VME-NIMIO32-Rev3: Difference between revisions
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= Links = | = Links = | ||
* https://edev-group.triumf.ca/hw/vme/vme_nimio/rev3 | |||
* https://bitbucket.org/ttriumfdaq/vmeio/src/master/ | |||
= General information = | = General information = | ||
== Hardware == | |||
* FPGA: Cyclone5 5CGXFC7D7F27C8N | |||
* boot flash: EPCQ256 | |||
* clock cleaner: IDT 8T49N241-009NLG1, I2C addr 1111'100b | |||
* mac address: Microchip 24AA02E48T-I/OT, I2C address 0xA0, bus MAC_SCL, MAC_SDA | |||
* eeprom: Microchip 24AA04T-I/OT, I2C address 0xA0, bus SCLK, SDATA | |||
* RGB_LED: driver TLC5929DBQR | |||
* clocks: OSC1, OSC2: 125 MHz, OSC3: 10 MHz | |||
* front panel double SATA connector: 1 serial communication, 1 clock (in our out) and trigger (in or out) | |||
* on board 3 double SATA connectors: 7 serial communication. | |||
* front panel SFP, (1/2.5/5 Gige ethernet?) | |||
* 16 double LEMO connectors: switchable between input and output. input: NIM or TTL. output: NIM | |||
* 16 ECL or LVDS inputs: onboard 34-pin header connector, LeCroy 4616 compatible. | |||
* 16 front panel LEDs: FP_LED driver: two faisy chained TLC5929DBQR | |||
= Front panel connectors = | |||
<pre> | |||
| | |||
| RGB_LED | |||
| | |||
| dual SATA: XXX | XXX | |||
| | |||
| SFP ethernet | |||
| | |||
| FP_LED [30] and [31] | |||
| LEMO [30] and [31] | |||
| ... | |||
| FP_LED [0] and [1] | |||
| LEMO [0] and [1] | |||
| | |||
</pre> | |||
= Input channel mapping = | |||
* 0+16 : LVDS/ECL connector | |||
* 16+32 : LEMO inputs | |||
* 48+2: ESATA CLK, ESATA TRIG | |||
* 50+2: CLN_CLKOUT1, CLN_CLKOUT2 from clock cleaner | |||
* 52+1 : LVDS_OSC1 (125 MHz oscillator) | |||
= Firmware = | = Firmware = | ||
use /daq/quartus/13.1.3.178/quartus/bin/ | for building firmware use: /opt/intelFPGA/20.1/nios2eds/nios2_command_shell.sh | ||
<pre> | |||
git clone git@bitbucket.org:ttriumfdaq/vmeio.git | |||
cd vmeio | |||
/opt/intelFPGA/20.1/nios2eds/nios2_command_shell.sh | |||
make | |||
make jic | |||
make load_jic | |||
</pre> | |||
for jtag access, use /daq/quartus/13.1.3.178/quartus/bin/jtagconfig | |||
<pre> | <pre> | ||
Line 13: | Line 69: | ||
1) USB-Blaster [1-8] | 1) USB-Blaster [1-8] | ||
02B030DD 5CGTFD7(B5|C5|D5)/5CGXBC7B6/.. | 02B030DD 5CGTFD7(B5|C5|D5)/5CGXBC7B6/.. | ||
</pre> | |||
=== Firmware update procedure === | |||
* obtain and build the VME programmer (srunner_vme) and IO32 test program (test_VMENIMIO32): | |||
** mkdir $HOME/packages | |||
** cd $HOME/packages | |||
** git clone https://bitbucket.org/ttriumfdaq/vme # get the repository, done once | |||
** cd vme | |||
** git pull # get latest version | |||
** make -k srunner_vme.exe srunner_vme_gef.exe test_VMENIMIO32.exe test_VMENIMIO32_gef.exe | |||
* read the firmware revision from VME register 0: | |||
** ./test_VMENIMIO32_gef.exe --addr 0x800000 --read 0 | |||
* write FPGA firmware into the flash memory using the VME programmer: | |||
** ./srunner_vme_gef.exe -program -256 vmeio.pof 0x800020 | |||
* reboot the FPGA into the new firmware: | |||
