MBUFG_GT - 2021.2 English

Versal Architecture AI Core Series Libraries Guide (UG1353)

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

Primitive: Multi-Output Clock Buffer Driven by Gigabit Transceiver

  • PRIMITIVE_GROUP: CLOCK
  • PRIMITIVE_SUBGROUP: BUFFER
Page-1 Sheet.1 MBUFG_GT MBUFG_GT Text Line.108 CE CE Text Line.45 CEMASK CEMASK Text Line.46 CLRMASK CLRMASK Text Line.1 O1 O1 Text Line.3 CLR CLR Text Line.14 DIV[2:0] DIV[2:0] Text Line.15 I I Text Line.30 O3 O3 Text Line.26 O2 O2 Text Line.27 O4 O4 Sheet.23 X22746-042219 X22746-042219

Introduction

Multi-Output clock buffer driven by the gigabit transceiver for the purpose of clock distribution to other portions of the device.

Port Descriptions

Port Direction Width Function
CE Input 1 Buffer enable
CEMASK Input 1 CE Mask
CLR Input 1 Asynchronous clear forcing the output to zero.
CLRB_LEAF Input 1 Active low clear of BUFDIV_LEAF
CLRMASK Input 1 CLR Mask
DIV<2:0> Input 3 Specifies the value to divide the clock. Divide value is value provided plus 1. For instance, setting 3'b000 will provide a divide value of 1 and 3'b111 will be a divide value of 8.
I Input 1 Buffer Input
O1 Output 1
  • I in PERFORMANCE MODE
  • I*2 in POWER MODE
Note: Connecting the DIV<2:0> pins to a non-zero value will result in futher division of the output clock by that factor.
O2 Output 1
  • I/2 in PERFORMANCE MODE
  • I in POWER MODE
Note: Connecting the DIV<2:0> pins to a non-zero value will result in futher division of the output clock by that factor.
O3 Output 1
  • I/4 in PERFORMANCE MODE
  • I/2 in POWER MODE
Note: Connecting the DIV<2:0> pins to a non-zero value will result in futher division of the output clock by that factor.
O4 Output 1
  • I/8 in PERFORMANCE MODE
  • I/4 in POWER MODE
Note: Connecting the DIV<2:0> pins to a non-zero value will result in futher division of the output clock by that factor.

Design Entry Method

Instantiation Yes
Inference No
IP and IP Integrator Catalog Recommended

Available Attributes

Attribute Type Allowed Values Default Description
MODE STRING "PERFORMANCE", "POWER" "PERFORMANCE"
Sets the mode of operation that determines the output clock generation. For PERFORMANCE MODE, the outputs are generated as follows:
  • O1 = I
  • O2 = I/2
  • O3 = I/4
  • O4 = I/8
For POWER MODE, the outputs are generated as follows:
  • O1 = I*2
  • O2 = I
  • O3 = I/2
  • O4 = I/4
Note: Connecting the DIV<2:0> pins to a non-zero value will result in futher division of the output clock by that factor.

VHDL Instantiation Template

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

-- MBUFG_GT: Multi-Output Clock Buffer Driven by Gigabit Transceiver
--           Versal AI Core series
-- Xilinx HDL Language Template, version 2021.2

MBUFG_GT_inst : MBUFG_GT
generic map (
   MODE => "PERFORMANCE"  -- PERFORMANCE, POWER
)
port map (
   O1 => O1,               -- 1-bit output: Buffer
   O2 => O2,               -- 1-bit output: Buffer
   O3 => O3,               -- 1-bit output: Buffer
   O4 => O4,               -- 1-bit output: Buffer
   CE => CE,               -- 1-bit input: Buffer enable
   CEMASK => CEMASK,       -- 1-bit input: CE Mask
   CLR => CLR,             -- 1-bit input: Asynchronous clear
   CLRB_LEAF => CLRB_LEAF, -- 1-bit input: Active low clear
   CLRMASK => CLRMASK,     -- 1-bit input: CLR Mask
   DIV => DIV,             -- 3-bit input: Dynamic divide Value
   I => I                  -- 1-bit input: Buffer
);

-- End of MBUFG_GT_inst instantiation

Verilog Instantiation Template


// MBUFG_GT: Multi-Output Clock Buffer Driven by Gigabit Transceiver
//           Versal AI Core series
// Xilinx HDL Language Template, version 2021.2

MBUFG_GT #(
   .MODE("PERFORMANCE")  // PERFORMANCE, POWER
)
MBUFG_GT_inst (
   .O1(O1),               // 1-bit output: Buffer
   .O2(O2),               // 1-bit output: Buffer
   .O3(O3),               // 1-bit output: Buffer
   .O4(O4),               // 1-bit output: Buffer
   .CE(CE),               // 1-bit input: Buffer enable
   .CEMASK(CEMASK),       // 1-bit input: CE Mask
   .CLR(CLR),             // 1-bit input: Asynchronous clear
   .CLRB_LEAF(CLRB_LEAF), // 1-bit input: Active low clear
   .CLRMASK(CLRMASK),     // 1-bit input: CLR Mask
   .DIV(DIV),             // 3-bit input: Dynamic divide Value
   .I(I)                  // 1-bit input: Buffer
);

// End of MBUFG_GT_inst instantiation

Related Information

  • Versal ACAP Clocking Resources Architecture Manual (AM003)