An integrated continuous-time chaotic oscillator capable of operating at very high frequencies is presented and its application to a high-speed random bit generator is described. Numerical and experimental results show that the generated binary streams pass standard statistical tests. Simulation using CADENCE tools also verifies that the circuit operates in the GRz range
This paper presents a CMOS chip which can act as an autonomous stand-alone unit to generate differen...
In this work a discrete-time CMOS analog/digital white-noise generator is presented. The proposed ci...
This paper presents a 2.4 /spl mu/m CMOS IC prototype which includes a programmable chaotic generato...
In this work, an integrated random number generator based on oscillator sampling method is presented...
In this work, an integrated random number generator based on oscillator sampling method is presented...
In this work a new random number generator circuit using continuous-time chaos is described. The cir...
In this work an original CMOS implementation of a discrete-time deterministic-chaos algorithm for ra...
We present the design and the validation by means of suitably improved randomness tests of two diffe...
This work proposes a random numbers generator for application in the field of secure communications....
A novel kind of chaos, digital chaos is proposed, and an extremely simple circuit to generate freque...
This chapter discusses the problem of “chaos generation”, namely efficient techniques for the design...
Chaos is a purely mathematical term, describing a signal that is aperiodic and sensitive to initial ...
We present the design and the validation by means of suitably improved randomness tests of two diff...
In this chapter we discuss the problem of "chaos generation", namely efficient techniques for the de...
This paper presents a CMOS chip which can act as an autonomous stand-alone unit to generate differen...
In this work a discrete-time CMOS analog/digital white-noise generator is presented. The proposed ci...
This paper presents a 2.4 /spl mu/m CMOS IC prototype which includes a programmable chaotic generato...
In this work, an integrated random number generator based on oscillator sampling method is presented...
In this work, an integrated random number generator based on oscillator sampling method is presented...
In this work a new random number generator circuit using continuous-time chaos is described. The cir...
In this work an original CMOS implementation of a discrete-time deterministic-chaos algorithm for ra...
We present the design and the validation by means of suitably improved randomness tests of two diffe...
This work proposes a random numbers generator for application in the field of secure communications....
A novel kind of chaos, digital chaos is proposed, and an extremely simple circuit to generate freque...
This chapter discusses the problem of “chaos generation”, namely efficient techniques for the design...
Chaos is a purely mathematical term, describing a signal that is aperiodic and sensitive to initial ...
We present the design and the validation by means of suitably improved randomness tests of two diff...
In this chapter we discuss the problem of "chaos generation", namely efficient techniques for the de...
This paper presents a CMOS chip which can act as an autonomous stand-alone unit to generate differen...
In this work a discrete-time CMOS analog/digital white-noise generator is presented. The proposed ci...
This paper presents a 2.4 /spl mu/m CMOS IC prototype which includes a programmable chaotic generato...