`accept`

This keyword prints the number of accepted time points from the last transient analysis.`equations`

Print the number of nodes in the current circuit, including internally generated nodes. This includes the ground node so is one larger than the matrix size.`fillin`

Print the number of fillins generated during matrix reordering and factoring. This is not available from KLU.`involcxswitch`

This provides the number of involuntary context switches seen during the last analysis. If multiple threads are being used, this is the total for all threads.`loadthrds`

Report the number of threads used for device evaluation and matrix loading during the most recent dc (including operating point) or transient analysis. This would be at most the value of the*loadthrds*option variable in effect during the analysis, but is the number of threads actually used.`loopthrds`

Report the number of threads in use for repetitive analysis in the most recent analysis run. This would be at most the value of the*loopthrds*option variable in effect during the analysis, but is the number of threads actually used.`matsize`

Print the size of the circuit matrix.`nonzero`

Print the number of nonzero matrix elements.`pagefaults`

Report the number of page faults seen during the most recent analysis.`rejected`

This keyword prints the number of rejected time points in the last transient analysis.- runs

In Monte Carlo, operating range, and sweep analysis, this returns the number of trial runs over which statistics have accumulated. `totiter`

This keyword prints the total number of Newton iterations used in the last analysis.`trancuriters`

This prints the number of Newton iterations used in the most recent transient analysis time point evaluation.`traniter`

The`traniter`keyword will print the number of iterations used in the last transient analysis. This does not include iterations used in the operating point calculation, unlike`totiter`which includes these iterations.`tranitercut`

The number if times that the most recent transient analysis had a time step cut by iteration count. If the*itl4*limit is reached when attempting convergence at a transient time point, the timestep is cut and convergence is reattempted.`tranpoints`

This keyword prints the number of internal time steps used in the last transient analysis.`trantrapcut`

This is the number of times in the most recent transient analysis that a timestep was cut due to the trapcheck algorithm. This may occur when the*trapcheck*variable is set, which enables a test to detect numerical problems in trapezoidal integration.`volcxswitch`

This provides the number of voluntary context switches seen during the last analysis. If multiple threads are being used, this is the total for all threads.