BNMR: Hardware Debugging: Difference between revisions
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== Introduction == | == Introduction == | ||
Test programs have been created for some of the DAQ | Test programs have been created for some of the DAQ [[BNMR#Hardware Components|VME modules]] in use in the BNMR/BNQR experiments. The test programs are built alongside the main frontend and logger programs. | ||
{| class="wikitable" border=1 cellspacing=3 cellpadding=2 style="background-color:#f0f0f5" | {| class="wikitable" border=1 cellspacing=3 cellpadding=2 style="background-color:#f0f0f5" | ||
Line 11: | Line 11: | ||
|- | |- | ||
|- style="background-color:floralwhite;" | |- style="background-color:floralwhite;" | ||
|| PPG || | || PulseBlaster PPG || vppg_interactive_32bit.exe || test program for PulseBlaster PPG | ||
|- style="background-color:#e6ffe6" | |- style="background-color:#e6ffe6" | ||
|| PPG32 || | || TRIUMF PPG (PPG32) || tppg_interactive_32bit.exe || test program for TRIUMF PPG32 (not used by {{bnmqr|join=/}} yet) | ||
|- style="background-color:floralwhite;" | |- style="background-color:floralwhite;" | ||
|| SIS3801 || | || SIS3801 || sis3801_interactive_32bit.exe || test program for SIS3801 scaler | ||
|- style="background-color:#e6ffe6" | |- style="background-color:#e6ffe6" | ||
|| SIS3820 || | || SIS3820 || sis3820_interactive_32bit.exe || test program for SIS3820 scaler | ||
|- style="background-color:floralwhite;" | |- style="background-color:floralwhite;" | ||
|| PSM | || PSM || psm_interactive_32bit.exe || test program for PSM RF module | ||
|- style="background-color:#e6ffe6" | |- style="background-color:#e6ffe6;" | ||
|| PSMIII || | || PSMII || psm2_interactive_32bit.exe || test program for PSMII RF module | ||
|- style="background-color: | |- style="background-color:floralwhite" | ||
|| | || PSMIII || psm3_interactive_32bit.exe || test program for PSMIII RF module | ||
|- style="background-color:#e6ffe6;" | |||
|| NIMIO || bnmrbeamsim_32bit.exe || test program for NIMIO32, inclusing simulating BNMR beam/helicity flipping | |||
|} | |} | ||
All | All the 32bit programs must be run on the VMIC (not the host computer). The non-32bit programs must be run on the host computer. | ||
The | |||
== PSM == | |||
The test program <code>psm3_interactive_32bit.exe</code> tests the PSMIII module. | |||
This is a menu-driven program. It can be run (with caution) at the same time as the DAQ, as it does not automatically | |||
do any initialization. The module's registers can be dumped by using the 'Dump Registers' command. | do any initialization. The module's registers can be dumped by using the 'Dump Registers' command. | ||
=== example === | === example === | ||
<pre> | <pre> | ||
$ psm3_interactive_32bit.exe | |||
calc_freq_conversion sets max freq = 199999999.953434 Hz and finc=0.046566 | calc_freq_conversion sets max freq = 199999999.953434 Hz and finc=0.046566 | ||
Current experiment is bnmr | Current experiment is bnmr | ||
Line 116: | Line 114: | ||
</pre> | </pre> | ||
== | == PPG == | ||
The test program | The test program <code>vppg_interactive_32bit.exe</code> tests the PulseBlaster PPG module. | ||
This is a menu-driven program. It can be run (with caution) for debugging at the same time as the DAQ, as it does not automatically | |||
do any initialization. For example, it can be used to check whether the PPG is running. | do any initialization. For example, it can be used to check whether the PPG is running. | ||
=== example === | === example === | ||
<pre> | <pre> | ||
$ vppg_interactive_32bit.exe | |||
vmic_mmap: Mapped VME AM 0x09 addr 0x00000000 size 0x00ffffff at address 0x20100000 | vmic_mmap: Mapped VME AM 0x09 addr 0x00000000 size 0x00ffffff at address 0x20100000 | ||
mvme_open: | mvme_open: | ||
Line 173: | Line 167: | ||
</pre> | </pre> | ||
== SIS3820 == | |||
;Note | |||
: The sis3820 must be used in non-DMA mode. The DMA mode does not work | |||
