Lenovo Intel Xeon E5607 81Y6040 Manuel D’Utilisation
Codes de produits
81Y6040
Intel
®
Xeon
®
Processor 5600 Series Datasheet Volume 1
67
Signal Quality Specifications
3
Signal Quality Specifications
Data transfer requires the clean reception of data and clock signals. Ringing below
receiver thresholds, non-monotonic signal edges, and excessive voltage swings will
adversely affect system timings. Ringback and signal non-monotonicity cannot be
tolerated since these phenomena may inadvertently advance receiver state machines.
Excessive signal swings (overshoot and undershoot) are detrimental to silicon gate
oxide integrity, and can cause device failure if absolute voltage limits are exceeded.
Overshoot and undershoot can also cause timing degradation due to the build up of
inter-symbol interference (ISI) effects.
receiver thresholds, non-monotonic signal edges, and excessive voltage swings will
adversely affect system timings. Ringback and signal non-monotonicity cannot be
tolerated since these phenomena may inadvertently advance receiver state machines.
Excessive signal swings (overshoot and undershoot) are detrimental to silicon gate
oxide integrity, and can cause device failure if absolute voltage limits are exceeded.
Overshoot and undershoot can also cause timing degradation due to the build up of
inter-symbol interference (ISI) effects.
For these reasons, it is crucial that the designer work towards a solution that provides
acceptable signal quality across all systematic variations encountered in volume
manufacturing.
acceptable signal quality across all systematic variations encountered in volume
manufacturing.
This section documents signal quality metrics used to derive topology and routing
guidelines through simulation. All specifications are specified at the processor die (pad
measurements).
guidelines through simulation. All specifications are specified at the processor die (pad
measurements).
Specifications for signal quality are for measurements at the processor core only and
are only observable through simulation. Therefore, proper signal simulation is the only
means of properly verifying timing and signal quality requirements.
are only observable through simulation. Therefore, proper signal simulation is the only
means of properly verifying timing and signal quality requirements.
3.1
Overshoot/Undershoot Tolerance
Overshoot (or undershoot) is the absolute value of the maximum voltage above or
below V
below V
SS
. The overshoot/undershoot specifications limit transitions beyond V
CCIO
or
V
SS
due to the fast signal edge rates. The processor can be damaged by single and/or
repeated overshoot or undershoot events on any input, output, or I/O buffer if the
charge is large enough (that is, if the over/undershoot is great enough). Baseboard
designs which meet signal integrity and timing requirements and which do not exceed
the maximum overshoot or undershoot limits will insure reliable IO performance for the
lifetime of the processor.
charge is large enough (that is, if the over/undershoot is great enough). Baseboard
designs which meet signal integrity and timing requirements and which do not exceed
the maximum overshoot or undershoot limits will insure reliable IO performance for the
lifetime of the processor.
The pulse magnitude, duration, and activity factor must all be used to determine if the
overshoot/undershoot pulse is within specifications.
overshoot/undershoot pulse is within specifications.
Note:
Oscillations below the reference voltage cannot be subtracted from the total
overshoot/undershoot pulse duration.
Notes:
1.
These specifications are measured at the processor pin.
2.
Refer to
for description of Overshoot/Undershoot magnitude and duration.
Table 3-1.
Overshoot/Undershoot Tolerance
Signal Group
Min Undershoot
Max Overshoot
Duration
Intel
QuickPath Interconnect
-0.1 * V
TT
1.2 * V
TT
500 ps
DDR3
-0.1 * V
DDQ
1.2 * V
DDQ
0.5 * T
CH
Processor Sideband Signals
-0.1 * V
TT
1.2 * V
TT
50 ns
System Reference Clock
-0.3
1.15
NA