** ./test_VMENIMIO32_gef.exe --addr 0x800000 --reboot | |||
= Firmware registers = | |||
vmeio register set is a mix of IO32 registers and chronobox registers. | |||
<pre> | |||
reg | rw/ro | quartus name | firmware | description | |||
0 | ro | sof_revision_in | all | firmware revision timestamp code | |||
#0 | wo | latch_scalers_out, zero_scalers_out | all | see [[#reg_0_write_bits]] | |||
1 | rw | command | all | see [[#reg_1_command]] | |||
2 | rw | reg2_led_ctrl | all | LED control, see [[#reg_2_led_control_bits]] | |||
3 | rw | reg3_fp_led_out | all | FP LED output | |||
4 | rw | reg4_test | all | 32-bit read-write test register | |||
5 | rw | reg5_rgb_led_out | 0x630fcc67 | RGB LED output | |||
6 | ro | ecl_in_async | all | read state of ECL inputs | |||
#7 | ro | reg7_test_in | all | ??? | |||
8 | rw | flash_programmer_in, reg8_flash_programmer_out | all | 0xABCD srunner_vme flash programmer | |||
#8 | rw | scaler_addr_out, reg8_scaler_data_in | all | top 16 bits of address becomes scaler bus address, 32 bit read is the corresponding scaler data | |||
9 | ro | lemo_in_async | all | read state of LEMO inputs | |||
#A | ro | gpio_in | all | read state of GPIO inputs | |||
11 | rw | reg11_lemo_out | all | LEMO output data | |||
#C | rw | regC_gpio_out | all | GPIO output data | |||
#D | rw | regD_out_enable_out | all | enable output tristates: [31:24] - LEMO_OUT, [17:0] - GPIO_OUT | |||
#E | rw | regE, reconfig_out | 0x5b6de806 | FPGA reboot: write inverted firmware revision (reg0) to reboot the FPGA | |||
#F | ro | regF_input_num_in | 0x5b89e4b4 | number of chronobox inputs (to read scalers, add 1 for the clock counter) | |||
#10 | ro | reg10_fifo_status | 0x5b8de2b0 | data fifo status, see below | |||
#11 | ro | reg11_fifo_data | 0x5b8de2b0 | data fifo data, see below | |||
#12 | rw | cb_invert_a | 0x5bf7557e | invert inputs 31..0 | |||
#13 | rw | cb_invert_b | 0x5bf7557e | invert inputs 63..32 | |||
#14 | rw | cb_enable_le_a | 0x5bf7557e | enable TSC leading edge | |||
#15 | rw | cb_enable_le_b | 0x5bf7557e | enable TSC leading edge | |||
#16 | rw | cb_enable_te_a | 0x5bf7557e | enable TSC trailing edge | |||
#17 | rw | cb_enable_te_b | 0x5bf7557e | enable TSC trailing edge | |||
#18 | ro | fc_ext_clk_100_counter | 0x5bf7557e | external clock frequency counter 100MHz reference | |||
#19 | ro | fc_ext_clk_ext_counter | 0x5bf7557e | external clock frequency counter | |||
#1A | ro | fc_ts_clk_100_counter | 0x5bf7557e | timestamp clock frequency counter 100MHz reference | |||
#1B | ro | fc_ts_clk_ts_counter | 0x5bf7557e | timestamp clock frequency counter | |||
#1C | ro | ts_clk_pll_status | 0x5bf7557e | timestamp clock PLL status | |||
#1D | rw | cb_lemo_out_mux_ctrl | 0x5bfdc798 | 8*4 bits to control 8 LEMO output multiplexers (4 bits/16 options each mux) | |||
#1E | rw | cb_sync_mask[31:0] | NEXT | source of chronobox sync signal, low bits | |||
#1F | rw | cb_sync_mask[63:32] | NEXT | source of chronobox sync signal, high bits | |||
</pre> | |||
== reg 0 write bits == | |||
