Intel Phi 7120A SC7120A Data Sheet
Product codes
SC7120A
Document ID Number: 328209 003EN
Intel
®
Xeon Phi™ Coprocessor Datasheet
63
— P-state clamping if the P-state requested is not possible within the set power
envelope
• Power/energy measurement
— Can choose to include or preclude 3.3V power
6.3
General SMC Features and Capabilities
The Intel
®
Xeon Phi™ coprocessor supports the PCI Express* 2.0 standard. The SMC
located on the card has direct access to information about the card operation (such as
fan speeds, power usage, etc.) that must be managed from host-based software.
fan speeds, power usage, etc.) that must be managed from host-based software.
The SMC supports manageability interfaces via the SCIF interface which is part of the
MPSS software stack and the preferred PCI Express* SMBus (IPMI IPMB protocol) as
well as with polled master only IPMI protocol.
MPSS software stack and the preferred PCI Express* SMBus (IPMI IPMB protocol) as
well as with polled master only IPMI protocol.
The SMC firmware update process is resilient against unexpected power loss and
resets.
resets.
The SMC supports a read only IPMI compliant Field Replaceable Unit (FRU) that
contains the following information:
contains the following information:
• Manufacturer name
• Product name
• Part number / model number
• Universal Unique Identifier (UUID)
• Manufacturer’s IPMI ID
• Product IPMI ID
• Manufacturing time / date stamp
• Serial number (12 ASCII bytes)
• Product name
• Part number / model number
• Universal Unique Identifier (UUID)
• Manufacturer’s IPMI ID
• Product IPMI ID
• Manufacturing time / date stamp
• Serial number (12 ASCII bytes)
To keep the Intel
®
Xeon Phi™ coprocessor within the operational temperature range,
the SMC boosts the fan to full speed when either PERST or THERMTRIP_N are asserted
on SKUs with active cooling solutions. On SKUs with passive cooling solutions, the SMC
will sample a GPIO pin on startup to determine if the closed loop fan control algorithm
and monitoring should be disabled on certain SKUs.
on SKUs with active cooling solutions. On SKUs with passive cooling solutions, the SMC
will sample a GPIO pin on startup to determine if the closed loop fan control algorithm
and monitoring should be disabled on certain SKUs.
Additionally the SMC supports enabling and disabling an external assertion path from
the baseboard to the card pin B12. This allows an external agent, such as a BMC or ME,
to force throttle the Intel
the baseboard to the card pin B12. This allows an external agent, such as a BMC or ME,
to force throttle the Intel
®
Xeon Phi™ coprocessor during thermal events. The SMC is
the conduit for doing so. Pin B12, defined as reserved in the PCI Express* specification,
has been renamed PROCHOT_N on Intel
has been renamed PROCHOT_N on Intel
®
Xeon Phi™ coprocessor and is driven by 3.3V
power. This pin is held in active-high (deasserted) state by the card SMC in the default
state, and must be driven active-low by the baseboard to exert throttling. An OEM
IPMB message from the baseboard to the SMC is required to enable the external
throttling mechanism. See
state, and must be driven active-low by the baseboard to exert throttling. An OEM
IPMB message from the baseboard to the SMC is required to enable the external
throttling mechanism. See
for baseboard implementation details.
6.3.1
Catastrophic Shutdown Detection
Catastrophic shutdown is the act of the Intel
®
Xeon Phi™ coprocessor silicon shutting
itself down to prevent damage to the device caused by overheating. The SMC monitors
THERMTRIP_N to detect this event. When THERMTRIP_N is asserted (low), the SMC
detects this and immediately forces the fan(s) to full speed and shuts down the VRs.
Removal of power is required to reset the microcontroller to a known start point.
THERMTRIP_N to detect this event. When THERMTRIP_N is asserted (low), the SMC
detects this and immediately forces the fan(s) to full speed and shuts down the VRs.
Removal of power is required to reset the microcontroller to a known start point.