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回复:7200.11 320G的盘技术进来帮看下怎么搞
Interface task reset! a/ X6 M, M5 f: j. }+ K8 C0 r
1024k x 16 buffer detected
* s% g) l. j, L$ a8 x0 mALPINE - 1_Disk M-21 11-25-03 18:53
. _, Q8 C% k$ ABuzz - Head Mask FFFF - Switch to full int.# f+ |; h& g1 r- a$ A
Spin Ready
, p) v& j2 r4 H, [7 W1 f) i9.51 03-24-04 08:27
( q) W; [: J( {1 M! d& X(P)PATA Reset- k) h, M: H5 s. \2 \
Not Interface Age!
+ J2 {& L9 x; x x( e4 v) f' y>�(No valid SeaDex script in buffer.
: P8 O. E8 w+ c! H4 s* JBegin Test 02/ ?' M: p( u* G; A, h0 v( Z
ASCII logging on
" G/ l( {7 w% `1 e2 O2 c6 }- [- H0 x Not Power Cycling. _1 Q$ x; ]* i* n5 d: k5 N
Not Power Cycling7 T& F- o S) z
Zone 00 Head 00 adaptives set to defaults: o; p9 z$ T2 [' _5 y
Zone 01 Head 00 adaptives set to defaults
0 ]8 Q' b% ~: U3 A( N1 o2 gZone 02 Head 00 adaptives set to defaults
- n: E6 m) f# `. G: c! qZone 03 Head 00 adaptives set to defaults
0 |5 z* @" X: d6 u" O) t- @4 FZone 04 Head 00 adaptives set to defaults
9 Q4 ^8 G$ D& Z4 b* TZone 05 Head 00 adaptives set to defaults g; |5 H, e" C: J7 r
Zone 06 Head 00 adaptives set to defaults
/ A/ X' _8 N. _9 F% B3 D) qZone 07 Head 00 adaptives set to defaults
0 D; x9 k3 d% UZone 08 Head 00 adaptives set to defaults" H; Z2 J1 i& \. l
Zone 09 Head 00 adaptives set to defaults
9 v1 N, x! Y" HZone 0A Head 00 adaptives set to defaults
/ S. ]3 ~5 r9 u5 QZone 0B Head 00 adaptives set to defaults
; Q/ q9 U+ z9 B, e9 _Zone 0C Head 00 adaptives set to defaults6 f; A( N- Q- T& C
Zone 0D Head 00 adaptives set to defaults
+ R/ k, ^8 X4 Z& s% \$ ?& KZone 0E Head 00 adaptives set to defaults
7 b2 C+ }( N" LZone 0F Head 00 adaptives set to defaults( U) l* V- f1 }# I; e) ]
Head Mask FFFF -
3 ~6 g- q* l+ y! Z4 x! \7 rRead Bias - Head 0 1 2 3
6 Q$ w# V+ p3 ^1 G5 e A
0 d' c& b$ A. k8 z1 Q tHiTemp Bias Head 0 1 2 3 h: P* w9 }& p# S. x! p
A9 h' K; x4 x6 `- P6 P
Head Mask FFFF - Switch to full int." R N2 d3 Q. N0 x9 _0 v5 o0 @7 J4 N0 V) X
Spin Ready; E- I, I4 J0 U* @" D/ X
Calibrating Physical Track 0 on heads 0 thru 0. i7 z2 I+ j, @( ]0 F9 ?( I
Calibrating Head 0 ...1 _; C$ e" R, P* E
Radial Offset Table:
7 ?6 K, Q' Y5 D( T4 E, `' w5 iHead 0 Offset = 67E0 P/ F [! ~. n+ |; }+ s2 R
Head 1 Offset = 1388
% g: t" _5 v! v, ZHead 2 Offset = 1388
/ Q; U0 a7 x5 `3 k0 O, `+ h5 Q5 ZHead 3 Offset = 1388& J& d% m. J, F/ W( |
SkpCylList deleted
; Q8 T; `4 Y4 M5 ?Sys= 0F010-0F08F 0280 SPTK on sys trks 2 m# l( K) V7 f0 t) e( Q# c
<empty>6 s/ C: @5 u) g- Q# {: V$ v
drive must be reformatted& y6 z- ^. R" Q _, c/ U( w
Skipping MDW oversample s/n cylinders.! X9 O* s* X4 M% z+ C# \- F
