Intel E5-4600 Computer Hardware User Manual


 
Intel® Xeon® Processor E5-1600/E5-2600/E5-4600 Product Families 149
Datasheet Volume One
Signal Descriptions
PROCHOT_N PROCHOT_N will go active when the processor temperature monitoring sensor detects
that the processor has reached its maximum safe operating temperature. This indicates
that the processor Thermal Control Circuit has been activated, if enabled. This signal can
also be driven to the processor to activate the Thermal Control Circuit. This signal is
sampled after PWRGOOD assertion.
If PROCHOT_N is asserted at the deassertion of RESET_N, the processor will tristate its
outputs.
PWRGOOD Power Good is a processor input. The processor requires this signal to be a clean
indication that BCLK, VTTA/VTTD, VSA, VCCPLL, and VCCD_01 and VCCD_23 supplies are
stable and within their specifications.
“Clean” implies that the signal will remain low (capable of sinking leakage current),
without glitches, from the time that the power supplies are turned on until they come
within specification. The signal must then transition monotonically to a high state.
PWRGOOD can be driven inactive at any time, but clocks and power must again be stable
before a subsequent rising edge of PWRGOOD. PWRGOOD transitions from inactive to
active when all supplies except VCC are stable. VCC has a VBOOT of zero volts and is not
included in PWRGOOD indication in this phase. However, for the active to inactive
transition, if any CPU power supply (VCC, VTTA/VTTD, VSA, VCCD, or VCCPLL) is about to
fail or is out of regulation, the PWRGOOD is to be negated.
The signal must be supplied to the processor; it is used to protect internal circuits against
voltage sequencing issues. It should be driven high throughout boundary scan operation.
Note: VCC has a Vboot setting of 0.0V and is not included in the PWRGOOD indication
and VSA has a Vboot setting of 0.9V. Refer to the
VR12/IMVP7 Pulse Width
Modulation Specification
.
RESET_N Asserting the RESET_N signal resets the processor to a known state and invalidates its
internal caches without writing back any of their contents. Note some PLL, Intel
QuickPath Interconnect and error states are not effected by reset and only PWRGOOD
forces them to a known state.
RSVD RESERVED. All signals that are RSVD must be left unconnected on the board. Refer to
Section 7.1.10, “Reserved or Unused Signals” for details.
SAFE_MODE_BOOT Safe mode boot Strap. SAFE_MODE_BOOT allows the processor to wake up safely by
disabling all clock gating, this allows BIOS to load registers or patches if required. This
signal is sampled after PWRGOOD assertion. The signal is pulled down on the die, refer to
Table 7-6 for details.
SOCKET_ID[1:0] Socket ID Strap. Socket identification configuration straps for establishing the PECI
address, Intel QPI Node ID, and other settings. This signal is used in combination with
FRMAGENT to determine whether the socket is a legacy socket, bootable firmware agent
is present, and DMI links are used in PCIe* mode (instead of DMI2 mode). Each
processor socket consumes one Node ID, and there are 128 Home Agent tracker entries.
This signal is pulled down on the die, refer to Table 7-6 for details.
TEST[4:0] Test[4:0] must be individually connected to an appropriate power source or ground
through a resistor for proper processor operation. Refer to the appropriate Platform
Design Guide (PDG) for additional implementation details.
THERMTRIP_N Assertion of THERMTRIP_N (Thermal Trip) indicates one of two possible critical over-
temperature conditions: One, the processor junction temperature has reached a level
beyond which permanent silicon damage may occur and Two, the system memory
interface has exceeded a critical temperature limit set by BIOS. Measurement of the
processor junction temperature is accomplished through multiple internal thermal
sensors that are monitored by the Digital Thermal Sensor (DTS). Simultaneously, the
Power Control Unit (PCU) monitors external memory temperatures via the dedicated
SMBus interface to the DIMMs. If any of the DIMMs exceed the BIOS defined limits, the
PCU will signal THERMTRIP_N to prevent damage to the DIMMs. Once activated, the
processor will stop all execution and shut down all PLLs. To further protect the processor,
its core voltage (VCC), VTTA, VTTD, VSA, VCCPLL, VCCD supplies must be removed
following the assertion of THERMTRIP_N. Once activated, THERMTRIP_N remains latched
until RESET_N is asserted. While the assertion of the RESET_N signal may de-assert
THERMTRIP_N, if the processor's junction temperature remains at or above the trip level,
THERMTRIP_N will again be asserted after RESET_N is de-asserted. This signal can also
be asserted if the system memory interface has exceeded a critical temperature limit set
by BIOS. This signal is sampled after PWRGOOD assertion.
Table 6-14. Processor Asynchronous Sideband Signals (Sheet 2 of 3)
Signal Name Description