SC2200UFH-300 AMD (ADVANCED MICRO DEVICES), SC2200UFH-300 Datasheet - Page 165

SC2200UFH-300

Manufacturer Part Number

SC2200UFH-300

Description

Manufacturer

AMD (ADVANCED MICRO DEVICES)

Datasheet

1.SC2200UFH-300.pdf (429 pages)

Specifications of SC2200UFH-300

Operating Temperature (min)

Operating Temperature (max)

85C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Lead Free Status / RoHS Status

Not Compliant

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Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

SC2200UFH-300F

Manufacturer:

NSC

Quantity:

201

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Core Logic Module

Power Management SMI Status Reporting Registers

The Core Logic module updates status registers to reflect

the SMI sources. Power management SMI sources are the

device idle timers, address traps, and general purpose I/O

pins.

Power management events are reported to the GX1 mod-

ule through the active low SMI# signal. When an SMI is ini-

tiated, the SMI# signal is asserted low and is held low until

all SMI sources are cleared. At that time, SMI# is de-

asserted.

All SMI sources report to the Top Level SMI Status register

(F1BAR0+I/O Offset 02h) and the Top Level SMI Status

Mirror register (F1BAR0+I/O Offset 00h). The Top SMI Sta-

tus and Status Mirror registers are the top level of hierarchy

for the SMI Handler in determining the source of an SMI.

AMD Geode™ SC2200 Processor Data Book

GX1

Module

Core Logic

Module

SMI# Asserted

Figure 6-11. General Purpose Timer and UDEF Trap SMI Tree Example

GTMR_TRP_SMI

top-level source

Read to Clear

F1BAR0+I/O

to determine

Top Level

Bits [15:10]

Offset 02h

Other_SMI

Bits [8:0]

of SMI

Bit 9

(External SMI)

If Bit X = 1

If bit 9 = 1,

Source of SMI

is GP Timer or UDEF Trap

SMM software reads SMI Header

SMI De-asserted after all SMI Sources are Cleared

(i.e., Top and Second Levels - note some sources may have a Third Level)

These two registers are identical except that reading the

Since all SMI sources report to the Top Level SMI Status

requiring a second level of SMI status reporting. The sec-

ond level of SMI status reporting is set up very much like

the top level. There are two status reporting registers, one

“read only” (mirror) and one “read to clear”. The data

returned by reading either offset is the same, the difference

between the two being that the SMI can not be cleared by

reading the mirror register.

Figure 6-11 on page 173 shows an example SMI tree for

checking and clearing the source of General Purpose Tim-

ers and the User Defined Trap generated SMI.

If Bit X = 0

(Internal SMI)

UDEF3_TRP_SMI

UDEF2_TRP_SMI

UDEF1_TRP_SMI

PCI_TRP_SMI

Second Level

Read to Clear

source of SMI

F1BAR0+I/O

to determine

second-level

GPT2_SMI

GPT1_SMI

Offset 06h

Bits [15:6]

RSVD

Bit 5

Bit 4

Bit 3

Bit 2

Bit 1

Bit 0

Call internal SMI handler

to take appropriate action

32580B

Take

Appropriate

Action

173

SC2200UFH-300 AMD (ADVANCED MICRO DEVICES), SC2200UFH-300 Datasheet - Page 165

SC2200UFH-300

Specifications of SC2200UFH-300

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