Table of Contents
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Processor 1/7
V D D 3
R 4 92
*1 0 K _1 % _ 0 4
C P U _ T H E R M 2 5
R T 3
*1 0 0K _ N TC _ 06 _ B
D 03 BOM DEL
Thermal Sensor
3 . 3V
U 3 6
1
4
V D D
T H E R M
2
6
D +
A LE R T
B
Q3 2
2N 3 90 4
3
7
5
D -
S D A T A
8
G N D
S C L K
A D M1 0 3 2A R M
It app lies to Aubur ndal e an d Cl arksf ield dis cret e gra phic des igns .
If dis cret e gr aphic chi p is use d for Aub urnd ale, VAXG (GF X co re) rail can be c onne cted
to GND if moth erboa rd o nly supp orts disc rete gra phics and als o in a co mmon
mo ther boar d de sign if G FX V R is not stuf fed. On the o ther han d, i f the VR is s tuff ed,
VA XG c an b e le ft fl oati ng i n a commo n mo ther boar d des ign (Gfx VR keeps VAX G fr om
fl oati ng).
In add itio n, F DI_RX N_[7 :0] and FDI_R XP_[ 7:0] can be l eft floa ting on t he P CH.
FD I_TX [7:0 ] an d FDI _TX# [7:0 ] ca n be left flo atin g on the Aubu rnda le.
Th e GF X_IM ON, FDI_F SYNC [0], FDI _FSYN C[1] , FD I_LS YNC[0 ], F DI_L SYNC [1], and
FD I_IN T si gnal s sho uld be t ied to GN D (t hrou gh 1 K ? % res isto rs) in th e co mmon
mo ther boar d de sign case . Pl ease not that if thes e sig nals are lef t flo atin g, t here are no
fu ncti onal imp acts but a sm all amoun t of pow er ( ~15 m W) m aybe was ted. VAXG _SEN SE
an d VS SAXG _SEN SE on Aub urnd ale can b e le ft a s no conn ect.
DP LL_R EF_S SCLK and DPLL _REF _SSC LK# c an b e co nnec ted t o GN D on Aub urnda le
di rect ly i f mo therb oard onl y su pport s di scre te g raphi cs. In a com mon m othe rboa rd
de sign , th ese pins are driv en v ia PC H (e ven if G raphi cs i s di sabl ed by BIO S) t hus no
ex tern al t ermi natio n is req uire d.
PROCESSOR
1/7
( DMI,PEG,FDI )
U 3 4 A
A 2 4
13
D M I _ TX N 0
D MI _R X #[ 0 ]
C 2 3
13
D M I _ TX N 1
D MI _R X #[ 1 ]
B 2 2
13
D M I _ TX N 2
D MI _R X #[ 2 ]
A 2 1
13
D M I _ TX N 3
D MI _R X #[ 3 ]
V D D 3
NEAR EC
B 2 4
13
D M I _ TX P 0
D MI _R X [ 0]
D 2 3
13
D M I _ TX P 1
B 2 3
D MI _R X [ 1]
13
D M I _ TX P 2
D MI _R X [ 2]
A 2 2
13
D M I _ TX P 3
D MI _R X [ 3]
D02 BOM DE L
C 64 3
D 2 4
13
D MI _ R XN 0
D MI _T X # [ 0]
R 47 5
R 4 7 6
G 2 4
13
D MI _ R XN 1
D MI _T X # [ 1]
* 0. 1 u _ 16 V _ Y 5V _ 0 4
F 2 3
13
D MI _ R XN 2
D MI _T X # [ 2]
* 4. 7 K _ 0 4
*4 . 7 K _ 04
13
D MI _ R XN 3
H 2 3
D MI _T X # [ 3]
D 2 5
13
D MI _ R XP 0
3 . 3 V
D MI _T X [ 0 ]
F 2 4
