There are several reasons to convert MSOR to SOR:
For a 2-group MSOR (red-black), the iteration matrix is ( \mathcalL MSOR ). To convert, we seek a scalar ( \omega ) such that the spectral radius ( \rho(\mathcalL SOR(\omega)) ) approximates ( \rho(\mathcalL_MSOR(\omega_1,\omega_2)) ).
MSOR allows a ( \omega_i ) for each equation (or for blocks). The iteration becomes:
x_msor = msor_solve(A, b, omega1=1.2, omega2=1.8)
So, why would one want to convert an MSOR matrix to an SOR matrix? There are several reasons:
if (i is in Group 1): omega = 1.5 else: omega = 1.5
A is a square matrix obtained by modifying a rectangular matrix. Specifically, an MSOR matrix is formed by multiplying a rectangular matrix by its transpose and then adding a diagonal matrix to the result. This process introduces additional structure and properties to the resulting matrix.
dx/dt = f(x, u) y_i = h_i(x)
There are several reasons to convert MSOR to SOR:
For a 2-group MSOR (red-black), the iteration matrix is ( \mathcalL MSOR ). To convert, we seek a scalar ( \omega ) such that the spectral radius ( \rho(\mathcalL SOR(\omega)) ) approximates ( \rho(\mathcalL_MSOR(\omega_1,\omega_2)) ).
MSOR allows a ( \omega_i ) for each equation (or for blocks). The iteration becomes: convert msor to sor
x_msor = msor_solve(A, b, omega1=1.2, omega2=1.8)
So, why would one want to convert an MSOR matrix to an SOR matrix? There are several reasons: There are several reasons to convert MSOR to
if (i is in Group 1): omega = 1.5 else: omega = 1.5
A is a square matrix obtained by modifying a rectangular matrix. Specifically, an MSOR matrix is formed by multiplying a rectangular matrix by its transpose and then adding a diagonal matrix to the result. This process introduces additional structure and properties to the resulting matrix. The iteration becomes: x_msor = msor_solve(A, b, omega1=1
dx/dt = f(x, u) y_i = h_i(x)
Trial user and registered user
If you have problems to install iMonitor EAM, you can contact us to help you to install iMonitor EAM via Remote Desktop Tool, no extra fees, whether you are a registered user or a trial user.
Free & safe Third-party Remote Desktop Tool:
Please download the Zero-Config Remote Desktop Software 'Teamviewer' and tell us your ID and password and arrange a time with our support team, then our support team will connect to your computer and help you to check your issues about our IMonitor EAM.
Teamviewer download link: http://www.teamviewer.com/
Preparations:
1. Install 'Teamviewer' on your server computer(the computer you want to install EAM server program).
2. Prepare a client computer(a computer you want to monitor, EAM agent program will be installed on the computer.).
3. Make sure you can connect to the client computer from your server computer via Windows Remote Desktop(This will help us to complete the work in a fastest time).