Table of Contents
Advertisement
Schematic Diagrams
CPU 1/7 (DMI, PEG, FDI)
CPU
H 1 8
H 8 _ 0 D 4 _ 4
Sheet 3 of 53
CPU 1/7
(DMI, PEG, FDI)
It a pplie s to Aubur ndale and Clar ksfie ld di scre te gr aphic desi gns.
If d iscre te gr aphic chip is used for A uburn dale , VAX G (GF X cor e) ra il c an be conn ected
to G ND if moth erboa rd on ly s uppor ts di scret e gr aphic s and also in a com mon
moth erboa rd de sign if GF X VR is n ot st uffed . On the other hand , if the VR is stuf fed,
VAXG can be le ft fl oatin g in a co mmon mothe rboa rd de sign (Gfx VR ke eps VAXG from
floa ting) .
In a dditi on, F DI_RX N_[7: 0] a nd FD I_RXP _[7:0 ] ca n be left float ing o n th e PCH .
FDI_ TX[7: 0] an d FDI _TX#[ 7:0] can be le ft fl oati ng on the Aubur ndale .
The GFX_I MON, FDI_F SYNC[ 0], FDI_F SYNC[ 1], F DI_L SYNC[ 0], F DI_LS YNC[1 ], a nd
FDI_ INT s ignal s sho uld b e ti ed to GND (thro ugh 1K ? % res istor s) in the comm on
moth erboa rd de sign case. Ple ase n ot th at if the se si gnals are left floa ting, ther e are no
func tiona l imp acts but a sma ll am ount of po wer (~15 mW) m aybe waste d. V AXG_S ENSE
and VSSAX G_SEN SE on Aubu rnda le ca n be left as n o con nect.
DPLL _REF_ SSCLK and DPLL_ REF_ SSCLK # can be c onne cted to GN D on Aubur ndal e
dire ctly if mo therb oard only supp orts discr ete graph ics. In a commo n mo therb oard
desi gn, t hese pins are d rive n via PCH (even if Graph ics i s dis abled by BIOS) thus no
exte rnal termi natio n is requ ired.
On Board DDR3 Thermal Sensor
Q 2 8
*2 N 3 90 4
B - 4 CPU 1/7 (DMI, PEG, FDI)
PROCESSOR
2 1
2 1
H 1 7
H 1 0
2 1
H 8 _ 0 D 4 _ 4
H 8 _ 0 D 4 _ 4
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
2 1
PULL HIGH? ? ? IBEX?
PAGE21
3 . 3V
C 3 28
R 22 1
*1 0 m i l _ s ho rt
C R I T_ T E M P _ R E P # 2 4
* . 1 U _ 1 6V _0 4
U 1 9
D 1 1
* R B 7 5 1 V
1
4
C
A
P M _ E X T TS # _ E C
4
V D D
T H E R M
2
6
D +
A L E R T
B
3
7
D -
S D A T A
S M D _ C P U _ T H E R M 2 0, 3 6
5
8
S M C _ C P U _ T H E R M 2 0, 3 6
G N D
S C L K
* W 8 3 L 77 1 A W G
1/7
( DMI,PEG,FDI )
U 4 0 A
B 26
P E G_ I C OM P I
A 26
A 2 4
P E G_ I C O MP O
B 27
D MI _ T XN 0
D M I _ R X # [ 0 ]
P E G _R C O MP O
C 2 3
A 25
D MI _ T XN 1
B 2 2
D M I _ R X # [ 1 ]
P E G_ R B I A S
D MI _ T XN 2
D M I _ R X # [ 2 ]
A 2 1
K 35
D MI _ T XN 3
D M I _ R X # [ 3 ]
P E G_ R X# [ 0 ]
J 3 4
