Example_Implement_Ibert_V6_Q1Xx.xst; I2C_Sclk2_Control.ngc; Ibert_V6_Q1Xx.ngc; Icon_V6_1.Ngc - Xilinx IBERT ML628 Getting Started Manual

IBERT Demonstration Designs
For additional details on this file, see:
•

example_implement_ibert_v6_q1xx.xst

The example_implement_ibert_v6_q1xx.xst file contains the arguments that are
passed to the xst synthesis application when the application is run in command line (i.e.,
script) mode.
For details on the arguments used in this file, see:
•

i2c_sclk2_control.ngc

The i2c_sclk2_control.ngc file is a binary implementation netlist file containing the
logic and constraints required for the FPGA to control the SuperClock-2 module over an
I
box interface (i2c_sclk2_control_bb.v) is provided for synthesis, but the underlying
HDL source code is not provided in the design package.

ibert_v6_q1xx.ngc

The ibert_v6_q1xx.ngc file is a binary implementation netlist file containing the logic
and constraints required to implement the ChipScope IBERT core in an FPGA.
ibert_v6_q1xx.ngc is created using the ISE Design Suite CORE Generator™. In the
ML628 IBERT demonstration designs, each IBERT core is configured to support a single
GTH or GTX Quad. For example, ibert_v6_q117.ngc is the GTH IBERT core for Quad
117. The flows for building the GTH and GTX IBERT cores for the demonstration designs
are provided in
page 43
For additional information on ChipScope IBERT cores, refer to following documents:
•
•
•

icon_v6_1.ngc

The icon_v6_1.ngc file is a binary implementation netlist file containing the logic and
constraints required to implement the ChipScope Integrated Control (ICON) core in an
FPGA. This file is created using the ISE Design Suite CORE Generator. In the ML628 IBERT
demonstration designs, the ICON core is configured with a single control port which
connects to the SuperClock-2 VIO core vio_v6_si84_so78.ngc. The ICON core is
required to control the SuperClock-2 VIO core from the ChipScope software.
For additional details on the ChipScope ICON core, refer to:
34
http://www.xilinx.com/support/documentation/sw_manuals/xilinx13_1/xst.pdf,
UG627 - XST User Guide for Virtex-4, Virtex-5, Spartan-3, and Newer CPLD Devices
http://www.xilinx.com/support/documentation/sw_manuals/xilinx13_1/xst.pdf,
UG627 - XST User Guide for Virtex-4, Virtex-5, Spartan-3, and Newer CPLD Devices
2
C interface. The SuperClock-2 frequency table is also contained in this module. A black
Creating the GTH IBERT Core, page 36
www.xilinx.com/support/documentation/sw_manuals/xilinx13_1/
chipscope_pro_sw_cores_ug029.pdf, UG029 - ChipScope Pro Software Cores
http://www.xilinx.com/support/documentation/ip_documentation/
chipscope_ibert_virtex6_gth.pdf, DS755 - ChipScope Integrated Bit Error Ratio Test
(IBERT) for Virtex-6 GTH.
http://www.xilinx.com/support/documentation/ip_documentation/
chipscope_ibert_virtex6_gtx.pdf, DS732 - ChipScope Integrated Bit Error Ratio Test
(IBERT) for Virtex-6 GTX.
www.xilinx.com
and Creating the GTX IBERT Core,
ML628 IBERT Getting Started Guide
UG806 (v1.0) May 20, 2011