Difference between revisions of "GreatFET One"

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("tone down" samplerates, mention 20.4M@16ch, link sigrok and vendor sections)
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See [[GreatFET One/Info]] for more details (USB identification).
See [[GreatFET One/Info]] for more details (USB identification).


== Firmware ==
== Hardware ==


This section discusses '''Getting the firmware, using the vendor software''' to verify the device's operation.
The GreatFET One is also code named '''Azalea''', and is based on the '''NXP LPC4330''' microcontroller.
It is recommended to (re-)check these details when sigrok software has issues using the device.
See the [https://github.com/greatfet-hardware/azalea hardware git repo] for design documents.
It's all open hardware (BSD 3-clause).


It is recommended to use at least v2021.2.1 firmware.
"Shields", "HATs", "capes", etc are referred to as '''neighbours''' in the GreatFET ecosystem.
This version was used for the initial development of sigrok support and is known to work well.
* [https://github.com/greatfet-hardware/foxglove Foxglove] is a level shifting neighbour.
* Rhododendron sniffs USB (two wires, high samplerates)


The simplest method of checking the device's operation and upgrading its firmware is to use the '''greatfet''' host software.
== Photos ==
Which is available as a Python package, and makes the gf(1) utility available.
This also happens to verify permissions to access the USB device.


<small>
<gallery>
  $ '''pip install greatfet'''
File:Greatfet_top.png|<small>top</small>
 
File:Greatfet_bottom.png|<small>bottom</small>
  $ '''gf'''  (see available subcommands)
File:Greatfet_4chan.png|<small>capturing USB and UART</small>
 
</gallery>
  $ '''gf info'''
  $ '''gf firmware --help'''
  $ '''gf firmware --autoflash'''
  $ '''gf info'''
</small>
 
The greatfet host software ships with firmware images that correspond to the host's software version.
Which ensures proper operation of the device under the host's software control.
The "auto flash" feature writes that matching firmware to the device.
Other options are available to write arbitrary images and thus firmware versions,
as well as backup a device's firmware.
 
The greatfet host software demonstrates the GreatFET device's several modes of operation (as serial or parallel bridge, JTAG adapter, et al),
allows versatile use of the device in interactive ways as well as scripted.
It also covers operation as a logic analyzer, which can either
store raw data in files on disk, or optionally can create archives in sigrok's native format.
 
<small>
  $ '''gf logic --help
  $ '''gf logic -p capture.sr -f 34M'''  (executes until CTRL-C terminates)
  $ '''sigrok-cli -i capture.sr --show'''
  $ '''pulseview capture.sr &'''
</small>
 
See the [https://greatfet.readthedocs.io/en/latest/ read the docs] pages for details on using the software.
Especially the [https://greatfet.readthedocs.io/en/latest/using_greatfet_apis.html#logic-analyzer Logic Analyzer] mode of operation and its pinout.
Also [https://greatfet.readthedocs.io/en/latest/greatfet_logic.html greatfet_logic] for identical information on the first 8 channels.
 
The software resides [https://github.com/greatscottgadgets/greatfet in a github repo].
This covers the device firmware as well as the host software.


== Example use ==
== Example use ==
Line 183: Line 153:
</small>
</small>


== Hardware ==
== Firmware ==
 
This section discusses '''Getting the firmware, using the vendor software''' to verify the device's operation.
It is recommended to (re-)check these details when sigrok software has issues using the device.
 
It is recommended to use at least v2021.2.1 firmware.
This version was used for the initial development of sigrok support and is known to work well.
 
The simplest method of checking the device's operation and upgrading its firmware is to use the '''greatfet''' host software.
Which is available as a Python package, and makes the gf(1) utility available.
This also happens to verify permissions to access the USB device.
 
<small>
  $ '''pip install greatfet'''
 
  $ '''gf'''  (see available subcommands)
 
  $ '''gf info'''
  $ '''gf firmware --help'''
  $ '''gf firmware --autoflash'''
  $ '''gf info'''
</small>
 
The greatfet host software ships with firmware images that correspond to the host's software version.
Which ensures proper operation of the device under the host's software control.
The "auto flash" feature writes that matching firmware to the device.
Other options are available to write arbitrary images and thus firmware versions,
as well as backup a device's firmware.


