JP9701024 INSTITUTE FOR NUCLEAR STUDY i INS - T - 544 UNIVERSITY OF TOKYO September 1996 Tanashi, Tokyo 188 JP9701024 Japan
1994^Jt
s-s C ^
%% 6^3^255 L^o 2^,(1 6^#^^#^##L-Cfr^ii,i:^5 t(D-ei-^. ^^5A9##(c#m#(D% /:d\ %mm#(i]E(:imf##%Bf(7)K#mm^6'ra<7)t<7)-e, ^-riT,
(9 c ^ (D3 ^ ZLzz/y-i/ 3
^ ^ 6 j: 9 ^ m^&em u $i-o ti^AO i .$
M ^s. Mtt: MflStdtv, -eroTtc ;T "9 $L/to #^##^7u^zL7A#m#-ed. r##%fmmmj ^^#(cfT9(k^9^T%^-hL ^5^(±###^(Dm#^mmL$LA(Dr, 6^(ie^8U ^^"9, 1 y-A 2 3 (CADCO^l'A) 4 5, 6,
^ ^ ^ 6(D#Bip(DmA 9c^^m^$L^o tc%-ot:#r#%##$r#%##-e(±m r#:pgfr%#j 60^^^r^#L^:^t(D-ei-o
^8^6^ 1 0 B 3fc
(1) [VECTOR PROCESSOR 6
(2) [TARN
17
(3) r## I S O L - E C R ^ d-i/Kl
3 s
(4) FCAMAC — CCD J
f%zn^/ix ^—*(5 tiif—J§ 4 7
(5) r##QDD^^^ pof77m#Aa#m#&mmSMART
s 3
(6) rmm-PC/NEC-PCK z % -f — ^ 3/;& T A EODAQ (V^4;04)<%)#^J
ffi] ^ ^ ^ ^—F$ 5 7 Vector Processor £4^11'£ L/c #f (#3 ^ ^
1995. 4. 12. #+mm MSfjciW
liktbiz
StSSScoSMS^fr^ /cc ^0cpT' rMfttoComputing 5##J f a C £ L/:o f 3 ^ (:v X ^ A& 1. 9 2t£2HfrZ, vXTAMffc£©IIil(:ot>T 1 9 9 2. 2. StMSH$6=T\ r#t##xXf AO^(9/)\/:j CoVTWtt- ac£^#l#$^/:o 1 9 9 2. 6. %#t©Computing a#M"WG^o 1993 . 3. /Co T A RN HftJWD E C ->Xf A mimmtmm ap-iooo //-/<-# S-4/1000 ws. pc. yv >x /< V XT 1 9 9 3. 1 2. r%#ft#Computing m^CM^a##] ##m 2. r%#ft0Computing##(:Mfa#rfJ ESTi^/cZDx 9 3#1 2RlzmiWGlzk^X r%#ft©Computing f-a###^#J /,^£Ayft. #t###M#M6£WG^-e#fj$^/:o s#£^-oTua®-c. me. 2. i 9 3^3fm&(DB#:p+>/ i C P UtiivJii 1 8 0 M I PS (Million Instruction Per Second) "C\ s+ ##^4^6 0 OM I P WS®^W L^Lx AvLA-fliUTnetcoiagcAOx (om±C, WS lOOMIPSa, PC 10 0M1PS^# $ f: x # ? ^m## / - Ao) -f - ^ m*< T B / - / - c A D x ^(D%l:7XXhy-v (A-A^AA'J) x Audi o - Vi deo##§(D#ijmx i#5 igLAN(:A67T Yvl/A-/<#^#l:^^T^Ao 2. 2 Mt L WAtiftComputing gl±6 i. fflteAi' y / < x T ® f i| tfaH A b M. AE AS<7)HIIS (DAMl/oysA cp^7Td';l/ 3 0GB&LL) OAMCPUysA M- 7 8 0/1 0 Q)1 0jSl^±-- 3 00-400MIPS OAm/tV-vaA 2 0 0MB1^± ii. Ay^^y-f-AMS %^ (D/y7-ry#m^^v P7-^6WS(:A6yX/A ®7oyh:cyK(A&m%A;l/-AWmmLx / iii. I/OM# (D 7XXPL/-A A#(Z)/-7^my7Xxhy-y(:#^$^6A(d:x /f/Td ^#^^aui2iT®aDo $!$ ZEUSx KAMIOKANDE 10 0 — 5 0 0 GB/# 10— 3 0GB/## Super KAM10KANDEx @/Ay## #TB-%10TB/9p 7 7<;h®m#6%E^mx ##B0^#/T^6 6x Amm^y^ti/mTBm) cMT^A^v 4:^#7 7 2 (2) ###@ • 7 "J h V - ? o T ? v h 7 — ? A 'J > ? ©|£B;fiv& %86%-,TU6o iv. GUI (Graphical User Interface) %#3>U:i-f%#rc©#m;t++7??-<-XT©#fUT&-3tdU Ma c PC -@©^^ U t L t# 6 © 7 C 6 A<-e # 6 o 6 U J: D ^ l '##& 6 0c-# v. T' "J h 7 — ? U7-^ (UTn e t) ^ 1 9 9 0 — 1 9 9 m • ^£©iI{f©fiJMttt'&*£ftt0 %#©^©R I S Cf"y A©tHHUJ:^UN I X 9-?Xf--v3 TCP/I PYo h=i;l/A<#U^<#to / N 7 3 > u ttt£|S]± ct #f#%© [SjJhtC X *9 s v U9-^ IWt t ©%#^#T Z ^ 6% to C©#^WM^Sg^ AT12UF©#W^#6 ^6o (D*v U9-^6ZL —y-@m. (2)A#7- ^ ©MWW#&% $ v U 9 - ? C 6 ®^pg©=] ; zL^ ^ v h9-^ v%7A6 LT©###©EEL^#l:^-3to ^Ll/-V3 >at#7)<5mf:%-3T#to S t 6o 6-io ui±^me(:^u-c^w^©;tmmvxAA©B0(i6'©#/j:u©^#mt##Lt **st##v%7A6 LTUUF©IZ9c©t'f;l/^#MLT^.5o ®v%7A©B# a. b. m##o c . ir ; #cp# HI 5 #BS0 d. g6#mo C©E9'3©t-f ;l/©7 ^^#^©AIa]^mM-mmVxtA6 LT##* 3 W^>,/j:U6U9A-C\ a, b-?wmmT&%. c, #K6^69o (BCPimWHL C P U&afbC-oUTtmTC^TA 60 a. 2 vii. 0d'/= #m# v % ^ A 9 /: A c * ^« c 0#^wMfG u iet"5C£ WS@T\ ii©iSlMII-Ks E* 3. yXrAO^A ##WGi:7 5 Computing 6##J 146 btlAMW 6 Zff& (C cp AltSS V X ^ A 7 7#? v X7 A0^A W^R%7^37Ttr,%o #[A% 6 x y v ^ -;!/ « 6 ^ 6 7 1 4 0 f±##m#G%5c7 77220 - 'fb^c%LT/-y 7-^^mm^m 3. 1 frtp *lts# V x T- A (DWtW BI7 (:/\- ^xrifeLfeto ^*#mvx7A(:(iVP- 2 1 0 Q/ 4 Tl^o /0f6#t#a#(:^S^^TU60(i. S- 4/1 0 0 0-f-/ $ /:EI(c LV% -o A P - 1 0 0 O^Front End Proc essor S-4/lOiCj; >0 / "j #t###(:*6Cfu30vX/A(i. UTne t%vF7-^&aLT8^0y- F^x.<(:j;^^m^^7^-bx%T^6o 7^vx/A(iUTn e t ##6 tegij © F D D I (c:X <0 /^MIIvXt-A-V’+P-K-->7fA^7n Xp%#6 ^ v (/7 7^ V ? ' X%^7- F - /V 7 ^ LTWS S- 4/2 Oi)/v F7-^/V 7 f-55%. x%^3 o^:. oos-v 2 05%A<&*/ mamu%«o0ws6PC#^ 0 0^J21±X)##$^TU6o 7 7 F 0-^-7OloVTt/ c(3^MlI'>X7iA(2IH-> Xriffl7 7 h 7-X7iS$7!/RLll/ l#^W:IBOS MSP6<^FM+##0UNIX OST*6UXP/M0 6 c t tc ti o x v § o gt###C*5/-/<-#6 UX P/M©^--/-#@/7 7 Y/#mUN I S^NF S^-#9 C6C^-3TU6o 3. 2 #[p*#f##7Xf-A0 r%@f%0Computing ##J (:*#-&* r%#f%©computingm#j rg$LU7X/Aj 6"0@K#SLTU6(D-C$)69Ax / i. mm/7 1/0^3/ *fm?7 ♦ VP - 2 1 0 0©OSti. $1$M S P £ U X P (D^-hmmMr LTBfP LTfc T & 6d\ w 8 >, U X P /=(/?##-#- a C 6 a ©Tl21%(i^T#o (D/MC P U v 3 7" M- 780/1 0010 fgJ21±- - 300-400MIPS ( 2. 2 - i -®) ♦ VP - 2 1 0 0/(i. Vectortt|2 8 5 MF L 0 P S 5 2 0 OMB&Lk $ yo/7A##2 0 0MB(i%o ii. /h > 7 -Y >"A—9 $L$! F9-7 6WStcj:&>Xf-A (2. 2 - ii-®) $ m^#mvx^Ac(d:s-4/2o^mLirmm-f- I (:##$ W:o C©FDDI tt^©VP- 2 1 0 00ft CPU - 7 7^;kf-/<-l:U#^3fi,TU6o (2. 2 - ii -®) $ y <$ xmm-7 r4cmt^a ^ v~ 1 tbmw cpm#77 ®^'yh9-^-/V>f«#A(2. 2-iii-®) 4 1 ££*66* -y F 7-7 (c^EL/Co -Vthtl&tst ftt)(D^L—f-/)<&;£} T§ t£ VH iv. ?'7 ^7-) ®$ v h9-^6zL--tf-#@. 7 7 ❖ N I S (Network Informasion System) (D#Ao NFS (Network File System)coSAo CPU-*F-y<\ y-h-y--/<#(D#A6/<'y^T'yy(D@#{t: OAmf - ^ 4; V F 9 7 6 C 6 ( 2 . 2 - v -®) — 6 + wm^poDi^m^LT^-AmA ^A#mT#6j:9 (:Em$aTU6o fEL. CMT7^77V-#[M&:t##D ilffl B#fli] ic £ ft £ CD T\ 2 4 B#f^7?-t?Xnrf££ A-oTVAlx 0 #^M03;^z: V3>^@:6LT. T<6A (DLANtm###, wAN®m#mm7vy (2. 2-v-®) 4 (EU LANli-tr^'V > M*! t A (4:4? 7'/ > h f^co h57^ v ^###(: A#<. WA N (±, 256Kbps^512KbpsC7v ^ L A0)T% #3flAAA &^T^%^T#6A'6"9 A#^o hv-^y/L-y (#P!6tK##y;i/-y) (2. 2-v-®) ^ $vh9 -^##(Dws. TffBRV? h#®#A. A^T h7^-b>%®#:So f urn# y vi/ - -y/#P9%R## / vi/ - ^(DmmA^eo w±o#m(i. (i uf fi <)warn c mmf 6 Aisi^ ^ u r (4: u 5 (D-V-tf- h#:$ij^$a^89 l:fT9 ®(i#LUo v. ;tm#v%7A®B#6CPU(Dm#^{k (Dv%f-A(7)B#(2. 2-vi-®) ^ ^agc-tr ; #c#m $"5£t#AU6#9##6 A 9 Ztuzfcm0 ijtiott(c < L^A\ ^E^AvXfAWi^m^mauo C6(:^6-io (BCPUtmBKk a. 24#^#m%^#m-U--/<-(2. 2-vi-(B-a) 4 W#t##^vx7A(iA^AA*A ##^±^47-37^60 4B#m#A#^-/<-mm(D# AAA 4ims - 4/1000E 6 C PUT#m2fLTU&o b. Am#< ^ h #A 1/ > ^ vi/#T (4^% Am%EmmAvj\m 7 ? h(2. 2 - vi b) vi. 2-vii) $ %ALTU<#%C#LTig#%L-C&C60|##(iEATU6&k A*il ^ v p 7-<>%###(:#-#-a, mm®tiT u 6 m#-r tm L ua« ist> <0 (c ^±mT#/c 8 SKS # *; Appletalk SF ES m: FDDI - Ethernet - v K 13 h Network 192 Kbps SM ; UTnet, T1SN m (## —180 Mips CPU ( M-780/10, M-780/10S, SUNx 6. S-3500x2, A-80 ) Power -600 Mips (VAXx 14. DECX8. SUN X13, HP x 4. IBM, MIPS, NEXT) PJ3 On-Line M-780/10S t S-3500 x2; PSL##-500/sec; CMT-Storage 1 MB993.3 I) 10 0 n - L i n e • Data Rate Tape Device 30-300 KB/S CMT VHS,.. 11 Network/ News/Mail/ Server Information JX—tf- EWEtS 3. 10 Mbps cpu power = 30 MIPS x 70 100 Mbps or Greater 3£$te£TBthernetT.fct\, cpu/ file cpu power = 100 M50MIPS x 15^; 10 Mbps E L5WOWS •} 100 Mbps or Greater SStiBthernetTSOn-Line ffllilOOMbps ©SEAL'S 12 Network/ r-File— On-Line Segment News/Mail/ Server Server Information WS UTS Server Esii Host 17 \ (Vector#/ (FDD I. ATM,...) Parallel#/ 9U9#/ x mmsm) Non-24B*RU Server E---- j 9rW#§5 cpu/file 15. 