H1 FPU Bit Tracking
h1susprocpi
Suspicious Channels
H1:SUS-PI_PROC_COMPUTE_MODE30_NORMLOG10RMSMON -inf
H1:SUS-PI_PROC_COMPUTE_MODE30_NORMLOG10AMPMON -nan
H1:SUS-PI_PROC_COMPUTE_MODE21_NORMLOG10RMSMON -inf
H1:SUS-PI_PROC_COMPUTE_MODE21_NORMLOG10AMPMON -nan
Model
Signal Data IPCs are fed to MuxMatrix: Outputs 21 and 30 are always zero, these outputs are fed to pretty standard -> RMS -> log10(x). Log of 0 causes the invalid math operation.
Solution
TBD
h1susproc
Suspicious Channels
H1:SUS-ETMX_L2_DAMP_MODE10_RMSLP_LOG10_OUTMON -inf
H1:SUS-ETMX_L2_DAMP_MODE19_RMSLP_LOG10_OUTMON -inf
H1:SUS-ETMX_L2_DAMP_MODE20_RMSLP_LOG10_OUTMON -inf
H1:SUS-ETMY_L2_DAMP_MODE16_RMSLP_LOG10_OUTMON -inf
H1:SUS-ETMY_L2_DAMP_MODE17_RMSLP_LOG10_OUTMON -inf
H1:SUS-ITMX_L2_DAMP_MODE10_RMSLP_LOG10_OUTMON -inf
H1:SUS-ITMX_L2_DAMP_MODE18_RMSLP_LOG10_OUTMON -inf
Model
Various filter modules have gains of 0.0, inputs/outputs off causing a 0 to be passed to log.
Solution
- Configure these filter modules to pass signal data.
h1oaf
Suspicious Channels
None, might be hard to debug. Reported error div/0 and invalid math.
Model
Solution
h1bos
Suspicious Channels
None, might be hard to debug. Reported error div/0 and invalid math.
Model
Solution
h1omc
Suspicious Channels
None, might be hard to debug. Reported error div/0 and invalid math.
Model
Solution
h1lsc
Usually clears, but comes back after some time.
Suspicious Channels
None, might be hard to debug. Reported error div/0 and invalid math.
Model
Solution
h1sqz
Usually clears, but comes back after some time.
Suspicious Channels
None, might be hard to debug. Reported error div/0 and invalid math.