#<pre> | |||
#bit | fw revision | quartus signal | description | |||
#0 | all | | latch scalers | |||
#1 | all | | zero scalers | |||
#2 | ... | fifo_rdreq_out | fifo_rdreq_out | |||
#3 | ... | ts_clk_pll_extswitch_out | clear ts_clk_pll_extswitch_out | |||
#4 | ... | ts_clk_pll_extswitch_out | set ts_clk_pll_extswitch_out | |||
#5 | NEXT | sync_arm | arm the synchronization sequence | |||
#6 | NEXT | cb_sync | activate the synchronization | |||
#</pre> | |||
== reg 1 command == | |||
* command 0: nothing | |||
* command 1: IO32_CMD_RESET: issue reset signal | |||
* command 2: IO32_CMD_FPGA_RECONFIGURE: reboot the FPGA | |||
== reg 2 led control bits == | |||
32 bits: | |||
* 0+4: select FP LED bus mux: | |||
** 0: default bus | |||
** 1: fp_led_out | |||
** 2: LEMO outputs | |||
** 3: LEMO inputs | |||
** 4: LVDS/ECL inputs | |||
** 5: OR of LEMO outputs, LEMO inputs and LVDS/ECL inputs | |||
* 4+4: select RGB LED bus mux: | |||
** 0: default bus | |||
** 1: rgb_led_out | |||
* 8+: unconnected | |||
* 31: reset LEDs | |||
== reg N == | |||
Data FIFO status bits: | |||
<pre> | |||
31: fifo_full | |||
30: fifo_empty | |||
29: 0 | |||
28: 0 | |||
24+4: 0 | |||
0+24: fifo_usedw | |||
</pre> | |||
== reg 0x1C == | |||
Timestamp clock PLL status bits: | |||
<pre> | |||
31 : PLL locked | |||
30 : PLL active clock (0=internal, 1=external | |||
29 : external clock bad | |||
28 : internal clock bad | |||
27 : ts_clk_pll_extswitch | |||
0..26 : not used | |||
</pre> | |||
= Required board mods = | |||
* VME_LWORD (VME_A[0]) jumper to FPGA pin E10 (VME_SERB) | |||
* VME_A29 jumper to FPGA pin P23 (VME_SYSFAILn) | |||
* RGB_LED_SDI jumper to FPGA pin W16 | |||
* -3V external power supply | |||
= Test status = | |||
* power up ok | |||
* fpga jtag ok | |||
* flash load ok | |||
* fpga boot from flash ok | |||
* !!! VME slave interface: A32/D32 single word cycle ok, 32-bit and 64-bit transfer untested (should work), 2eVME and 2eSST untested (should work). | |||
* !!! VME interface: D lines: read ok, drive ok, A lines read ok, A lines drive untested. AS/DS read ok, drive untested. DTACK read ok, drive ok. | |||
* JTAG JIC flash programmer ok ("serial flash loader" block) | |||
* VME flash programmer (srunner_vme): can read, verify and program vmeio_auto.rpd files | |||
* FPGA reboot ok ("remote update" block) | |||
* !!! front panel FP LEDs: partially tested (generally alive. mapping and individual leds untested) | |||
* !!! front panel RGB LED: tested (mapping to be confirmed) | |||
* !!! LVDS/ECL input: a few channels look ok | |||
* !!! -3.3V external power supply current 0.64 A | |||
* !!! NIM input: chan 0,1 ok | |||
* !!! TTL input: untested | |||
* !!! NIM output: chan 0,1 ok | |||
* !!! SATA connectors: untested | |||
* !!! clock cleaner: untested | |||
* !!! ethernet interface: RX/TX untested, SPI untested, ethernet MAC address flash memory untested | |||
Mysteries: | |||
* set_location_assignment PIN_AC7 -to RGB_LED_SDI -disable -comment "vrefb3an0 PIN_AC7" | |||
