Intel Xeon 5140 2.33GHz 124708 Ficha De Dados

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Dual-Core Intel

® 

Xeon

® 

Processor 5100 Series Datasheet

REQ[4:0]#

I/O

REQ[4:0]# (Request Command) must connect the appropriate pins of all processor 

FSB agents. They are asserted by the current bus owner to define the currently active 

transaction type. These signals are source synchronous to ADSTB[1:0]#. Refer to the 

AP[1:0]# signal description for details on parity checking of these signals.

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RESET#

I

Asserting the RESET# signal resets all processors to known states and invalidates 

their internal caches without writing back any of their contents. For a power-on Reset, 

RESET# must stay active for at least 1 ms after V

CC

 and BCLK have reached their 

proper specifications. On observing active RESET#, all FSB agents will deassert their 

outputs within two clocks. RESET# must not be kept asserted for more than 10 ms 

while PWRGOOD is asserted.
A number of bus signals are sampled at the active-to-inactive transition of RESET# 

for power-on configuration. These configuration options are described in the 

This signal does not have on-die termination and must be terminated on the system 

board.

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RS[2:0]#

I

RS[2:0]# (Response Status) are driven by the response agent (the agent responsible 

for completion of the current transaction), and must connect the appropriate pins of 

all processor FSB agents.

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RSP#

I

RSP# (Response Parity) is driven by the response agent (the agent responsible for 

completion of the current transaction) during assertion of RS[2:0]#, the signals for 

which RSP# provides parity protection. It must connect to the appropriate pins of all 

processor FSB agents.
A correct parity signal is high if an even number of covered signals are low and low if 

an odd number of covered signals are low. While RS[2:0]# = 000, RSP# is also high, 

since this indicates it is not being driven by any agent guaranteeing correct parity.

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SKTOCC#

O

SKTOCC# (Socket occupied) will be pulled to ground by the processor to indicate that 

the processor is present. There is no connection to the processor silicon for this 

signal.

SMI#

I

SMI# (System Management Interrupt) is asserted asynchronously by system logic. 

On accepting a System Management Interrupt, processors save the current state and 

enter System Management Mode (SMM). An SMI Acknowledge transaction is issued, 

and the processor begins program execution from the SMM handler.
If SMI# is asserted during the deassertion of RESET# the processor will tri-state its 

outputs. See 

2

STPCLK#

I

STPCLK# (Stop Clock), when asserted, causes processors to enter a low power Stop-

Grant state. The processor issues a Stop-Grant Acknowledge transaction, and stops 

providing internal clock signals to all processor core units except the FSB and APIC 

units. The processor continues to snoop bus transactions and service interrupts while 

in Stop-Grant state. When STPCLK# is deasserted, the processor restarts its internal 

clock to all units and resumes execution. The assertion of STPCLK# has no effect on 

the bus clock; STPCLK# is an asynchronous input.

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TCK

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TCK (Test Clock) provides the clock input for the processor Test Bus (also known as 

the Test Access Port).

TDI

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TDI (Test Data In) transfers serial test data into the processor. TDI provides the serial 

input needed for JTAG specification support.

TDO

O

TDO (Test Data Out) transfers serial test data out of the processor. TDO provides the 

serial output needed for JTAG specification support.

TESTHI[11:0]

I

TESTHI[11:0] must be connected to a V

TT

 power source through a resistor for proper 

processor operation. Refer to 

 for TESTHI restrictions.

THERMTRIP#

O

Assertion of THERMTRIP# (Thermal Trip) indicates the processor junction 

temperature has reached a temperature beyond which permanent silicon damage 

may occur. Measurement of the temperature is accomplished through an internal 

thermal sensor. Upon assertion of THERMTRIP#, the processor will shut off its internal 

clocks (thus halting program execution) in an attempt to reduce the processor 

junction temperature. To protect the processor its core voltage (V

CC

) must be 

removed following the assertion of THERMTRIP#. Intel also recommends the removal 

of V

TT

 when THERMTRIP# is asserted.

Driving of the THERMTRIP# signals is enabled within 10 μs of the assertion of 

PWRGOOD and is disabled on de-assertion of PWRGOOD. Once activated, 

THERMTRIP# remains latched until PWRGOOD is de-asserted. While the de-assertion 

of the PWRGOOD signal will de-assert THERMTRIP#, if the processor’s junction 

temperature remains at or above the trip level, THERMTRIP# will again be asserted 

within 10 μs of the assertion of PWRGOOD.

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