Datasheet
89
Thermal Specifications
6.3 Platform Environment Control Interface (PECI)
6.3.1 Introduction
PECI offers an interface for thermal monitoring of Intel processor and chipset
components. It uses a single wire, thus alleviating routing congestion issues.
Figure 6-8 shows an example of the PECI topology in a system with Dual-Core Intel®
Xeon® Processor 5200 Series. PECI uses CRC checking on the host side to ensure
reliable transfers between the host and client devices. Also, data transfer speeds across
the PECI interface are negotiable within a wide range (2Kbps to 2Mbps). The PECI
interface on the Dual-Core Intel® Xeon® Processor 5200 Series is disabled by default
and must be enabled through BIOS.
6.3.1.1 T
CONTROL
and TCC Activation on PECI-based Systems
Fan speed control solutions based on PECI utilize a T
CONTROL
value stored in the
processor IA32_TEMPERATURE_TARGET MSR. The T
CONTROL
MSR uses the same offset
temperature format as PECI though it contains no sign bit. Thermal management
devices should infer the T
CONTROL
value as negative. Thermal management algorithms
should utilize the relative temperature value delivered over PECI in conjunction with the
T
CONTROL
MSR value to control or optimize fan speeds. Figure 6-9 shows a conceptual
fan control diagram using PECI temperatures.
The relative temperature value reported over PECI represents the data below the onset
of thermal control circuit (TCC) activation as needed by PROCHOT# assertions. As the
temperature approaches TCC activation, the PECI value approaches zero. TCC activates
at a PECI count of zero.
Figure 6-8. Dual-Core Intel® Xeon® Processor 5200 Series PECI Topology
PECI Host
Controller
PECI
Processor
(Socket 0)
Processor
(Socket 1)
PECI
Pin
G5
Pin
G5
Domain0
0x30
Domain0
0x31