DELL Xeon Phi 7120A 489-BBBZ Ficha De Dados
Códigos do produto
489-BBBZ
Document ID Number: 328209 003EN
Intel
®
Xeon Phi™ Coprocessor Datasheet
61
6
Manageability
6.1
Intel
®
Xeon Phi™ Coprocessor Manageability
Architecture
The server management and control panel component of the Intel
®
Xeon Phi™
coprocessor architecture provides a system administrator with the runtime status of
the Intel
the Intel
®
Xeon Phi™ coprocessor installed in a given system. There are two access
methods by which the server management and control panel component may obtain
status information from the Intel
status information from the Intel
®
Xeon Phi™ coprocessor. The “in-band” method
utilizes the Symmetric Communications Interface (SCIF) network and the capabilities
designed into the coprocessor OS and the host driver to deliver the Intel
designed into the coprocessor OS and the host driver to deliver the Intel
®
Xeon Phi™
coprocessor status. It also provides a limited ability to set specific parameters that
control hardware behavior. The same information can be obtained using the “out-of-
band” method. This method starts with the same capabilities in the coprocessor OS,
but sends the information to the System Management Controller (SMC) using a
proprietary protocol. The SMC responds to queries from the platform’s BMC using the
Intelligent Platform Management Interface (IPMI) protocol to pass the information
upstream to the administrator or user. For more information on the tools available for
management see the Intel
control hardware behavior. The same information can be obtained using the “out-of-
band” method. This method starts with the same capabilities in the coprocessor OS,
but sends the information to the System Management Controller (SMC) using a
proprietary protocol. The SMC responds to queries from the platform’s BMC using the
Intelligent Platform Management Interface (IPMI) protocol to pass the information
upstream to the administrator or user. For more information on the tools available for
management see the Intel
®
Xeon Phi™ Coprocessor System Software Developer’s
Guide
.
6.2
System Management Controller (SMC)
Intel
®
Xeon Phi™ coprocessor manageability relies on a SMC on the PCI Express* card.
The system provides sensor telemetry information for management by in-band (host)
software and out-of-band software via the PCI Express* SMBus. The SMC also provides
additional functionality as described in this chapter.
software and out-of-band software via the PCI Express* SMBus. The SMC also provides
additional functionality as described in this chapter.
The SMC is a microcontroller-based thermal management and communications system
that provides card-level control and monitoring of the Intel
that provides card-level control and monitoring of the Intel
®
Xeon Phi™ coprocessor.
Thermal management is achieved through monitoring the Intel
®
Xeon Phi™
coprocessor and the various temperature sensors located on the PCI Express* card.
Card-level power management monitors the card input power and communicates
current power conditions to the Intel
Card-level power management monitors the card input power and communicates
current power conditions to the Intel
®
Xeon Phi™ coprocessor.
SMC features include:
• Four thermal sensor inputs: inlet, outlet, coprocessor die, and GDDR.
• Power alert, thermal throttle, and THERMTRIP# signals.
• Power alert, thermal throttle, and THERMTRIP# signals.
The SMC connects to coprocessor silicon via the following I2C and out-of-band signals:
• In-band Communication
— Software access to thermal and power metrics via Ganglia
— gmond exposed via standard Ethernet port
— Accessible via Control Panel GUI and API
— gmond exposed via standard Ethernet port
— Accessible via Control Panel GUI and API
• Out-of-band Communication
— Access to the SMC via the PCI Express* SMBus using the IPMI IPMB protocol
— 50ms sampling rate for power data
— 50ms sampling rate for power data