Intel i5-2500K BX80623I52500K User Manual
Product codes
BX80623I52500K
Electrical Specifications
70
Datasheet, Volume 1
7.3
Processor Clocking (BCLK[0], BCLK#[0])
The processor uses a differential clock to generate the processor core operating
frequency, memory controller frequency, system agent frequencies, and other internal
clocks. The processor core frequency is determined by multiplying the processor core
ratio by the BCLK frequency. Clock multiplying within the processor is provided by an
internal phase locked loop (PLL) that requires a constant frequency input, with
exceptions for Spread Spectrum Clocking (SSC).
frequency, memory controller frequency, system agent frequencies, and other internal
clocks. The processor core frequency is determined by multiplying the processor core
ratio by the BCLK frequency. Clock multiplying within the processor is provided by an
internal phase locked loop (PLL) that requires a constant frequency input, with
exceptions for Spread Spectrum Clocking (SSC).
The processor’s maximum non-turbo core frequency is configured during power-on
reset by using its manufacturing default value. This value is the highest non-turbo core
multiplier at which the processor can operate. If lower maximum speeds are desired,
the appropriate ratio can be configured using the FLEX_RATIO MSR.
reset by using its manufacturing default value. This value is the highest non-turbo core
multiplier at which the processor can operate. If lower maximum speeds are desired,
the appropriate ratio can be configured using the FLEX_RATIO MSR.
7.3.1
PLL Power Supply
An on-die PLL filter solution is implemented on the processor. Refer to
for DC
specifications.
7.4
V
CC
Voltage Identification (VID)
The processor
uses three signals for the serial voltage identification interface to support
automatic selection of voltages.
specifies the voltage level corresponding to
the eight bit VID value transmitted over serial VID. A ‘1’ in this table refers to a high
voltage level and a ‘0’ refers to a low voltage level. If the voltage regulation circuit
cannot supply the voltage that is requested, the voltage regulator must disable itself.
VID signals are CMOS push/pull drivers. Refer to
voltage level and a ‘0’ refers to a low voltage level. If the voltage regulation circuit
cannot supply the voltage that is requested, the voltage regulator must disable itself.
VID signals are CMOS push/pull drivers. Refer to
these signals. The VID codes will change due to temperature and/or current load
changes in order to minimize the power of the part. A voltage range is provided in
changes in order to minimize the power of the part. A voltage range is provided in
. The specifications are set so that one voltage regulator can operate with all
supported frequencies.
Individual processor VID values may be set during manufacturing so that two devices
at the same core frequency may have different default VID settings. This is shown in
the VID range values in
at the same core frequency may have different default VID settings. This is shown in
the VID range values in
. The processor
provides the ability to operate while
transitioning to an adjacent VID and its associated voltage. This will represent a DC
shift in the loadline.
shift in the loadline.
See the VR12/IMVP7 SVID Protocol for further details.