Zone 00: 00018 - 00BE8 1100 (044C) 683.439: z0 R8 d- ~5 b7 u, `
Zone 01: 00BE9 - 027FE 1056 (0420) 666.63/ A# x r4 k' D* i5 t' c
Zone 02: 027FF - 04707 1026 (0402) 646.275
$ P1 w+ L2 f" ~- {Zone 03: 04708 - 06CA3 990 (03DE) 622.431
9 y4 x2 j* F5 @$ Z& d' b* g IZone 04: 06CA4 - 08B66 953 (03B9) 602.353
3 J8 l* k& A( ^& }, E/ @5 rZone 05: 08B67 - 0A479 916 (0394) 580.392( K% B# |1 T$ z9 }1 g: s! e( G
Zone 06: 0A47A - 0C405 880 (0370) 545.8820 V, z: W+ L& r
Zone 07: 0C406 - 0D99A 836 (0344) 527.59
# ]% d$ f8 @& x. H4 [+ cZone 08: 0D99B - 0ECD9 806 (0326) 506.144
0 Z$ H E W8 M$ u/ uZone 09: 0ECDA - 10337 770 (0302) 480.724
+ [0 k# i3 y8 g, G& \% eZone 0A: 10338 - 11397 733 (02DD) 461.672& S; N* N& v, D/ P3 G
Zone 0B: 11398 - 12854 691 (02B3) 437.423
4 x( Y; H9 P: L$ a1 ?; uZone 0C: 12855 - 13F38 660 (0294) 410.353 u4 X, z+ I2 t( A. y
Zone 0D: 13F39 - 14AE7 623 (026F) 396.401
9 I" x6 U, V9 }6 u; y7 p6 x- CZone 0E: 14AE8 - 155D6 605 (025D) 383.316
, f9 H- Y# e( D+ Q8 x4 I iZone 0F: 155D7 - 16358 572 (023C) 363.9228 h* a5 q6 q1 A% R! j5 s
Sys= 0F010-0F08F 0280 SPTK on sys trks9 j) Z& O: z1 Z4 {& `2 u
Total LBAs = 04A96402
) E' G* N3 B* Q' y2 J2 K$ LEP=1, TA=1, HiGain=1, OTRd=1, Early Rd=0, Splash=1, Reload=1, NPML=1, MRBias=1! s1 m& d. _; |) c
Bst/Zap=1, SrvoThrsh=1, RunOut=1, MaxECC=1, ECC 2=1, ECC 1=1, ECC 0=11 j) [4 b. s% ?
Data=FF, Write=80, ID=FF6 w. f( N# J9 E/ i; N
No entries in Log4 m- }0 @, S, O
All Hds 0-0, All Cyls 00018-16358, Rnd data$ i* Y& B! W& p. x
Performing AFC Zone Cal. R0 ?5 c, _2 M8 K1 z4 a9 b: q
ACFC Calibration:9 N! X/ S7 t1 e2 `, H: b
CRRO Orders Prior to Cal: (PES*2)^2
( L# E' a) {4 O: ~7 m( N Cyl.Hd 2 3 4 5 6 7 8 12 24
) P, o7 Y/ L" A6 g& w: f; [; D00018.00 0115 0034 0022 00cd 0055 0002 006a 0004 000d
$ D, E" A2 V8 x4 o7 g02000.00 00fa 0048 0010 00d4 0049 0032 0025 0011 000a
) N' h/ z: R9 |04000.00 00b4 0049 0004 0059 009d 000a 0041 0001 0008
3 ?% C, ]2 w* W0 Z06000.00 010d 0049 0009 0050 0092 0011 0074 0012 000d
4 ~9 G1 M( u- z08000.00 0121 0019 0019 0061 009d 0000 0028 003a 000d
5 w0 e& n5 U/ h, o" }0a000.00 0088 0055 0010 00b9 0062 0008 0029 0022 0014% ]& T+ Y8 @& S' o. q
0e000.00 00da 0009 0041 0052 00cd 0004 0055 0032 000d( p5 M* \( F! C7 k2 w; c
10000.00 007d 00a9 00a0 004a 0062 0048 0032 0035 00050 r' \* E: E' q; K9 L( z( G
12000.00 00aa 0044 00c8 0025 0082 000d 0059 000a 00088 R) }# d% C& q a8 h
14000.00 0049 0035 003d 0025 0041 0065 0055 0028 000d" `8 e+ |6 \0 E8 X
16000.00 00b2 0065 00b2 004a 0095 003d 003d 0004 0008
* y* I Z8 u8 J( E4 i; K3 m7 R1 ORTE Amplitude = 0011 servo clocks. Sector = 0023h. Trk/2 = B2B3h.