The GreatFET One is also code named '''Azalea''', and is based on the '''NXP LPC4330''' microcontroller.
The greatfet host software demonstrates the GreatFET device's several modes of operation (as serial or parallel bridge, JTAG adapter, et al),
See the [https://github.com/greatfet-hardware/azalea hardware git repo] for design documents.
allows versatile use of the device in interactive ways as well as scripted.
It's all open hardware (BSD 3-clause).
It also covers operation as a logic analyzer, which can either
store raw data in files on disk, or optionally can create archives in sigrok's native format.


"Shields", "HATs", "capes", etc are referred to as '''neighbours''' in the GreatFET ecosystem.
<small>
* [https://github.com/greatfet-hardware/foxglove Foxglove] is a level shifting neighbour.
  $ '''gf logic --help
* Rhododendron sniffs USB (two wires, high samplerates)
  $ '''gf logic -p capture.sr -f 34M'''  (executes until CTRL-C terminates)
  $ '''sigrok-cli -i capture.sr --show'''
  $ '''pulseview capture.sr &'''
</small>


== Photos ==
See the [https://greatfet.readthedocs.io/en/latest/ read the docs] pages for details on using the software.
Especially the [https://greatfet.readthedocs.io/en/latest/using_greatfet_apis.html#logic-analyzer Logic Analyzer] mode of operation and its pinout.
Also [https://greatfet.readthedocs.io/en/latest/greatfet_logic.html greatfet_logic] for identical information on the first 8 channels.


<gallery>
The software resides [https://github.com/greatscottgadgets/greatfet in a github repo].
File:Greatfet_top.png|<small>top</small>
This covers the device firmware as well as the host software.
File:Greatfet_bottom.png|<small>bottom</small>
File:Greatfet_4chan.png|<small>capturing USB and UART</small>
</gallery>


== Resources ==
== Resources ==

Revision as of 09:56, 29 October 2023

GreatFET One
Greatfet mugshot.png
Status in progress
Channels 8/4/2/1
Samplerate 40.8/68/102/204MHz max
Min/max voltage 3.3V
Compression No (packing)
Website greatscottgadgets.com

The GreatFET One is a USB connected 8 channel logic analyser with a 40.8MHz samplerate and no local sample memory. Higher samplerates are available when the number of enabled channels gets reduced (up to 204MHz for 1 channel). Data acquisition employs the SGPIO machinery of the NXP LPC4330 microcontroller. The GreatFET's firmware is also available for other boards which use the same MCU. The device firmware is known for its efficient use of USB communication, streaming capabilities to the host are similar to HackRF One. Transfer rates are a little shy of 42MB/s. The greatfet sigrok driver supports the operation of these devices in logic analyzer mode.

The GreatFET device is exclusively used in continuous mode where sample data gets streamed to the host while the acquisition is executing. With 8 channels enabled, sample rates up to 40.8 MHz are supported. When fewer channels are enabled then these can get sampled at higher rates. The device firmware always captures channel counts that are a power of two. In other words when three channels are enabled, then data is captured for four channels. This is important to keep in mind, as the product of samplerate and channel count must not exceed the USB2.0 bandwidth. The limit is near 336Mbps (depends on the host computer's capabilities). Sample data is "densely packed" but not compressed during USB transmission.

"Seemingly odd" samplerates are the result of an unusual (rather: unexpected to users) base clock and integer dividers. Users can specify arbitrary desired samplerates, the device firmware will determine the minimum samplerate which satisfies this user request.

channels count max samplerate comment
16-9 20.4MHz currently unsupported
8-5 40.8 MHz
4-3 68 MHz
2 102 MHz
1 204 MHz

Using more than 8 channels requires coordination of multiple pin banks (and their SGPIO activity) within the device firmware, is said to be under construction, and currently is not supported by sigrok. If you are aware of requirements for this feature, and a working combination of the involved components, please report them so that the sigrok device driver could get adjusted to support up to 16 channels. It is understood that the use of 9..16 channels will result in a maximum samplerate of 20.4MHz to allow for continuous streaming to the host.

See GreatFET One/Info for more details (USB identification).

