Intel Pentium Mobile T2080 LF80539GE0301M Data Sheet

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Datasheet

All package level low power states are described as follows:

This is the normal operating state for the processor. The processor enters the Normal 

state when at least one of its cores is in the C0, C1/AutoHALT, or C1/MWAIT state.

When the STPCLK# pin is asserted each core of the Intel Pentium Dual-Core processor 

enters the Stop-Grant state within 20 bus clocks after the response phase of the 

processor-issued Stop Grant Acknowledge special bus cycle. Processor cores that are 

already in the C2, or C3 state remain in their current low-power state. When the 

STPCLK# pin is deasserted, each core returns to its previous core low power state. 

Since the AGTL+ signal pins receive power from the FSB, these pins should not be 

driven (allowing the level to return to V

CCP

) for minimum power drawn by the 

termination resistors in this state. In addition, all other input pins on the FSB should be 

driven to the inactive state.

RESET# will cause the processor to immediately initialize itself, but the processor will 

stay in Stop-Grant state. When RESET# is asserted by the system the STPCLK#, SLP#, 

and DPSLP# pins must be deasserted more than 450 µs prior to RESET# deassertion. 

When re-entering the Stop-Grant state from the Sleep state, STPCLK# should be 

deasserted ten or more bus clocks after the deassertion of SLP#.

While in Stop-Grant state, the processor will service snoops and latch interrupts 

delivered on the FSB. The processor will latch SMI#, INIT# and LINT[1:0] interrupts 

and will service only one of each upon return to the Normal state.

The PBE# signal may be driven when the processor is in Stop-Grant state. PBE# will be 

asserted if there is any pending interrupt or monitor event latched within the processor. 

Pending interrupts that are blocked by the EFLAGS.IF bit being clear will still cause 

assertion of PBE#. Assertion of PBE# indicates to system logic that the entire Intel 

Pentium Dual-Core processor should return to the Normal state.

A transition to the Stop Grant Snoop state will occur when the processor detects a 

snoop on the FSB (see 

). A transition to the Sleep state (see 

) will occur with the assertion of the SLP# signal.

The processor will respond to snoop or interrupt transactions on the FSB while in Stop-

Grant state by entering the Stop-Grant Snoop state. The processor will stay in this 

state until the snoop on the FSB has been serviced (whether by the processor or 

another agent on the FSB) or the interrupt has been latched. The processor will return 

to the Stop-Grant state once the snoop has been serviced or the interrupt has been 

latched.

The Sleep state is a low power state in which the processor maintains its context, 

maintains the phase-locked loop (PLL), and stops all internal clocks. The Sleep state is 

entered through assertion of the SLP# signal while in the Stop-Grant state. The SLP# 

pin should only be asserted when the processor is in the Stop-Grant state. SLP# 

assertions while the processor is not in the Stop-Grant state is out of specification and 

may result in unapproved operation.