VME-PPG32: Difference between revisions
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* 2 output serial DAC: AD5439YRUZ | * 2 output serial DAC: AD5439YRUZ | ||
==== PPG characteristics ==== | |||
4k words (128bit words) of program memory. | |||
256 entry stack. | |||
Halt/Continue/Loop/Subroutine/Branch instructions | |||
100Mhz clock (derived from either 50Mhz internal crystal or external 20Mhz clock input) | |||
fixed 3 clk per instruction plus 32bit delay individualy programmable for each instruction | |||
==== VME interface ==== | ==== VME interface ==== |
Revision as of 22:33, 8 November 2010
VME-PPG32 - pulse pattern generator VME FPGA board
References
- [1] VME-PPG32 (REA 198) project page on edev.triumf.ca
- [2] Rev0 board schematics
- [3] Svn repository for initial test firmware
- [4] Current PPG firmware Source/binary
General characteristics
Available hardware
- Altera cyclone 3 FPGA: EP3C40Q240C8
- Serial flash for FPGA configuration: Altera EPCS16
- VME interface: VME-D[31..0] bidirectional, VME-A[23..0] input only, DTACK output, no BERR, no RETRY/RESP. VME-A[31..20] input only connected only to address decoder FPGA (Altera MAX-something CPLD). This permits all single-word transfer modes, 32-bit DMA (BLT32) and 2eVME DMA (only drives D-lines, but still faster than BLT32). 64-bit DMA (MBLT64) and 2eSST are impossible.
- 32 NIM outputs
- 4 NIM inputs
- 32 "NIM output" LEDs
- 4 "NIM input" LEDs
- 1 "VME access" LED
- 2 output serial DAC: AD5439YRUZ
PPG characteristics
4k words (128bit words) of program memory. 256 entry stack. Halt/Continue/Loop/Subroutine/Branch instructions 100Mhz clock (derived from either 50Mhz internal crystal or external 20Mhz clock input) fixed 3 clk per instruction plus 32bit delay individualy programmable for each instruction
VME interface
VME A32/D32 access only. Rotary switches SW1, SW2 and SW3 set the upper 12 bits of the address. VME registers are listed in the table below.
Registers
Number | Address | Name | Access | Description |
---|---|---|---|---|
0 | 0x00000 | Test | RW | Test Register |
1 | 0x00004 | CSR | RW | Control/Status Register |
2 | 0x00008 | Addr | RW | Program Address Register |
3 | 0x0000C | Inst_Lo | RW | Instruction Register Part 1/4 |
4 | 0x00010 | Inst_Med | RW | Instruction Register Part 2/4 |
5 | 0x00014 | Inst_Hi | RW | Instruction Register Part 3/4 |
6 | 0x00018 | Inst_Top | RW | Instruction Register Part 4/4 |
7 | 0x0001C | Version | R | Firmware Version Register |
8 | 0x00020 | Flash | RW | Serial Flash Control Register |
9 | 0x00024 | Serial | R | Serial Number Register |
10 | 0x00028 | Hardware | R | hardware Identification Register |
Test Register (0x00000)
Simple Test Register - Value Written is preserved and can be read back.
CSR Register (0x00004)
The first 5 bits control the ppg, the remaining 26 bits provide read-only status information. (writes to the 26 bits of status information are ignored, and overwritten on the next status update)
Bit | Name | Access | description |
---|---|---|---|
0 | Run | R/W | Run Control/Status |
1 | Ext-Clk | R/W | The PPG logic uses the external Clk |
2 | Ext-Start | R/W | |
3 | Slow-Clk | R/W | |
4 | Test-Mode | R/W | |
5-31 | Status | R | Readback of PC,SP,Current Delay Counter |
RUN bit: Writing 1 here instructs the ppg to begin executing its program, reading this bit returns 1 if the program is still running, or 0 if halted.
Ext_Clk bit: Writing 1 here switches the ppg logic to use the external CLK (Nim_Input[0]) (The VME interface always uses the internal clock)
Ext_Start bit: Writing 1 here disables the CSR-Run-bit-start (Reading this bit still returns the correct status), and switches control to the External Start input (NIM_INPUT[1])
Slow-Clk bit: Writing 1 here Switches the ppg clock to a much slower one (2kHz) for low speed/long delay operation. NOTE - this is currently ignored.
Test-mode bit: Writing 1 here Changes the outputs (LED/NIM) to simple follow the state of the Address register.
Address Register (0x00008)
Sets PPG Program Memory Address - next instruction will be written to this location. Also when program is started, execution begins from this address
Instruction Registers (0x0000C - 0x00018)
Registers to hold the 128bit Program Instructions. Writing the Upper register triggers the storing of the entire 128bit instruction to the address currently in the address register.
The instructions format is as follows ...
Bits 0-31 | Bits 32-63 | Bits 64-95 | Bits 96-115 | Bits 116-117 | Bits 118-127 |
---|---|---|---|---|---|
32 Output Set Bits | 32 Output Clear Bits | 32bit Delay Count | 20bit Data | 4bit instruction type | Ignored |
The 32bit delay count at 100Mhz gives maximum delay of 10 seconds per instruction.
The instruction types are ... 0 - Halt 1 - Continue 2 - new Loop ( 20 bit data used for count - i.e. maximum 1 million ) 3 - End Loop 4 - Call Subroutine ( 20 bit data used for address ) 5 - Return from subroutine 6 - Branch ( 20 bit data used for address )
Firmware Version (0x0001C)
Returns the 32bit unix timestamp corresponding to the date this firmware was compiled.
Serial Flash Control (0x00020)
Used for reading/Writing to the Configuration Flash device (Reading/Updating firmware)
Serial Number (0x00024)
Returns the module serial number, and Board revision (if set) or -1
hardware Type (0x00028)
Returns a 32 bit description of this hardware - which should confirm the identity of this module as a vme-ppg32