P E G_ R X# [ 1 ]
B 2 4
J 3 3
D MI _ T XP 0
D M I _ R X [ 0 ]
P E G_ R X# [ 2 ]
D 2 3
G 3 5
D MI _ T XP 1
B 2 3
D M I _ R X [ 1 ]
P E G_ R X# [ 3 ]
G 3 2
D MI _ T XP 2
D M I _ R X [ 2 ]
P E G_ R X# [ 4 ]
A 2 2
F 34
D MI _ T XP 3
D M I _ R X [ 3 ]
P E G_ R X# [ 5 ]
F 31
P E G_ R X# [ 6 ]
D 2 4
D 3 5
D M I _ R X N 0
D M I _ TX # [ 0 ]
P E G_ R X# [ 7 ]
G 2 4
E 33
D M I _ R X N 1
F 2 3
D M I _ TX # [ 1 ]
P E G_ R X# [ 8 ]
C 3 3
D M I _ R X N 2
D M I _ TX # [ 2 ]
P E G_ R X# [ 9 ]
H 2 3
D 3 2
D M I _ R X N 3
D M I _ TX # [ 3 ]
P E G_ R X #[ 1 0 ]
B 32
P E G_ R X #[ 1 1 ]
D 2 5
C 3 1
D M I _ R X P 0
D M I _ TX [ 0 ]
P E G_ R X #[ 1 2 ]
F 2 4
B 28
D M I _ R X P 1
D M I _ TX [ 1 ]
P E G_ R X #[ 1 3 ]
E 2 3
B 30
D M I _ R X P 2
D M I _ TX [ 2 ]
P E G_ R X #[ 1 4 ]
G 2 3
A 31
D M I _ R X P 3
D M I _ TX [ 3 ]
P E G_ R X #[ 1 5 ]
J 3 5
P E G_ R X [ 0 ]
H 3 4
P E G_ R X [ 1 ]
H 3 3
P E G_ R X [ 2 ]
E 2 2
F 35
F D I _ T X N 0
D 2 1
F D I _ T X # [ 0]
P E G_ R X [ 3 ]
G 3 3
F D I _ T X N 1
F D I _ T X # [ 1]
P E G_ R X [ 4 ]
D 1 9
E 34
F D I _ T X N 2
D 1 8
F D I _ T X # [ 2]
P E G_ R X [ 5 ]
F 32
F D I _ T X N 3
F D I _ T X # [ 3]
P E G_ R X [ 6 ]
G 2 1
D 3 4
F D I _ T X N 4
F D I _ T X # [ 4]
P E G_ R X [ 7 ]
E 1 9
F 33
F D I _ T X N 5
F 2 1
F D I _ T X # [ 5]
P E G_ R X [ 8 ]
B 33
F D I _ T X N 6
F D I _ T X # [ 6]
P E G_ R X [ 9 ]
G 1 8
D 3 1
F D I _ T X N 7
F D I _ T X # [ 7]
P E G_ R X[ 1 0 ]
A 32
P E G_ R X[ 1 1 ]
C 3 0
P E G_ R X[ 1 2 ]
D 2 2
A 28
F D I _ T X P 0
F D I _ T X [ 0 ]
P E G_ R X[ 1 3 ]
C 2 1
B 29
F D I _ T X P 1
F D I _ T X [ 1 ]
P E G_ R X[ 1 4 ]
D 2 0
A 30
F D I _ T X P 2
C 1 8
F D I _ T X [ 2 ]
P E G_ R X[ 1 5 ]
F D I _ T X P 3
F D I _ T X [ 3 ]
G 2 2
L 3 3
P E G_ T X# _ 0
F D I _ T X P 4
F D I _ T X [ 4 ]
P E G _ T X# [ 0 ]
E 2 0
M 3 5
P E G_ T X# _ 1
F D I _ T X P 5
F D I _ T X [ 5 ]
P E G _ T X# [ 1 ]
F 2 0
M 3 3
P E G_ T X# _ 2
F D I _ T X P 6
F D I _ T X [ 6 ]
P E G _ T X# [ 2 ]
G 1 9
M 3 0
P E G_ T X# _ 3
F D I _ T X P 7
F D I _ T X [ 7 ]
P E G _ T X# [ 3 ]
L 3 1
P E G_ T X# _ 4
P E G _ T X# [ 4 ]
F 1 7
K 32
P E G_ T X# _ 5
F D I _ F S Y N C 0
E 1 7
F D I _ F S Y N C [ 0 ]
P E G _ T X# [ 5 ]
M 2 9
P E G_ T X# _ 6
F D I _ F S Y N C 1
F D I _ F S Y N C [ 1 ]
P E G _ T X# [ 6 ]
J 3 1
P E G_ T X# _ 7
P E G _ T X# [ 7 ]
C 1 7
K 29
F D I _ I N T
F D I _ I N T
P E G _ T X# [ 8 ]
H 3 0
P E G _ T X# [ 9 ]