13
D MI _ R XP 1
D MI _T X [ 1 ]
E 2 3
13
D MI _ R XP 2
D MI _T X [ 2 ]
G 2 3
13
D MI _ R XP 3
D MI _T X [ 3 ]
R 4 8 8
*1 0 K _ 04
E 2 2
F D I _ T X# [ 0 ]
D 2 1
F D I _ T X# [ 1 ]
R 4 7 7
*2 0 mi l _ sh o rt
D 1 9
T H E R M _A L E R T # 2 5
F D I _ T X# [ 2 ]
R 1 9 1
* 0 _0 4
D 1 8
F D I _ T X# [ 3 ]
G 2 1
F D I _ T X# [ 4 ]
R 1 9 0
1 0 K _ 0 4
V D D 3
E 1 9
F D I _ T X# [ 5 ]
F 2 1
F D I _ T X# [ 6 ]
1
4
R N 2 0
G 1 8
S MD _C P U _ T H E R M 12 , 2 5
2
3
33 _ 4 P 2R _ 04
F D I _ T X# [ 7 ]
S MC _C P U _ T H E R M 12 , 2 5
D 2 2
F D I _ T X[ 0]
C 2 1
F D I _ T X[ 1]
D 2 0
F D I _ T X[ 2]
C 1 8
F D I _ T X[ 3]
G 2 2
F D I _ T X[ 4]
E 2 0
F D I _ T X[ 5]
F 2 0
F D I _ T X[ 6]
G 1 9
F D I _ T X[ 7]
R 1 4 0
1 K _ 0 4
F 1 7
F D I _ F S Y N C [ 0]
E 1 7
R N 9
F D I _ F S Y N C [ 1]
4
5
C 1 7
F D I _ I N T
3
6
2
7
F 1 8
F D I _ L S Y N C [ 0 ]
1
8
D 1 7
F D I _ L S Y N C [ 1 ]
1 K _ 8 P 4 R _ 0 4
MO LE X 4 7 9 89 0 1 4 2
6-86-279 89-001
P E G _R X N [ 0 . . 1 5]
P E G _R X P [ 0. . 15 ]
P E G _ R X N [ 0 . . 1 5 ] 2 4
P E G_ R X P [ 0 . . 1 5 ] 2 4
P E G _T X N [ 0 . . 1 5 ]
P E G_ T XN [ 0 . . 15 ] 2 4
P E G _T X P [ 0 . . 1 5]
P E G_ T XP [ 0 . . 1 5 ] 2 4
20 mil
P E G _I R C O MP _R
B 2 6
R 40 9
4 9. 9 _ 1 % _0 4
P E G_ I C OM P I
A 2 6
P E G _ I C O MP O
B 2 7
P E G_ R C O MP O
A 2 5
E X P _ R B I A S
R 41 2
7 50 _ 1 % _0 4
P E G_ R B I A S
K 3 5
P E G_ R X# _ 0
C 5 6 6
. 1U _ 10 V _ X 7R _ 04
P E G _R X N 0
P E G_ R X # [ 0 ]
P E G_ R X# _ 1
P E G _R X N 1
J 34
C 5 6 3
. 1U _ 10 V _ X 7R _ 04
P E G_ R X # [ 1 ]
J 33
P E G_ R X# _ 2
C 5 4 2
. 1U _ 10 V _ X 7R _ 04
P E G _R X N 2
P E G_ R X # [ 2 ]
P E G_ R X# _ 3
P E G _R X N 3
G3 5
C 5 6 8
. 1U _ 10 V _ X 7R _ 04
P E G_ R X # [ 3 ]
G3 2
P E G_ R X# _ 4
C 5 4 4
. 1U _ 10 V _ X 7R _ 04
P E G _R X N 4
P E G_ R X # [ 4 ]
F 3 4
P E G_ R X# _ 5
C 5 5 6
. 1U _ 10 V _ X 7R _ 04
P E G _R X N 5
P E G_ R X # [ 5 ]
F 3 1
P E G_ R X# _ 6
C 5 4 8
. 1U _ 10 V _ X 7R _ 04
P E G _R X N 6
P E G_ R X # [ 6 ]
D 3 5
P E G_ R X# _ 7
C 5 4 6
. 1U _ 10 V _ X 7R _ 04
P E G _R X N 7
P E G_ R X # [ 7 ]
E 3 3
P E G_ R X# _ 8
C 5 5 0
. 1U _ 10 V _ X 7R _ 04
P E G _R X N 8
P E G_ R X # [ 8 ]
C 3 3
P E G_ R X# _ 9
C 5 5 2
. 1U _ 10 V _ X 7R _ 04
P E G _R X N 9
P E G_ R X # [ 9 ]
P E G_ R X# _ 1 0
P E G _R X N 1 0
D 3 2
C 5 5 4
. 1U _ 10 V _ X 7R _ 04
P E G_ R X# [ 1 0 ]
B 3 2
P E G_ R X# _ 1 1
C 5 3 6
. 1U _ 10 V _ X 7R _ 04
P E G _R X N 1 1
