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 227

Schematic Checklist

SM_ALERT#

SM_CLK

SM_DAT

• Connect to both processors and SMBus.

• A pull-up resistor to 3.3 V. Resistor value is

based on the number of devices on the

SMBus.

• These signals have 10 k

Ω pull-

downs on the Intel

Xeon™

processor with 512-KB L2 cache

and are not supported on the

Intel

Xeon™ processor with

533 MHz system bus

• Refer to Section 5.5 and

Section 9.5.4.

SM_EP_A[2:0] • Leave as no connect to set bit low, or pull-up

to 3.3 V through 100

Ω ± 5% resistor to set bit

high.

• Use these address bits to set a unique

SMBus address for the memory devices on

the processor.

• SMBus Input.

• These signals have 10 k

Ω pull-

downs on the Intel Xeon

processor with 512-KB L2 cache

and are not supported on the Intel

Xeon processor with 533 MHz

system bus.

• Refer to Section 5.5 and the

Intel

Xeon™ Processor with 512-KB L2

Cache at 1.80 GHz to 2.80 GHz

Datasheet

for more details.

SM_TS_A[1:0] • Use these address bits to set a unique

SMBus address for the thermal devices on

the processor.

• Leave as no connect to set bit to high-

impedance state.

• Pull-up to 3.3 V through 1 k

Ω ± 5% to set bit

high.

• Pull-down to ground through 1 k

Ω ± 5% to

set bit low.

• SMBus Input.

• These signals are not supported

on the Intel Xeon processor with

533 MHz system bus.

• Refer to Section 5.5 and the

Intel

Xeon™ Processor with 512-KB L2

Cache at 1.80 GHz to 2.80 GHz

Datasheet

for more details

SM_VCC /

VID_VCC

• Connect to 3.3 V power supply.

SM_WP • 100

Ω ± 5% pull-up to 3.3 V to write-protect

the processor’s Scratch EEPROM.

• Leave as no connect (NC) to disable write-

protecting of Scratch EEPROM.

• SMBus Input.

• Refer to Section 5.5.

TESTHI[6:0] • Option 1: Recommend separate 50

Ω ± 20%

pull-up to VCC_CPU.

• Option 2: TESTHI[3:0] and TESTHI[6:5] may

all be tied together and pulled up to

VCC_CPU with a single 50

Ω resistor if

desired. However, boundary scan test

cannot be performed if these pins are

connected together. TESTHI4 must always

be pulled up independently from the other

TESTHI pins.

• Input.

• Refer to Section 5.3.5.

THERMDA

THERMDC

• Connect to the Cathode and Anode pins of

the thermal sensor.

• Refer to Section 5.5.2.

VCCA • Use discrete RLC filter to provide clean

power.

• An isolated power for internal

PLL.

• Refer to Section 11.2.7.

VCCIOPLL • Use discrete RLC filter to provide clean

power.

• An isolated power for internal

PLL.

• Refer to Section 11.2.7.

Table 13-1. Processor Schematic Checklist (Sheet 3 of 4)

Checklist Items Recommendations Comments