Accurate technique based on geometric programming for analog circuit sizing /
Abdelrahman Sayed Fathy
Accurate technique based on geometric programming for analog circuit sizing / أسلوب دقيق لإيجاد أبعاد الدوائر التناظرية مبنى على البرمجة الهندسية Abdelrahman Sayed Fathy ; Supervised Ahmed Nader Mohieldin , Mohsen Mohammad Mahroos - Cairo : Abdelrahman Sayed Fathy , 2020 - 53 P. : charts ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Electronics and Communication
In this thesis, a new method for optimization of analog circuit is presented. It is based on the method of geometric programming for convex optimization. It uses a look-up table that holds the characteristics of MOS devices to speed up the optimization. A generic optimization system is implemented in C++ that utilizes the proposed method. The implemented system is described thoroughly. The method is proved to be very efficient as well as accurate in meeting the required circuit specifications. A novel method to optimize the circuit across PVT corners is also introduced. The results of a two-stage op-amp optimization are shown and appear to be superior to results of previous optimization methods
Analog Circuits Design Optimization Geometric Programming
Accurate technique based on geometric programming for analog circuit sizing / أسلوب دقيق لإيجاد أبعاد الدوائر التناظرية مبنى على البرمجة الهندسية Abdelrahman Sayed Fathy ; Supervised Ahmed Nader Mohieldin , Mohsen Mohammad Mahroos - Cairo : Abdelrahman Sayed Fathy , 2020 - 53 P. : charts ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Electronics and Communication
In this thesis, a new method for optimization of analog circuit is presented. It is based on the method of geometric programming for convex optimization. It uses a look-up table that holds the characteristics of MOS devices to speed up the optimization. A generic optimization system is implemented in C++ that utilizes the proposed method. The implemented system is described thoroughly. The method is proved to be very efficient as well as accurate in meeting the required circuit specifications. A novel method to optimize the circuit across PVT corners is also introduced. The results of a two-stage op-amp optimization are shown and appear to be superior to results of previous optimization methods
Analog Circuits Design Optimization Geometric Programming