P E G_ R X# [ 1 1 ]
C 3 1
P E G_ R X# _ 1 2
C 5 6 0
. 1U _ 10 V _ X 7R _ 04
P E G _R X N 1 2
P E G_ R X# [ 1 2 ]
B 2 8
P E G_ R X# _ 1 3
C 5 3 3
. 1U _ 10 V _ X 7R _ 04
P E G _R X N 1 3
P E G_ R X# [ 1 3 ]
P E G_ R X# _ 1 4
P E G _R X N 1 4
B 3 0
C 5 5 8
. 1U _ 10 V _ X 7R _ 04
P E G_ R X# [ 1 4 ]
A 3 1
P E G_ R X# _ 1 5
C 5 3 9
. 1U _ 10 V _ X 7R _ 04
P E G _R X N 1 5
P E G_ R X# [ 1 5 ]
J 35
P E G_ R X_ 0
C 5 6 5
. 1U _ 10 V _ X 7R _ 04
P E G _R X P 0
P E G _ R X [ 0 ]
P E G_ R X_ 1
P E G _R X P 1
H 3 4
C 5 6 2
. 1U _ 10 V _ X 7R _ 04
P E G _ R X [ 1 ]
H 3 3
P E G_ R X_ 2
C 5 4 1
. 1U _ 10 V _ X 7R _ 04
P E G _R X P 2
P E G _ R X [ 2 ]
F 3 5
P E G_ R X_ 3
C 5 6 7
. 1U _ 10 V _ X 7R _ 04
P E G _R X P 3
P E G _ R X [ 3 ]
G3 3
P E G_ R X_ 4
C 5 4 3
. 1U _ 10 V _ X 7R _ 04
P E G _R X P 4
P E G _ R X [ 4 ]
E 3 4
P E G_ R X_ 5
C 5 5 5
. 1U _ 10 V _ X 7R _ 04
P E G _R X P 5
P E G _ R X [ 5 ]
F 3 2
P E G_ R X_ 6
C 5 4 7
. 1U _ 10 V _ X 7R _ 04
P E G _R X P 6
P E G _ R X [ 6 ]
D 3 4
P E G_ R X_ 7
C 5 4 5
. 1U _ 10 V _ X 7R _ 04
P E G _R X P 7
P E G _ R X [ 7 ]
P E G_ R X_ 8
P E G _R X P 8
F 3 3
C 5 4 9
. 1U _ 10 V _ X 7R _ 04
P E G _ R X [ 8 ]
B 3 3
P E G_ R X_ 9
C 5 5 1
. 1U _ 10 V _ X 7R _ 04
P E G _R X P 9
P E G _ R X [ 9 ]
P E G_ R X_ 1 0
P E G _R X P 1 0
D 3 1
C 5 5 3
. 1U _ 10 V _ X 7R _ 04
P E G_ R X [ 1 0 ]
A 3 2
P E G_ R X_ 1 1
C 5 3 5
. 1U _ 10 V _ X 7R _ 04
P E G _R X P 1 1
P E G_ R X [ 1 1 ]
P E G_ R X_ 1 2
P E G _R X P 1 2
C 3 0
C 5 5 9
. 1U _ 10 V _ X 7R _ 04
P E G_ R X [ 1 2 ]
A 2 8
P E G_ R X_ 1 3
C 5 3 2
. 1U _ 10 V _ X 7R _ 04
P E G _R X P 1 3
P E G_ R X [ 1 3 ]
P E G_ R X_ 1 4
P E G _R X P 1 4
B 2 9
C 5 5 7
. 1U _ 10 V _ X 7R _ 04
P E G_ R X [ 1 4 ]
A 3 0
P E G_ R X_ 1 5
C 5 3 8
. 1U _ 10 V _ X 7R _ 04
P E G _R X P 1 5
P E G_ R X [ 1 5 ]
L 33
P E G_ T X # _0
C 1 5
. 1U _ 10 V _ X 7R _ 04
P E G _T X N 0
P E G _ TX # [ 0 ]
M3 5
P E G_ T X # _1
C 3 4
. 1U _ 10 V _ X 7R _ 04
P E G _T X N 1
P E G _ TX # [ 1 ]
M3 3
P E G_ T X # _2
C 1 7
. 1U _ 10 V _ X 7R _ 04
P E G _T X N 2
P E G _ TX # [ 2 ]
M3 0
P E G_ T X # _3
C 1 9
. 1U _ 10 V _ X 7R _ 04
P E G _T X N 3
P E G _ TX # [ 3 ]
P E G_ T X # _4
P E G _T X N 4
L 31
C 3 6
. 1U _ 10 V _ X 7R _ 04
P E G _ TX # [ 4 ]
K 3 2
P E G_ T X # _5
C 2 1
. 1U _ 10 V _ X 7R _ 04
P E G _T X N 5
P E G _ TX # [ 5 ]
P E G_ T X # _6
P E G _T X N 6
M2 9
C 3 8
. 1U _ 10 V _ X 7R _ 04
P E G _ TX # [ 6 ]
J 31
P E G_ T X # _7
C 2 3