10 Mbps cpu power = 2-300 MI PSx5-6 Si + Host 100 Mbps or Greater dLW©WS£-fr-/<-lcfiMTh*3E£ISt) ^StiEthernetTSt'Ak On-Line RLFHostffi tilOOMbps A<£9o Network/ cpu/file -Pile—On-Line Segment News/Mail/ Server Server ehh ] Information Server Server Non-24 S#Pb1 cpu power = 4-600 MIPS x2 S + Host 10 Mbps fiLSW©WS£if-'<-E^-r 100 Mbps or Greater 3t88l±EthernetTSL' 16^ On-Line Rt/HostflB tilOOMbps 13 SF Lab ■ ES Lab isti 7. 9 9 5. 4% mtl tsm-ixm LR550 9 7 7. 6GB — -|lanc Xt'J:6 4MB DISK: 5. 25GB CMT 7) - LR550 F 6 4 7 3K: 2Zt 4 — LR550 Ml «-T/H <£@-7) SBSHE/^A —1 CMT LANC 7BTF 6 4 7 0 : 6IC LANC LR550 U T n e t CPU:2 CPU CPU:6 CPU FMV-466D3 XMiNT CSL LRS50 X9BU: 5 I 2MB : 5 I 2MB EXB-1Os DISK: I 3 7. 6 9GB Dl SK: I 4 I. 3GB Xty:24MB :2 4MB SCRIBE EXB-IOe EXB-IOe DISK:420MB LR550 LR5 50 LR550 :64MB DISK : 1. 0 5GB i >*'J : 6 4 MB Cisco 5HC 7SC U)5-7"y»6t*7l$0 0«72ailXa9C7-F.-KXH f i 'M:,i \ V'?-m ^ ^ -y" /Ufj!/ 1 9 9 5. 4. m# VP-2 100/1 ORE K/ h/U 285 MFLPS 64 MIPS 1 GB I/O DISK 130 GB Cartridge MT Library Max. 1222 # 977.6 GB Cartridge MTSSCF6473) 4 £ 8 Unit Cartridge MTSBCF 470) 3 £ 6 Unit (1^*9) MT 1 S HKl/—f-/V 1 ^ A4 50ppm CPU • 7 t T — — S-4/1000E CPU 6 SPECrate-int92 *11600 SPECrate-fp92 *13480 *1109 MIPS /tV 512 MB DISK 141 GB CPU"^>7T>mV7T;l/-V--v<- (gug%*9) s-4/1 0 0 0 CPU 2 SPECrate-int92 2730 SPECrate-fp92 3681 *271 MIPS /tV 512 MB DISK 147 GB S-4/10M40 (gU9%D) EXB-lOe 2 o' 30'—250 GB (8mm Cartridge Tape) X? 40 GB SCR I BE- 5 72.5 GB~105GB(VHS Tape) 2 5% S-4/20HM100 CPU SPEC i nt92 107 SPEC f p92 129 *223 MIPS /tV 64 MB DISK 5. 25 GB (X%^B o o t *x K /v s- 4/2 0 LM 8 0 75% CPU SPEC i nt92 90 SPECfp 109 *187 MIPS /tV 64 MB DISK 1.05 GB s- 4/2 0 LM8 0 25% CPU SPECint92 90 SPECfp 109 *187 MIPS /tV 64 MB DISK 3.15 GB X%^ 3 0^ /tV 24MB 21" /77-f/X/l// DO S - V 2 On /tV 24MB DISK 420MB tv FU-//V > / 4 a 600dpi A4 10ppm la 88#/A3 116WW# AP - 1 0 0 0 PU Super SPARC (50MHz) 50MFLOPS ( 50 X32MFL0PS) /tV 16MB/ce 11 as BvP^wW^MI PS#i[gigTt$2auKav Eb^f-'5,(:(iWS(D#^l/2 — 1/4 NEXT PA TT A R 1ST 2 CDjlS}®^^ ^ A mm#§#3%§P ^Z#*V>^TARN2(il 0" T o r 3- > t A® k" - A T^a. C CT(ii-(Di@^i^ggZ%f A^rf^O 6 $T(: :#/u%c k^6km*t:"3VM:$6^-r6. i. w i: * c T A R N 2 mtSMM£ ZZZ AttS* Wtc TARN <7) T? St © E H &1 ± *C *a% T, TAR N^rMIS:U/zB#(7)%x^^k't)ES(vizE^^> = m?W#5%%T(D#3m@T6 o tzL^-7ha>gf@AR 88 0 #(:#%$ ^l, m-f #*Ta#&:!%%##§#%&;#%?at&(: i / 5 tT;u )HI:3 2 m(J)T A RN (Test Accumulation Ring for Numatron Project) t!r 5SI5 TARN(i8$:TD#-(DZ^Z#mVZ^T60, SFftZ^otoZ -Amo & 2 x i o-" T o r r tz n} . TARN0isiissi;^a*.T^Fgg4^9, a-r a /: /j. TARN#UTP#?lGeV, #Z^Z Z&Tm 0 3 7 0 M e V IZ M "6J #E & HI H 7 8 m©T A R N 2 ©EIS^l+ES n k, SFifZZohciZl:^^^/:. g#|, TARN 2 /^tf] { 3} . mm, k'-AmOHlU M) ^k"*^t)^5jf^mMkUTmO±Lf6ki/: mgg^-A#@miJ, MB, k'-A^om^tm&TIAa. TARNkTARN2 Z Z - Z - i tz, ^EH £!D l tZTfsbtz* m i T A R N T A R N 2 M iz — A -X- ^ jls 4r — 8 M <3 VZ u 3 7 0 M £3 VZ U ( q /A= 0.3) ( q Z A = 1 Z 2 ) 3 1 . 7 9 5m 7 7 . 7 6 m 1 . 8 0 m 4 . 2 0 m % 8 6 tif5]SffiE$5 8 2 4 (Bffilft 4 5 1 5 ’ HZ'58 til 9 . 0 k G 1 5 . 0 k G 1 . 3 3 3m 4 . 0 4 5 m ^t9¥S 5 . 0 6 m 1 2 . 3 7 6 m E3@«ffie$5 1 6 1 8 0 . 1 H z s?uesiiii^±(f^rHi 3 . 5 s 17 fyNij/gT&9, ft L ft ij fill: ft b c 'tE -p T T V CO $f M d -r^xoMS^# a. J: 6 0 - o UTm^^f6]^a S -h, -5, <; L C <0 S ft' E £ $ J; 0 h a > ##co#$@ A* K - M j: 0 < ft o TKifK&ktfia. C^(i 1 |5](0%3L(: j: 6 0, m?(Oi#AC±#U% #5L#dM\3 #di#f <'(:##?<%*##$g#%w ft, MB ft0#^ I: j: -? T M##iMfti#%] L, MlZ ^ tz o T£ t>tl Z>* Z (D £ *) %: t%&It £&&&-?. MT-r* li z (DfitflZ t A. t'T £>£< b. JMMfS c. efp^xoAmcj:*### ^ 3- :/#%?&%!(% ^ ft -5 c E (: j: 0, P ^ 0 m-f > kf- A^## V ^^CftA^fttBAti-Y 3":/ E (D^mgE^C j: -5. k: - A3#jgft#3ec «t -? T^Ybf iAK# I / I 0 = e xp ( — a 1 nop) 1 = v t c c (: i c i iite* t fcfc> 0 iz &V 3 ft * y ft - a&%, Mift^-xo^egg*#. nMi 1 T o r r CMa###*####?##, pfilfflA^EA (Torr) v. t(ift^>0m%%Cfft^ft(O!R^#^T66. mmu-cm/^>k:-A% v < T) > U^iCT^3 ^16, a = n o a v p , "N^c-3^Tco^%<7)±#mE 2 c^uft. {5} ^m^ft. 3. sgiMgcofwom&t- ^^g^com^mp (Torr) (i-E-cc^Af^m^ne^^ocom^^# (Torr - 1/s) E S ( 1 / s ) E T 6 ft {X^T#jo3^l6, P = Q/ S 18 $ a,#&a. 3-1 *#(AS&@T(#77'(7)iM%) A ^^7^77' (IP) >yyf-#77' (TCP) : $gmm #^7, (NEO : m *#c#fa ^^cDA-rm. B gg%B^>y 7 - *'^E* ‘7 7‘ (TMP ) : SM$5Htc ?A@e^77: m#Me±m^e#a!. 3-2 Q^/J\$ B mmmm flnM#7 : #EM#^7(7)m^ai U, It fc —IlSWCiftg*' 6!^. %%%?#: Ar#&*A. c v-7(D%ma#± HeV-^fT77-: - a c j: a. EBm@^mme^r:+: Hzc-foGoaca&eHe &-c#3i, h s tr — i> tc «t o ftffiUviEizftmwmT § a, il±m : ' 1 0 -9 T o r r - 1 Z s @#<0 >} - 7 * 6 A* 7 7 - )\s ? £t± °T t£„ 3-3 rnmn^vm^ A ±Elt B-Ay-s;: 31/7^ -(7)##:^? x me j: a^%f u /c. ^4r7h?77-y-v: xmej:a#;#^$ ee(&^u/ct)(D. #P#@sy%a##g^ 7^'^ h a >Si : -< ^ 7%^#E^(±^mB. 19 B #E#t mm&mytmfttirft; $>&&&? ^©^^&mi@ai^6wakmE©mim^fum, *gg*m© *#©#»?. v-777 h 4 o T A R N 2 -?©£jl5ff % 4-1 r74 ## A)T^i'^a-i {6} -^>y #©^@kf7©^-fk. ^g^77A7h7i/&|g4, 5. 6(:^L/^. MJ& X' XlZJ: 6 7k© fi££©Ktt#HE 5 ki/zo s) T%hma-2 mm####) mmwm^^tDmvQ-kK^wzmi'fuAr #7&a*A, ^ A r 4 ^>T%%EL. #m(:##UT©6k7'7^l%&U^ ( 1 . 7 } . 4-2 TARN TARN©#M^ti7-7h©$A#&^^4.. 4 4" 7 #7 7% f-77y-y7-# 7y. 7 -#^^#77"©#^^ u/: 11} . 4 # 7#7y%##7©#mimg ©^#7 - # ef#7y(±@ei%©±#© ±MEA^6©#MT1±. ;A©#6!f*a%#mja/:#t:#*6R. 4]fmm©3wt)5BSfmTa#-3-a «t ill!, 7 * -=- * 71/ 7' ~ 7, 7 - # >7'®i?| § U fc„ *^ff ©WEiiSC £ /c o T li S USifcliAl ###$#%. A l ©% k'©fijA#&a#. 6 © T i.t-jr'rTVI'ttzfr-ofztzti), S U S 3 1 6 L £ © 3 £ t hZ ti o fco e^agtimM^mTyT.^v ^ ©3 77? > h 77 7^^g$a u-r, -gpcti 7 -r 7 7 7 i - 7*(CIS 7 ^ L f;: 7 7 71/ 0 - U 7 7* -*7 7 71/ 5 © U 3 7 7 v 7 7 % {f ffi t T ^£g!$] ti 'J 7 7' [*i 13 A ft * © «fc 7 iZ 1/ fco TARNtiie-A©snjiti-^$u&©fc», m#©^{k(:#6^#^© ^ < T t, ©©"C. 7^4: v h ©*^#(±3^ 4 mm©^#^r^# LTfF^catCU/:. m^©A77-7-^#2t:^L/e. #m&©#GE&El7, TARN Tti flO.MtfX i: J: 0 2 x 1 0 "> ' T o r r ©$8iSS^ £iSf& L fc» 7 Me V©P#?t'-A©#i&:i%Lt#m3 x 1 0^'^#6ft^. C©#(± ummizr ;ixy zmx U J*£K£I£*.TffliJ$L/l fc*~A^ 20 5. T A R N 2 t a r n 'cm% 5 - 1 S*7Jft { 8 , 9 . 10} #^>7TA0#^:M^#(±T A RN 5-2 V>7'0#^ v y^ttGmpftvMmmw, 2 4(@0%@#E5a 1 si0Mik^^o Aig^#%TA6. (s 1) >71/77-, m Z#m$#gR (S 2) (C(d:b'-A%oajLm0#%ty7A, WT (S3) CkttY -A%OHjUm0t7'7A77^vK (S4)C(imf^m^jg, (S5)C (d:RF7>777f'«@. (S6)(:(iRFmm^78*^m^^^. f0#%f t'- A t ef-Y X y t(Dffl3Z LtztzSb S2, S3 0#%t77 A t t 77A?7^v k isssex x ymikm^m h 7 > 7, t immmo £-a xuy 7 x .nx~? - tx &/:S2, S6(:(±X>777^vl'^0t7$v7 f- i' > A - ^#A $dlT a,. 