Intel E5-4600 Computer Hardware User Manual


 
Intel® Xeon® Processor E5-1600/E5-2600/E5-4600 Product Families 155
Datasheet Volume One
Electrical Specifications
The processor core frequency is configured during reset by using values stored within
the device during manufacturing. The stored value sets the lowest core multiplier at
which the particular processor can operate. If higher speeds are desired, the
appropriate ratio can be configured via the IA32_PERF_CTL MSR (MSR 199h); Bits
[15:0].
Clock multiplying within the processor is provided by the internal phase locked loop
(PLL), which requires a constant frequency BCLK{0/1}_DP, BCLK{0/1}_DN input, with
exceptions for spread spectrum clocking. DC specifications for the BCLK{0/1}_DP,
BCLK{0/1}_DN inputs are provided in Table 7-18. These specifications must be met
while also meeting the associated signal quality specifications outlined in Section 7.9.
7.1.6.1 PLL Power Supply
An on-die PLL filter solution is implemented on the processor. Refer to Table 7-11 for
DC specifications and to the applicable platform design guide for decoupling and
routing guidelines.
7.1.7 JTAG and Test Access Port (TAP) Signals
Due to the voltage levels supported by other components in the JTAG and Test Access
Port (TAP) logic, Intel recommends the processor be first in the TAP chain, followed by
any other components within the system. Please refer to the
Intel® Xeon® Processor
E5-1600/E5-2600/E5-4600 Product Families – BSDL (Boundary Scan Description
Language) for more details. A translation buffer should be used to connect to the rest
of the chain unless one of the other components is capable of accepting an input of the
appropriate voltage. Two copies of each signal may be required with each driving a
different voltage level.
7.1.8 Processor Sideband Signals
The processor include asynchronous sideband signals that provide asynchronous input,
output or I/O signals between the processor and the platform or Platform Controller
Hub. Details can be found in Table 7-5 and the applicable platform design guide.
All Processor Asynchronous Sideband input signals are required to be asserted/
deasserted for a defined number of BCLKs in order for the processor to recognize the
proper signal state. Refer to Section 7.9 for applicable signal integrity specifications.
7.1.9 Power, Ground and Sense Signals
Processors also include various other signals including power/ground and sense points.
Details can be found in Table 7-5 and the applicable platform design guide.
7.1.9.1 Power and Ground Lands
All V
CC
, V
CCPLL,
V
SA
, V
CCD,
V
TTA
, and V
TTD
lands must be connected to their respective
processor power planes, while all V
SS
lands must be connected to the system ground
plane. Refer to the applicable platform design guide for decoupling, voltage plane and
routing guidelines for each power supply voltage.
For clean on-chip power distribution, processors include lands for all required voltage
supplies. These are listed in Table 7-1.