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Eduardo José Tagle ac168a03c8 Fixes for the Arduino DUE HAL (Serial Port, Graphics Display, EEPROM emulation) (#8651)
* Fixing the DUE serial port assignments: Now -1 means the SAM3x USB Device emulating a serial port, and 0 means the USB to serial adapter included as a programming port

* Improving the Fast IO port access implementation on Arduino DUE

* Implemented EEPROM emulation on Due by storing data on the internal FLASH (with wear leveling)

* Implemented a Software SPI for the ST7920 graphics display for the Arduino RAMPS for DUE, as the default one in u8glib is clocking data too fast on ARM, and the display does not understand it.

* Fixing the case where the serial port selected is the USB device

* Adding configuration for the Makerparts 3D printer (www.makerparts.net)

* Tuned MakerParts acceleration on X and Y axis so it never loses steps. Also adjusted pulses per mm to match default hw configuration

* Fine tuned Maximum acceleration for MakerParts printer

* Style cleanup

* Style cleanup (2)

* Style fixes (3)

* Fixing the DUE serial port assignments: Now -1 means the SAM3x USB Device emulating a serial port, and 0 means the USB to serial adapter included as a programming port

* Improving the Fast IO port access implementation on Arduino DUE

* Implemented EEPROM emulation on Due by storing data on the internal FLASH (with wear leveling)

* Implemented a Software SPI for the ST7920 graphics display for the Arduino RAMPS for DUE, as the default one in u8glib is clocking data too fast on ARM, and the display does not understand it.

* Fixing the case where the serial port selected is the USB device

* Adding configuration for the Makerparts 3D printer (www.makerparts.net)

* Tuned MakerParts acceleration on X and Y axis so it never loses steps. Also adjusted pulses per mm to match default hw configuration

* Fine tuned Maximum acceleration for MakerParts printer

* Style cleanup

* Style changes to u8g_dev_st7920_128_64_sw_spi.cpp

* Even more improvements to the FastIO HAL for DUE. Now WRITE() is 2 ASM instructions, if value is constant, and 5 cycles if value is not constant. Previously, it was 7..8 cycles

* After some problems and debugging, seems we need to align the interrupt vector table to 256 bytes, otherwise, the program sometimes stops working

* Moved comments out of macro, otherwise, token pasting does not properly work sometimes

* Improved Software SPI implementation on DUE: Now it honors the selected speed passed to spiInit(). This allows much faster SDCARD access, improving SDCARD menus and reducing latency

* Update u8g_dev_st7920_128_64_sw_spi.cpp

* Disabling EEPROM over FLASH emulatiion if an I2C or SPI EEPROM is present
2017-12-12 17:51:36 -06:00
.github Give a more detailed issue template 2017-06-22 18:17:02 -05:00
buildroot Fix up git helper scripts 2017-11-28 19:01:47 -06:00
frameworks/CMSIS LPC1768: updates to use the new pin_t typedef 2017-11-02 18:43:57 -05:00
Marlin Fixes for the Arduino DUE HAL (Serial Port, Graphics Display, EEPROM emulation) (#8651) 2017-12-12 17:51:36 -06:00
.gitattributes Support file updates 2017-09-20 19:48:21 -05:00
.gitignore Make LPC1768 pinmapping not specific to Re-ARM (#8063) 2017-10-26 13:37:26 -05:00
.travis.yml UBL_DELTA => UBL_SEGMENTED 2017-12-11 00:27:06 -06:00
LICENSE Update LICENSE 2015-11-12 13:09:59 -06:00
platformio.ini Update PlatformIO lib_deps 2017-11-16 23:23:07 -06:00
README.md Update README.md 2017-11-04 16:23:12 +01:00

Marlin 3D Printer Firmware

Build Status Coverity Scan Build Status

Additional documentation can be found at the Marlin Home Page. Please test this firmware and let us know if it misbehaves in any way. Volunteers are standing by!

Marlin 2.0 Bugfix Branch

Not for production use. Use with caution!

Marlin 2.0 is bringing open source RepRap firmware to the next level with support of much faster 32-bit processor boards.

This branch is for patches to the latest 2.0.x release version. Periodically this branch will form the basis for the next minor 2.0.x release.

Download earlier versions of Marlin on the Releases page.

Hardware Abstraction Layer (HAL)

Marlin 2.0 adds a new abstraction layer so that Marlin can build and run on 32-bit boards while still retaining the ability to build and run on 8-bit AVR. In this way, new features can be enhanced for more powerful platforms while still supporting AVR, whereas splitting up the code makes it hard to follow these changes and keep them in sync.

Current HALs

name processor speed flash sram logic fpu
Arduino AVR ATmega, ATTiny, etc. 16-20MHz 64-256k 2-8k 5V no
Teensy++ 2.0 AT90USB1286 16MHz 128k 8k 5V no
Due, RAMPS-FD, etc. SAM3X8E ARM-Cortex M3 84MHz 512k 64+32k 3.3V no
Re-ARM LPC1768 ARM-Cortex M3 100MHz 512k 32+16+16k 3.3-5V no
MKS SBASE LPC1768 ARM-Cortex M3 100MHz 512k 32+16+16k 3.3-5V no
Azteeg X5 GT LPC1769 ARM-Cortex M3 120MHz 512k 32+16+16k 3.3-5V no
Teensy 3.5 ARM-Cortex M4 120MHz 512k 192k 3.3-5V yes
Teensy 3.6 ARM-Cortex M4 180MHz 1M 256k 3.3V yes

HALs in Development

name processor speed flash sram logic fpu
STEVAL-3DP001V1 STM32F401VE Arm-Cortex M4 84MHz 512k 64+32k 3.3-5V yes
Smoothieboard LPC1769 ARM-Cortex M3 120MHz 512k 64k 3.3-5V no

Submitting Patches

Proposed patches should be submitted as a Pull Request against the (bugfix-2.0.x) branch.

  • This branch is for fixing bugs and integrating any new features for the duration of the Marlin 2.0.x life-cycle.
  • Follow the Coding Standards to gain points with the maintainers.
  • Please submit your questions and concerns to the Issue Queue.

RepRap.org Wiki Page

Credits

The current Marlin dev team consists of:

License

Marlin is published under the GPL license because we believe in open development. The GPL comes with both rights and obligations. Whether you use Marlin firmware as the driver for your open or closed-source product, you must keep Marlin open, and you must provide your compatible Marlin source code to end users upon request. The most straightforward way to comply with the Marlin license is to make a fork of Marlin on Github, perform your modifications, and direct users to your modified fork.

While we can't prevent the use of this code in products (3D printers, CNC, etc.) that are closed source or crippled by a patent, we would prefer that you choose another firmware or, better yet, make your own.