5-3 X y-fnmk 0 T A R N 2 1 lC^bfc. m# 7 8 m0 V >7' (± 2 iOfag 2 0 0 m m 0 7 7 & XA7'(C J: 0 ^£P£IS0i§S $ h tz S 4 0SWk f A, h 7 >7d<- h 7 Y AH/7'Cd: 0 f±# 6 a T 0 a. Y ^ ^ > 7' (IP) 6:^7>yv 7-^77" (TCP) # MS %M> 50^0# (OLD) (NEW) T^L-T, (g0«t-) (:K@$^T0a. 5OOl/s07-^^f^>7'(iSl, S3, S5C, ± tz S3, S5IK1 6 5 0 1 / m i n 0 □ - 7 U -Xyy't 9 Om5/h0y*-;O ±m5A>60m#mcem$^6. m#M0 ^7-^f^f ^>7(i 1 0 0 1 / s 0/J\$ 0#@Ed< >77#M7 &. K35&0 A7 y - 7 - & # 3 (:##^m)%0^ >7"0#mmjg^#4 (:^ U 5-4 #gg# T A R N 2 TtiMI" a*s^0S 0 il L i± 0 . I H z £ {£ 0 fcfc. SEMSS «0#R. TARN6: [5]^f (-J15 4 mm0 S U S 3 l 6 L %mm L T ftfiSt L fc. @^##5^0%^^ (iE50WfSim^i5° C#^B0 2$0m^f^^-C^%Tad: ^CU/^. fC(:U777v^"7 I1T8RIZ li#y 7*. ±ffliz l±s< a - XT±TlZ-5im& 3A7t- 7 - -$r!£fi L, 21 iWiretc 2 5mmO^;bO - 'J 7/£ ffilAfc. MMEBR ®m^#^mBTTARNTm(/\/:#&^ZUT$ijmL,/:. E3@%E5m 2(:^U/c. v 77"m©^am^m©^#(±)mmja u-rmg253mm (73 3 y 7 7 v h 7 7 7 7 A j$ ffl L T (A -5. £to t± A 7 h ffl V 7 7' i: L T7K¥^fS] 5 - 6Wm#7 f]#A7 © /i#)<73;MA;:i(d:Ef6]MEB$©K£}| tzov^ tt*B 1 OOOAOt nS^rsSf t L tzo Z 5 - 7 AME*'6©#m]l^±tf AME^6©#.M(i 1 ) S 3 £ 7 a S 5 SZ EB$ il/i 6 5 0 1/mi n © o - 7 V-^7 7'2^^- *9 1 6. 2 ) 2 0 T o r r ftjfi T 9 0 m3/ h ©7 A r. A 31/7' - 7 7 - A 7 7‘^fEli! 5 A ^>. Cj7km#D%d>e#fD5l:a#Ta. -E-UT7-A^fA7AA*^/:^7]^ % A: V > S M T to © i$ % £ ft < MS (Z to A -B A it> © *t E T' $> -B x #J 1 0^7 1 0 - T o r r la (Z A 7 „ 3) f©%7-A^E^(Z^9#A6Ax #%©#M^^^'B^lB$^#(ZSi 1 0 " -’ T o r r o' (Z A 7 o 4) 4'^T©i@#-CA'7Av h©#liSil^A^7777©M-^A^^TA#^ V -7#&ai#ASim^Act <^S^U(7)7x A A 6. lO-f'Torr&CAfKZx S/^A)4)'5rA'7t7J©V-7TSi^(/^'6x <^(i H e V -7TT7 7-^/cU0m@^g^7e## (MSG) &@mL,T/i\Z© V-7^#tBUx 7777©l@U*§%kA^M±#T±&6. SGCmg^il/jM S Q l\ >J 7 A A — J§] L T —SE il tz ( S 4 It A Jls 7’T {± $] 6 tl X (7 7 tz#)) S3(:667777©V-7mM!T^H e A'7&%g^SiT#djU^#©%@A"7 7^7 h VU^EI 1 3 l:n; L 1 x 1 O^Torr - 1 / s T&o %. 5)()xi:%*9%*'7^#mf7. ^AA77^)0^x MgglgAMO^TorrSZ I P & 2 5 0"C^TGP^300'C SCAB. -3g"l:ma3K<73K^fac#9x S3(f 2 0 0 °. CT 66. 7'077A/l/tz:7-^^MA 7%^%^^ h 7 77 % ^<73A^cam(:g§v\4)(73(d:i 00° c^T©mt)&B. ftmcmfaimmsBRm AoTAO^f 6. $^1 000AT150° C(:^6. )0#^A' 7(73Be^(i*'7m#(:E^T#M)m@^/j\$ U ^ 6f x a# — jSfKfiT Si 9 %0###A 1 0 -7 T o r r © X (A £ Z =b £ TAI S jiti. A 7 7 <73 7 -f 77 7 ^ t,E^(:^A"7^ AB. 6) wz#7#7BW-%cao3Am%)@i:Ox Acc-c A7^7A©m^^% A A -So CESi%W^^B#(ZA'7%EA6 6/z©x * ft/>*flh©HStt Ktt® L * © A B SZ ig)g © iSAM A 1Z £Sfft £E -B A © A fc -5 „ £ tz A © B# SZ 7 A 7 A - 7 © H%#7&&b-y-Tfr%% 22 5 - 8 8' 11/ F 7 y 7" 7 7 f 7 7@ Aib7'^% U, 7 ^ 7d< i/T'omiBt&tOo T t^Ji/ r 7 v 77% F *'rr ofc„ rn 1 4 ic S 1, S3, S 5 23 5-8 USE, JC^If EM£E©£>3 S 6 < 5 *FJt<9:EEM 6: ^ y yx - c 8, cio, cii(D8*mcmMM^T&o, -e 6. £ m@^A^^gtc ,t o ^ j: c» c c=o /:. #(: -f =f >Xyy'cDfil^itf zi'Z'o^x(D$a&&x raj SB .v?, a h y 7 A E — h E y 7A^- E%(±A##§©©B o E o 7^6 V 7y©A#.^. 3 3m B-©MEd§ J: 9 ±sSli TARNOt^OitfljfflL, < (DWZmn BUT 3-X^ffof;^, B- A^#%#m-B©#©^E(C E 9 9 77' ^^^©mBT^mwB-Ayy E&^uAmc#^^ If* e>*(A«j9TtCjfi< , (T A RN®8|® 1 / 2 iilT ) X^MC muc% #R#M, ^7y©§mYb^^#. X^M#©gRYt:(d:±<#^(:#L<, #i5Xggg:2##, #^7AAA#$ %M(:If # U T ^ 6 ^ T & 6. AME^ 6©#M© ^ c^©E 77', yxyu A © £1 eemeaab $©m 3 > h p-ib, f-y >y y y - a 7 a ©*SfE * b e -s ^ # B C A 6. iinrtA X)S*(i 2 BJg 7. 1. E##%*A# Z A, *A,B^AATi^^EAU^o/c. 2. @ IMt = ;£ £ A-5m!E =1, # B (± @(f Au ^ A t)A©A& AyAA-y^'EAAcy B (A 9 $> o tz. 24 M 1 0 "1 1 T or r ©ES SSM T Effl $ ftT 5 KSIt ti B - A X - v, -*- A X h 7 X X - X' - X, X ? x b a > X ~ X T A, *6 ft A, 6 X © A" & T A X £ AAX A ©ftti<7)E#iC ck 6l@# (WAtffrZ^ - A - (D X ax M TUB - Ay - X(D x|IPI^< 1 O'l0mb a r, 1- 7^ - y-v'ttiil 0'K’mbar) , 3. ^ n X A ^ y A <7) fLI H T & 5, 1. ti V A X L4,?e^ftXo/:. iSiaMa'xuBat uxmf^uft X, #RfrCj:cT:(imA©#fM:j:9#^T#f. ISA,/:. *^@^0#^:## V X X±fet L T ji. fci§£-©X 7 X X £ 8'© A 3 (C 8 -5 XU L t So tz. T A R NK^m©e!t@m(±%E©A^(:#i@f 6 j: !) f* (/j\$ vx a) , t&ljti 3- y is y (A£©S) > MU ft b (A^]#fP) . (iA^.xm*6LXftXoftX. #L©RHtC##U©%2!X,##/Z. EI19C MAXTARN2(:a b'- A^BUftBeg^AX'S^SjTft. F A X TARN2©#^, ##(:Mboft. ^ftA©#©m#e3%t:ia^$flftA#. mmm&. m. JAamw], #a#-, fgmtztz. s^iea. mam#, Momfr, #mm#, e%xm, itm-gR, uu#;ij#, tuu %, XA X o X ;i/-©^a:A©mA^©Am©t@::&(:ft c a u t. SMf © tzlstto 1 . M m XS 2 2 (1 9 7 8) 2 1 3 T.Katayama et al IEEE Trans.NS 30 (1983) 2080 fffliA M m tiom%&¥ 2 (1 9 8 7 ) 5 1 2. T.Katayama Proceed,19th INS Sympo. (1990) P21 3. mam# 48 (1993 ) 966 T.Tanabe et al Nucl.Instrum and Methods A 307(1991)7 T.Tanabe et al Phys.Rev.Letters 70(1993)422 4. M.Tomizawa et al INS-Rep-922 5. M.G.White 8th Int.Conf.on High Energy Accelerator.CERN (1971)368 6. H.Fujikawa. K.Chida, A.Mizobuchi and A.Miyahara Proceedings of 8th International Vacuum Congress (1980) plBl-154 7. f-mmx ### 8 3R, 5 2#m, 5 6M 8. K.Chida and A.Mizobuchi, Vacuum 41 (1990) 189 6 25 9. K.Chida et al. Vacuum 44 (1993) 539 1 0. K.Chida et al. Proceedings of the 9th Symposium on Accelerator Science and Technology KEK (1 993) pi81 ' \ i •88 tlMI58 13:51 my i 002) . | . ' + t j A 4'*"! u ' I /< Fax.. 0M&-64-32I2 EI19 26 Extracted Beam i'0TW Electron Coolin Septum Magnet Electric Septum TARNII Transport Line RF Cavity Inj. ^3 System Transport Line g Analytical Magnet CAVE-3A SW Magnet SF CyCLOTRO/V Ell T A R N&C/T A R N 2 PRESSURE(TORR) 1.0 ION HEATER O Ei4 PUMP VOIFF. ON TEST LION T TYPICAL TTTTT n HEATER t B-A auP CHAMBER -at GAUGE DURING TITANIUM TIME CURVE 30 P OFF [ "40 Torr (HOURS) OF PUMP BELLOWS METAL FOR VALVE 500 TURBO-MOLECULAR FLASH PRESSUR ___ L/S ] DOWN \ _ ULTRA OUADRUPOLE MASS - VS (B filter ) HIGH TIME PUMP 6'CONFLAT. flange VACUUM 28 1 sec GETTER 1000 TITANIUM •O ---- L/S 500 PUMP MM .16.0.CH, A4,C0 15.CH PRESSURE 17.0H BAKING BEFORE 2 1 ? i5 RESIDUAL (g2 ' 13 baking UNDER ( @ 250*C) GAS t* f - Xhi-Il COMPONENTS a BAKING AFTER £ w (: m OPERATE Ti PUMP 6 PRESSURE!TORR) RLSIUJAL CAS SI'aTkJM KESICUAL CAS SIT.CTHJM S.s X 10 forr l.s X 10 TO’ UNUCR HAKINC (ZSn’L) l x 10 A/rs A) M B) 17,01 RESIDUAL CAS SPECTRJM to <£> AFTER Ti 1UMP Ol'ERATION 1.) X 10' KtSlUJAL CAS SVLCTIUM 3 X 10 o | --- 1------i------1— I 17,01 10,0*01, @6 A) B) o D) f ^ S2 TARNI^®-''7>-?