This paper introduces a novel approach towards the statistical analysis of modern high-speed 110 and similar communication links; which is capable of reliably to determine extremely low (-10-2 or lower) bit error rates (BER) by using techniques from extreme value theory (EVT). The new method requires only a small amount of voltage values at the received eye center, which can be generated by running circuit/system level simulations or measuring fabricated I/O circuits, to predict link BERs. Unlike conventional techniques, no simplifying assumptions on link noise and interference sources are required making this approach extremely portable to any communication system operating with very low BER. Our experimental results show that the BER esti...
In the article, the authors present a new method of numerical determination of Q and BER parameters ...
The bit error rate (BER) is one of the most important quality criteria for digital transmission syst...
Project (M.S., Computer Engineering)--California State University, Sacramento, 2014.High speed seria...
To learn statistical bit-error-rate (BER) simulation, BER link noise budgeting and using ADS to mode...
This paper presents a novel technique that allows easy and accurate estimation of the system bit err...
Today's high-speed I/O links operate under stringent specifications: few tens of Gb/s data rates ove...
In the field of VLSI there has always been three main factors of concern i.e. Cost, Area, Speed. In ...
Abstract — With the need for decreased power consumption as link speeds have increased in this paper...
A novel technique allows an easy and accurate estimation of the system BER by collecting the statist...
Abstract — The paper presents a fast bit-error-rate (BER) test suitable for digital receivers or tra...
Abstract—High peak-to-average power ratio is a major problem that is inherent in all multicarrier co...
Abstract—The bit-error-rate (BER) estimation of communica-tion systems can be very time consuming wh...
We present a generic approximation of the packet error rate (PER) function of uncoded schemes in the...
Statistical link analysis and link budget calculation is the essential part for current high-speed s...
A high peak-to-average power ratio is a major problem that is inherent in all multicarrier communica...
In the article, the authors present a new method of numerical determination of Q and BER parameters ...
The bit error rate (BER) is one of the most important quality criteria for digital transmission syst...
Project (M.S., Computer Engineering)--California State University, Sacramento, 2014.High speed seria...
To learn statistical bit-error-rate (BER) simulation, BER link noise budgeting and using ADS to mode...
This paper presents a novel technique that allows easy and accurate estimation of the system bit err...
Today's high-speed I/O links operate under stringent specifications: few tens of Gb/s data rates ove...
In the field of VLSI there has always been three main factors of concern i.e. Cost, Area, Speed. In ...
Abstract — With the need for decreased power consumption as link speeds have increased in this paper...
A novel technique allows an easy and accurate estimation of the system BER by collecting the statist...
Abstract — The paper presents a fast bit-error-rate (BER) test suitable for digital receivers or tra...
Abstract—High peak-to-average power ratio is a major problem that is inherent in all multicarrier co...
Abstract—The bit-error-rate (BER) estimation of communica-tion systems can be very time consuming wh...
We present a generic approximation of the packet error rate (PER) function of uncoded schemes in the...
Statistical link analysis and link budget calculation is the essential part for current high-speed s...
A high peak-to-average power ratio is a major problem that is inherent in all multicarrier communica...
In the article, the authors present a new method of numerical determination of Q and BER parameters ...
The bit error rate (BER) is one of the most important quality criteria for digital transmission syst...
Project (M.S., Computer Engineering)--California State University, Sacramento, 2014.High speed seria...