Update HTG-9200 readmes

Signed-off-by: Alex Forencich <[email protected]>

Author: alexforencich

example/HTG9200/fpga_25g/README.md

@@ -4,26 +4,54 @@
 
 This example design targets the HiTech Global HTG-9200 FPGA board.
 
-The design by default listens to UDP port 1234 at IP address 192.168.1.128 and
-will echo back any packets received.  The design will also respond correctly
-to ARP requests.  
+The design by default listens to UDP port 1234 at IP address 192.168.1.128 and will echo back any packets received.  The design will also respond correctly to ARP requests.
 
 *  FPGA: xcvu9p-flgb2104-2-e or xcvu13p-fhgb2104-2-e
 *  PHY: 10G BASE-R PHY IP core and internal GTY transceiver
 
 ## How to build
 
-Run make to build.  Ensure that the Xilinx Vivado toolchain components are
-in PATH.  
+Run make to build.  Ensure that the Xilinx Vivado toolchain components are in PATH.
+
+## Board configuration
+
+For correct operation, several DIP switches need to be set correctly.  Additionally, some other component-level modifications may be required.
+
+DIP switch settings:
+
+* S2.1: off (enable EMCCLK, if needed to boot from flash)
+* S3.2: off (enable U24 ref_clk)
+* S4.5: off (enable U47 osc_gty2)
+* S4.8: on  (enable U48 outputs)
+
+Note that S4.8 has no effect if R441 is not installed (which appears to be the default configuration) as U48 has an internal pull-down on OEb.  The PLL configuration in this design also ignores the IN_SEL pins, so S4.6 and S4.7 have no effect.  The other DIP switches do not affect the operation of this design.
+
+When using optical modules or active optical cables, it is necessary to pull the lpmode pins low to enable the lasers.  On the HTG-9200, the lpmode pins are not connected to the FPGA, so it is necessary to pull the pins low on the board.  The board has footprints for pull-down resistors on the lpmode pins, which are not populated by default.   These are R414, R392, R336, R316, R276, R475, R471, R473, and R477 (respectively for QSFP0-9).  Shorting across these footprints or installing pull-down resistors of around 150 ohms will bring installed modules out of low power mode.
+
+The HTG-9200 was originally designed for Virtex UltraScale, so by default some of the power supply voltages are too high for an UltraScale+ device.  In particular, the Avcc supplies for the GTY transceivers are set to 1.0 V, which is not only outside of the recommended range of 0.873-0.927 V but it also matches the absolute max of 1.0 V.  Additionally, Vccint and Vccbram are set to 0.95V, which is outside of the recommended range of 0.825-0.876 V for standard speed grades but below the absolute max of 1.0 V.  Checking the supply voltages and swapping out the feedback resistors on the Vccint, Vccbram and MGT Avcc power supplies is therefore highly recommended.  Note that the supplies labeled GTH feed the MGT banks on the right side of the device, which are GTH transceivers on UltraScale and GTY transceivers on UltraScale+.
+
+The table below contains the power rail test points and feedback resistor values for the power supply rails in question for several different speed grades of Virtex UltraScale and UltraScale+ devices.
+
+| Rail        | VCCINT       | VCCBRAM      | GTY_AVCC     | GTH_AVCC     |
+| ----------- | ------------ | ------------ | ------------ | ------------ |
+| Test point  | P6           | P8           | P9           | P1           |
+| Regulator   | U4, U56      | U11          | U13          | U20          |
+| Part        | 4/2 LTM4650  | LTM4625      | 4/4 LTM4644  | 4/4 LTM4644  |
+| Current     | 100A         | 5A           | 16A          | 16A          |
+| FB resistor | R354         | R494         | R38          | R61          |
+| US -3, -1H  | 90.9K (1.0V) | 90.9K (1.0V) | 22.6K (1.0V) | 22.6K (1.0V) |
+| US -2, -1   | 105K (0.95V) | 105K (0.95V) | 22.6K (1.0V) | 22.6K (1.0V) |
+| US+ -3      | 121K (0.90V) | 121K (0.90V) | 30.1K (0.9V) | 30.1K (0.9V) |
+| US+ -2, -1  | 147K (0.85V) | 147K (0.85V) | 30.1K (0.9V) | 30.1K (0.9V) |
+| US+ -2L     | 301K (0.72V) | 147K (0.85V) | 30.1K (0.9V) | 30.1K (0.9V) |
 
 ## How to test
 
 Run make program to program the HTG-9200 board with Vivado.  Then run
 
     netcat -u 192.168.1.128 1234
 
-to open a UDP connection to port 1234.  Any text entered into netcat will be
-echoed back after pressing enter.
+to open a UDP connection to port 1234.  Any text entered into netcat will be echoed back after pressing enter.
 
