via fills have become indispensable aspects of semiconductor manufacturing. CMP fills are used to reduce metal thickness variations due to chemical–mechanical polishing. Via fills are used to improve neighboring via printability and reliability of low-k and ultra low-k dielectrics. Active region fills are used for STI CMP uniformity and stress optimization. Although modern parasitic extraction tools accurately handle grounded fills and regular interconnects, such tools use only rough approximations to assess the capacitance impact of floating fills, such as assuming that floating fills are grounded or that each fill is merged with neighboring ones. To reduce such inaccuracies, we provide a design of experiments (DOE) which complements what ...
In very deep-submicron VLSI, certain manufacturing steps – notably optical exposure, resist developm...
The impact of parasitic elements on the overall circuit performance keeps increasing from one techno...
Shallow trench isolation (STI) is the mainstream CMOS isolation technology. It uses chemical mechani...
Abstract — Metal fills, which are used to reduce metal thickness variations due to chemical-mechanic...
To improve manufacturability and yield, a number of fill structures are used in semiconductor manufa...
Graduation date: 2011With increasing transistor operating frequencies, interconnects and passive dev...
In this paper, we analyze and model the impact of floating dummy fill on the signal capacitance cons...
Inserting metal fill to improve inter-level dielectric thickness planarity is an essential part of t...
A novel modeling methodology is developed for interconnect parasitic capacitances in rule-based extr...
Chemical-mechanical planarization (CMP) and other manufactur-ing steps in very deep-submicron VLSI h...
technical reportA novel approach to solving the accurate capacitance and resistance extraction probl...
Dummy fill insertion in Chemical-mechanical Planarization (CMP) can change the coupling and total ca...
CMP faces numerous challenges, as we move towards 45-nm and 32-nm nodes. The most important of these...
Graduation date: 2010Variability in circuit performance due to process defects is a major concern in...
In very deep-submicron VLSI, certain manufacturing steps -- notably optical exposure, resist develop...
In very deep-submicron VLSI, certain manufacturing steps – notably optical exposure, resist developm...
The impact of parasitic elements on the overall circuit performance keeps increasing from one techno...
Shallow trench isolation (STI) is the mainstream CMOS isolation technology. It uses chemical mechani...
Abstract — Metal fills, which are used to reduce metal thickness variations due to chemical-mechanic...
To improve manufacturability and yield, a number of fill structures are used in semiconductor manufa...
Graduation date: 2011With increasing transistor operating frequencies, interconnects and passive dev...
In this paper, we analyze and model the impact of floating dummy fill on the signal capacitance cons...
Inserting metal fill to improve inter-level dielectric thickness planarity is an essential part of t...
A novel modeling methodology is developed for interconnect parasitic capacitances in rule-based extr...
Chemical-mechanical planarization (CMP) and other manufactur-ing steps in very deep-submicron VLSI h...
technical reportA novel approach to solving the accurate capacitance and resistance extraction probl...
Dummy fill insertion in Chemical-mechanical Planarization (CMP) can change the coupling and total ca...
CMP faces numerous challenges, as we move towards 45-nm and 32-nm nodes. The most important of these...
Graduation date: 2010Variability in circuit performance due to process defects is a major concern in...
In very deep-submicron VLSI, certain manufacturing steps -- notably optical exposure, resist develop...
In very deep-submicron VLSI, certain manufacturing steps – notably optical exposure, resist developm...
The impact of parasitic elements on the overall circuit performance keeps increasing from one techno...
Shallow trench isolation (STI) is the mainstream CMOS isolation technology. It uses chemical mechani...