Intel Phi 7120A SC7120A Data Sheet
Product codes
SC7120A
Document ID Number: 328209 003EN
Intel
®
Xeon Phi™ Coprocessor Datasheet
51
4.3.1
Baseboard Requirements of 5120D
Unlike the Intel
®
Xeon Phi™ coprocessor PCI Express* card, the 5120D SKU requires
the baseboard to implement input filter for the 12V and 3.3V power rails. There are no
auxiliary or external power connectors on the 5120D and all power is supplied via the
230 pin edge connector.
auxiliary or external power connectors on the 5120D and all power is supplied via the
230 pin edge connector.
• Each 5120D product in the system requires a dedicated input filter for the +12V
rail.
• The filtering circuitry should be placed as close to the connector pins as possible.
• The +3.3V power rail input must meet the PCI Express* CEM specification.
• The +3.3V power rail input must meet the PCI Express* CEM specification.
4.3.2
AC Coupling on 5120D Data Pins
Each pin on the PETp/n[15:0] and PERp/n[15:0] buses requires a 0.1µF 0402 AC
coupling capacitor on the baseboard. The capacitors should be located for differential
pair traces at the same location along the differential traces (that is, they should not be
staggered from one trace to the other), and should be as close to each other as
possible.
coupling capacitor on the baseboard. The capacitors should be located for differential
pair traces at the same location along the differential traces (that is, they should not be
staggered from one trace to the other), and should be as close to each other as
possible.
Table 4-3.
51xxD Power Rail Requirements on Baseboard
Requirement
Value
+12V
Min V
IN
11.04V
Max current
22.192A
LC filter
Maximum rated ripple current per capacitor considering
70% of derating= 2.254A
Maximum input current slew rate at input inductor= 0.5A/us
Maximum operating temperature for the input capacitors=
105°C.
A typical implementation of the input filter would use 5 x
150uF (Sanyo, 16SVPC150M) capacitors and 1 x 0.2uH
(Pulse, PG0426.201NL) inductor.
+3.3V
Decoupling caps
100µf
Max Current
3A