* set_location_assignment PIN_L26 -to VME_A[29] -disable -comment "vrefb6an0 PIN_L26" | |||
* D8 - DIFFIO_TX_T56 - "VME-DIG-3.3V" | |||
* quartus messages pin eSATA_TRIG: | |||
<pre> | |||
Critical Warning (12888): Cross talk of LVDS Pin eSATA_TRIG from SE IO is too high. Reassign or move one or more of the following SE I/Os pins location and re-run the analysis again. Please refer to the guideline from the Knowledge Base solution ID: rd10102013_979 and ensure the total % of crosstalk for the following SE I/O pins does not exceed 100%. | |||
Info (12899): SE I/O from the bank contributed to 99.18% of the margin due to SSN | |||
Info (12900): SE I/O MAC_SDA contributed to 9.19% of margin due to crosstalk | |||
Info (12900): SE I/O MAC_SCL contributed to 7.02% of margin due to crosstalk | |||
Info (12900): SE I/O VME_BR_out[0] contributed to 0.46% of margin due to crosstalk | |||
Info (12900): SE I/O VME_D[27] contributed to 2.75% of margin due to crosstalk | |||
Info (12900): SE I/O FP_LED_LATCH contributed to 10.17% of margin due to crosstalk | |||
</pre> | |||
* quartus messages about pins eSATA_CLKmon, LVDS_OSC1: | |||
<pre> | |||
Critical Warning (12887): Too many 2.5-V SE IO in bank 7A with LVDS RX pin LVDS_OSC1. Reduce the number of 2.5-V I/Os used and re-run the analysis again. Please refer to th | |||
e guideline from the Knowledge Base solution ID: rd10102013_979 and ensure the total % of SSN for the following SE I/O pins does not exceed 100%. | |||
Info (12899): SE I/O VME_AM[3] contributed to 4.96% of the margin due to SSN | |||
Info (12899): SE I/O VME_AM[1] contributed to 4.96% of the margin due to SSN | |||
Info (12899): SE I/O VME_AM[0] contributed to 4.96% of the margin due to SSN | |||
Info (12899): SE I/O VME_BGOUTn[3] contributed to 4.96% of the margin due to SSN | |||
Info (12899): SE I/O VME_BGOUTn[2] contributed to 4.96% of the margin due to SSN | |||
Info (12899): SE I/O VME_BGOUTn[0] contributed to 4.96% of the margin due to SSN | |||
Info (12899): SE I/O VME_IACKOUTn contributed to 4.96% of the margin due to SSN | |||
Info (12899): SE I/O SFP_SDA contributed to 4.96% of the margin due to SSN | |||
Info (12899): SE I/O VME_SYSCTRL contributed to 4.96% of the margin due to SSN | |||
Info (12899): SE I/O VME_ARBITER contributed to 4.96% of the margin due to SSN | |||
... | |||
</pre> | </pre> | ||
= ZZZ = | = ZZZ = |
Latest revision as of 13:42, 31 August 2022
VME-NIMIO32-Rev3
Links
- https://edev-group.triumf.ca/hw/vme/vme_nimio/rev3
- https://bitbucket.org/ttriumfdaq/vmeio/src/master/
General information
Hardware
- FPGA: Cyclone5 5CGXFC7D7F27C8N
- boot flash: EPCQ256
- clock cleaner: IDT 8T49N241-009NLG1, I2C addr 1111'100b
- mac address: Microchip 24AA02E48T-I/OT, I2C address 0xA0, bus MAC_SCL, MAC_SDA
- eeprom: Microchip 24AA04T-I/OT, I2C address 0xA0, bus SCLK, SDATA
- RGB_LED: driver TLC5929DBQR
- clocks: OSC1, OSC2: 125 MHz, OSC3: 10 MHz
- front panel double SATA connector: 1 serial communication, 1 clock (in our out) and trigger (in or out)
- on board 3 double SATA connectors: 7 serial communication.