F 1 8
H 2 9
F D I _ LS Y N C 0
D 1 7
F D I _ L S Y N C [ 0 ]
P E G_ T X #[ 1 0 ]
F 29
F D I _ LS Y N C 1
F D I _ L S Y N C [ 1 ]
P E G_ T X #[ 1 1 ]
E 28
P E G_ T X #[ 1 2 ]
D 2 9
P E G_ T X #[ 1 3 ]
D 2 7
P E G_ T X #[ 1 4 ]
C 2 6
P E G_ T X #[ 1 5 ]
L 3 4
P E G_ T X_ 0
P E G _ TX [ 0 ]
M 3 4
P E G_ T X_ 1
P E G _ TX [ 1 ]
M 3 2
P E G_ T X_ 2
P E G _ TX [ 2 ]
L 3 0
P E G_ T X_ 3
P E G _ TX [ 3 ]
M 3 1
P E G_ T X_ 4
P E G _ TX [ 4 ]
K 31
P E G_ T X_ 5
P E G _ TX [ 5 ]
M 2 8
P E G_ T X_ 6
P E G _ TX [ 6 ]
H 3 1
P E G_ T X_ 7
P E G _ TX [ 7 ]
K 28
P E G _ TX [ 8 ]
G 3 0
P E G _ TX [ 9 ]
G 2 9
P E G _ T X[ 1 0 ]
F 28
P E G _ T X[ 1 1 ]
E 27
P E G _ T X[ 1 2 ]
D 2 8
P E G _ T X[ 1 3 ]
C 2 7
P E G _ T X[ 1 4 ]
C 2 5
P E G _ T X[ 1 5 ]
P Z 9 8 9 27 -3 6 4 1-0 1 F
Analog Thermal Sensor
3 . 3V
Q2 7
2
1
1: 2 (4 mi ls :8 mi ls )
V C C
OU T
3
C 3 21
C 3 0 3
GN D
0 . 1 u _ 16 V _ Y 5V _0 4
0 . 1u _ 1 6 V _ Y 5 V _ 0 4
G7 1 1S T9 U
1
PLACE NEAR U19
2
20 mil
P E G _ I R C OM P _ R
R 4 2 7
49 . 9 _ 1 %_ 0 4
E X P _ R B I A S
R 4 2 9
75 0 _ 1 %_ 0 4
P E G_ R X #0 1 3
P E G_ R X #1 1 3
P E G_ R X #2 1 3
P E G_ R X #3 1 3
P E G_ R X #4 1 3
P E G_ R X #5 1 3
P E G_ R X #6 1 3
P E G_ R X #7 1 3
P E G_ R X 0 13
P E G_ R X 1 13
P E G_ R X 2 13
P E G_ R X 3 13
P E G_ R X 4 13
P E G_ R X 5 13
P E G_ R X 6 13
P E G_ R X 7 13
C 5 4 5
0 . 1u _ 1 0 V _X 7 R _0 4
P E G_ T X# 0 1 3
C 5 3 6
0 . 1u _ 1 0 V _X 7 R _0 4
P E G_ T X# 1 1 3
C 5 4 7
0 . 1u _ 1 0 V _X 7 R _0 4
P E G_ T X# 2 1 3
C 5 3 8
0 . 1u _ 1 0 V _X 7 R _0 4
P E G_ T X# 3 1 3
C 5 4 9
0 . 1u _ 1 0 V _X 7 R _0 4
P E G_ T X# 4 1 3
C 5 4 0
0 . 1u _ 1 0 V _X 7 R _0 4
P E G_ T X# 5 1 3
C 5 5 1
0 . 1u _ 1 0 V _X 7 R _0 4
P E G_ T X# 6 1 3
C 5 4 2
0 . 1u _ 1 0 V _X 7 R _0 4
P E G_ T X# 7 1 3
C 5 4 6
0 . 1u _ 1 0 V _X 7 R _0 4
P E G_ T X0
1 3
C 5 3 7
0 . 1u _ 1 0 V _X 7 R _0 4
P E G_ T X1
1 3
C 5 4 8
0 . 1u _ 1 0 V _X 7 R _0 4
P E G_ T X2
1 3
C 5 3 9
0 . 1u _ 1 0 V _X 7 R _0 4
P E G_ T X3
1 3
C 5 5 0
0 . 1u _ 1 0 V _X 7 R _0 4
P E G_ T X4
1 3
C 5 4 1
0 . 1u _ 1 0 V _X 7 R _0 4
P E G_ T X5
1 3
C 5 5 2
0 . 1u _ 1 0 V _X 7 R _0 4
P E G_ T X6
1 3
C 5 4 3
0 . 1u _ 1 0 V _X 7 R _0 4
P E G_ T X7
1 3
T H E R M _ V OL T 3 6
4 , 12 , 1 3 , 1 7 , 19 , 2 0 , 2 1 , 23 , 2 4 , 2 6 , 28 , 2 9 , 3 1, 32 , 3 3 , 3 4, 37 , 3 9 , 4 0, 41 , 4 4
3
3 . 3 V
Hide quick links:
Advertisement
Table of Contents
