Intel Xeon Processor and Intel E7500/E7501Chipset Compatible Platform Design Guide

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Intel

Xeon™ Processor and Intel

E7500/E7501 Chipset Compatible Platform Design Guide 247

Layout Checklist

14.2 Processor Power Delivery Layout Checklist

All recommendations in this checklist apply to the power distribution design of the processor’s

“VCC_CPU” and ground supply. This checklist assumes the voltage regulator solution adheres to

the guidelines documented in either the

VRM 9.1 DC-DC Converter Design Guidelines or Dual

Intel

Xeon™ Processor Voltage Regulator Down (VRD) Design Guidelines depending on which

solution is implemented.

Table 14-2. Processor Power Delivery Layout Checklist (Sheet 1 of 4)

Checklist Items Recommendations Comments

Power / Ground

Plane Copper

Weight

• Use at least 2 oz total copper for the

combined weight of all processor power

planes (VCC_CPU).

• Use at least 2 oz copper for the combined

weight of all processor ground planes.

• These layers can be implemented using two

1 oz copper layers or four ½ oz copper

layers.

• Refer to Section 11.2.2.

Power / Ground

Plane Geometry

• The power / ground supply to both processor

sockets can be distributed as a dedicated

layer of the PCB, a voltage supply plane with

other power islands, or an island on a signal

layer.

• Never distribute processor power with

traces.

• Do not route capacitors to the processor

socket using traces.

• The island or plane connecting the Voltage

Regulator Module (VRM) or Voltage

Regulator Down (VRD) supply to both

processor sockets should not have any

breaks or voids.

• A “trace” is any etch that is less

than the width of the processor

socket.

Power / Ground

Plane Processor

Socket Breakout

• The power / ground planes should

completely surround all of the pins of the

VRM or VRD and processor socket.

• Minimize the size of the processor socket

vias anti-pads where possible. Anti-pads

should be no larger than 35 mils.

• Locations of the capacitor pads on the outer

power layer should not hinder power

distribution by creating a “slot”-shaped

geometry in the plane.

• Avoid vias around the socket breakout area

as much as possible.

• Refer to Section 11.2.2.

• Section 11.2.2 contains an

example of good socket power /

ground plane routing for an inner

layer.

Voltage Regulator Placement and Sense / Feedback Lines

VRM-based

topology

• Use the “Row” pattern topology. • Refer to Section 11.2.4.

VRD-based

topology

• Use the “L” pattern or “Row” pattern

topology.

• Refer to Section 11.2.5.1

VRD sense point • Route the VRD’s voltage sense input signal

to the middle of the VCC_CPU plane. The

location of this plane connection and route is

not critical.

• Refer to Section 11.2.5.3.