Hardware

The GreatFET One is also code named Azalea, and is based on the NXP LPC4330 microcontroller. See the hardware git repo for design documents. It's all open hardware (BSD 3-clause).

"Shields", "HATs", "capes", etc are referred to as neighbours in the GreatFET ecosystem.

  • Foxglove is a level shifting neighbour.
  • Rhododendron sniffs USB (two wires, high samplerates)

Photos

Example use

This section discusses sigrok software use with the device, after its operation was verified with vendor software. See the Firmware section of this page for getting the firmware and checking device operation.

Make sure a compatible firmware version is loaded and that you have permissions to access the USB device.

Scan for the device(s), see their USB connection details and serial number(s).

 $ sigrok-cli -d greatfet --scan
 greatfet:conn=3.85 - Great Scott Gadgets GreatFET v2021.2.1 [S/N: 000057cc67e630223f57] with 8 channels: SGPIO0 SGPIO1 SGPIO2 SGPIO3 SGPIO4 SGPIO5 SGPIO6 SGPIO7

See the device's parameters and its current configuration. Optionally specify connection details or serial numbers to disambiguate.

 $ sigrok-cli -d greatfet:conn=3.85 --show
 (or)
 $ sigrok-cli -d greatfet:conn=sn=30223f57 --show
 Driver functions:
     Logic analyzer
 Scan options:
     conn
     probe_names
 greatfet:conn=3.85 - Great Scott Gadgets GreatFET v2021.2.1 [S/N: 000057cc67e630223f57] with 8 channels: SGPIO0 SGPIO1 SGPIO2 SGPIO3 SGPIO4 SGPIO5 SGPIO6 SGPIO7
 Channel groups:
     Logic: channels SGPIO0 SGPIO1 SGPIO2 SGPIO3 SGPIO4 SGPIO5 SGPIO6 SGPIO7
 Supported configuration options across all channel groups:
     continuous: on (current), off
     conn: 3.85 (current)
     samplerate - supported samplerates:
       1 MHz
       2 MHz
       4 MHz
       8.5 MHz
       10.2 MHz
       12 MHz
       17 MHz
       20.4 MHz
       25.5 MHz
       34 MHz (current)
       40.8 MHz
       51 MHz
       68 MHz
       102 MHz
       204 MHz
     limit_samples: 0 (current)
     limit_time: 0 (current)

Capture some data, use the device interactively.

 $ sigrok-cli -d greatfet --config samplerate=40M --time 1000 -o capture.sr
 $ sigrok-cli -i capture.sr --show

 $ pulseview -d greatfet &

Firmware

This section discusses Getting the firmware, using the vendor software to verify the device's operation. It is recommended to (re-)check these details when sigrok software has issues using the device.

It is recommended to use at least v2021.2.1 firmware. This version was used for the initial development of sigrok support and is known to work well.

The simplest method of checking the device's operation and upgrading its firmware is to use the greatfet host software. Which is available as a Python package, and makes the gf(1) utility available. This also happens to verify permissions to access the USB device.

 $ pip install greatfet
 
 $ gf  (see available subcommands)
 
 $ gf info
 $ gf firmware --help
 $ gf firmware --autoflash
 $ gf info

The greatfet host software ships with firmware images that correspond to the host's software version. Which ensures proper operation of the device under the host's software control. The "auto flash" feature writes that matching firmware to the device. Other options are available to write arbitrary images and thus firmware versions, as well as backup a device's firmware.

The greatfet host software demonstrates the GreatFET device's several modes of operation (as serial or parallel bridge, JTAG adapter, et al), allows versatile use of the device in interactive ways as well as scripted. It also covers operation as a logic analyzer, which can either store raw data in files on disk, or optionally can create archives in sigrok's native format.

 $ gf logic --help
 $ gf logic -p capture.sr -f 34M  (executes until CTRL-C terminates)
 $ sigrok-cli -i capture.sr --show
 $ pulseview capture.sr &

See the read the docs pages for details on using the software. Especially the Logic Analyzer mode of operation and its pinout. Also greatfet_logic for identical information on the first 8 channels.

The software resides in a github repo. This covers the device firmware as well as the host software.

Resources