Справочник Пользователя для Intel Pentium 4 M RH80532GC041512
Модели
RH80532GC041512
Configuration and Low Power Features
94
Mobile Intel
Pentium
4 Processor-M Datasheet
The return from a System Management Interrupt (SMI) handler can be to either Normal Mode or
the AutoHALT Powerdown state. See the Intel Architecture Software Developer's Manual, Volume
III: System Programmer's Guide for more information.
the AutoHALT Powerdown state. See the Intel Architecture Software Developer's Manual, Volume
III: System Programmer's Guide for more information.
The system can generate a STPCLK# while the processor is in the AutoHALT Powerdown state.
When the system deasserts the STPCLK# interrupt, the processor will return execution to the
HALT state.
When the system deasserts the STPCLK# interrupt, the processor will return execution to the
HALT state.
While in AutoHALT Powerdown state, the processor will process bus snoops.
7.2.3
Stop-Grant State
When the STPCLK# pin is asserted, the Stop-Grant state of the processor is entered 20 bus clocks
after the response phase of the processor-issued Stop Grant Acknowledge special bus cycle.
after the response phase of the processor-issued Stop Grant Acknowledge special bus cycle.
Since the AGTL+ signal pins receive power from the system bus, these pins should not be driven
(allowing the level to return to V
(allowing the level to return to V
CC
) for minimum power drawn by the termination resistors in this
state. In addition, all other input pins on the system bus should be driven to the inactive state.
BINIT# will not be serviced while the processor is in Stop-Grant state. The event will be latched
and can be serviced by software upon exit from the Stop-Grant state.
and can be serviced by software upon exit from the Stop-Grant state.
RESET# will cause the processor to immediately initialize itself, but the processor will stay in
Stop-Grant state. A transition back to the Normal state will occur with the de-assertion of the
STPCLK# signal. When re-entering the Stop-Grant state from the Sleep state, STPCLK# should
only be de-asserted ten or more bus clocks after the deassertion of SLP#.
Stop-Grant state. A transition back to the Normal state will occur with the de-assertion of the
STPCLK# signal. When re-entering the Stop-Grant state from the Sleep state, STPCLK# should
only be de-asserted ten or more bus clocks after the deassertion of SLP#.
A transition to the HALT/Grant Snoop state will occur when the processor detects a snoop on the
system bus (see
system bus (see
). A transition to the Sleep state (see
) will occur with the
assertion of the SLP# signal.
Figure 35. Clock Control States
snoop
occurs
Stop
Grant
Normal
Sleep
HALT/
Grant
Snoop
Auto Halt
Deep
Sleep
STPCLK# asserted
SLP# asserted
SLP# de-asserted
STPCLK# de-asserted
snoop
serviced
HLT
instruction
snoop
serviced
snoop
occurs
DPSLP#
de-asserted
DPSLP#
asserted
asserted
STPCLK#
asserted
STPCLK#
de-asserted
halt
break
V0001-04
core voltage raised
core voltage lowered
Deeper
Sleep
Halt break - A20M#, BINIT#, INIT#, INTR, NMI, PREQ#, RESET#, SMI#, or APIC interrupt