. B1 e. P" m) E8 C# MRTE Amplitude = 000D servo clocks. Sector = 0023h. Trk/2 = 8EF8h.( ~1 Z9 C5 f# t' `/ h
RTE Amplitude = 000B servo clocks. Sector = 0023h. Trk/2 = 6B3Dh.
$ B9 [2 [7 O6 Z& F) {+ H% ZRTE Amplitude = 000A servo clocks. Sector = 0023h. Trk/2 = 4782h.
- _0 c# ~! a5 i: i9 b9 a5 ~RTE Amplitude = 0009 servo clocks. Sector = 0019h. Trk/2 = 23C7h.6 q0 J$ i" m+ B4 X. Z; a
RTE Amplitude = 0008 servo clocks. Sector = 0019h. Trk/2 = 000Ch.
% A! J/ @6 Q- w; |8 JEP=0, TA=0, HiGain=0, OTRd=0, Early Rd=0, Splash=0, Reload=0, NPML=0, MRBias=0
* l6 N- n) S/ ?2 ?; J) K. O. PBst/Zap=0, SrvoThrsh=0, RunOut=0, MaxECC=0, ECC 2=1, ECC 1=1, ECC 0=1( v5 P! Y, Y# O e6 v9 F
Data=02, Write=40, ID=1E
5 Q0 J2 z i+ F# b) w Channel Srvo Table
/ O: z5 ]- ?# j( n5 { Head Addr VGA SATT Tap5 Tap6 Tap3 Tap7 Tap2 Tap8 Tap9 RATT XDC ) D. Q" L9 l: } h
00 F7F2 2D 02 7C BF 97 AF 91 94 8B 41 7E 8 l( u o1 d$ ?1 Z' p
Adapt Servo Zone 08
* U# K/ P+ h: A$ ?( ?Adapt Servo 0000e33a.00! S8 c1 \. f$ @9 d% R! C( c
Adapts Loaded
# E9 n! k5 \! q/ b5 jDbck DATA load
/ U3 j2 o& U6 u, Y5 c& Q0 TNPML 00
/ \1 `; @: [: V9 P+ q" @Test 0000e33a.00 0001757f BER 00000126 5 t* v/ I0 Y3 l& h1 o* H. S
Adjust ATTR 01 VGAS 69 VGAR cd FREQR 81 Read 0043 SRVTEST 41 Read 0043 - |+ m) Z; j. ?8 w& C2 u
fail lower limit4 U. x8 ~1 J! F V
MRASYM 80 000196b4 BER 00000628
+ f+ f, M+ q" \% P. S% XMRASYM 8b 008296d6 BER 01001135 hold
* N+ K* H5 v5 ]' H. z( tZone 8 [0000D9A3.0,FC64,0264,C0]% N( K3 \1 {) D" s1 p& i- H
Left Bath = FF35, Right Bath = FF6A : Pick (FF4F) ( Min/Max AGC BEFF )
0 W+ g# d1 G3 O4 P7 x- |4 E& {0 f- N# FZone 9 [0000ECE2.0,FD05,0305,C0]
, U1 T& L" U0 |0 _ Left Bath = FFB6, Right Bath = 0017 : Pick (FFE6) ( Min/Max AGC B6FF )! y8 H/ R* T4 L) o4 ~
Test 0000e33a.00 000107cc BER 00000fff
* Q! g1 Y( w' e: ?5 z" B: Y+ tZone 0 [00000020.0,F689,FC89,C0]* k- D0 W6 G' S- `0 a3 j
Left Bath = F9A7, Right Bath = F9F5 : Pick (F9CE) ( Min/Max AGC B4FF )
( O3 y }* p- n! H) l2 uZone 1 [00000BF1.0,F6D4,FCD4,C0]! E) V# Y4 l1 r( `) S' U, ~( ?+ Q3 J
Left Bath = F9DB, Right Bath = FA16 : Pick (F9F8) ( Min/Max AGC BCFF )3 e0 x- z5 z2 ^$ B: w2 d( `# H0 S
Test 00000bc8.00 00017a14 BER 00000fff
( d! P% A" D% w2 LTest 00000bc8.00 00017d97 BER 00000fff # _$ ?2 Y+ I4 R3 a4 n4 T
Test 0000e33a.00 00013ec3 BER 00000fff 1 ]% v: k& ?3 a' j" }! N- W' y
