Parasitic extraction

In electronic design automation, parasitic extraction is calculation of the parasitic effects in both the designed devices and the required wiring interconnects of an electronic circuit: parasitic capacitances, parasitic resistances and parasitic inductances, commonly called parasitic devices, parasitic components, or simply parasitics.

The major purpose of parasitic extraction is to create an accurate analog model of the circuit, so that detailed simulations can emulate actual digital and analog circuit responses. Digital circuit responses are often used to populate databases for signal delay and loading calculation such as: timing analysis; circuit simulation; and signal integrity analysis. Analog circuits are often run in detailed test benches to indicate if the extra extracted parasitics will still allow the designed circuit to function.

Background

In early integrated circuits the impact of the wiring was negligible, and wires were not considered as electrical elements of the circuit. However below the 0.5-micrometre technology node resistance and capacitance of the interconnects started making a significant impact on circuit performance.[1] With shrinking process technologies inductance effects of interconnects became important as well.

Major effects of interconnect parasitics include: signal delay, signal noise, IR drop (resistive component of voltage).

Interconnect capacitance extraction

Interconnect capacitance is calculated by giving the extraction tool the following information: the top view layout of the design in the form of input polygons on a set of layers; a mapping to a set of devices and pins (from a Layout Versus Schematic run), and a cross sectional understanding of these layers. This information is used to create a set of layout wires that have added capacitors where the input polygons and cross sectional structure indicate. The output netlist contains the same set of input nets as the input design netlist and adds parasitic capacitor devices between these nets.

Interconnect resistance extraction

Interconnect resistance is calculated by giving the extraction tool the following information: the top view layout of the design in the form of input polygons on a set of layers; a mapping to a set of devices and pins (from a Layout Versus Schematic run), and a cross sectional understanding of these layers including the resistivity of the layers. This information is used to create a set of layout sub.wires that have added resistance between various sub-parts of the wires. The above Intererconnect Capacitance is divided and shared amongst the sub-nodes in a proportional way. Note that unlike Interconnect Capacitance, Interconnect Resistance needs to add sub-nodes between the circuit elements to place these parasitic resistors. This can greatly increase the size of the extracted output netlist and can cause additional simulation problems.

Tools and vendors

The tools fall into the following broad categories.

ANSYS Q3D Extractor

ANSYS Q3D Extractor uses method of moments (integral equations) and FEMs to compute capacitive, conductance, inductance and resistance matrices. It uses the fast multipole method (FMM) to accelerate the solution of the integral equations. Outputs from the solver include current and voltage distributions, CG and RL matrices..[2][3]

FastCap, FastHenry

FastCap and FastHenry, from MIT (Massachusetts Institute of Technology) are two free parasitics extractor tools for capacitance, and inductance and resistance. Quoted in many scientific articles, are considered golden references in their field. Windows versions with viewer and editor are freely available from FastFieldSolvers.[4][5]

StarRC

StarRC from Synopsys (previously from Avanti) is a universal parasitics extractor tool applicable for a full range of electronic designs.[6]

QRC

QRC from Cadence is a parasitic extractor tool for both digital and analog designs.[7]

Calibre xACT3D

Calibre xACT3D from Mentor Graphics is a parasitic extractor tool for both digital and analog designs. [8]

See also

References

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