DDR

The DDR Memory Controller (DDRMC) is an integrated core in the Versal architecture. During device configuration, each Memory Controller will calibrate with the external memory devices to ensure a stable data channel for each byte lane.

The status and result of this memory calibration is accessible from the ChipScoPy DDRMC API. The majority of data in the DDRMC is related to calibration, which is only run once initially. Therefore the majority of data in the DDRMC is static and the user should not expect many data changes when reloading/refreshing DDRMC data, except certain features specifically denoted as post-calibration trackers, or until the Versal device gets reprogrammed.

_images/ddrmc_comp.png

Details

Calibration

Calibration involves many stages which are vary dependent on the type of memory interface being used as well as the memory frequency. These stages align the clock strobes and data for each byte lane, adjusting for the trace lengths for the given board layout.

Margins

The width of the data window (margin) for each byte lane is measured in two stages, one which uses a simple data pattern and one which uses a more aggressive (complex) data pattern.

If the speed of the memory interface is slow, the complex margin stage may be skipped to save calibration time. For each stage, the read and write margins for the rising and falling edges of the strobe clock are measured and reported.

DDRMC Properties

For each stage of calibration, registers which store the intermediate and final results are updated. There are also configuration registers which describe the settings in use for the current memory controller configuration, and as well as registers dedicated for post-calibration features.

All of these register names and values should be provided by the software in format of DDRMC properties to Xilinx technical support in the event of calibration failure for troubleshooting.

API Functions

class chipscopy.api.ddr.ddr.DDR(ddr_node)[source]

This class contains the top level API functions to interact with the integrated DDR memory controller debug core(s) on Versal devices.

get_cal_status()[source]

Get the main calibration status of DDRMC

Args:

Returns

status in string

refresh_cal_status(done=None)[source]

Refresh the main calibration status of DDRMC

Parameters

done (Optional[DoneHWCommand]) – Optional command callback that will be invoked when the response is received

Returns:

get_cal_stages()[source]

Get the decoded calibration stages results happened from a calibration run

Args:

Returns

A dictionary where

Key = calibration stage name Val = stage calibration result

refresh_cal_margin(done=None)[source]

Refresh the calibration windows margin analysis of DDRMC

Parameters

done (Optional[DoneHWCommand]) – Optional command callback that will be invoked when the response is received

Returns:

refresh_health_status(done=None)[source]

Refresh the overall health status analysis of DDRMC

Parameters

done (Optional[DoneHWCommand]) – Optional command callback that will be invoked when the response is received

Returns:

get_cal_margin_mode()[source]

Get the availability of windows margin mode generated from a calibration run

Args:

Returns

A dictionary where

Key = name of margin mode Val = True or False value indicating the availability

is_user_enabled()[source]

Find out whether the DDRMC core is user enabled or not after Versal device configuration

Args:

Returns

Status value in Bool

get_property(property_names=None, done=None)[source]

Get the property value mapped to DDRMC core

Parameters
  • property_names – single string or list of string of property names (if None specified, all properties available will be queried and returned)

  • done (Optional[DoneHWCommand]) – Optional command callback that will be invoked when the response is received

Returns

A dictionary, where

Key = property name Val = property value

report(to_file=False, file_name=None)[source]

Run a report on the current statuses and analytical data of the DDRMC

Parameters
  • to_file – specify True to have the report saved to a file

  • file_name – the file name or full path for the report file to be saved

Returns:

set_eye_scan_read_mode()[source]

Set 2D eye scan to read mode

Args:

Returns:

set_eye_scan_write_mode()[source]

Set 2D eye scan to write mode

Args:

Returns:

set_eye_scan_simple_pattern()[source]

Set 2D eye scan traffic pattern to simple mode

Args:

Returns:

set_eye_scan_complex_pattern()[source]

Set 2D eye scan traffic pattern to complex mode

Args:

Returns:

set_eye_scan_rank(rank_num)[source]

Set the target rank number on the DDR for 2D eye scan to run on. There will be 4 total possible rank selections. For single slot designs, there will be quad ranks. For dual slot designs, there will be dual ranks per slot. 2D Margin Scan can only be performed on one rank at a time, and not in parallel.

Parameters

rank_num (int) – Rank number valid between 0 and 3 on the DDR for 2D Margin to be run on.

Returns:

get_eye_scan_vref_percentage(vref)[source]

A user helper function that takes in an encoding vref value intended for the margin scan, and converts it into a percentage value based on the current scan mode and memory configuration detected from the current hardware.

Parameters

vref (int) – For Read mode, valid integer range between 0 to 1023 For Write mode, valid integer range between 0 to 50

Return type

float

Returns

A translated percentage number in floating point

set_eye_scan_vref_min(vref)[source]

Set 2D eye scan desired minimum vref value to scan

Parameters

vref (int) – For Read mode, valid integer range between 0 to 1023 For Write mode, valid integer range between 0 to 50

Return type

float

Returns

A translated percentage number in floating point if the input VRef is set successfully

set_eye_scan_vref_max(vref)[source]

Set 2D eye scan desired maximum vref value to scan

Parameters

vref (int) – For Read mode, valid integer range between 0 to 1023 For Write mode, valid integer range between 0 to 50

Return type

float

Returns

A translated percentage number in floating point if the input VRef is set successfully

set_eye_scan_vref_steps(steps)[source]

Set 2D eye scan desired number of vref steps to scan vertically

Parameters

steps (int) – Valid integer range between 1 to 1024 for Read mode. Valid integer range between 1 to 51 for Write mode.

Returns:

save_eye_scan_data(file_name=None)[source]

Save the eye scan 2D margin data from the most recent run to a file in CSV format

Parameters

file_name – the file name or full path for the data file to be saved. A default file name will be given if none is supplied.

Returns:

load_eye_scan_data(file_name)[source]

Load the eye scan 2D margin data from a data file

Parameters

file_name – the file name or full path for the data file to be read and load

Returns:

run_eye_scan(done=None)[source]

Kick off a run on 2D margin analysis and prepare scan data which is needed to draw an eye scan graph. The default scan settings will be used if users have not configured with new settings. See the following related commands for more info:

save_eye_scan_data() load_eye_scan_data() display_eye_scan()

Parameters

done (Optional[NewType()(DoneFutureCallback, Callable[[ForwardRef], None])]) – Optional command callback that will be invoked when the scan is finished

Return type

bool

Returns

Boolean value indicating success of the 2D margin scan

display_eye_scan(unit_index=0, return_as_list=False, display_type='dynamic')[source]

Assemble and display 2D eye scan drawing in chart format. By default it tries to process and draw from the scan data found in the most recent 2D eye scan run. Users have the option to load scan data first prior to using this function in order to display specific set of scan data, see load_eye_scan_data().

By default, if no unit_index is specified, unit zero from the scan data will be displayed. For read margins, both rising and falling edge clock scan data will be processed and displayed.

Parameters
  • unit_index (int) – Specify the index from a set of scan data users intend to display, based on unit mode found in the scan settings (bit, nibble, byte)

  • return_as_list (bool) – Optional argument, default to False. If set to True, the function will not display graphs by default. Instead, it returns a list of the grapghing objects back to the caller.

  • display_type (str) – Optional argument, default to dynamic. If set to static, a static image will be returned. If set to dynamic, a dynamic, interactive javascript view will be returned.

Returns

A list of Figure object from Plotly, if return_as_list is specified as True, None is return otherwise by default.