DS031 Datasheet, PDF(89/318 Page) Xilinx, Inc – Summary of Features

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DS031 Datasheet, PDF (89/318 Pages) Xilinx, Inc – Summary of Features

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Virtex-II Platform FPGAs: DC and Switching Characteristics

Source Synchronous Timing Budgets

This section describes how to use the parameters provided in the Source-Synchronous Switching Characteristics section to

develop system-specific timing budgets. The following analysis provides information necessary for determining Virtex-II

contributions to an overall system timing analysis; no assumptions are made about the effects of Inter-Symbol Interference

or PCB skew.

Virtex-II Transmitter Data-Valid Window (TX)

TX is the minimum aggregate valid data period for a

source-synchronous data bus at the pins of the device and

is calculated as follows:

TX = Data Period - [Jitter(1) + Duty Cycle Distortion(2) +

TCKSKEW(3) + TPKGSKEW(4)]

Notes:

1. Jitter values and accumulation methodology to be provided in

a future release of this document. The absolute period jitter

values found in the DCM Timing Parameters section of the

particular DCM output clock used to clock the IOB FF can be

used for a best case analysis.

2. This value depends on the clocking methodology used. See

Note1 for Table 45.

3. This value represents the worst-case clock-tree skew

observable between sequential I/O elements. Significantly

less clock-tree skew exists for I/O registers that are close to

each other and fed by the same or adjacent clock-tree

branches. Use the Xilinx FPGA_Editor and Timing Analyzer

tools to evaluate clock skew specific to your application.

4. These values represent the worst-case skew between any two

balls of the package: shortest flight time to longest flight time

from Pad to Ball.

Virtex-II Receiver Data-Valid Window (RX)

RX is the required minimum aggregate valid data period for

a source-synchronous data bus at the pins of the device

and is calculated as follows:

RX = [TSAMP(1) + TCKSKEW(2) + TPKGSKEW(3) ]

Notes:

1. This parameter indicates the total sampling error of Virtex-II

DDR input registers across voltage, temperature, and process.

The characterization methodology uses the DCM to capture

the DDR input registersâ edges of operation. These

measurements include:

- CLK0 and CLK180 DCM jitter in a quiet system

- Worst-case duty-cycle distortion

- DCM accuracy (phase offset)

- DCM phase shift resolution.

These measurements do not include package or clock tree

skew.

2. This value represents the worst-case clock-tree skew

observable between sequential I/O elements. Significantly

less clock-tree skew exists for I/O registers that are close to

each other and fed by the same or adjacent clock-tree

branches. Use the Xilinx FPGA_Editor and Timing Analyzer

tools to evaluate clock skew specific to your application.

3. These values represent the worst-case skew between any two

balls of the package: shortest flight time to longest flight time

from Pad to Ball.

Revision History

This section records the change history for this module of the data sheet.

Date

11/07/00

12/06/00

01/15/01

01/25/01

04/23/01

Version

1.0

1.1

1.2

1.3

1.5

Revision

Early access draft.

Initial release.

Added values to the tables in the Virtex-II Performance Characteristics and Virtex-II

Switching Characteristics sections.

â¢ The data sheet was divided into four modules (per the current style standard).

â¢ Updated values in the Virtex-II Performance Characteristics and Virtex-II Switching

Characteristics tables.

â¢ Table 18, âDelay Measurement Methodologyâ

â¢ Updated values in the Virtex-II Performance Characteristics and Virtex-II Switching

Characteristics tables.

â¢ Added TREG32 symbol to Table 23.

â¢ Skipped v1.4 to sync with other modules. Reverted to traditional double-column format.

DS031-3 (v3.5) November 5, 2007

Product Specification

www.xilinx.com

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