### Table 1: Spiral Inductor Flop Count

in An Efficient Lyapunov Equation-Based Approach for Generating Reduced-Order Models of Interconnect

### Table 3.1: Spiral inductor test structure matrix.

2004

Cited by 1

### Table 1. Spiral inductor flop counts. TBR MMVA VADI FABT-

"... In PAGE 4: ... As mentioned be- fore k is no smaller than n, the dimension of the reduced system; thus, significant computational savings can be expected to accrue with our procedure. It will be evi- dent from the flop counts in Table1 in Section 4.1 that this is indeed the case.... ..."

### Table 2: Spiral inductor: Iterations for convergence of precon- ditioned GMRES.

"... In PAGE 5: ... The coil is contained within a square region of size 1 cmA21 cm. Table2 shows the number of iterations needed by the preconditioned GMRES to solve the linear system with a tolerance of 10A03 on the relative residual norm. Filament width and thickness are identical to the previous experiment.... ..."

### Table.2 The geometric values of square-spiral inductor from Mathcad.

### Table 5.2: Comparison of Different Implementations with Spiral Inductors

2004

### TABLE VI MEASURED PERFORMANCES OF INTEGRATED INDUCTORS CMOS

### Table 1: Comparison of capacitive parasitics for inductors

"... In PAGE 2: ... Hence, the overall parasitic capacitance is lower for the UMC process for the same inductor values. The parasitic capacitances are compared in Table1 . Note that on average the resonant frequency for the UMC process is 30 percent higher than the aluminum process for the same inductor size.... In PAGE 4: ... The filter roll-off and gain of the LNA is dependent on the spiral inductor Q value. Typical aluminum spiral inductors achieve Q values as high as five, while Q values of eight or nine can be realized using equally sized cop- per spiral inductors as shown in Table1 . Simulations of the LNA frequency response were performed for both the TSMC and UMC processes.... ..."