XPM_CDC_ARRAY_SINGLE - 2021.2 English

Versal Architecture AI Core Series Libraries Guide (UG1353)

Document ID
UG1353
Release Date
2021-10-22
Version
2021.2 English

Parameterized Macro: Single-bit Array Synchronizer

  • MACRO_GROUP: XPM
  • MACRO_SUBGROUP: XPM_CDC

Introduction

This macro synthesizes an array of single-bit signals from the source clock domain to the destination clock domain.

For proper operation, the input data must be sampled two or more times by the destination clock. You can define the number of register stages used in the synchronizers. An optional input register can be used to register the input in the source clock domain prior to it being synchronized. You can also enable a simulation feature to generate messages to report any potential misuse of the macro.

Note: This macro expects that the each bit of the source array is independent, and does not have a defined relationship that needs to be preserved. If each bit of the array has a relationship that needs to be preserved, use the XPM_CDC_HANDSHAKE or XPM_CDC_GRAY macros.

Port Descriptions

Port Direction Width Domain Sense Handling if Unused Function
dest_clk Input 1 NA EDGE_RISING Active Clock signal for the destination clock domain.
dest_out Output WIDTH dest_clk NA Active src_in synchronized to the destination clock domain. This output is registered.
src_clk Input 1 NA EDGE_RISING 0 Unused when SRC_INPUT_REG = 0. Input clock signal for src_in if SRC_INPUT_REG = 1.
src_in Input WIDTH src_clk NA Active

Input single-bit array to be synchronized to destination clock domain. It is assumed that each bit of the array is unrelated to the others. This is reflected in the constraints applied to this macro.

To transfer a binary value losslessly across the two clock domains, use the XPM_CDC_GRAY macro instead.

Design Entry Method

Instantiation Yes
Inference No
IP and IP Integrator Catalog No

Available Attributes

Attribute Type Allowed Values Default Description
DEST_SYNC_FF DECIMAL 2 to 10 4 Number of register stages used to synchronize signal in the destination clock domain.
INIT_SYNC_FF DECIMAL 0, 1 0

0- Disable behavioral simulation initialization value(s) on synchronization registers.

1- Enable behavioral simulation initialization value(s) on synchronization registers.

SIM_ASSERT_CHK DECIMAL 0, 1 0

0- Disable simulation message reporting. Messages related to potential misuse will not be reported.

1- Enable simulation message reporting. Messages related to potential misuse will be reported.

SRC_INPUT_REG DECIMAL 1, 0 1

0- Do not register input (src_in)

1- Register input (src_in) once using src_clk

WIDTH DECIMAL 1 to 1024 2 Width of single-bit array (src_in) that will be synchronized to destination clock domain.

VHDL Instantiation Template

Unless they already exist, copy the following two statements and paste them before the entity declaration.
Library xpm;
use xpm.vcomponents.all;

-- xpm_cdc_array_single: Single-bit Array Synchronizer
-- Xilinx Parameterized Macro, version 2021.2

xpm_cdc_array_single_inst : xpm_cdc_array_single
generic map (
   DEST_SYNC_FF => 4,   -- DECIMAL; range: 2-10
   INIT_SYNC_FF => 0,   -- DECIMAL; 0=disable simulation init values, 1=enable simulation init values
   SIM_ASSERT_CHK => 0, -- DECIMAL; 0=disable simulation messages, 1=enable simulation messages
   SRC_INPUT_REG => 1,  -- DECIMAL; 0=do not register input, 1=register input
   WIDTH => 2           -- DECIMAL; range: 1-1024
)
port map (
   dest_out => dest_out, -- WIDTH-bit output: src_in synchronized to the destination clock domain. This
                         -- output is registered.

   dest_clk => dest_clk, -- 1-bit input: Clock signal for the destination clock domain.
   src_clk => src_clk,   -- 1-bit input: optional; required when SRC_INPUT_REG = 1
   src_in => src_in      -- WIDTH-bit input: Input single-bit array to be synchronized to destination clock
                         -- domain. It is assumed that each bit of the array is unrelated to the others.
                         -- This is reflected in the constraints applied to this macro. To transfer a binary
                         -- value losslessly across the two clock domains, use the XPM_CDC_GRAY macro
                         -- instead.

);

-- End of xpm_cdc_array_single_inst instantiation

Verilog Instantiation Template


// xpm_cdc_array_single: Single-bit Array Synchronizer
// Xilinx Parameterized Macro, version 2021.2

xpm_cdc_array_single #(
   .DEST_SYNC_FF(4),   // DECIMAL; range: 2-10
   .INIT_SYNC_FF(0),   // DECIMAL; 0=disable simulation init values, 1=enable simulation init values
   .SIM_ASSERT_CHK(0), // DECIMAL; 0=disable simulation messages, 1=enable simulation messages
   .SRC_INPUT_REG(1),  // DECIMAL; 0=do not register input, 1=register input
   .WIDTH(2)           // DECIMAL; range: 1-1024
)
xpm_cdc_array_single_inst (
   .dest_out(dest_out), // WIDTH-bit output: src_in synchronized to the destination clock domain. This
                        // output is registered.

   .dest_clk(dest_clk), // 1-bit input: Clock signal for the destination clock domain.
   .src_clk(src_clk),   // 1-bit input: optional; required when SRC_INPUT_REG = 1
   .src_in(src_in)      // WIDTH-bit input: Input single-bit array to be synchronized to destination clock
                        // domain. It is assumed that each bit of the array is unrelated to the others. This
                        // is reflected in the constraints applied to this macro. To transfer a binary value
                        // losslessly across the two clock domains, use the XPM_CDC_GRAY macro instead.

);

// End of xpm_cdc_array_single_inst instantiation

Related Information