- Total volume ~ 900 1 f- ? y -* 7' <) y - Total surface area ~ 2 x 1 O' cm' Out gassing rate (Required] 5 x 10"" Torr • 1 /s cm' ( 130 0 Required pressure 1 x 10"10 Torr Main pumps -4-ymr Titanium Sublimation Pump 1500 1/s x 8 Sputter ion Pump 800 1/s x 4 7‘( 250 C ) 400 1/s x 4 Distributed Pump 200 1/s x 8 Roughing pumps Turbomolecular Pump 190 1/s, 500 1/s. Oil Diffusion Pump 100 1/s x 2 Mechanical Booster Pump 90 m’ / x 2 A? y y ->3. Rotary Pump 650 1/s x 2 LEGEND; Q SIP 800 I/s 0 SIP 400 I/s OSIP 200 l / s/m S TGP 15001/s TMP 1901/s HI OP 100l/s m MBP 90m 3/h RP 650 1 /min 19 HSW4TARN© is L-N TRAP @ RGA i GV -M- RV 07 TARN# 5 straight section B bending section Q Q" SECTION VACUUM SYSTEM OF THE TARN 7777777' }-40-— IS------Y-Y'CROSS SCCTI0N X- x‘ 08 TARN# CROSS SECTION ION BUMP VACUUM CHAMBER OF THE TEST RING (1/8 SECTION) - 30 VACUUM CHAMBER ( TARN- II ) Mass Spec trum Q-M D-M D-M Q M Pressure (Tor r) HI 1 0 7Me C8 1710. 0 0 /> C9 C7 CO 00 NEW □ O OLD 112 TAR m 1 1 T A R N 2 13 TARN2I^^0A7^-^- 4 w&mmvymmmvttm Parameters of the TARN-II vacuum system Table 1 : Comparison of the pump speed before and after the upgrade of TARN-II Circumference 78 m Total surface area 5x10s cm2 TARN-I TARN- II Required vacuum pressure < 1 x 10-1°Torr Previous Present Total pump speed 1.7 x 10« 1/s (1/a) d/3) (1/s) Titanium sublimation pump 1500 x 7 Sputter ion pump 800 x 5 TCP 1500 x8 1500 x7 1500 x8 400 x 3 1000 3 Turbo-molecular pump 500 x 3 700 4 Out gassing load (Required) 400 11 < 2 x 10"6 Torr-l/s Out gassing rate (Required) Ip 800 x4 800 x5 800 x6 < 4 x 10"12 Torr-l/s-cm 2 400 4 400 3 400 5 160 2 160 6 Total pump 16800 16000 30000 speed P(S5)=3.0xl0'nPa (2.3x10'TTorr ) £3 10'1‘A H 1 3 U 10'1°A V ~ ? M Bi iz H e £ 10'”A f: % fzmoiM’g ^ -x ^ 1-/1, L 1 /Vy 1 0 _ A Ha V\_ __rA__ 10 _ 7 A H=0 CO/N, V)______1 0 "'A M/e 2 18 28 43 - *93 / 7 / I? - e* 1 Min. O -93/7/1] m i 4 3 e.$| * 9 12 3 e.$| S *.$3 8 #.S5 12 f K T y 7 B$ (D a I Min, rw? a 93 / 7 / |4 - 63 / 7 / IS •• 3 e.st 6 *.$) I *.J5 12 • SI 6 ».$3 9 *.S5 I? A: Ion pump off. B: Cooler on. C: SI.S3 and S5 valve open . D: Ion pump on. E: SI.S3 and S5 valve close 32 - EG - ION CURRENT (arbitrary) X ION CURRENT (arbitrary) > m m a % 4- V — o gt % $ V ' <1. “rrT n 3 o > 4M .u t=f- A IP DO ON o a > > N E G ft >7 %S> {t \ x highest value o average • L OWEST £— A® 0 tfcJ xx no n x CO Ox 1988 1989 1990 1991 YEAR „v>4| t----- J-• -“-•—'—--—I - |g 1 8 - A ^ i" AB$ CIO AVE S3 SI -1* *>■■»)■>»*» ss ll • »Av« ?1 |h| **J1 3 •■$} I ••S3 ##ISOL-ECR^ ^ /MSB ABSTRUCT 1995#(:SF7^n on- line##-fXh^#(j''&^TU6o ^Ne^m^mbC^U. RFQ7^7v^TO #Wfk<&;t-?TL'6o i. jg#, #%_7;L/7- (glOMeV) ^r,TL^o #&, L^<0^®proposal^ai^flTL^^ g^(:##LTU6&0(± Leuvain-Neuve®^T^6o L^Lx C(Dm#&T(±AnmT#6#@^#^^l:jo<) (13^19^) ^ (0.65MeV) . T4-D®7L/^-®m^#^.6tlTU6o ^0^-317^6 E 7 L/7(i, 7>7<>Ri: (ISOL) 6m^7>^7yfCJ;^T, #/r^#@^6.5MeV/u^T#m757 (2-A7 7 v v -r -rr^60 to(i±E0E 71/7@ 7v h" ^m#76C6(:j;^T#^^6m###^lSOLT^mL/. 7^7v^T7nm UT, C0##T(^a6(:E 71/7^7>7Y ^(:##ISOL-ECR77>^(:'3UT# ^-E>o 2. E7l/A(:^lj-6^->7^>^#:^m## (ISOL) 0## E7l/f-^K#^T(i. m^CDS Flf^^D ho>X)^0b"-A^^7>^O#M cm#7^c6cj;-9T. 40Mev, -lO#/#0A^#^mi6^^TL^o 0-2(:E7L/ATf#6^l6ISOLm±^^ 77o ISOLM^7>m(i7-yv f-7v h^(± 7-Yv h ' 3>77-CW:K# (#^7-^v h) %^#(:7cT^n#L TMU6 (jock^SOOT-ZOOOT) o C6Dj#L^7-7v H:SF7^^Dho>^^®k:- m#:(i7-7v h6ECRY77zm^m^h7>777- - 7^-7'^#0ISOLY7> -Y 7 >#(:]& Gfl7c j:ISOL^ 7 >mc J: -? T-f 7 >fk 2 flM 35 Unstable Nuclei Production with 40 MeV Proton Beam ol 10 ji A lb 2 3 |g-l. 40MeV^f (lO^iA) XSOU-EC R < 3 y>R w 36 -1 7 *>25 7*Mk£ ti5%5? a« snuTE^s (positive) 1A, IIA. Lanthanides 7 * Wk** T > *> r INS-ISOLTin-bcam testJU^f71 (negative) VIIB positive-typcOqfciS r 2 k® it^Wtc7* Wk FEB I AD II. HI. IV. V. 0 £le*5cSo7;|- Wk 1992^2^ 5ES7-S ECR OSl. C. N, 0, F# *#;££( 1993$2y9^fm (6.4 GHz) •1991 maintcnancc-Ircc •1992^(5 77^o&2R. A4S8E. ««!&(£*$&). etc. fe.au {*%/ ) ECR4X>: m-3. LTm-ic^ck^c. 2)HEBiAD^<7>mx 3) FEBiAD ECR^>mT(i^ ^16 69 ^ ^ >^6HEBiADM^ ?r >amm ##7c#c#-#-6 ^r ^ <, m^^^ECR^^^m^isoLM^^Try^chUTmi^fi. m#:7c#(m$m< Y?r> it^ti^o ^T'i 9 d b p yfr^(DPir-^fc: — -APMftr <££X-oX*kf&£tl6%3.&$r lc'-A6UTm^m$^6/:A(:(d:, ECR^7>m^UTmm#W< #mMjt®#/J\#(j:l/3OTjD50T\ 1#2W7>(:#UT(;L m##30^T®mf ^ 3- 6% ^ ^ fi/: k: - j: ^ td-A- h^X^-h7^ >;%, m^^->VzL7v^(:j:^T$tlMGV/u^ T#ig$ ^I'E, o 3. ECR^r 7 ym^m^mm^mmisoLmECR^ ^ ECR^7s c^7o ^ o% ^ n h O >## (Electron Cycrotron Resonance) (Z ECR^^->mT(±2-3®;7-3 ^r;L/6 6#m^^(:j:-9T, mf C^LT##f J:9(: m#^^;ff-6o ammfu, 7^yo#0A##c, U. 2"D0;7-3^;l/(i. C9LTTA/cmf^ &o c-^u T. CO^CA^JA/v/: c-ixio-^Torr) imom Ne#^#^ti6o Cfl^^ZOm^itCct^T, WiT<6(:-A0^(d:A^]m9O T\ CCD^miECR^^^mC^-^T, 6@ Ty-Kcmfom^u/cmm^smBo^-^^LTm^o coj: -pc, ECR^7r>#o^:tT(i, 00A&K ##iS0L-ECR^^->mom±g^g|-4(:. /<7/-f-^m-2(:^fo ; 7-3^Vl/0#±m#^^gI-5(:^fo CCDECR^7>m(j:x ^^TCDINS-SF-ECR 6o 38 CM r T o 10 20 30 6.4GHZ MICRO WAVE ,VE GUIDE FARADAY CUP OUADOLAPOLE PROTON BEAM FROM CYCLOTRON UNSTABLE ION BEAM THICK TARGET I TO TARBOMOLECULE PUMP SOUS TO TURBOMOLECULE PUMP TO TURBOMOLECULE PUMP 500 US 1500 US Hf— 4 . A schematic drawing of the ISOL-ECR ion source at INS i-2 ##ISOL-ECR-Y -7 4 7 a 6.4 GHz tati ikw SmCoj 6 @ tK/p 5C mmm 3.2 kca± ; -7 — n 'i jU {£%?'< -V- 9 — 10 mm x 10 mm x t 2.5mm 96T/Coil WXWfil 725 A 69600 AT(~6.2 kG) 70 kg/Coil 250 mm 100 mm ioSSE. <6X60 kV 77-Kf Coil 4 200 60 5 00 , OA A A current ; OF 20 $ - 3 THE 720A Y vw: 40 MAGNETIC .k Z(cm) &ECR,f 40 60 f FIELD MIRROR 80 DISTRIBUTION MJ It M lajHHik) CCILS 100 b t* . £ $ at » tz *0 -XIB.'? Tl ) flijiSOLcuvain-la-Neuve, ^6XTRIUMF(7)ECRX 1.4, 1.3T^6o 3>/ 3 A®##S7Xy-X XXX7——XCA^lbm tlTl^o S@©^^5>SO^iJ^-gi— 6 C77o S@JhT%' 773.5kGauss"CX> 6 o m^Trxv-7v7^@A#^f|:^6, isoL(±#A60kvctnmu77^-x ^0m#gf:m6C6f:^^TL^o #(DECR^^X^6(m^fp. 6OkVT0m tiT7£7\ 3^;i/®^(:60kv®^%E(:#^Ti\6%#7-j: xa —7ii7tiTL C07^, 2-70;7 —3-rvi/(j:#^5mm(DvV3X##(:j;-DT. % m f jLX/<-m#^y7Xf-v7mT#m^fiTi^o ■xX 7 n^©fAi-7lX t, *xX 7 Pi$li^7S±Mi:it7tiTl^®T\ fitlE g60kVODCXnvX6#9mm^fl/:###^M^6^Tl^o ^bC. %m7^x/<-R#cx-7^xy6®^(:77Dxo%mxx h^A^ib ^1, cfi(igiAmum#-c##60kVT^#mfC(!=^m^^ 2mm^6r#g^j:9(:6#A/cm:tT^6o ajL7jc>/<-(i#6UT#9?%TjD5o ^7. giAtUUmmo^W, ECRY7X# #x(:ct^T, 7/- K(k9l#a!Um##fm(:^3m^m7@i&6C67&a. (X7 V^;l/PIG%#) C^i^|%<7:A(:, cogg^CTg^^/c^x^m^cm^^xy-Cgl 7ti-6filt: 3 xX XXXX-XAA(73CC $ tlXl ''■So X ~ 7 y h • fx X/\— ^4OMGV®^fT##$^6 6m#{bf60T\ %mbL/:X-7v X-7vh6ECR7^X^^®^ (:7-h/<;[/7'^mL, ^g(:g;i;Tm#-X6j:9(:^^TU6o a/:. hxXX 77--7zL-7'(iXxXvl/Tai^T^^. 3Vl/7'fzL-7(:^#$ fi6o #X#AXX7A7##$ -7^Xo#(±|g(:^-Xj:7(:mm^[pi^6A^6^6o #^C(±X-7v hg; #A^7b®-x7XD#A#(iTA^ Uo -x^xom^^m-Tc^-fo #muT^6M#m(maiL./:#(:6.4GHzT. x7 X o##$S#^ LT#Ami;l k W® X 7< X h o X7#^flTL^o #^##^*7x7 Xo%(j:U t- hnx hD-;l/T77XD##$M^7ECR77X#(D7'7Xx(7)7Xk:- X'XX#^6 6EH7zL-7—^^60 EH7^-7-(±77XD#0#fT^ (z#) c#m^^ (x#%cfy#) ®^7%t-x-Tm@u, ^ Xl:-X'XX6^®fcOECR^^xm07'7XA-\OA##®^ Xt:-yxX^#^T #6 j:9(:^^T^6o cm: j:^T-74'Xo#mm(Dmm:&6#;%6M#%®RF /^7-/-X-^E^7b, ECR^^X^6Dy 7X\rO^Xk:-X'XX#^%^, - 41 6.4GHz -1 kW CW 7 V* v7/VWG LP.F. •0.5W 7 l/*v7JUWG v 7.tA Eb=7 kV 1 A Ef=6 V 7A 60 kV WRJ-7/CPR-137 U t=] y m- 7. V^oilyXxA 42 60kV#g®DCXDvX^#T. 7®^®^gv-Vl/F^# ^/:RF7X>FX^^7fbT<(:%#^^^, (im-8#m)o RFXXxFXiivX X3%#%#6i^xxx®t)®&6#-7x$v hop^cmmu, -trx; vxx\ v-;l/KLTL^o XXX7^^®M^, 6#m^®##j®ECRX->(:j:6tX;v X7XxFX®)mm^K 3frCU&o #-3%, COm^C^^T^^^^ECR'y-X^Lmtl/cBC^^o c® XX > KX (iECR v- >t:*f bxt>x l X^^MEirfc/nilTXSo 4. ^j&ixcECRxxxam, of^xh^^^i to 7®#. 