Adjust ATTR 01 VGAS 6a VGAR b9 FREQR 84 Read 0043 SRVTEST 41 Read 0043
; J0 ^9 O3 X3 t/ s' {% H% ~+ Hfail lower limit
+ M; u: c7 Y8 _. OMRASYM 80 00010bf7 BER 00000fff
- L! Q6 k3 o: N. q% vMRASYM 77 00011114 BER 00000fff hold ) l+ a3 C4 l0 c" G% A B: c
Default Tap Weight 00000000 Settle Tap Weight 00000154
7 }, J$ D0 q8 S" G) RXDCTAP 7e 0001d2c2 BER 00000000 adapt
" T% c" {8 R. g9 o9 i. NXDCTAP 79 0081a3fc BER 01000000 hold
1 K/ [* T4 I- U7 r- JCUTOFF Lower 0022 Upper 013b Step 0003 Right 18 Mask 0008
+ m, @" ~6 a4 X7 I' FDefault 0127 0001aaf1 BER 00000000
" Y) n. ?8 k$ G( ^Floor 1 0f 0001cfd1 0001f90f. Y$ S8 }! s1 B) I! a8 s3 O
Left 1 011f 0001bd5c
* ^# \% G" J; f2 LMiddle 1 0128 0001b19f6 x8 J, s* ?$ j! l9 S
Right 1 0132 0001b0da" k: @1 c! s8 a5 c" J [
Lowest 1 012e 0001a0f0- n3 [9 l6 _5 c% Q& {
New 0128 0001abd6 BER 00000000
2 Q$ E& O+ Y, j0 jSV TAP5 Lower 0020 Upper 00df Step 0006 Right 1f Mask 1000) E& r/ w1 o& S9 K
Default 005c 0001b493 BER 00000000
) W& c8 x$ C, R/ c2 dFloor 1 20 0001b646 0001b646, V& A3 B, _6 i' I' d8 M
Left 1 0020 0001b1e7$ H$ I# |! {: i* d% W
Middle 1 007f 0001add1+ _ G( s! m) r6 A, l* C
Right 1 00df 0001aec80 q2 I' x2 w% [; i T( u( z$ k
Lowest 1 00c2 0001a9f5
7 P3 K4 Y- @2 d/ N! H5 a/ {Curve Size Bathtub: L$ f& ?% S! K" F1 V; q$ N
New 007f 0001c733 BER 00000000 ! f( }# u2 Y5 j
0001c11e BER 00000000 _ATT 01 VGAS 6a VGAR 67 FREQR 81 Taps frozen read adapt
+ ?- l, U' k; s; E3 Q* {' HCurrent Tap Weight 0000134f diff ffffecb1 tap limits
4 v/ n6 X. y, H8 }0001aaf1 BER 00000000 _ATT 01 VGAS 6a VGAR 68 FREQR 7f Taps frozen read adapt
* o$ n& K. M- K1 z1 v0 q0 \Current Tap Weight 00000020 diff 0000132f tap limits6 ]- `$ a9 X4 O2 c
0001bb80 BER 00000000 _ATT 01 VGAS 69 VGAR 5d FREQR 7e Taps frozen read adapt
! W# V7 _- n7 a3 XCurrent Tap Weight 0000005d diff ffffffc3 Save servo Force servo update $ R- z% M5 m3 i8 e
Dbck Default DATA load' U2 P8 s! y2 o6 W
Test 0000e33a.00 0000fea9 BER 00000fff / s8 m% v* Y8 q
Ratio 0000+ a5 W% R" i1 E8 n& v% l
Zone 8 [0000D9A3.0,FC4F,024F,C0]
4 j' T) }6 r" \ Left Bath = FF2B, Right Bath = FF75 : Pick (FF50) ( Min/Max AGC BCFF )- I. O( B3 j3 D! o# M! Z
Zone 9 [0000ECE2.0,FCE6,02E6,C0]
* C ]7 N4 I, u8 }- X Left Bath = FFBF, Right Bath = 0015 : Pick (FFEA) ( Min/Max AGC B6FF )
6 I3 h% ~8 z' T$ L& v( RHiTemp Bias BackOff Head 0 1 2 31 [4 v2 c1 Z( v+ e( L) }# p
