Simulation Convergence

Simulation Convergence & Accuracy Metrics: eigenmode simulation quality

indicators for reliable EPR extraction

  1. Eigenmode Solver Convergence

Parameter

Symbol

Unit

Description

Optimal / Best Value

Good Range

Acceptable Range

Poor / Worst Value

Physical Significance

Eigenfrequency Convergence ΔFreq

Delta f / f

ppm

Relative change in eigenfrequency between successive mesh refinement

passes.

< 5 ppm

< 50 ppm

50 – 500 ppm

> 1000 ppm

EPR frequencies directly set qubit and resonator values; poor

convergence propagates to all outputs.

Energy Error (Maxwell equations)

Delta U / U

%

Relative error in total electromagnetic energy from adaptive mesh

refinement.

< 0.1%

< 0.5%

0.5 – 2%

> 5%

Energy error directly bounds participation ratio error; must be

minimised for accurate loss prediction.

Tetrahedral Mesh Count

N_mesh

thousands

Number of tetrahedra in adaptive mesh; convergence criterion, not

absolute target.

200 – 2000k

50 – 200k

10 – 50k

< 5k

Too few → inaccurate fields, especially at thin features (junctions,

gaps); too many → slow.

Number of Eigenmode Passes

N_passes

integer

Adaptive refinement passes until convergence criterion is met.

10 – 20 passes

7 – 10 passes

4 – 6 passes

< 3 passes

Insufficient passes leave mesh unrefined in critical regions (junction

vicinity, surface gaps).

Mode Participation Sum Check

sum p

dimensionless

Sum of EPR participations across all modes; should equal 1 for each

junction.

0.99 – 1.01

0.97 – 1.03

0.93 – 1.07

< 0.90 or > 1.10

Deviation indicates missing eigenmodes, disconnected networks, or mesh

error in junction volume.

Participation Ratio Repeatability

sigma_p / p

%

Run-to-run relative standard deviation of participation ratios across

identical simulations.

< 0.5%

< 2%

2 – 5%

> 10%

Poor repeatability indicates stochastic mesh seeding issues; use fixed

seed and fine mesh.

  1. Loss Analysis Simulation Quality

Parameter

Symbol

Unit

Description

Optimal / Best Value

Good Range

Acceptable Range

Poor / Worst Value

Physical Significance

Surface Participation Error

Delta p_surf

%

Relative error in surface (interface) participation ratio from finite

mesh at thin layers.

< 2%

< 5%

5 – 15%

> 20%

Thin oxide layers (2–5 nm) require extremely fine mesh; often estimated

analytically.

Junction Volume Definition Accuracy

Delta V_J / V_J

%

Relative accuracy of the junction geometric volume used to compute

junction participation.

< 1%

< 5%

5 – 10%

> 20%

Junction volume error directly maps to participation ratio error;

critical CAD accuracy needed.

Number of Loss Regions Modelled

N_regions

integer

Number of distinct lossy material regions (interfaces) explicitly

included in the EPR model.

= 4 (MS, SA, MA, bulk)

3

2

1 (bulk only)

Modelling only bulk misses dominant surface/interface losses in planar

devices.

Frequency Band of Validity

BW_valid

GHz

Frequency range over which the extracted Hamiltonian parameters are

valid (no spurious modes).

0 – 15 GHz (no spurious)

0 – 10 GHz

5 – 10 GHz only

Spurious modes present

Spurious modes can hybridize with qubit and resonator, invalidating EPR

sums.