Difference between revisions of "StrichLux/CORE"
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The StrichLux Core is the "motherboard" of the system, that holds the framebuffers and lets the I/O modules talk to each other. It also holds the "transform engine", which is the FPGA that can do various transforms between the input and output. | The StrichLux Core is the "motherboard" of the system, that holds the framebuffers and lets the I/O modules talk to each other. It also holds the "transform engine", which is the FPGA that can do various transforms between the input and output. | ||
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+ | Source code for the CORE firmware is in the [https://github.com/sarahemm/strichlux_core StrichLux CORE GitHub Repository] | ||
== Project Log == | == Project Log == | ||
+ | * 2013-05: On hold for how due to too many other paying/deadlined projects. Will resume when working on [[invisibleMaze]]. | ||
+ | * 2012-07-02: Fixed one issue with the SPI controller sometimes resetting state on brief nSS glitches, but still having issues. More troubleshooting tomorrow. | ||
+ | * 2012-07-02: READ logic in place but failing sometimes. More troubleshooting tomorrow. | ||
+ | * 2012-06-18: Worked through a bunch of logic issues, now the WRITE command seems to work, and READ returns the address pointer as it should at this point. Real READ logic is next on the list to implement. | ||
+ | * 2012-06-16: Finished assembly, found an issue with the DC-DCs and solved it. Got the FPGA programming, but having some logic issues with getting the SPI going. | ||
+ | * 2012-06-15: 80% done assembling the first board. | ||
* 2012-06-10: Started writing firmware, basic structure is in place and input module controller is 80% ready with very basic functionality (only WRITE command supported). | * 2012-06-10: Started writing firmware, basic structure is in place and input module controller is 80% ready with very basic functionality (only WRITE command supported). | ||
* 2012-05-27: Ordered boards from MyRO PCB. Parts are here already. | * 2012-05-27: Ordered boards from MyRO PCB. Parts are here already. | ||
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* Looking at using the LFXP2-8E-5TN144C FPGA | * Looking at using the LFXP2-8E-5TN144C FPGA | ||
** 5 series is ~$5 cheaper but only has 3 sysDSP blocks, given the 4 channel system, 4 blocks seems a better fit | ** 5 series is ~$5 cheaper but only has 3 sysDSP blocks, given the 4 channel system, 4 blocks seems a better fit | ||
+ | |||
+ | == Revision 1 Issues == | ||
+ | * Resistor packs for status LEDs are wrong footprint | ||
+ | * Power Module connector footprint needs tweaking to move pads further apart, solder bridges under the connector are almost impossible to avoid as it is | ||
+ | * Schematic lists ferrite chips as L1-L4, BOM as FB1-FB4 | ||
+ | * Adjust resistor on the two DC-DC converters needs to go to GND not VOUT | ||
[[Category:Projects]] | [[Category:Projects]] | ||
− | [[Category: | + | [[Category:Dormant Projects]] |
− |
Latest revision as of 03:23, 21 September 2013
The StrichLux Core is the "motherboard" of the system, that holds the framebuffers and lets the I/O modules talk to each other. It also holds the "transform engine", which is the FPGA that can do various transforms between the input and output.
Source code for the CORE firmware is in the StrichLux CORE GitHub Repository
Project Log
- 2013-05: On hold for how due to too many other paying/deadlined projects. Will resume when working on invisibleMaze.
- 2012-07-02: Fixed one issue with the SPI controller sometimes resetting state on brief nSS glitches, but still having issues. More troubleshooting tomorrow.
- 2012-07-02: READ logic in place but failing sometimes. More troubleshooting tomorrow.
- 2012-06-18: Worked through a bunch of logic issues, now the WRITE command seems to work, and READ returns the address pointer as it should at this point. Real READ logic is next on the list to implement.
- 2012-06-16: Finished assembly, found an issue with the DC-DCs and solved it. Got the FPGA programming, but having some logic issues with getting the SPI going.
- 2012-06-15: 80% done assembling the first board.
- 2012-06-10: Started writing firmware, basic structure is in place and input module controller is 80% ready with very basic functionality (only WRITE command supported).
- 2012-05-27: Ordered boards from MyRO PCB. Parts are here already.
- 2012-05-26: Waiting to get PWR-DC5 and IO-ETH boards done to send all 3 off to get made at once.
- 2012-05-23: Found the power switch would interfere with the power jack, replaced with a vertical switch to resolve this issue.
- 2012-05-20: Routing complete, will wait to send board so I can review it again tomorrow.
- 2012-05-15: Routing continues, 30 airwires to go.
- 2012-05-08: EAGLE purchase went through, board routing started.
- 2012-05-07: Ran checklist, completed last few changes. Rev. 1 schematic complete, board layout started (but stuck until my EAGLE purchase goes through, as the board is 160x100mm).
- 2012-05-06: Schematic complete, checklist still needs to be run.
- 2012-05-05: Started working on the schematic.
- 2012-05-04: Started putting together specs/BOM.
Project Ideas
- Required I/O
- 4 Input modules (one SPI slave transceiver and one I2C master transceiver each)
- 4 output modules (one SPI slave transceiver and one I2C master transceiver each)
- RS232 and USB for troubleshooting and configuring the core board itself
- 1 Power module (one I2C master transceiver)
- Local framebuffer memory
- Dual-port memory would be best so the output and input sections can both deal with it independently
- 8 bits per frame * 512 channels per universe * 4 universes = 16kbit (2kbyte) of framebuffer memory required
- Twice that for double-buffering would be awesome, so 32kbit/4kbyte of dual-port memory wanted
- Split into 4 channels, so each block would be 8kbit/1kbyte
- Reading/writing needs to happen in parallel for each block
- Looking at using the LFXP2-8E-5TN144C FPGA
- 5 series is ~$5 cheaper but only has 3 sysDSP blocks, given the 4 channel system, 4 blocks seems a better fit
Revision 1 Issues
- Resistor packs for status LEDs are wrong footprint
- Power Module connector footprint needs tweaking to move pads further apart, solder bridges under the connector are almost impossible to avoid as it is
- Schematic lists ferrite chips as L1-L4, BOM as FB1-FB4
- Adjust resistor on the two DC-DC converters needs to go to GND not VOUT