Difference between revisions of "Fpgalafw"

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* Internal Block-RAM (BRAM)
* Internal Block-RAM (BRAM)
* External DRAM
* External DRAM
* External SDRAM
* External SDRAM (DDR2, DDR3)
* Burst RAM
* Burst RAM
* Internal Soft-RAM? (Shift Registers)
* Internal Soft-RAM? (Shift Registers)

Revision as of 17:13, 23 April 2013

This is a preliminary design

fpgalafw is a proposal for a project to implement a universal logic analyser firmware for use as a firmware for commercial logic analysers that we wish to support, on FPGA development boards and for use as an in-circuit, or even in-FPGA debugging tool.

Previous Projects

There are various pre-existing open source firmware projects that can be drawn upon:

Benefits

  • Would simplify the implementation of libsigrok.
    • Reduced repetition.
    • Advanced triggering becomes hard when every manufacturer has a different trigger model. We can implement one to cover a variety of devices.
  • Unlock previously unsupported device features. If a feature is added to one LA, it is added to all.
  • Would enable support for more analysers such as the RockyLogic Ant8, the RockyLogic Ant18e, the ChronoVu LA8 etc.

Components

fpgalafw will not work as a monolithic single firmware. Rather it is a library/framework of components that can be assembled together depending on the capabilities of the device, and the mode of operation.

Host Interface
  • Cypress FX2
  • FTDI FT245 USB Fifo
  • RS232 (SUMP)
  • Ethernet
  • USB-MCU
  • JTAG - for ChipScope-like in-circuit use cases.
  • PCIe?
  • Parallel Port?
  • Cypress FX3?
Storage
  • Internal Block-RAM (BRAM)
  • External DRAM
  • External SDRAM (DDR2, DDR3)
  • Burst RAM
  • Internal Soft-RAM? (Shift Registers)
  • Streaming Pass-through
Data Packer
  • N-probes to M-data Lines Muxer
  • RLE Encoder
  • RLE + Golomb/Huffman/... Encoder?
Indicator LEDs
  • None
  • Tri-colour
  • Multiple LEDs
Operating Modes
  • Storage Sampling
    • Asynchronous Mode
    • Externally Clocked Synchronous (State Analysis) Mode
  • Continuous Sampling
  • Pulse Counter
  • Time-to-digital Conversion
  • Signal Generation
Triggering
  • External
  • Simple (Edge/Level)
  • Time Delayed
  • Advanced Triggers (the Demon Core replicates the behaviour of the HP16550)

Firmware Packaging

Each device class will be given a firmware package that the driver can load. This package will be ZIP-file containing multiple firmware .bit files for the different permutations of modes and options that can be selected on this device. It is undesirable to have a single universal hardware file for each device, because multiple features will compete for use the limited number of logic units and internal storage.

The firmware package will contain a text index file that indicates the capabilities of the device, its Bus ID, and a list of the firmware files available.

Firmware Build Environment

The firmware will be built using a GNU Make driven build environment, which will be compatible with Altera, Xilinx, Lattice tools, and FreeHDL etc.

Protocol

We will implement a common command protocol, common among all the host interfaces. (With the possible exception of SUMP if we plan to support that).