A
7 Y3 k% {3 i7 H: D( K" f. ^! S, CMedia 0000# r% _+ `$ b- R; x" u. \% ~
Adapt Data Zone 00
! h; i3 d) i. X& ^+ z: mTest 00000600.00 000128f7 BER 000001d8 7 R7 {& K- F1 s; z
Test 00000600.00 000122da BER 00000049
8 |% L0 D) a" Z% T; ~" o' |Adapt Data 00000600.00" R5 Q; |/ x, B3 p% D, Y# s
Dbck DATA load
7 }+ q7 T; X' `" `! b; l# iNPML 00 ' i3 ?* f- S- w, A# b
Test 00000038.00 00013a05 BER 0000000c , e4 Z+ v+ a/ w( ?* s) [
Test 00000600.00 000121e5 BER 00000046 5 o; K- ~9 M7 d" `% u/ Y# z
Check ATTR 01 VGAS 7b VGAR 97 FREQR 7f Read 0043 within VGAR FREQR A0 }; `" I5 [2 ^7 n% i
MRASYM 80 00011b71 BER 00000042
& U1 c* h8 h" P2 |4 n3 ]# F/ PMRASYM 77 00013c9f BER 00000056 hold . z& A: R k) j: }( U0 `) i
OD OFST Lower f96e Upper fa2d Step 0006 Right 1f Mask 4340
1 L" a* c% a. I5 I0 b" iDefault f9ce 0001565f BER 00000056
0 S( ~: h7 K! ^. FFloor 1 0b 000196d7 000196d7
: p* G, i+ W0 o+ B5 YLeft 1 f9aa 000161d3$ ]/ w2 y. _9 _ {
Middle 1 f9c4 0001376b. Z4 B( J4 I7 H V
Right 1 f9df 00017ec2! { ~/ H: |2 Z. n
Lowest 1 f9bc 000111a9% @$ _/ [7 f) Y4 i7 R
Curve f9d4 000154a2
) Z6 P2 |( H7 C& w! u/ B, RNew f9c4 00011ec6 BER 00000000 AUTO
4 f3 N7 q. |3 N. S0 bCheck ATTR 01 VGAS 7d VGAR 9b FREQR 80 Read 0043 within VGAR FREQR
) V9 y: d( n, T3 V( }6 y; ^* NTest 00000600.00 0001258a BER 00000041
) B( Z- w- {' Q7 W% eNoise target 00000000) J' E" J4 U4 U. _# K ?
Dbck Noise OFF
5 P8 d! F9 j0 ?% A( ]. tDbck DATA save
2 {( d) z6 ?. o& \) U4 B2 s3 iWRITE_I Lower 0000 Upper 001b Step 0001 Right 1b Mask 0342, b; ~( {$ V8 q! a8 O* G
Default 000e 00843318 BER 030016fd Write Error
7 |: J8 n D! Z1 z& ^Write Error Write Error Write Error Write Error Write Error Write Error Write Error Write Error Write Error Write Error Write Error Write Error Write Error Write Error Write Error Pgm=02 Trk=00600(00600).0(0).048(3E0) Zn=0 Err=00 ErCt=02C6 Hlth=0000 CHlth=0008 Ready LBA=00196130
t8 Q" x9 k# F) f/ x$ x4 fPgm=02 Trk=00600(00600).0(0).0A0(438) Zn=0 Err=00 ErCt=02C6 Hlth=0000 CHlth=0008 Ready LBA=001961807 u5 y8 b) C7 X) z' s. A# I; M
Write Error Write Error Write Error 这个是那里在出错?/??//
# ?1 z; O4 @! T# g$ B4 T, j1 j& n8 @; B' c7 L$ d
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发表于 2010-3-2 19:56:00
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发表于 2010-3-3 09:05:00
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