Intel has found wide variation in noise margins when varying the stub impedance and the PCB's Z0
and S0. Intel therefore recommends that PCB parameters are controlled as tightly as possible, with
a sampling of the allowable Z0 and S0 simulated. The Intel
effective line impedance is 65 Ω ±15%. Future Intel
impedance (Z
impedance to be at 60 Ω ±15% for the recommended layout guidelines to be effective. Intel also
recommends running uncoupled simulations using the Z
fully coupled simulations if increased accuracy is needed or desired. Accounting for cross-talk
within the device package by varying the stub impedance was investigated and was not found to be
sufficiently accurate. This lead to the development of full package models for the component
packages.
5.1.4
Place and Route Board
5.1.4.1
Estimate Component To Component Spacing for AGTL+ Signals
Estimate the number of layers that will be required. Then determine the expected interconnect
distances between each of the components on the AGTL+ bus. Using the estimated interconnect
distances, verify that the placement can support the system timing requirements.
The required bus frequency and the maximum flight time propagation delay on the PCB determine
the maximum network length between the bus agents. The minimum network length is independent
of the required bus frequency. To reduce system clock skew to a minimum, clock buffers that allow
their outputs to be tied together are recommended. Intel strongly recommends running analog
simulations to ensure that each design has adequate noise and timing margin.
5.1.4.2
Layout and Route Board
Route the board satisfying the estimated space and timing requirements. Also stay within the
solution space set from the pre-layout sweeps. Estimate the printed circuit board parameters from
the placement and other information including the following general guidelines:
•
Distribute V
use as wide a trace as possible and route the V
traces.
•
Keep the overall length of the bus as short as possible (but do not forget minimum component-
to-component distances to meet hold times).
•
Plan to minimize cross-talk with the following guidelines developed for the example topology
given (signal spacing recommendations were based on fully coupled simulations - spacing
may be decreased based upon the amount of coupled length):
— Use a spacing to line width to dielectric thickness ratio of at least 3:1:2. If ε
should limit coupling to 3.4%.
— Minimize the dielectric process variation used in the PCB fabrication.
— Eliminate parallel traces between layers not separated by a power or ground plane.
Figure 5-2
considered in this guideline involve three types: Intragroup AGTL+, Intergroup AGTL+, and
AGTL+ to non-AGTL+. Intra-group AGTL+ cross-talk involves interference between AGTL+
signals within the same group (See
description of the different AGTL+ group types). Intergroup AGTL+ cross-talk involves
®
Intel
810A3 Chipset Design Guide
) may be 60 Ω ±15%. Intel recommends the baseboard nominal effective line
EFF
with a power plane or a partial power plane. If this cannot be accomplished,
TT
contains the trace width:space ratios assumed for this topology. The cross-talk cases
Section 5.3, "More Details and Insight" on page 5-13
Advanced System Bus Design
®
®
III processor nominal
Pentium
®
®
Pentium
III processor effective line
of the package stubs; and performing
0
trace with the same topology as the AGTL+
TT
= 4.5, this
r
for a
5-5