
Abstract — The necessity of random number generators is found in numerous applications like simulati...
© 2019 SPIE. Compact random number generator (RNG) is presented and demonstrated on the basis of fie...
The article presents approach to implementation of random number generator in FPGA unit. The objecti...
Stochastic computing (SC) is an unconventional computing paradigm that operates on stochastic bit st...
Abstract — The multivariate Gaussian distribution is used to model random processes with distinct pa...
Abstract—We present an automated methodology for producing hardware-based random number generator (R...
The use of graphene, which has high mobility of charge carriers, high thermal conductivity and a num...
The article presents approach to implementation of random number generator on FPGA unit. The objecti...
An approach to simulate the steady-state and small-signal behavior of GNR MOSFETs (graphene nanoribb...