1995#®^(:SFXXXnh3>^#A^^. ^mfbCloJ^cTl^o #%C. ^XfXXhT#^^/:^^, ^(:SFX"X Xo hn>(:7 XX 1) 07XX hT®#m Ax77xhT®^#^(d:, g|-9(:^74;i)(:, xxX@:#®7XxXj:7[/Xx X'6 ^ 6##Q X XX(: 4: T#^c3 fk 7/ - HXx^9 1#m^^1/c lc'-A(4:C^6@XXXl:4;cT^k:'-A(:$^6o TV - K(±4»50®Mo®R#(:7 y-FO/t&BW. ^pm&x^X&CXC^T. 7y-F^#x^fi6 4:9(:L /Co C^$T, <|)3, 4)4, 4,8#8l'6fi/:o 9IAmLXXX(±m^7%.X/<-®^^#^ XcX^T^. 7/-F69l^mUl/>Xim0im#&mcm#m(:^A^:h6o #%, 91 ^mUL/>X@4)6mm, 7y-FX®EB#-10mm(:^$^l:U6o ^###^0^#% [/k:-AmDf[m(Z)mmt(4:-7^y D3>k:^-7-(:4:"9T$m^^ ^7-7(±3X t° ji — X — i: WX £>tiZ> o 0, 1 l(:^7o C^l^®X^X C4)70O3;L/Vf^-7'^m^/:#®tCDT^)5o 3;[/77^-7l4:C®f6(:4)30, 4)50® &owBrn*fiTuao ^x x%m®m^(±xxx?7 ^ x/<- (h 9 1 # m U7 ^ x/<-® 2 iipjfTft £>tl~Cl''&0 L;XU XXXV7jl >^<-#J(44,C3;l/7 7^-7>^^/cte(: X7X7®m^m®^c(±/j:y/fL^ hf-A9i#mu#c 7-X^ U®K^(4:XXXXr7j: 7/<-#jTl.0-2.0xl0-7TorrT^)6o 3;L/77^-7'®4;®%^(j:-i0-4Torrj^±/cX:.mt>^6o m-1 0(i#X#A /^L/X^MA/c^rnTm^/cm^XX^X^y h;l/T^)6o gl-l l(4:Ar#X^A^/:# ^T\ 9l#aiU7j:>/<-#J®a^(j:1.3xl0-7Torr®B#®X 2 ) A x 7 X XX* X h a/A 43 Beam Current 1.5x1 ^-10. 0 [AJ Wu P{ ps. fa. 0 ISOL-ECR/f:f A A u lo ECR^if^d^VC'-ACOX^f Spectrum 3 1.0 Close w J'l# x tV !b~l Analyzing 20 HS-fin Tor>- 30 of cm the magnet -9. ISOL-ECR Einzel MCL KC2 Ax GL< S lens field ion su>A lm>A l tV V -44- hA Slit & 0,-lens M-ll. 1.6*10 Faraday Cup A Qao V~a£c. P-f P *joo Spectrum - '%)<&*£-■ U* Slit 2 A /oK~T & Analyzing w t lO' Faraday of 'sWrlKm^ 1 8 )5A A 7»r>- the 8.1 (ivtcfc- 4KGr Cup ISOL-ECR magnet cfdse ) (Lx. Qi ion field source / 4- ?2,y- V 6 J»r t & >V T 1 2 . n.—y'l E H c o f S i a ftf 91 ih A n D c I i 4 13. j <0S y ^§E y y C^WC/^L/Xt:'-A 3) online-f-X h6D|^S 95#©#(:ECR^^->m(iSF'th^^O ho>C#A$fl. Online####;^ /:o C©, 4(:^fo ^##l/10000t®^mmSCo/(^/:o ^a TC^L^m^ECR^^-^m^^Ob'-AOX^^ h;^W #-c(m# 5. ^666 ^^-Mkai^aECR^^-ymoggy^^-^-^mL/aiL. ^mYk-^a^c^ao #&, a/:6/r/c^mA^a©T\ ^Tmm^^(fT^#om#6u/:©o 1) m&, Mm±£>m&fr-hfrTM <, iz-A^30kv#-e uwn^aj^^©o c©tnm mmT(i^#mm^©NMR©$Bgg^(d:ffiTL^©T\ ECR^^-> m©mmE#^^#u. H-A^60kv-cj!mm-c#aj:9(:L. RFo^^^-v^#© we^mfiack^cf a« 2) #x^^^#U, m^#©##^TAaj;9(:L. ECR^^->^©4fd!-h#x 3) m#^#l:'-A©y<>f->/YkTXh^a-ao 4) f-f'v h^ECR^^xm^-D^Ch^^X^-hf^-y^TALT^F^^Ne© ^/fff#© t —A(C F &M C *c> /£ l'ck *9 l^lt a 0 46 CAMAC K'f/f • V - F70 - CCD ^7 / 707^7 ^^Vl/mmC-OUT - UDAf: CCD trt* y 7®f ^ bl*r ifflig^ADI^ LT, #%#W±©% 61 «#©#mt##6 ^ ££B^ttt7cfc©CAMACtir/T • V - K77 Hr-^-^StfFLfco SlfF7X biLTb°X*-;U #m CCD b'-rzh* / 5H^&x©C3057-00£Effl o C©#@(i*^#5 0 4$. MttteSfft, «7h- A#2 4 3*T±^©ESE2 44.944 (504x243x2) /'- K*CADC©*7-fe -y b£#to/c-t?DE7°XX£m\ t -y h L/c^^mm/ctt©^ < iTSML ^^0/eV-##^C®4:(D2.0 4 7 ( 1 1 b' -y h) B^tilLffi h y^©«ff?-C^#£fcH:1B#7 X-A#7#C. E$$U/cBS © h Lttl'©T\ h U##*%il:aU-C(,'6o e# e-rtts 7 h —7 X C 3 0 5 7- 1 0 5 10 (H) x 4 9 2 (V) mlR 504 x 2 8 6 ( 2 4 3 x 2) 5 9. 9 4 Hz dmmam 1 5. 7 3 4 kHz 1.0 V CAMAC b'-r* • V - KT^ h t 7a-;l/ ADC 6 b' y h "7©±& 4 b' -y b £Effl ad 9. 5 4 5 MHz h v #-ot mm# a/:# mta y^e v -## 2> 047 ( 1 1 b' -y b ) x 2 4 h'y h 7s— 9 mmf-f 1-4 t y h mmvmst (2 4 b"y h) 5 - 1 4 b.y h 15-24 bybmm*©&m## hV#-*7 Xf- 2, 0 4 7 ( 1 1 b'-y h) T1 2 b'-y h(ii-^-7D- h-7;l^# 2 4 b' -y b CAMAC 7 7 7 7 •> a > fo ao h ')jj-(Dnm d i = i mm >02 = 1 F0A1 h U* ‘-y7 7X7-©E^ttiL ( h V^-*7X7-^y7xe- Kl:f 6) F0A2 h-^yi/7fcS©E^aiL FI A0 /e')-©# Ui7 b'XX©f7 ') / X b F8 A0 b IJ #-## Q = 1 47 - C, z *Ay7~> 7 V 7-63*3©#%^- F ( h V if— y 9 —9:7 v ~f t— F }C7-S) 0 1 r:ccD*y 7^£©£'7AttAW©MIWI»]^7 ; £ffi©T©£©T\ /f-;l/K 1 6@%7^-;l/K2©5 2 5A©^$BTir 9o ■€■ LT> C©E®£ l^Ht: 3 Omm*)&-to Ltztf^Z, C © B© f©^g# 1^©H# 6 3. 5 nS(:%6o fFh'^^'-tli7 7 y^y/©#(:^T^6^±c#5o x -vu K©7* ■5 y+y/am© 7^~;u a y * - \z 5 y f $»7 * -a k* c« 21 ^ s 2 6 3. #%7-f-/l/ KT(i2 8 3&65 2 5 it©? 2 4 3 6o gl2t:ccD*y7^^©H^titi^/1t-7©7X 5FBffl^-f iyy9:^to c©gTt37iy ti'7-7 - *< 7'5 y 4" y ?'©m:tr& ^ 6 7++ y U T i' < ia©t£Mk 5 0 4©W%E#^*-S^6 im#M3/:%©Bf fW 1 0 4nS-C*4o ADCO^ft^jftart 9. 5 4 5MHz6% C©(@I:AT##L -b*DAAUX, jbfiSx / t V---- ADC(i 6 tf y F757^iADC©ifi[4t*7 F©^fflUT©5c 7*0 7 ?g| B|3(:C©ey^-7F©7'D -y?0£^-fo ^-fADC©m^»"7jW±©%6 $©E*% SjK ^©BS^ojW±£^fcbE^ttit*vK €©MS©me^'iE-oB(-h(rf<£ /c GE^titit"^© 3 A^777 /l-X-f v 7"Ct y F'A'So y-fmmvm^i^m (9"? y faaa,) ^£©a£ $ t ltadqca-So ^LT, ADCtitilJiiy ^ U - ^/c-^-tiSEA A y 7 - Tt£$*$£ Ex.-So Ct%6©E%9#^6. t: AAlf-^©B#£H tz&nti9 4 l y A© Be/c^ADCt: ^ □ -y ? £-5 X.6. #a^yf-67K?*^yf-©#±(mat##6L-C. t-y F UAE#©#%6-$#(: 2 4 H' y F 1 7-9 tLT9*') -tr S^iAtjo E^itiUiA-y F L/:#JW±©E^E^/:(m^a©#^l:m^ajL F VA"-^m6o 7y79'9yts 'yyp-zmtitft -y F L/:E*E^#-S©T\ C©*7 y 7-£7*7 y^&- Fi:LtifDl7iSity ^i;-©T-7^E<^{tif= ESE> WS©IS^©©rn t)ESSJtiT©^tc(iE^tti Uffl F U A—IS ■^"ti^4."tir*f zt^®E7 y —AtoH-tcA — F y 7 V 7—£-iil LT> y 4r V — ■€■©■(6© A A y 9 —JP\s:J 7 9 — £lH?.y F U fX Mn$ B4(:*j^©/:A©t y F7y^to CCD* / 7 © tf 77&7> 9:7 V — 9~ bfc t>© A BUt>©£camach"7tTij- F'7 7 F^y^-yF-^jiUT3>t°^-7E®trto 48 <>* —U—X FIELD 1 FIELD 2 7wzizw/2ww/mm?mw/m/mmmimm. •M/M/MM///////////////////////////////////////////. M/////////////////////////, •/W///////////M/ZM//M H = 63. 5uS(l/30Hz4-525$) FIELD! '262.SH CCD 246H V 6LKG V BLKG 242.5 H I3i ccd#^ ^ 49 ho o> o Huy CCO &*)«•% 5108X6#©#© 504tf#% (*> 7tti©($#) HBLKG I0.76.psec H SYNC 52.80 usee 4.75,p sec 606t 63J56jJsec (1 horizontal line) 4. 47vS+At **fiJ©ADC^O'V -7©5M = At* 30nStti. 02 CCD^y ^ (7k¥§15) 50 N set--- O set- B -7^" B -Trigger A— a >/< & — u— ^ l/-* c 9 SET F/F 526H RESET GATE @ 3 7"uy?m 51 2S - m - \ Q® ...... \ / 4 4-X,4 i-oeeod sz aiuioe/ V USHW ISO llllllll mm qdd smart immqddhD/TxmmAmmm# D2 VALVE VALVE SLIT mWQDDX*? l'D>'7 7fIi ftsimitmm qdd vu^vix ^5oS = @^ajf§(iE6DX^^ ho/57 particle #aj#^(±x^[RlT8 Ocm, y T^fpJf- 3 5 cm (D x^T[n]Otiffl5^^?teii 1.0mm i^T T* a c t0®m^ a anode iTo5, < f *S0© —OK&A AM®F4i^ ^ POSITION 1 idL-AiiSlti Ml J£, iJE? gld*f UT#i 3 5° TaoT < CLEAR MYUAP A ore t‘-A{£*feaJ2§F*3©tfX£d';t-Wk WINDOW Loox^yl/^-^/j: o T© < rr\S 2 El GRIDS JC^-T«k 9 }L:{^!±l^y7"X^ife]-iL(i9'A> YbL^UoC < f a < G--AR0 PLATE CfllFT PLATE ws^) A'© it s., m 3 a 0 Z 4 53 liC©fttiJ&0ltfrffiEIT*5o c©#E#li K V 7 f io x GROUND &E^tijtiS$n;75-SiJiC J: ^ T f#5fci6E&17. 