The test program <code>sis3820_interactive_32bit.exe</code> tests the SIS3820 scaler. | |||
This is a menu-driven program. It can be run (with caution) for debugging at the same time as the DAQ, as it does not automatically | |||
do any initialization. For example, it can be used to read the control/status and operation mode register. | |||
Several test procedures are provided. For example, test1 runs a test using the internal 10MHz clock as the LNE source, then reads out the data from the FIFO. | |||
== NIMIO32 / beam simulator == | |||
The test program <code>bnmrbeamsim_32bit.exe</code> tests the NIMIO32 and provides a tool for testing when real beam/helicity inputs are not available. | |||
This is a menu-driven program. It can be run (with caution) for debugging at the same time as the DAQ, as it does not automatically | |||
do any initialization. For example, it can be used to read the control/status and operation mode register. | |||
The main menu provides a generic interface for the NIMIO32. Use the <code>S</code> command to enter a sub-menu of commands specific to {{bnmqr|join=and}}. | |||
=== example === | |||
<pre> | |||
$ bnmrbeamsim_32bit.exe | |||
vmic_mmap: Mapped VME AM 0x0d addr 0x00000000 size 0x00ffffff at address 0x20100000 | |||
mvme_open: | |||
Bus handle = 0x3 | |||
DMA handle = 0x8df23f0 | |||
DMA area size = 1048576 bytes | |||
DMA physical address = 0xb662b000 | |||
vmic_mmap: Mapped VME AM 0x3d addr 0x00000000 size 0x00ffffff at address 0x21100000 | |||
Firmware for Module 1: 0x1140317 | |||
Firmware for Module 2: 0xffffffff | |||
Base[0]=0x100000 | |||
Enter command (A-Y) X to exit? P | |||
cmd=P | |||
NIMIO32 command list | |||
A Read BNMR inputs B Show BaseAddr | |||
C Set One Output D Set OutputBitPat | |||
E Read OutputBitPat F Read Firmware | |||
G Read Input bits H Reset Latch on Inputs | |||
I Read OutputCntrlBits J Read whole output word (32 bits) | |||
K Write OutputCntrlBits L Set Gate Delay values | |||
M Read Gate Delay values N Pulse one output | |||
O Read one input Q Read one latched input | |||
P print this list R Reset | |||
S bnmr simulator | |||
X exit | |||
Enter command (A-Y) X to exit? S | |||
cmd=S | |||
BNMR Simulator - used when real signals are not available | |||
Outputs 2,3,4 are used for the simulator. | |||
Make sure output control bits are set so that Outputs 0-3 are regular outputs (see command 'K') | |||
Make the following connections: | |||
BEAM is controlled by output 2 (connected to input 0) | |||
Hel Down output 3 (connected to input 1) | |||
Hel Up output 4 (connected to input 2) | |||
Enter simulator command (A-Y) X to exit? P | |||
cmd=P | |||
BNMR simulator command list | |||
A Read BNMR inputs | |||
B Beam On C Beam Off | |||
D Hel Up E Hel Down | |||
F Hel Up and Down G Hel neither | |||
H Read Outputs I hel_read_io | |||
S Simulate changing hel | |||
P Print command list Q Quit | |||
</pre> | |||
[[Category:BNMR]] | [[Category:BNMR]] |
Latest revision as of 14:52, 27 April 2022
Introduction
Test programs have been created for some of the DAQ VME modules in use in the BNMR/BNQR experiments. The test programs are built alongside the main frontend and logger programs.
Module | ProgramName | Purpose |
---|---|---|
PulseBlaster PPG | vppg_interactive_32bit.exe | test program for PulseBlaster PPG |
TRIUMF PPG (PPG32) | tppg_interactive_32bit.exe | test program for TRIUMF PPG32 (not used by bnmr / bnqr yet) |
SIS3801 | sis3801_interactive_32bit.exe | test program for SIS3801 scaler |
SIS3820 | sis3820_interactive_32bit.exe | test program for SIS3820 scaler |
PSM | psm_interactive_32bit.exe | test program for PSM RF module |
PSMII | psm2_interactive_32bit.exe | test program for PSMII RF module |
PSMIII | psm3_interactive_32bit.exe | test program for PSMIII RF module |
NIMIO | bnmrbeamsim_32bit.exe | test program for NIMIO32, inclusing simulating BNMR beam/helicity flipping |
All the 32bit programs must be run on the VMIC (not the host computer). The non-32bit programs must be run on the host computer.
