During this week, I have worked on the follows:
1) wrap up the MOR algorithm for L-inverse.
I have created several test cases like RLC meshes.
The result show that our method has the best accuracy 
from dc to high-frequency at the same expansion point and order 
compared to SAPOR, SMOR, and ENOR. 
I'm working on the draft and transferring the experiment part to Yiyu 
to make more waveform accuracy and speedup comparison in both frequency and
time domain for RLC meshes and bus circuits.

2) help Yiyu develop a new MOR technique considering 
high-order terms in RHS. 
As input sources introduce excitation poles, 
we need generate the correct Krylov subspace.
This technique is possible to be extended to nonlinear MOR 
and that will be the next move.
 
3) making progress in layout designs: more large modules are designed in
layout and passed the LVS, including: control logic for rising/falling
patterns, digitized arrival-time controller, and digitized adaptive driver.