5 jtzm©^?o Aj&ri 1000 V --o© A E|£tBfil£ GROUND EE 2 0 u m©&7 -y 4- $ tl/c 7 > f X f- SfiCtiTl'So K ') 7 hx^ -XT K V 7 I' 7°7 — h^7 X V v K£ TTOT -s ^ mmv —mm©#m# #'x£AtiKV 7 F7°ly- h (:(1- 1 K V ©EE^^D^tijS©^ (7-Xlfe) ©S #TI:m#©3L^^T6^4 E (b) 0 %#© Sift (i t"- a }c ck o T £ C tzME icjt (r [S] I4i (a) C^-#-j:7 c#- F‘7°D- h ( b) ^#m##©^(: K V 7 F7°ly- F £|il] CiE£© #4 El tz.blcWW:t%Z£lz£-?T—mKWtfmm’£ SSF SMART S 5 El C^-TSE SMART (a Singer and aMagnetic Analyzer with rotators and twisters ) (i %—S ,5@ £ S—S (5 TWISTER ^C6li^T©6 7t). 7K¥^frT5 0 cm^E^frT 1 0 cmT 2 %E©#E##3ST& 6 C 6o (D15EEM ggfiTK^M^lRlifeO. 5mm (FWH M) DIT®* 7 >E>7'b^ F 7^1 0 4 CPS Ne tT@v;UE^ ¥x > F^mgiJT#^:iT©i0 MW D C (Multi Wire Drift Chennber) b"7#tbS6 LTJS< i&t,aTU6o SMART ©S-S-^E^tti - 54 mt LtfcMWDC L^L MDDC L£ ■*> 2 V&MfriZ Ltuz>t4m Lfc^oT SMART S—S.5M kv 7 hx<-7i SWPC^6tf6#m#6 U/:. SGEteS-SMmttifsC R D C (. Cathode Read out Single wire Drift Counter) ©fS it^-^L/Co K V 7 hXR-XT (C 5 0 /x m© 1 0 mmdHPST?f 6ftTt^o 1 2. 5 /xm©#y A schematic view of the CRDC. (1) pre-amplifier, (2) cathode-strip, (3) anode-wire, (4) grid, y >y%^>©R#F@ (5) field-wire, and (6) drift-plate. &$©±SM7. 5 mmi|ig©M ^0. 5mmiaflT'6 0i^TD5( JMCckc $#%/:#-#©] •5 C i (7 =k -p v ^©Miflgii CRDC^lcES^nZc 7 Af- 7-f ^ -©fs^-^X^ U# @^©#-#^x h -y y-ff-^-ch LT K V 7 f X^-XT©#gg#^#J^-f-5 A 61: =k cT# bti^o vx^AttPs© crdc *<&.£©£ ft. ^0i^C2^07"7Xr^ 7 V>f- Aft^ii^TWTtf- Ai:5HfLTiiT'*5, 2&5t©CRDCiI^ftJ;D DY My-v 7 77 f /< y ^/x7 NEXT PAGE(S) I 55 I toft BLANK I IBM-PC/NEC-PCtC i 5?iUl X — f iRSi/^T^^KODAQto; 1990#, hny —y#/i/ —^ — pc9800 £f#Vtz^f— ¥ —l&S'>^-7^^KODAQtt, %9# Ofe6o ^ 6(C, 1993 #IBM-PC £tL, (D CAMAC4 Xfcftl&'tZ) X 0 A#em-c(±, [email protected] IBM-PC/NEC -PC "T— KODAQ(DEE(Ver. 4.04) 1995/4/12 4MM ZJX • 7tP^'l(?)IS • -T v/UlcDilJS - pha -> :t## - -f >5-71- " CAMACi 1C>70).FASTBUS( 1<)86|,VME( M87) -V7 HC%7(7)##lb - W.S.:NOVA.VNIDAQ(KEK>. ■ PC:KEKXiKEkl.KODAQ(INSl.DTAKE<, AIK i. - MAC:kmax( SPARROWr RMacUAl (CERN) flltlWlif9bApr ppt 58 KODAQ0 @ JS L fc t £> • it i x rA, o < ti £ f a $a mnfk • V7toV7K>i7(Mt± ■ Sfflll) • Raw_datal|R# Kl^^'SvXT'Aiajl — -3-—if—li 2 70 y 'i 7U S'ffl W. -=]-?> "7 > K ttiif'jfifftf 95Apr ppt KODAQ • fiijdi PDP-9( 1968) TOSBAC-40( 1974) U-400( 1978) • LBL(PDP11/QDA-MULTI)(1981 —) • nonCAMAC }$<1988/1-) • CAMACNECPC^l 988/9-) IBMPCJEd 993/8-) f$ttf9ftE95Apr ppt 59 KODAQ CDS&tfiSWss, EA Si, OjB*. mtXJ:. SUt*!!. ##@f. ®t;S lew*. I^ESHS. ###. Sxgf. o iw - BNL. Soul Univ.. CDSE( Algeria) IJffifiJHf 95Apr ppt K^xTH crate controller interface PC98 CC/700WToyo) CC/9800 PC98 CCP-F(Hoshin) CCP-98 PC 98 DSP6002(Seiko/DSP) 6002i/f IBM PC DSPB002(Seiko/DSP) PC004 IBM PC 39221KSC) 2927 IBM PC CC/7000(Toyo) CC/AT BitfiSfU^SApr ppt 60 C.C. & I/F • NEC-PC98 or Clone - * CC/7000 CC/9800 - CCP-F CCP-98 -tz-f 3 C DSP6002 Seiko6002-IF • IBM-PC/AT or Clone - KineticSystem 3922 2927 - DSPtech.cb'f]')) DSP6002 PC004 — CC/7000 CC/AT PtffrSffFSSApr ppt KODAQ V T? # & d t • multi event trigger • rawdatatlXH/ U A / ^ V 0 • ^ — U V ( Windows 32max) - tX ^ ^7 5 A( lOOmax) - "V V ^ v h(5max) - 95Apr ppt 61 CAMAC ■x < DFNM mem size DSPD mem vvnd DFNW window Loral,' ’Remote Rawdata file LOAD/SAVE t'name mein Local/Remote JJAD/SAVE fiame window 1 listgram file Printer titfi9BS95Apr ppt - INITKDQ.KDQt UtillSS) - PROCAMAC.Cef'— ^ ) t$#iM#95Apr ppt 62 KODAQ CD ©If® • 2 t—K - — K/Q'f 1/ KQKi$^E— K • ^7 ><7 V3 >A—lzj;6$i|# • KODAQ 37> Klzj;^$ljW Apr ppt KODAQ =3"7> KcDfll • Q’-i'> K •ytv —k • "T — £ AtB ^3 3 "7 > K • SlJ V=T7 > K • f (D#(D3 7> K }$iti$ffS-95Apr ppt 63 - DFNW wname xdiv ydiv xloc yloc - DFNW2 wname xmin ymin xmax ymax ( 0.00... 1.00 ) - ATRW wname {HIST|SCAT|SCATIj xmin xmax ymin ymax - ATRW wname | NUM StfiSfff95Apr ppt «'J—K - DFNM mname size comment - DFNM RAW KI###95A,pr ppt 61 K - DSPW <{ wname | ALL j > CLRW %#|Bf#95Apr ppt t—ii— K - SETM K#T@f#95Apr ppt Go -f—$ K - START STOP 77#K - GCOPY PRINT < | \vname| mname j > - SAVE Fie name < \ wname| mname ] > - SAVEA i$1it'iSH@95Aprppt 66 - ONTIME <| 0|secs j ppt ^(Di\k(D-17> K - HELP EXIT IN IT < in it file > - $ any _do s c om niand $ $ any _d o s c o m m and - DEF' INE > new command : =commands - BATCH J OPEN|DO|CEOSE J - SETC ONDITION - eondx |vaIue|ON|OFF}> - SO PE R w name3=w name 1 < | +|- | * |' | | w named [CONST ANT j > - SOPER wname=|PACF n|EXP|S AIOOTH - SOPER wname=CHG multi offset - fitting 15tti9f1695Aprppt 67 A'V k V — KODAQ • I I P (let ~^ - NFS IZ • PAW( Workstation)[Z Sf- ^ fi¥#f - NTUPLE format K1###95Apr ppt c p u / c lo c k interfa ce interrupt overhead C AM AC a ccess h a rd w a re w it h so ft w a re re a d / w nt e command De 11466/ L Kinetic (3922) 27 80 15 13 486/ 66M Hz Se iko / Dsp (6002) 20 52-60 8 5 6 4 Toyo(cc7700) 22-30 65-70 12 PCH98 Seiko / Dsp (6002) 16-20 70-74 12 9 386/ 33M Hz Toyo(cc7700)* 80-83* 140* 17 11 Hoshin(cc-F) 20-22 150-160 17 11 * re vised board 19-22 80 UtlfiSfff-SBApr ppt - 68 - • V 7 h& V 7 h ^7 x TCDUii -x —+F— xb> K'J — • Mtt -37>K0$# -DOS^X^ tiftjfiffff 95Apr ppt. - (59 - (1) rtf-A »W : tfUJ -fils, l (2) r»,jxgj;5»ttss#iasttrotoaj *®: mamn 39 (3) rx^BEro##* (CADto-ttv^ij t#ffl : S^RSi'x, SlilttisJ 4 7 (4) r@EEE©5l® («5$ - »^@5g©B:H-) j t#«: mm~%. ^bs, *mm- 13 (5) C4ly H7"» ©tailfifj «®: 1 0 9 (6) fci&ttSIPaj (ftSSFNroA) ir 12 7 rtf-A h y toV'T a*vN±8t*tsffl*fsra cx^mm • %# • Si% JD»^MIiar-tt*:SrtJ;5 t-TSBt, b"-A LyyX/K- K toi -(KlLiiT J; 6 t'-A/M, i 3r& t'-^csto, fii6]E5^egs«e5ic±5 b"-jk<»t6i$*, Ltziomm-f5~tm'-mniD 4-0, ^SfSUSWEfta: LTznSrff^lcSfci), 4:iv^fjiro$-ST*ti: S$: Lri'5fnfflSte • 1„ L, 2„ ya^'7A(cj:65lEto4:l+S*fnffl • t*Hft/ sfflSL, 3„ ##IC. Liv$r-L(7)5>SfT'**roaf4'6xl4i43'W$5rMiBL-OS/: #>, m^rnmn 5>8l$rolxt+iLoV'-crotg*-$rjtiigv'-t*5„ ill W2¥Bia#Wt*y+i7J>Si»j rofito rw^pfD yjafflSeroSEj *t&l:fiV'iL/:. 2 M8f 8 4 2 8 0 g 111—BIS 1 1995/3/24 WLMtgjlZ =fc bU W % jW ## &. ¥ 1. □ — V > y frifit dm V~ dti *E%© V kT1 V XAffffl -» -f * *Eii ; $W##, ffl r#0j # ; jg$AKf # (para-axial ray) (# +B ) 3 2 . i§© U>ZfPF8 1 a. $6±©Eti ( z 5|6l) B(z) r, dr/dz (- r/z) tt'J'J l/t s$m u >x©s^ = dr/dz -- - /a- i. r tcicgfij (m©E*m©m # o) 2. fW 14 win/ e (C ® # 3. mt>/< -Bp; -$ES B ©cfX-^EpSRSS < 4 -5 & m? a y —^ b. IS ± © # ^ + JU e /lt_ _J=£- -t£c-0 z (efi+T) l* 4 (ej *r) v yXCDtE-o- T O XtiSI 2 *0#####-? g 2> 1. r icib^ij Vfc^s${b (SS© L 2. F£ii3L^.;vjr— Ttcte# j ~'pr =■ p ^ p f > ^N«.— "k v ----- ' V ^ (K & ==-f> £F* 0 — J 0, ^ hCpCL - f ) 0 % V\ J.y^"' ®T* y /----- ^ jLr~ g) =^S=/ ---- 61 fa 1 -> >xtisiba 1 fE ~qW /, i. n;^- Tttzitmmm p ## u ( V >X) 2. r, /> (7'JXA) c. ns r##J ©:»* m#: By ##: e, # m m -e o ? * % * m # m c # # 0 4,*I6±©@6 S O "5$) 5S-n A9 V >X m A & s i © m a# i: & & m# # (SEiW) ©#& #tr > y f ;i/ <& d>oc Ml£ih-\ bfjTrkj ' r&= c r*'-ziv*o(0-vl-T Lx')]± r« i I 4>oC rV-o 2(@ ~d) E# : a = tc/K y = 0 T Bx = 0, By = kqX ## : a = 0 y - 0 ”tr By - 0, Bx - feg x 7 *-73 Ifl] © @ 16 (mz- eBi) v ~'Dg. / 2 F p - mv'/e- 2T/e *-Civ>x, 3.