PSM
The test program psm3_interactive_32bit.exe
tests the PSMIII module.
This is a menu-driven program. It can be run (with caution) at the same time as the DAQ, as it does not automatically do any initialization. The module's registers can be dumped by using the 'Dump Registers' command.
example
$ psm3_interactive_32bit.exe calc_freq_conversion sets max freq = 199999999.953434 Hz and finc=0.046566 Current experiment is bnmr vmic_mmap: Mapped VME AM 0x09 addr 0x00000000 size 0x00ffffff at address 0x20100000 mvme_open: Bus handle = 0x3 DMA handle = 0x97413e8 DMA area size = 1048576 bytes DMA physical address = 0xb667b000 Pol Synthesizer Module: base address psm_base=0x820000 TRIUMF PSM function support A Read Control Reg a Write Control Reg B Select BNMR/BNQR Mode b Set BNQR PhaseShift C Select Channel(s) c End Sweep Control D Dump Registers d Read/Write Freq Sweep Length E Read Freq Memory e Read IQ Memory F Write Freq Memory(Hz) f Write IQ Memory G Gate Control g Pre/Gated Output Select H help I Init module J Write Tuning Freq j Read Tuning Freq K Ancillary Control k Ancillary I/O L Read/Write Channel Reg l Read/Write Scale Factor M Load frequency file(hex) m Read/Write Buffer Factor P Print this list p Freq Sweep Addr Preset R VME Reset r Freq Sweep Addr Reset S status s Freq Sweep Strobe V RF Power Trip Threshold v RF Power Trip Status/Reset d debug (toggles) Test procedures: 1 Set freq, phase & turn channels on for a certain time 2 Load freq and iq memory from files, load idle, set length regs, preset addr, strobe Enter command (A-Z a-z) X to exit? D Frequency vmic_mmap: Mapped VME AM 0x3d addr 0x00000000 size 0x00ffffff at address 0x22100000 Idle Freq (offset 0x1ffc) = 40028000 Hz (hex value= 0x333c6003) Frequency sweep address = 0x7ff (2047) Frequency sweep length = 0x000 (0) f1 tuning frequency = 0 Hz (hex value = 0x0) fC0 tuning frequency = 0 Hz (hex value = 0x0) fC1 tuning frequency = 0 Hz (hex value = 0x0) Control Registers Register Register #Valid| F0 F1 Name Offset bits | Chan1 | Chan2 | Chan3 | Chan4 | Phase Mod 0x00 16 | 0x0000 | 0x0000 | 0x0000 | 0x0000 | 0x0000 Scale Fac 0x02 08 | 0x00 | 0x00 | 0x00 | 0x00 | 0x00 Buff Fac 0x04 10 | 0x001 | 0x001 | 0x001 | 0x001 | 0x001 IQDM Len 0x06 11 | 0x000 | 0x000 | 0x000 | 0x000 | 0x000 IQDM Addr 0x08 11 | 0x7ff | 0x7ff | 0x7ff | 0x7ff | 0x7ff I,Q Idle 0x1ffc 10 | 512,0| 0,511| 512,0| 0,511| 0,511 Bit Pattern registers Reg Reg Reg Name Offset Value Ch1 Ch2 Ch3 Ch4 F1 Freq EndSweep 0x004b 0x3f 1 1 1 1 1 1 0=stop at Nth 1=jump to idle Gate 0x004c 0x000 0 0 0 0 0 0=disable 1=enable 2=invert 3=always on AncCntrl 0x0050 0x000 0 0 0 0 0=NIM input 1=NIM output AncIn 0x004e 0x000 0 0 0 0 0=Off 1=On AncOut 0x004f 0x000 0 0 0 0 0=Off 1=On Other registers Reg Reg Reg Name Offset Value PreGatedOut 0x0051 0x000 RF PreGated port: F0 ch1 selected GatedOut 0x0052 0x000 RF Gated port: F0 ch1 selected RFtripThr 0x0053 0x0080 Voltage trip at 2.000000 Volts RFtrip 0x0054 0x0000 1=tripped Mode 0x0055 0x0000 0=BNMR 1=BNQR FPGA Temp 0x0058 0x2040 Temperature 64 degrees C (approx) Enter command (A-Z a-z) X to exit?
PPG
The test program vppg_interactive_32bit.exe
tests the PulseBlaster PPG module.
