We present a hardware Gaussian noise generator based on the Box-Muller method that provides highly accurate noise samples. The noise generator can be used as a key component in a hardware-based simulation system, such as for exploring channel code behavior at very low bit error rates, as low as 10(-12) to 10(-13). The main novelties of this work are accurate analytical error analysis and bit-width optimization for the elementary functions involved in the Box-Muller method. Two 16-bit noise samples are generated every clock cycle and, due to the accurate error analysis, every sample is analytically guaranteed to be accurate to one unit in the last place. An implementation on a Xilinx Virtex-4 XC4VLX100-12 FPGA occupies 1,452 slices, three bl...
International audienceTo satisfy cost constraints, application implementation in embed- ded systems ...
One type of favorite source signals is a white noise signal having a Gaussian PDF1. Such a signal ha...
International audienceThis work presents a new method for the Verilog-A implementation of Lorentzian...
In regards to data transmission in communication systems, there is need for robust emulation of comm...
Abstract—Hardware simulation offers the potential of improving code evaluation speed by orders of ma...
In modern communication systems, powerful error control codes such as Turbo code and Low-Density Par...
2014 IEEE Asia Pacific Conference on Circuits and Systems, APCCAS 2014, 17 -20 November 2014A digita...
The random noise signal is widely used as a test signal to identify a physical or biological system....
Electronic countermeasures are critical to air vehicle survivability. Noise jamming is a technique t...
The random noise signal is widely used as a test signal to identify a physical or biological system....
In this paper a ƀexible, high-throughput, low-complexity additive white gaussian noise (AWGN) channe...
This thesis presents a robust programmable analog Gaussian noise generator suitable for mixed-signal...
In this thesis an algorithm has been proposed to digitally simulate white Gaussian noise. The validi...
ABSTRACT: Digital communication performances are affected by noise. Amplitude Probability Distributi...
This article reveals three methods of noise generating with Gauss distribution by using uniformly di...
International audienceTo satisfy cost constraints, application implementation in embed- ded systems ...
One type of favorite source signals is a white noise signal having a Gaussian PDF1. Such a signal ha...
International audienceThis work presents a new method for the Verilog-A implementation of Lorentzian...
In regards to data transmission in communication systems, there is need for robust emulation of comm...
Abstract—Hardware simulation offers the potential of improving code evaluation speed by orders of ma...
In modern communication systems, powerful error control codes such as Turbo code and Low-Density Par...
2014 IEEE Asia Pacific Conference on Circuits and Systems, APCCAS 2014, 17 -20 November 2014A digita...
The random noise signal is widely used as a test signal to identify a physical or biological system....
Electronic countermeasures are critical to air vehicle survivability. Noise jamming is a technique t...
The random noise signal is widely used as a test signal to identify a physical or biological system....
In this paper a ƀexible, high-throughput, low-complexity additive white gaussian noise (AWGN) channe...
This thesis presents a robust programmable analog Gaussian noise generator suitable for mixed-signal...
In this thesis an algorithm has been proposed to digitally simulate white Gaussian noise. The validi...
ABSTRACT: Digital communication performances are affected by noise. Amplitude Probability Distributi...
This article reveals three methods of noise generating with Gauss distribution by using uniformly di...
International audienceTo satisfy cost constraints, application implementation in embed- ded systems ...
One type of favorite source signals is a white noise signal having a Gaussian PDF1. Such a signal ha...
International audienceThis work presents a new method for the Verilog-A implementation of Lorentzian...