-0u>x mt#?com *-& i/ >%-e %-, rssisisjfflmjig ¥ 7 Vv h , h U r 1/ y h * if 2» @ # <^r* y = 0 x- Bx - 0, By- h-1 Ey = 0, Ex- kxn ' M > 2 @ ## IE C 8! m 8 o * # a ± t # # o ? 3% v \ # -a- -«» (k ##ax3% &m%g ) -> nwiii ES*Wiie¥@ = 5jpa4-;p "^p ma*wtji¥g * ^f'E~a^p' iB^Uijt^^ (magnetic rigidity) Bp (electric rigidity) F p - :*& -J- V 1kj © = X Si>*i (£) 0* f^® %&. xtttm Ltzftmmib -> L- > % # m & # -3 -c v ^ & ( &u 4 tit *X3 f&ijj t, pomte*) -» pomtt*) -* nx##fif a#w& -a# (Z'JXA) -» srsros-Ei:*« 9 3. ffi r^-^j *cD-jRW&K»)8H' 2. M: ,& m m c m #. a si# # g # 3. # '& #Lim & 6 # % 1/ "C #E # mm%J 88411 C N L/ T ir - if - 4. : xo, (dx/dz) o, yo, (dy/dz)o , 6 , 5 ’ 0 0 00 6 , 6’ Co^t Jp = mm 3. mm+rnmm Sp ^ Sass s ^ t*/e)/C*/i) (2) Jr (3) Jv*- y J# Sps r^-^T s t* Jnr S“f e %sr -' 0 0*1 * (F^t 2 Jtr 10 Median Plane - 11 ,sJ?i —s, ^E- ftlft Wi Isj’iiw ll^ *© r C#>* fl> C j s? f C & + #m 1) jrli}L ’. 5wt, 5-r it fU* $t£-$ ib'f’t ? 56t. C **<>) f ^ : if ott&b c«.» C# - ° ,fet° N;m ^.’ifi*. ' Cmt* , Cft 0 ^M*0 12 Taile* o K t ( X\ 3<*)3m t CX( Q ” X? T C@l& )0e~t~ 0 O cj»^(z)z» t- Qf-m. +(?W- * ^l ?;£ i- ( % If") (;i„ + , Qf (<$r)<%r ^ = Lp et <5w - tiS*-') ^5 L*7 f- 13 ' (xie;=o , (g-i : (z ( cY, p, v) =d> (ac Uy&waHc) A : (e{6)=a , (yifj~0 f ^ fc-A ', CX|Z)-0 , (y-l ^=*-<5 ere. efc.. ftjff *ff\ Ci/<5p)( §cj&)=*o ; (xlJT?fO , (ZIBJ-D : CXIJ*Ofr 0 , CXI£r>=U|«><9 ^ <2tiz;xe 14 r-£3 Sp II (xl%)= cCjt) , M&)- sc# , 4KJfL£. t&o^o z" £££) (^ $cx) {{code -K#" 3 3 6. t-'-A. V'VfcxjQi #%/)'f^ Zl titf (fa fa##Ut> -AAA x &&?*->■>' 15 16 - 17 £M: — z' a s,« ^ *6 ^ T ^fc/? £*«*- flbt (wot - t*>) /= c3-l*)Xt,+ cxie)6ef Ct-ISf^Jf „ (,[ +{Ciz/^ -fkcxjArJfa * M —? £•£/&) — ® Mic Cx^> -c^aWr)=6 "5* 6 M< & -& JL fi^'S- :-)Z'0#gz"# C-Ait^'-^|f.tf=-v' t uk^-2-~&$4> ♦“ft f4_ 18 | 8 B 8 8 8 S 5 8 U*ne) § ft »lll 8 l 8 IUM} U £ M i € / __ o V 9 *» U 'll l t 3. if] : So 4r S'0 Sb • b~4 y x - cxix) Xo t (xiS)5d <- ttl<04 1. %B ^ Zo "t" %. jg X = CXIZ)Xe+CXI J?<£ ^ { Dig (xiz) 4- (z/3?} 5g-^>o 2 , L'- A i= & & *j? #"<5 5 9#- c4,fo) % - Z© 't* Pb Jg 0655 & * ct*<$0 <- ' — ■■■«...... X= (Z| %) Zc + (ZlS)& *$CXI6) — &I(%f<&) 8 -r" +{p8 Czia)+ (i+ &,<&) W)-> <#• -'•■ft, cXIS) 8e 3, Sfrow 4$lv$— X~ (?c|X)X«,* (a15)4 + {(xte) - -ft, Cxia)J & + { (Pr - Ldj)Cxix)-«- (4A--fc,4)(x|5)j4 tV.i W$) - LCXlx^^ -» FT 20 friAif d ^ e dr if TtfU%> *■ tfiLifaOiik&A Wli I-P'SU <2(4* f 2 d t ^ & 21 d. * SOmr 900 cm 22 CONTS (ARBITRARY UNIT) 91 1617 H-HH 90 97 Zr ( 9298 1617 14 N, — xp 93 1617 HF yn) 99 140 94 16 MeV 96 16 97 16 R. 99 1615 93 M M/q q 10870 3323. @1. OiifiiSBfSI $#ES§ Fig. REJECTION FACTOR 10. Experimental beam Ep operation. (beam) rejection / Ep (ions) factor in day-to-day LO Characteristics of reaction products beam energy: EO (MEV/u) beam : MP, Ep(= Mp-Eo) target : Mt reaction product : Mr, E, 1. Fusion Reaction Mr ~ Mc(= MP + Mt) (Eo = 5) Mp/M«=l/4 MP/Mc=3/4 Er/Mr (MeV/u) ~(Mp/Mc)2Eo 0.3 3 AEr/E, ~(l/MP)(l/2Eo)l/zAp 20 % 6 X A 0 ~(l/2)AEr/Er 100 mr 30 mr large emittance low energy -> thin target Inverse reaction: important for secondary beam 2. Prorjectile Fragmentation (Mp = 24, Mr = 20) Er/Mr ~ Eo (MeV/u) 50 500 1000 ApP ~85[Mr(Mp-Mr)/(Mp-l)] 1/2(MeV/c) 158 158 158 Apt ~( ApP2 + 2002 ) 1/2 (MeV/c) 255 158 158 A 6 ~ Apt/p (mr) 41 7.3 4.7 small emittance high energy -» thick target 26 Q1 Q2 Beam Target i=2.5m 12.2' (G= 12.5cm) D : Dipole Magnet Q : Quadrupole Magnet M: Multipole Magnet E : Electrostatic Deflector X y mm 100 0 0 1st Q1 Q2 1 order (yl(p)% E (x!9)0 M1M2 2 U o (%=50mr) optics (0 o 3 =5Omr) D1 L(m) 4 FI 5 D2 Dm(+i.0%) Q4Q5F2 6 ; 7 Beam profile at FI Beam condition X0 = Y0 = 1mm (full width) 60 - cpo = lOOmr (full width) 6E = -3% , 0% , 3% 6m = 0% counts 30-20-10 0 10 20 30 x(mm) 29 Beam profile at F2 Beam condition X0 = Y0 = 1mm (full width) Rm= 200 0o = q>o = lOOrnr (full width) 6E= 10% (full width) 8m = -2% , 0% , 2% counts -30-20-10 0 10 20 30 x(mm) 30 Recoil mass separators recently constructed. D: Magnetic Dipole E: Electric Dipole. 1: Croosed Field lien Filter Principal Solid Energy Mass Maximum Kef. configuration angle acceptance resolution rigidity msr % MeV/q CARP (RCNP) DE 2 - 5 20 800 - 400 3. 8 7 Daresbury WWD 8 8 300 8 LNL (Padva) EDE 7. 5 20 300 10 9 PMA (AND EDE 8 20 340 10 10 HIRACNe* Delhi) EDE 10 20 240 15 11 JAERI (Tokai) EDE 15 24 300 10 12 KYUSHU(Fukuoka) EDD 10 10(-20) 200 3 '• SiM,£.|U %■ ^ |- ffci %*> Tk-CWC^UA. ^L®- G^-/5L)X>^ L^i/Sn^Sm **" CSrl^rJ^f t i 1 AW tM &W* 6?^a^^F tif«f-^-x- i--;Wt pf«e- %*- 4kafo L- OU |= P^j Cxi/x) £$p&t-&£ S„ pro-^lvuKv^' S^fa^re^'**- 0I39W , RCWf (VtZv,'y%«\ , 32 Transfer Matrix of an Ion-Optical System Coordinate Vector: (z,0,6,m,z) ('Vi 4) A — Aq Vectors at EXIT are expressed in terms of vectors at ENTRANCE; = 'Z'iCMMjo h - 53 'Em&htMko h — > j j k b = zte,$,771,z 0 for entrance, 1 for exit <5pt = {S\x)Z+(dl6)6* (fl6)J‘*cSl^)ntC//eJ)t 33 Fragment Mass Separator Magnetic field + Energy degrader High energy at focus point ( x I m) = D iM 2 + D2[Di( 5 |x) + (5 m) + 1 ] (x | 5 ) = DiM 2 + D 2 CD 1 ( <5 | x) + (5 5 )] Eliminate energy dispersion wedge shaped degrader DiM2 + D, = 1 : achromatic system Di(5 | x) + (5 | 5 ) = 1 : ( 5 | x) # 0 homogeneous degrader DiM 2 + D 2(5 | 5 ) = 0 : tuned system (5 I x) = 0 Resolution Rm = tf’jci - ( 5 | m)/ ( <5 | 5 ) -1/(5 | 5 )] R* = Pt[2 + (5 | q)/ (5 |5) -2/(5 | 5 )] (R(p = 1st stage energy resolution) independent of degrader shape Resolution limit (Energy straggling 5'») Rb = C(5 | 5) - (5 | m) - 1 ] / 5 , i nd ep_end_gji t of dear adeiL_&h_ajo_G__a_ad _qjlU-£ls better Rs for higher enexgy 34 Point 35 sxigg 36 . 200 . 150 FWHM=6.7mm - 100 -20.0 POSITION (mm) 10Be . 150 . 100 dE(MeV) Projectile fragient separators currently in operation. D: Magnetic Dipole. F: Energy Degrader. Principal Sol id Momentum Momentum Maxima Ref. configuration angle acceptance resolution rigidity msr % (1st stage) T-m LISE (GANIL) DFD 1 5 800 3. 2 14 RIPS (RI KEN) DFD 5 6 1500 5. 76 15 FRS (GS1) DDFDD 0.7-2. 5 2 160 - 1600 8.6 - 18 16 CD CO A1200 (NSCL) DDFDD i 3 3 700 - 1500 5. 4 17 RCNP (Osaka) DFD 1. 1 8 912 3. 2 18 #/j\z:m&K j; #ff m mm^u mamn 1994.11.16 1996.5.22 ST1EM l ItC&blz. T&6. rfrm^, ^v ^z 9 $t±5. @ ^(7)7^ 77 g L^: 9 # mLyhip-76(c(% b\% i&W<£ ~bfcb ® 9. /^y^y^y-y^7-^ay^#ug(c#<, 7^%A6#(^^yhyc%>, u^L, z< m,6^, r?