 It is also possible to use hping to test the design by running
 

example/HTG9200/fpga_fmc_htg_6qsfp_25g/README.md

@@ -10,11 +10,44 @@ The design is configured to run all 15 QSFP28 modules synchronous to the GTY ref
 
 *  FPGA: xcvu9p-flgb2104-2-e or xcvu13p-fhgb2104-2-e
 *  PHY: 10G BASE-R PHY IP core and internal GTY transceiver
+*  FMC+: HTG-FMC-X6QSFP28
 
 ## How to build
 
 Run make to build.  Ensure that the Xilinx Vivado toolchain components are in PATH.
 
+## Board configuration
+
+For correct operation, several DIP switches need to be set correctly.  Additionally, some other component-level modifications may be required.
+
+DIP switch settings:
+
+* S2.1: off (enable EMCCLK, if needed to boot from flash)
+* S3.2: off (enable U24 ref_clk)
+* S4.5: off (enable U47 osc_gty2)
+* S4.8: on  (enable U48 outputs)
+
+Note that S4.8 has no effect if R441 is not installed (which appears to be the default configuration) as U48 has an internal pull-down on OEb.  The PLL configuration in this design also ignores the IN_SEL pins, so S4.6 and S4.7 have no effect.  The other DIP switches do not affect the operation of this design.
+
+When using optical modules or active optical cables, it is necessary to pull the lpmode pins low to enable the lasers.  On the HTG-9200, the lpmode pins are not connected to the FPGA, so it is necessary to pull the pins low on the board.  The board has footprints for pull-down resistors on the lpmode pins, which are not populated by default.   These are R414, R392, R336, R316, R276, R475, R471, R473, and R477 (respectively for QSFP0-9).  Shorting across these footprints or installing pull-down resistors of around 150 ohms will bring installed modules out of low power mode.
+
+The HTG-9200 was originally designed for Virtex UltraScale, so by default some of the power supply voltages are too high for an UltraScale+ device.  In particular, the Avcc supplies for the GTY transceivers are set to 1.0 V, which is not only outside of the recommended range of 0.873-0.927 V but it also matches the absolute max of 1.0 V.  Additionally, Vccint and Vccbram are set to 0.95V, which is outside of the recommended range of 0.825-0.876 V for standard speed grades but below the absolute max of 1.0 V.  Checking the supply voltages and swapping out the feedback resistors on the Vccint, Vccbram and MGT Avcc power supplies is therefore highly recommended.  Note that the supplies labeled GTH feed the MGT banks on the right side of the device, which are GTH transceivers on UltraScale and GTY transceivers on UltraScale+.
+
+The table below contains the power rail test points and feedback resistor values for the power supply rails in question for several different speed grades of Virtex UltraScale and UltraScale+ devices.
+
+| Rail        | VCCINT       | VCCBRAM      | GTY_AVCC     | GTH_AVCC     |
+| ----------- | ------------ | ------------ | ------------ | ------------ |
+| Test point  | P6           | P8           | P9           | P1           |
+| Regulator   | U4, U56      | U11          | U13          | U20          |
+| Part        | 4/2 LTM4650  | LTM4625      | 4/4 LTM4644  | 4/4 LTM4644  |
+| Current     | 100A         | 5A           | 16A          | 16A          |
+| FB resistor | R354         | R494         | R38          | R61          |
+| US -3, -1H  | 90.9K (1.0V) | 90.9K (1.0V) | 22.6K (1.0V) | 22.6K (1.0V) |
+| US -2, -1   | 105K (0.95V) | 105K (0.95V) | 22.6K (1.0V) | 22.6K (1.0V) |
+| US+ -3      | 121K (0.90V) | 121K (0.90V) | 30.1K (0.9V) | 30.1K (0.9V) |
+| US+ -2, -1  | 147K (0.85V) | 147K (0.85V) | 30.1K (0.9V) | 30.1K (0.9V) |
+| US+ -2L     | 301K (0.72V) | 147K (0.85V) | 30.1K (0.9V) | 30.1K (0.9V) |
+
 ## How to test
 
 Run make program to program the HTG-9200 board with Vivado.  Then run