This is a menu-driven program. It can be run (with caution) for debugging at the same time as the DAQ, as it does not automatically do any initialization. For example, it can be used to check whether the PPG is running.
example
$ vppg_interactive_32bit.exe vmic_mmap: Mapped VME AM 0x09 addr 0x00000000 size 0x00ffffff at address 0x20100000 mvme_open: Bus handle = 0x3 DMA handle = 0x870a3e8 DMA area size = 1048576 bytes DMA physical address = 0xb6655000 vmic_mmap: Mapped VME AM 0x29 addr 0x00000000 size 0x0000ffff at address 0x27ff0000 Pulseblaster IS reset Pulseblaster NOT running Pulseblaster is NOT stopped VME polarization source control bits = 0x0 VME Polarization control: OFF External clock IS present External Polarization control: OFF External trigger is DISABLED External trigger register = 0x1 PPG function support A Init B Load C StopSequencer E StartSequencer F EnableExtTrig G DisableExtTrig H ExtTrigRegRead I StatusRead J PolmskRead K PolmskWrite L RegWrite M RegRead N StartpatternWrite O PolzSet Q PolzRead R PolzFlip S PolzCtlPPG T PolzCtlVME U BeamOn V BeamOff W BeamCtlPPG Y BeamCtlRegRead D debug (toggles) P print this list X exit Enter command (A-Y) X to exit? I Pulseblaster IS reset Pulseblaster NOT running Pulseblaster is NOT stopped VME polarization source control bits = 0x0 VME Polarization control: OFF External clock IS present External Polarization control: OFF Read back data =0x21 Enter command (A-Y) X to exit? X
SIS3820
- Note
- The sis3820 must be used in non-DMA mode. The DMA mode does not work
The test program sis3820_interactive_32bit.exe
tests the SIS3820 scaler.
This is a menu-driven program. It can be run (with caution) for debugging at the same time as the DAQ, as it does not automatically do any initialization. For example, it can be used to read the control/status and operation mode register.
Several test procedures are provided. For example, test1 runs a test using the internal 10MHz clock as the LNE source, then reads out the data from the FIFO.
NIMIO32 / beam simulator
The test program bnmrbeamsim_32bit.exe
tests the NIMIO32 and provides a tool for testing when real beam/helicity inputs are not available.
This is a menu-driven program. It can be run (with caution) for debugging at the same time as the DAQ, as it does not automatically do any initialization. For example, it can be used to read the control/status and operation mode register.
The main menu provides a generic interface for the NIMIO32. Use the S
command to enter a sub-menu of commands specific to bnmr and bnqr.
example
$ bnmrbeamsim_32bit.exe vmic_mmap: Mapped VME AM 0x0d addr 0x00000000 size 0x00ffffff at address 0x20100000 mvme_open: Bus handle = 0x3 DMA handle = 0x8df23f0 DMA area size = 1048576 bytes DMA physical address = 0xb662b000 vmic_mmap: Mapped VME AM 0x3d addr 0x00000000 size 0x00ffffff at address 0x21100000 Firmware for Module 1: 0x1140317 Firmware for Module 2: 0xffffffff Base[0]=0x100000 Enter command (A-Y) X to exit? P cmd=P NIMIO32 command list A Read BNMR inputs B Show BaseAddr C Set One Output D Set OutputBitPat E Read OutputBitPat F Read Firmware G Read Input bits H Reset Latch on Inputs I Read OutputCntrlBits J Read whole output word (32 bits) K Write OutputCntrlBits L Set Gate Delay values M Read Gate Delay values N Pulse one output O Read one input Q Read one latched input P print this list R Reset S bnmr simulator X exit Enter command (A-Y) X to exit? S cmd=S BNMR Simulator - used when real signals are not available Outputs 2,3,4 are used for the simulator. Make sure output control bits are set so that Outputs 0-3 are regular outputs (see command 'K') Make the following connections: BEAM is controlled by output 2 (connected to input 0) Hel Down output 3 (connected to input 1) Hel Up output 4 (connected to input 2) Enter simulator command (A-Y) X to exit? P cmd=P BNMR simulator command list A Read BNMR inputs B Beam On C Beam Off D Hel Up E Hel Down F Hel Up and Down G Hel neither H Read Outputs I hel_read_io S Simulate changing hel P Print command list Q Quit