Simulator for optimizing performance and power of embedded multicore processors

Goska, Benjamin J.

26 April 2012

This work presents improvements to a multi-core performance/power simulator. The improvements which include updated power models, voltage scaling aware models, and an application specific benchmark, are done to increase the accuracy of power models under voltage and frequency scaling. Improvements to the simulator enable more accurate design space exploration for a biomedical application. The work flow used to modify the simulator is also presented so similar modifications could be used on future simulators. / Graduation date: 2012

Low power digital

SIMD

Multicore

Digital simulation

Power modeling

Performance enhancement techniques for low power digital phase locked loops

Elshazly, Amr

16 July 2014

Desire for low-power, high performance computing has been at core of the symbiotic union between digital circuits and CMOS scaling. While digital circuit performance improves with device scaling, analog circuits have not gained these benefits. As a result, it has become necessary to leverage increased digital circuit performance to mitigate analog circuit deficiencies in nanometer scale CMOS in order to realize world class analog solutions. In this thesis, both circuit and system enhancement techniques to improve performance of clock generators are discussed. The following techniques were developed: (1) A digital PLL that employs an adaptive and highly efficient way to cancel the effect of supply noise, (2) a supply regulated DPLL that uses low power regulator and improves supply noise rejection, (3) a digital multiplying DLL that obviates the need for high-resolution TDC while achieving sub-picosecond jitter and excellent supply noise immunity, and (4) a high resolution TDC based on a switched ring oscillator, are presented. Measured results obtained from the prototype chips are presented to illustrate the proposed design techniques. / Graduation date: 2013 / Access restricted to the OSU Community at author's request from July 16, 2012 - July 16, 2014

Phase locked loops

Delay locked loops

Supply noise mitigation

background calibration

Digital PLL

Supply noise

Time to digital converter

TDC

Switched ring oscillator

SRO-TDC

Digital circuits

Low power

Area efficient

Digitally controlled oscillator

Performance enhancement techniques

Integrated circuits

Frequency synthesizers

Clock multipliers

Integrated circuits

Microelectronics

Analog and mixed

Circuits and systems

Analog

Digital

Solid state circuit

Phase-locked loops

Electronic noise -- Prevention

Low voltage systems

Frequency synthesizers