Difference between revisions of "Warren Parsons Log Book"

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;In looking through the VHDL code to figure out how it works I have made the following discoveries:
 
;In looking through the VHDL code to figure out how it works I have made the following discoveries:
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:The code in GEMReadout.vhd governs the behavior of the GEMReadout component.
  
 
:Code governing the G0 (Gin(0)) and G1 (Gin(1)) Inputs
 
:Code governing the G0 (Gin(0)) and G1 (Gin(1)) Inputs
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::In GEMReadout.vhd the signal GIN(1) gets loaded into HARD_TRIGGER. HARD_TRIGGER then gets loaded into the HARD_TRIGGER of the GEMTrigger component as well as the HARD_TRIGGER of a GEMTxChannel component. Thus far I am unclear what is done with this HARD_TRIGGER signal for these components. I will figure this out on Friday, hopefully.
 
::In GEMReadout.vhd the signal GIN(1) gets loaded into HARD_TRIGGER. HARD_TRIGGER then gets loaded into the HARD_TRIGGER of the GEMTrigger component as well as the HARD_TRIGGER of a GEMTxChannel component. Thus far I am unclear what is done with this HARD_TRIGGER signal for these components. I will figure this out on Friday, hopefully.
  
::Still in GEMReadout.vhd the GIN(0) signal gets loaded into the inclk0 value of the PLLBlock component. It gets loaded.
+
::Still in GEMReadout.vhd the GIN(0) signal gets loaded into the inclk0 value of the PLLBlock component.
  
 
=5/22/09=
 
=5/22/09=

Revision as of 15:09, 22 May 2009

This tracks My Daily Progress developing the VFAT readout

VHDL files for v1495

GEMReadout.vhd
The main function routines?
GEMReadout_tb.vhd
GEMRxChannel.vhd
GEMRxEventDataFIFO.vhd
a routine controlling the FIFO
GEMRxEventSizeFIFO.vhd
Defines the Event size and structure
GEMTxChannel.vhd
PLLVBlock.vhd
spare_if_rtl.vhd
tristate_if_trl.vhd
v1495usr.vhd
v1495usr_pkg.vhd
v1495usr_hal.vqm
From the v1495 manual this is the v1495 Hardware Abstraction Layer. It is an HDL module provided in Verilog format at the netlist level in order to help interface the hardware.
Reading through this file makes it clear that we are using the Cyclone chip family. I can't find where the "cyclone_lcell" module is defined. I am wondering if it is defined inside of the Quartus II program in a library somewhere. Figuring this out would probably help unravel how our HDL code is actually instantiated in hardware.

5/14/09

Firmware

Today we started looking at the VHDL firmware programs from Ben Raydo at JLab. Our goal: To determine what the general description of the firmware program is and determine an outline of its functionality.

Quartus II

Quartus II has a fairly good tutorial for usage. My goal is to complete this tutorial by the end of the week.

I also started to familiarize myself with the VHDL programming language.

5/15/09

Spent vast majority of day learning VHDL syntax.

Spent some time reviewing the GEM Readout Controller Firmware Status

Spent some time reviewing the v1495 instruction manual ( the Quartus II instructions in particular )

Spent some time reviewing the VFAT instruction manual

Is there a primer somewhere on how to communicate via/with VME?
How about this http://www.vita.com/vmefaq.html

I need to write down how to get into the DAQ as well as ROC xterm windows.

Tamuna can show you the above

5/18/09

From the manual on the VFAT2
Are we using the Roman Pots or the GEM version for the channel assignments? (I assume the latter.)
GEM version

If I understand the underlying functionality of the output of the VFAT2 then the basic idea is that it transfers the hit data from SRAM1 to SRAM2 as soon as there is a LV1A signal (100) sent to the VFAT2 via the "T1" line (after the latency time programmed into the Latency Register with a default setting of 6.4us).

I thought the max latency is 6.4 us and the default is zero

Once data is transferred from SRAM1 to SRAM2 it immediately starts outputing the information on "DataOut" at the "MCLK" rate of 40Mhz (I assume to be ultimately governed by the v1495). Valid data can be found on the "DataOut" line as long as the "DataValid" line is high. Thus the LV1A signal on "T1" followed by a transition to high on the "DataValid" line should set off the v1495 data capturing routine. Data is clocked out in FIFO order if more LV1A signals are sent to the VFAT2 before all of the data has been transferred out of the VFAT2.

 I am unclear if the V1495 firmware is programmed to begin a read when the L1 trigger transitions or when DataValid transition.  I think it should be when DataValid transitions.


Tamuna and I tried to log onto the ROC from scratch, but the ROC keeps saying that it can't find some boot file. I started to look through the ROC file on Dr. Forest's wiki pages, but I do not find this to be a straightforward process of rebooting the ROC. The following entry is related, and it may be helpful.


Would it be useful to purchase the VMEbus Handbook, 4th Edition by Wade Peterson? I have personally never worked with such a complicated system with so few written resources as the VME system. I have now read quite a bit about the history of the VME system, and yet I have yet to be able to read anything on how to actually use this system. How does one begin to even crack into this system? It is a full-blown microcontroller complete with its own operating system including the complete gamut of hardware and software.


Where did we get this Quartus II software from and why has the 30-day trial period run out? This may be making it so I cannot compile a project and get it loaded into the v1495 via the ROC. I get this impression from the fact that when I attempt to compile the project only one error comes up and that is that the 30-day evaluation period has expired. Do we have a license for it somewhere?
Licenses are free. see http://wiki.iac.isu.edu/index.php/Qweak_V1495_FPGA_Programming for the download page

5/19/09

Tamuna, Brian, and I worked on trying to fix the MVME6100 but to no avail. I think it's actually getting worse the more we try to get it working. We may need to wait until Dr. Forest returns before attempting to fix it. I plan on reading some more information that I found on the whole VME system as well as the MVME6100 and its associated OS, VXWorks, which is apparently used in a lot more applications than I was previously aware.

I was able to contact Ben Raydo. Thankfully he had given me quite a few suggestions on how to get started with the v1495 side of this project. I am sifting through the information he has given me.


I have found much more information on the VME system today including information on the MVME6100 (as already stated) as well as other documentation.

5/20/09

I had to brush up a bit on Verilog to figure out what was going on in the v1495usr_hal.vqm file because it is written in Verilog HDL. I have added its description above.

By whatever mystical powers the ROC is apparently now working again. I would however like to know exactly what happened to get it working.

I still need a license for Quartus II in order to continue working directly on the v1495. However, I did spend a great deal of time reading how to use the MVME6100 as well as the v1495.


5/21/09

I was able to figure out how to get the license for Quartus II and to compile an .rgb file that can be loaded into the v1495 USER FPGA. I was not aware before that we already had a completely working firmware version for the v1495 USER FPGA.

In looking through the VHDL code to figure out how it works I have made the following discoveries
The code in GEMReadout.vhd governs the behavior of the GEMReadout component.
Code governing the G0 (Gin(0)) and G1 (Gin(1)) Inputs
In GEMReadout.vhd the signal GIN(1) gets loaded into HARD_TRIGGER. HARD_TRIGGER then gets loaded into the HARD_TRIGGER of the GEMTrigger component as well as the HARD_TRIGGER of a GEMTxChannel component. Thus far I am unclear what is done with this HARD_TRIGGER signal for these components. I will figure this out on Friday, hopefully.
Still in GEMReadout.vhd the GIN(0) signal gets loaded into the inclk0 value of the PLLBlock component.

5/22/09

Go back User_talk:Parswarr