Skip to main content
Sensors
Sensors
Sensors
Main navigation
Home
People
Principal Investigators
Research Scientists and Engineers
Students
All Profiles
Alumni
Former Members
Visiting Scholars
Events
All Events
Events Calendar
News
Pages
Publications
ISL Publications Repository
Research Output
About
Research
Oppotunities
Publications
Patents
Contact Us
Field programmable gate array
Fully digital jerk-based chaotic oscillators for high throughput pseudo-random number generators up to 8.77 Gbitss
1 min read ·
Sat, Jul 20 2013
News
NIST
Circuits
chaos
Field programmable gate array
Random number generator
Lyapunov exponent
Abhinav S. Mansingka, et al., "Fully digital jerk-based chaotic oscillators for high throughput pseudo-random number generators up to 8.77 Gbitss" Microelectronics Journal 44, (9), 2013, 744. Abstract: This paper introduces fully digital implementations of four different systems in the 3rd order jerk-equation based chaotic family using the Euler approximation. The digitization approach enables controllable chaotic systems that reliably provide sinusoidal or chaotic output based on a selection input. New systems are introduced, derived using logical and arithmetic operations between two system