- front panel SFP, (1/2.5/5 Gige ethernet?)
- 16 double LEMO connectors: switchable between input and output. input: NIM or TTL. output: NIM
- 16 ECL or LVDS inputs: onboard 34-pin header connector, LeCroy 4616 compatible.
- 16 front panel LEDs: FP_LED driver: two faisy chained TLC5929DBQR
Front panel connectors
| | RGB_LED | | dual SATA: XXX | XXX | | SFP ethernet | | FP_LED [30] and [31] | LEMO [30] and [31] | ... | FP_LED [0] and [1] | LEMO [0] and [1] |
Input channel mapping
- 0+16 : LVDS/ECL connector
- 16+32 : LEMO inputs
- 48+2: ESATA CLK, ESATA TRIG
- 50+2: CLN_CLKOUT1, CLN_CLKOUT2 from clock cleaner
- 52+1 : LVDS_OSC1 (125 MHz oscillator)
Firmware
for building firmware use: /opt/intelFPGA/20.1/nios2eds/nios2_command_shell.sh
git clone git@bitbucket.org:ttriumfdaq/vmeio.git cd vmeio /opt/intelFPGA/20.1/nios2eds/nios2_command_shell.sh make make jic make load_jic
for jtag access, use /daq/quartus/13.1.3.178/quartus/bin/jtagconfig
daq01:intelFPGA$ /daq/quartus/13.1.3.178/quartus/bin/jtagconfig 1) USB-Blaster [1-8] 02B030DD 5CGTFD7(B5|C5|D5)/5CGXBC7B6/..
Firmware update procedure
- obtain and build the VME programmer (srunner_vme) and IO32 test program (test_VMENIMIO32):
- mkdir $HOME/packages
- cd $HOME/packages
- git clone https://bitbucket.org/ttriumfdaq/vme # get the repository, done once
- cd vme
- git pull # get latest version
- make -k srunner_vme.exe srunner_vme_gef.exe test_VMENIMIO32.exe test_VMENIMIO32_gef.exe
- read the firmware revision from VME register 0:
- ./test_VMENIMIO32_gef.exe --addr 0x800000 --read 0
- write FPGA firmware into the flash memory using the VME programmer:
- ./srunner_vme_gef.exe -program -256 vmeio.pof 0x800020
- reboot the FPGA into the new firmware:
- ./test_VMENIMIO32_gef.exe --addr 0x800000 --reboot
Firmware registers
vmeio register set is a mix of IO32 registers and chronobox registers.
reg | rw/ro | quartus name | firmware | description 0 | ro | sof_revision_in | all | firmware revision timestamp code #0 | wo | latch_scalers_out, zero_scalers_out | all | see [[#reg_0_write_bits]] 1 | rw | command | all | see [[#reg_1_command]] 2 | rw | reg2_led_ctrl | all | LED control, see [[#reg_2_led_control_bits]] 3 | rw | reg3_fp_led_out | all | FP LED output 4 | rw | reg4_test | all | 32-bit read-write test register 5 | rw | reg5_rgb_led_out | 0x630fcc67 | RGB LED output 6 | ro | ecl_in_async | all | read state of ECL inputs #7 | ro | reg7_test_in | all | ??? 8 | rw | flash_programmer_in, reg8_flash_programmer_out | all | 0xABCD srunner_vme flash programmer #8 | rw | scaler_addr_out, reg8_scaler_data_in | all | top 16 bits of address becomes scaler bus address, 32 bit read is the corresponding scaler data 9 | ro | lemo_in_async | all | read state of LEMO inputs #A | ro | gpio_in | all | read state of GPIO inputs 11 | rw | reg11_lemo_out | all | LEMO output data #C | rw | regC_gpio_out | all | GPIO output data #D | rw | regD_out_enable_out | all | enable output tristates: [31:24] - LEMO_OUT, [17:0] - GPIO_OUT #E | rw | regE, reconfig_out | 0x5b6de806 | FPGA reboot: write inverted firmware revision (reg0) to reboot the FPGA #F | ro | regF_input_num_in | 0x5b89e4b4 | number of chronobox inputs (to read scalers, add 1 for the clock counter) #10 | ro | reg10_fifo_status | 0x5b8de2b0 | data fifo status, see below #11 | ro | reg11_fifo_data | 0x5b8de2b0 | data fifo data, see below #12 | rw | cb_invert_a | 0x5bf7557e | invert inputs 31..0 #13 | rw | cb_invert_b | 0x5bf7557e | invert inputs 63..32 #14 | rw | cb_enable_le_a | 0x5bf7557e | enable TSC leading edge #15 | rw | cb_enable_le_b | 0x5bf7557e | enable TSC leading edge #16 | rw | cb_enable_te_a | 0x5bf7557e | enable TSC trailing edge #17 | rw | cb_enable_te_b | 0x5bf7557e | enable TSC trailing edge #18 | ro | fc_ext_clk_100_counter | 0x5bf7557e | external clock frequency counter 100MHz reference #19 | ro | fc_ext_clk_ext_counter | 0x5bf7557e | external clock frequency counter #1A | ro | fc_ts_clk_100_counter | 0x5bf7557e | timestamp clock frequency counter 100MHz reference #1B | ro | fc_ts_clk_ts_counter | 0x5bf7557e | timestamp clock frequency counter #1C | ro | ts_clk_pll_status | 0x5bf7557e | timestamp clock PLL status #1D | rw | cb_lemo_out_mux_ctrl | 0x5bfdc798 | 8*4 bits to control 8 LEMO output multiplexers (4 bits/16 options each mux) #1E | rw | cb_sync_mask[31:0] | NEXT | source of chronobox sync signal, low bits #1F | rw | cb_sync_mask[63:32] | NEXT | source of chronobox sync signal, high bits
reg 0 write bits
- bit | fw revision | quartus signal | description
- 0 | all | | latch scalers
- 1 | all | | zero scalers
- 2 | ... | fifo_rdreq_out | fifo_rdreq_out
- 3 | ... | ts_clk_pll_extswitch_out | clear ts_clk_pll_extswitch_out
- 4 | ... | ts_clk_pll_extswitch_out | set ts_clk_pll_extswitch_out
- 5 | NEXT | sync_arm | arm the synchronization sequence
- 6 | NEXT | cb_sync | activate the synchronization
reg 1 command
- command 0: nothing
- command 1: IO32_CMD_RESET: issue reset signal
- command 2: IO32_CMD_FPGA_RECONFIGURE: reboot the FPGA
reg 2 led control bits
32 bits:
- 0+4: select FP LED bus mux:
- 0: default bus
- 1: fp_led_out
- 2: LEMO outputs
- 3: LEMO inputs
- 4: LVDS/ECL inputs
- 5: OR of LEMO outputs, LEMO inputs and LVDS/ECL inputs
- 4+4: select RGB LED bus mux:
- 0: default bus
- 1: rgb_led_out
- 8+: unconnected
- 31: reset LEDs
reg N
Data FIFO status bits:
31: fifo_full 30: fifo_empty 29: 0 28: 0 24+4: 0 0+24: fifo_usedw
reg 0x1C
Timestamp clock PLL status bits:
31 : PLL locked 30 : PLL active clock (0=internal, 1=external 29 : external clock bad 28 : internal clock bad 27 : ts_clk_pll_extswitch 0..26 : not used
Required board mods
- VME_LWORD (VME_A[0]) jumper to FPGA pin E10 (VME_SERB)
- VME_A29 jumper to FPGA pin P23 (VME_SYSFAILn)
- RGB_LED_SDI jumper to FPGA pin W16
- -3V external power supply
Test status
- power up ok
- fpga jtag ok
- flash load ok
- fpga boot from flash ok
- !!! VME slave interface: A32/D32 single word cycle ok, 32-bit and 64-bit transfer untested (should work), 2eVME and 2eSST untested (should work).