. 1U _ 10 V _ X 7R _ 04
P E G _T X N 7
P E G _ TX # [ 7 ]
P E G_ T X # _8
P E G _T X N 8
K 2 9
C 4 0
. 1U _ 10 V _ X 7R _ 04
P E G _ TX # [ 8 ]
H 3 0
P E G_ T X # _9
C 2 5
. 1U _ 10 V _ X 7R _ 04
P E G _T X N 9
P E G _ TX # [ 9 ]
H 2 9
P E G_ T X # _1 0
C 4 2
. 1U _ 10 V _ X 7R _ 04
P E G _T X N 1 0
P E G_ T X# [ 1 0 ]
F 2 9
P E G_ T X # _1 1
C 2 7
. 1U _ 10 V _ X 7R _ 04
P E G _T X N 1 1
P E G_ T X# [ 1 1 ]
P E G_ T X # _1 2
P E G _T X N 1 2
E 2 8
C 4 4
. 1U _ 10 V _ X 7R _ 04
P E G_ T X# [ 1 2 ]
D 2 9
P E G_ T X # _1 3
C 2 9
. 1U _ 10 V _ X 7R _ 04
P E G _T X N 1 3
P E G_ T X# [ 1 3 ]
P E G_ T X # _1 4
P E G _T X N 1 4
D 2 7
C 4 6
. 1U _ 10 V _ X 7R _ 04
P E G_ T X# [ 1 4 ]
C 2 6
P E G_ T X # _1 5
C 3 1
. 1U _ 10 V _ X 7R _ 04
P E G _T X N 1 5
P E G_ T X# [ 1 5 ]
L 34
P E G_ T X _ 0
C 1 4
. 1U _ 10 V _ X 7R _ 04
P E G _T X P 0
P E G _T X [ 0 ]
M3 4
P E G_ T X _ 1
C 3 3
. 1U _ 10 V _ X 7R _ 04
P E G _T X P 1
P E G _T X [ 1 ]
P E G_ T X _ 2
P E G _T X P 2
M3 2
C 1 6
. 1U _ 10 V _ X 7R _ 04
P E G _T X [ 2 ]
L 30
P E G_ T X _ 3
C 1 8
. 1U _ 10 V _ X 7R _ 04
P E G _T X P 3
P E G _T X [ 3 ]
P E G_ T X _ 4
P E G _T X P 4
M3 1
C 3 5
. 1U _ 10 V _ X 7R _ 04
P E G _T X [ 4 ]
K 3 1
P E G_ T X _ 5
C 2 0
. 1U _ 10 V _ X 7R _ 04
P E G _T X P 5
P E G _T X [ 5 ]
M2 8
P E G_ T X _ 6
C 3 7
. 1U _ 10 V _ X 7R _ 04
P E G _T X P 6
P E G _T X [ 6 ]
H 3 1
P E G_ T X _ 7
C 2 2
. 1U _ 10 V _ X 7R _ 04
P E G _T X P 7
P E G _T X [ 7 ]
P E G_ T X _ 8
P E G _T X P 8
K 2 8
C 3 9
. 1U _ 10 V _ X 7R _ 04
P E G _T X [ 8 ]
G3 0
P E G_ T X _ 9
C 2 4
. 1U _ 10 V _ X 7R _ 04
P E G _T X P 9
P E G _T X [ 9 ]
P E G_ T X _ 10
P E G _T X P 1 0
G2 9
C 4 1
. 1U _ 10 V _ X 7R _ 04
P E G _ TX [ 1 0 ]
F 2 8
P E G_ T X _ 11
C 2 6
. 1U _ 10 V _ X 7R _ 04
P E G _T X P 1 1
P E G _ TX [ 1 1 ]
E 2 7
P E G_ T X _ 12
C 4 3
. 1U _ 10 V _ X 7R _ 04
P E G _T X P 1 2
P E G _ TX [ 1 2 ]
D 2 8
P E G_ T X _ 13
C 2 8
. 1U _ 10 V _ X 7R _ 04
P E G _T X P 1 3
P E G _ TX [ 1 3 ]
C 2 7
P E G_ T X _ 14
C 4 5
. 1U _ 10 V _ X 7R _ 04
P E G _T X P 1 4
P E G _ TX [ 1 4 ]
C 2 5
P E G_ T X _ 15
C 3 0
. 1U _ 10 V _ X 7R _ 04
P E G _T X P 1 5
P E G _ TX [ 1 5 ]
3 , 1 1 , 12 , 1 3 , 1 5, 1 6 , 1 8 , 21 , 2 4 , 2 6, 2 7 , 2 8, 29 , 3 4 , 36 , 3 7 , 3 8, 4 1
3 . 3 V
1 1, 2 5 , 2 7, 28 , 2 9 , 30 , 3 4 , 3 5, 4 0
V D D 3
Schematic Diagrams
Sheet 2 of 57
Processor 1/7
Processor 1/7 B - 3
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