Try to spawn hexstreamdpx86_64.exe on MechStu OS: WIN32 with Login: 
Argument 1: none  C:\Users\user\Desktop\December\EO_RC_0_12\EO_RC\EO_RC_cav_thermotables_0_05\EO_RC_cav_thermotables_0_05.run
Argument 2: -taskmanager  none
Argument 3: -steering  C:\Users\user\Desktop\December\EO_RC_0_12\EO_RC\EO_RC_cav_thermotables_0_05\EO_RC_cav_thermotables_0_05.steering
Argument 4: -niversion  open111
Argument 5: -parendId  262166
start_status_ok
TRYRECONNECTED_TO_CHILDREN
SUBTASK_RECONNECTED_TO_CHILDREN
ASK FLOW SOLVER STEERING
FLOW SOLVER STARTED
PVM initialization done.
Block master processes write to std, all others write to log
version 11.1 double-precision.
Trying to read project C:\Users\user\Desktop\Vedanth\December\EO_RC_0_12\EO_RC\EO_RC_cav_thermotables_0_05\EO_RC_cav_thermotables_0_05
Restart and reset convergence history
FMG deactivated
Checking for coin license
Reading the database
WARNING - The option 'Allow Multiple Domains Per Process' is not compatible with PartitionerParallel_ = 0 
WARNING - Automatic swith to parallel partitioner, PartitionerParallel_ = 1
Restart and reset convergence history
Database opened and read successfully
RESET FLOW SOLVER STEERING
STEERING HAS BEEN RESET
Checking module licenses
All licenses checked out!
 in progress...
 in progress...
For incompressible fluids, the pressure switch is disconnected 
WARNING - For One Equation Turbulence Models tm_iResSmoo_ = 2 not allowed
 --> Setting tm_iResSmoo_ = 1
No transition point file
Initial solution in cylindric coordinates
 In Turbomachinery output mode, the expert parameter out_gaugeForceTorque_ is automatically reset to 0
For incompressible fluids, the pressure switch is disconnected 
WARNING - For One Equation Turbulence Models tm_iResSmoo_ = 2 not allowed
 --> Setting tm_iResSmoo_ = 1
No transition point file
Initial solution in cylindric coordinates
 In Turbomachinery output mode, the expert parameter out_gaugeForceTorque_ is automatically reset to 0
For incompressible fluids, the pressure switch is disconnected 
WARNING - For One Equation Turbulence Models tm_iResSmoo_ = 2 not allowed
 --> Setting tm_iResSmoo_ = 1
No transition point file
Initial solution in cylindric coordinates
 In Turbomachinery output mode, the expert parameter out_gaugeForceTorque_ is automatically reset to 0
For incompressible fluids, the pressure switch is disconnected 
WARNING - For One Equation Turbulence Models tm_iResSmoo_ = 2 not allowed
 --> Setting tm_iResSmoo_ = 1
No transition point file
Initial solution in cylindric coordinates
 In Turbomachinery output mode, the expert parameter out_gaugeForceTorque_ is automatically reset to 0
Checking for CAVITATION coin license in PARA
For incompressible fluids, the pressure switch is disconnected 
WARNING - For One Equation Turbulence Models tm_iResSmoo_ = 2 not allowed
 --> Setting tm_iResSmoo_ = 1
No transition point file
Initial solution in cartesian coordinates
 In Turbomachinery output mode, the expert parameter out_gaugeForceTorque_ is automatically reset to 0
For incompressible fluids, the pressure switch is disconnected 
WARNING - For One Equation Turbulence Models tm_iResSmoo_ = 2 not allowed
 --> Setting tm_iResSmoo_ = 1
No transition point file
Initial solution in cartesian coordinates
 In Turbomachinery output mode, the expert parameter out_gaugeForceTorque_ is automatically reset to 0
For incompressible fluids, the pressure switch is disconnected 
WARNING - For One Equation Turbulence Models tm_iResSmoo_ = 2 not allowed
 --> Setting tm_iResSmoo_ = 1
No transition point file
Initial solution in cartesian coordinates
 In Turbomachinery output mode, the expert parameter out_gaugeForceTorque_ is automatically reset to 0
For incompressible fluids, the pressure switch is disconnected 
WARNING - For One Equation Turbulence Models tm_iResSmoo_ = 2 not allowed
 --> Setting tm_iResSmoo_ = 1
No transition point file
Initial solution in cartesian coordinates
 In Turbomachinery output mode, the expert parameter out_gaugeForceTorque_ is automatically reset to 0
Number of grid levels to generate = 4
Number of grid levels to generate = 4
correction for non-matching connections (if existing)
correction for non-matching connections (if existing)
correction for non-matching connections (if existing)
correction for non-matching connections (if existing)
correction for non-matching connections (if existing)
correction for non-matching connections (if existing)
correction for non-matching connections (if existing)
correction for non-matching connections (if existing)
Saving C:\Users\user\Desktop\\December\EO_RC_0_12\EO_RC\EO_RC_cav_thermotables_0_05\EO_RC_cav_thermotables_0_05_p0.dtw file
Saving C:\Users\user\Desktop\\December\EO_RC_0_12\EO_RC\EO_RC_cav_thermotables_0_05\EO_RC_cav_thermotables_0_05_p0.dtw file
Solver has started
Start solving the testcase on current grid
Computing solution on fine grid
Output of solution to files for block 0 (fluid)
Finished output to files for block 0
Output of solution to files for block 1 (fluid)
Finished output to files for block 1
    iter adapt_id    local             var          res-av         res-max         res-abs     cellID 
       1        0        1            Mass    0.000000e+00    0.000000e+00    3.575875e+10      46511 
    iter adapt_id    local             var          res-av         res-max         res-abs     cellID 
       1        0        1            Mass    0.000000e+00    0.000000e+00    5.770544e+10     546440