- !!! VME interface: D lines: read ok, drive ok, A lines read ok, A lines drive untested. AS/DS read ok, drive untested. DTACK read ok, drive ok.
- JTAG JIC flash programmer ok ("serial flash loader" block)
- VME flash programmer (srunner_vme): can read, verify and program vmeio_auto.rpd files
- FPGA reboot ok ("remote update" block)
- !!! front panel FP LEDs: partially tested (generally alive. mapping and individual leds untested)
- !!! front panel RGB LED: tested (mapping to be confirmed)
- !!! LVDS/ECL input: a few channels look ok
- !!! -3.3V external power supply current 0.64 A
- !!! NIM input: chan 0,1 ok
- !!! TTL input: untested
- !!! NIM output: chan 0,1 ok
- !!! SATA connectors: untested
- !!! clock cleaner: untested
- !!! ethernet interface: RX/TX untested, SPI untested, ethernet MAC address flash memory untested
Mysteries:
- set_location_assignment PIN_AC7 -to RGB_LED_SDI -disable -comment "vrefb3an0 PIN_AC7"
- set_location_assignment PIN_L26 -to VME_A[29] -disable -comment "vrefb6an0 PIN_L26"
- D8 - DIFFIO_TX_T56 - "VME-DIG-3.3V"
- quartus messages pin eSATA_TRIG:
Critical Warning (12888): Cross talk of LVDS Pin eSATA_TRIG from SE IO is too high. Reassign or move one or more of the following SE I/Os pins location and re-run the analysis again. Please refer to the guideline from the Knowledge Base solution ID: rd10102013_979 and ensure the total % of crosstalk for the following SE I/O pins does not exceed 100%. Info (12899): SE I/O from the bank contributed to 99.18% of the margin due to SSN Info (12900): SE I/O MAC_SDA contributed to 9.19% of margin due to crosstalk Info (12900): SE I/O MAC_SCL contributed to 7.02% of margin due to crosstalk Info (12900): SE I/O VME_BR_out[0] contributed to 0.46% of margin due to crosstalk Info (12900): SE I/O VME_D[27] contributed to 2.75% of margin due to crosstalk Info (12900): SE I/O FP_LED_LATCH contributed to 10.17% of margin due to crosstalk
- quartus messages about pins eSATA_CLKmon, LVDS_OSC1:
Critical Warning (12887): Too many 2.5-V SE IO in bank 7A with LVDS RX pin LVDS_OSC1. Reduce the number of 2.5-V I/Os used and re-run the analysis again. Please refer to th e guideline from the Knowledge Base solution ID: rd10102013_979 and ensure the total % of SSN for the following SE I/O pins does not exceed 100%. Info (12899): SE I/O VME_AM[3] contributed to 4.96% of the margin due to SSN Info (12899): SE I/O VME_AM[1] contributed to 4.96% of the margin due to SSN Info (12899): SE I/O VME_AM[0] contributed to 4.96% of the margin due to SSN Info (12899): SE I/O VME_BGOUTn[3] contributed to 4.96% of the margin due to SSN Info (12899): SE I/O VME_BGOUTn[2] contributed to 4.96% of the margin due to SSN Info (12899): SE I/O VME_BGOUTn[0] contributed to 4.96% of the margin due to SSN Info (12899): SE I/O VME_IACKOUTn contributed to 4.96% of the margin due to SSN Info (12899): SE I/O SFP_SDA contributed to 4.96% of the margin due to SSN Info (12899): SE I/O VME_SYSCTRL contributed to 4.96% of the margin due to SSN Info (12899): SE I/O VME_ARBITER contributed to 4.96% of the margin due to SSN ...