-ynj ^ ^LTL^# 39 ycfyASr#^ j: 9(c-f «0 6. -mm#e5(:;wiads, tt$"C$)6. irN3?#T#;tdS, fth'Q, tf&jX, iSiti5^E't4'(f^“'el5J: 9 l^©SSIfcfcofc. t\^<, (D/St-oi^T(Z)SS(7)^EStt, ZntfipMW.lz-fab/vX, tfc^^past^oTV'S). tn MkMV&tfWr&'u'i tz$L%Ltf}f£&W£(XXhZ>. %WiZ--f vXyJ^&fcb -tir-5 r t i^S^^rEv Xz. ^(Dfctf), #L#?)%^]g3A—if^4t y>i/—^yte, »[2, 3, 4, 5] (cfi-M^y—y • AvXXJ±&i£i zt t Ltz. #2W^#5#1, ^An$#TJEL^t (DT&&. ^6#ic rT/i/=fijXA(^^i:(7)^^j as, r^y^ ■v—9 • r^ H t LX A tvfz. 2 w 1. 3y^7-ofti(^ ^f=V^^y / 2. i~5. 3. Lh 40 1. [2, 3]) (a) [ 0,1) (Dm@(cA6-#$L%$r TV (b) [ o, M) Tv , w%mT [ o, i ) , [ i, 2),..., [ m — i, m ) ##ig(cj;. (c) [ 0, 1 ) (D— i. p(x)dx = e~xdx ii. p(x)dx ~ e~x^dx (DZ 9 (d) c o, i ) 2. UVe—#:AB5t(3S; [2, 3]) (a) b/L/6 ^^/la; = b com X b-Ax (b) [ 0, 1 ) TV x TV ^^(7)^] v4 ' ^3 ;^yvi&T3RA, amm# (D 1 ^ Z. (c) TV#(D##[Zi,Z2,...,TN^4-XLP)^^#, ^ /l Xi x\ XN-1 1 x2 x2 t2 z%-V \l XN 41 3. [i, 2, an (b) (c) ^ A _b#s<7)yT] ^77 - u 4. [i, 2, 3]) (a) Marquardt iifeSrf^o /c#^M§dN—Wfe(n~f^ 1 ^‘■7 A&j'ptl. (b) ^Marquardt #;(:*# [1]) ±#2(7)^^ ^7 (a) f(x!,x2) = (xi - l)2 + [10(x2 - x2)]2 10 (b) /(xi,x2) = ]T[l/i - f{qu xi, x2)]2 f — 1 (D#d#. yh/cL, (3 yt — e~q' — e_1°9 '+ (random number) q, — 0.1,0.2,..., 1.0 N Xi /(xi,x2,x3) = ]T (C) Vi - , SiJz5Z i—1 1 + e *3 fztzL, ( 0 ( 3lifa > 1 (%# ) (^<-l^) ' •^(7)^(3, Xl Pi 1 i~T: + (random number) 1 + e r3 (d) f(x) = ]T[t/, -/( 42 fetch, y{ — Xi exp ^ ^ + X4 exp (J' ^ ^ j ^ + (random number) £7"* h • Sr-xt LX, MM* u°- K& yb^L, %i,T2,z3,..(^, % nmjL&, yi 4 ##%# 1. ^)HS> 1989 2. W. H. Press, S. A. Teukolsky, W. T. Vetterling and B. P. Flannery, Numerical Recipes in Fortran, The Art of Scientific Computing , 2nd ed., Oxford University Press, 1992 3. W. H. Press, S. A. Teukolsky, W. T. Vetterling and B. P. Flannery, Numerical Recipes in C, The Art of Scientific Computing, 2nd ed., Cambridge University, 1992 4. S lEfft rpORTRANTT(Zj: :+#: %fd5 J x £$ESJ£> 1986 5. Eia^lES, rFortran 77 (CJ:>E)liti6!tSV7 F^xTj x 1989 6. Louis Barker, , MlFFIrotih 1993 7. M. Abramowitz and I. A. Stegun, Handobook of Mathematical Functions , National Bureau of Standards, 1970, Chap. 26 8 . Microsoft Corp., Fortran PowerStation Programmer ’s Guide, 1995 9. B. D. Hahn, Fortran 90 for Scientists and Engineers, Edward Arnold, 1994 5 (0##/ K t v 7 h Windows ^7 uN) 43 1. mm xfV y —£ Fortran ifcfi C (D =%>/g y$7hll# (TX^^/^y-f/P'^yk^-y-. K y+yy£/cfl RAM \ 2. &W&V7 h (a) y —^ « y°nyyA #%# [2, 3, 4, s) Numerical Recipes in C: Oxford Press Numerical Recipes in Fortran : Oxford Press Fortran 77 £ <5 Ifc/fEStS: tb'SWIS Fortran 77 ny? A: (b) Wav? V #cD##^±if67c^lc(i, Ei'-Kti/k^yy ?-b, 1L7 Td'/P * vW — (c) n y/>°-Y 7 — MS-Fortan : Microsoft fi Borland C++ : Borland tt NDP-Fortran : Micro Way 6 ■ f X h (1994 1995 #&), yny$: 386 16 MHz Pentium 90 MHz -^yyi^U <9 #X.fc. t$E£ft$rt ## 2(b) §r^oT, y • T* b&fTofc. £f"Zbb Micro Way fi CD NDP Fortran /hCD"C\ 7"pt^ h • y ^6 U '—&"# 9 #t #(C(±, rE^foTV'/c. o+ffii:^ot ( 1996 ¥#) , Windows 95 ±.T*W}< tE± 44 32 t"'jy h CD Microsoft VisualC++, ver. 4.00 b , RtihCD Fortran 90 3 y/<^ 7 — Fortran PowerStation £rAALtKD~C, tz.'T7^ b tiiAAHLA. mm 2(b) mt# z 9 A [o,i) (Z)%mcD#im^ A6. #fr?U&3R*, AA-1 &piW L, 1 ^ ^ ##A^#0* 6## 60%^6. ^&z7^y b^*(c^T(^f5. m-m# DEC Alpha NEC RA NEC Xt CPU AxpSOOO 386 16 MHz Pentium 90 MHz DEC C NDP Fort O NDP Fort O MSF-PS 2) MSF-PS 2> yn/yA G-J 3) G-J 3) G-J 3) Iter 4) G-J 3) 3 ^ y P 1 2 3 4 5 double double double single double 10-12 10"12 10-12 io~ 8 ~ 10-12 10-12 Avt b^M B 1994.3 1994.10 1994.10 1996.4 1996.4 50 TkA; 0s 7s 0s 0s 0s 100 7Atc 51s Is Is 2s 200 7Atl 6s 396 s 17s 11s 27s (6™ 36s) 500 #:7G 119 s 6121s 413s 201s 595 s (1™ 59 s) (1*42™ 01s) (6™ 53s) (3™ 21s) (9 m 55s) 1000 7Ate 1193 s 3301s 1809 s 6636s (19™ 53s) (55™ 01s) (30m 09 s) (1*45™ 36s) 2000 7k 7G 18344 s 65807 s (5* 05™ 44s) (18* 16™ 47s) 1) Micro Way £fc CD 32 k' y b Fortran 77 ^ y~~. PharLap -fieT) Dos-Extender -L'CSflfFt' -5. 2) Microsoft btCD 32 k" y h Fortran 90 3 y/ • riy y h 1 : DEC %w-y 3 y. AB (3) pivot ft# Gauss-Jorddan TfeCD C WlpCD y —y £r$Siil LT ^ y^ 45 • ny y h 2 : 32 b • n y b 3 : Dos-Extender DOS Pentium 386 > «k 1^ ^ 15 f/\ • =i / y h 4 : Windows 95 _h"C\ Microsoft PowerStation CO Library, MS-IMSL *LT, T/P=fUX2\CO&$CO#-e^)5o. ZCO #comco#^ic;i, ftfriz). • b 5 : ft—y 3 tfi! M'J—y • y ’n ?'y windows 95 Ji~CMft L DOS-Extender(D#^j:^t, %2e@V\ ^LT/OxW^&Vy A, ^(7)#b##(ei2, 48Mb(7)y^-!; —2000 ^7cCO#^(U2, V —(7)##A# < ( 2000 x 2000 x 8 x 2 = 64 Mb ) . Cfldl, K - f=^ ^ (7) C(7)T^b(7)T;Pzfi;XAld:#M^(7)T, "C0##^# T$)6. <-? 10 A#=(7)#b#^le6&()6m tufty. 46 CAD0*i^ 0f+Xh m * m & ztntK tis®ic o i z tit ^mozt-c&Zo zvtzi6(ctcad ©##££M < ZtKltZo (®Bllco^T««iJ©-r+xh^fflLfco ) ::i o ^nnm^^rmm cc AD) t&Ztfr-mklTZtZo XfWcfcU HPttiOMe 10, ME 3 0 t*~ hfX^tt®0ACADi^l,^ hfX^ttlOACAD ^tSCiCL^o ##(%(i##A< 1 / 4 Lto CO## AC AD£$oT»lft&C 47 g & (1). CAD b\t (2) . Auto CAD (3) . mm (4) . (5) . (6) . mmvmm (7) . mm (8) . -t— K (9) . (10) . Tf&iBA (11) . 7 7 4 Jl (12) . K (13) . BAM A A (14) . (15) . 48 -r o to otX y d -w * % o -* < J8 > -r.. <1 JSF EH O H ~r 3H o ~r.. 4 M <# W> ft $$ ot- # rv > O U xji St US ft ft d" ffS a ff H V c . 4 4 • rt (V T a 1 g V 3 ft ft ft a ft -6- tX ro AutoCAD A*v-K t , lUEtcMy r. AutoCAD tz ,£ * tSHMi t^T ;«y-a~i>^i 0 it. tu)lfly „ ju- [0] AutoCAD 11] < [2] & [3] ypy^Affli) [4] y v y^'xtfs* [5] AutoCAD [6j y r a [7] -> x A ~f • 7 r A )V : ttatSttaifctT-) £ it. :?)». V' < &A±f 6 J: fti t. St Xjll x£ CTRL-C tXJltiXlZ, mffiitK 50 d, liffixf e, ftmtztzvxDmm» y-2X-C7)^ 0 z : t:vf7'y7 1 : >Jf-y*-£ Ih JL; 2 : IJ Kn- 3 : +1 >t;l/ xf -f 7X^-79x(=&a?)#f yd'Mi'-f , 8li;ffflti37'/F«A H‘ti£-t. tcott, Bin Lr n v y KoA^lz/Hv Z a k tTZ i t. £/t* U z(o$iW.£&t$A-Jj\z t-ntirttotf ? y ^ f-lxM'/v/' ?-/U V h 9 ~f y y f- AutoCAD tz 51 c^v-vy-i-atg) - X - i — 0 2.6 f >oa#% TT/vy 0 > / - a. - ®@&±SBt::y f Zd'%g|#T6t (■/fry? y) ® ^;-C>-a.-^r^5-^-Cn^> KtrjS^-f (@ 2.3 #.¥.) „ vy*£ lffiS±S6<0X f - f ;Mt tcS$fl t, * —j.~ 5 ii 3. y - ^-/<-<05g<0±lcA-y ;!/:$:$< fc, f (Ogg^8#.t:/W y-f h SiiSo -E-CLTvyxiT)^^^ y fc, -E-OSB coy^y yy -3.-7)<$ zoy-a.-co=t ,-c*-v ^^#$65*, ft®-e-7yy.eo£tfy y*tf-f fc. -e !8;e rm?im cfs m m AUTOCAD * X X 3K UCSIS^ I / i3 7£. UCS D X 2 z — • A — UCS Bin t- K SM D y;uy o y • ffaEf-K D y_a - D 0 2.3 •ftitf'J's * -a- — 52 f, m t‘y 77>:/ 7 -^-©^cDaSiyg 2 %lcfFg|f 6, f#gl0L^/:(j:<6L<%$f5. 3 7 - k ^ \6 T3 t -% l' % f3 4' ?z b~?f fz g, tti* ^)/\- K3^-& 6 & ^ KT, M*7)® EfciSET'ti y f. i :iT, S®±K(iE*>(c^tL» V>E@* 6 ^(*^±<9 ISO c 6 d*% 6 » 0 it. 7*0 v h iti*(i, ^'/ • 7*0 y 7, r i; y 7 - 7"o y 7 (7*777 7 7 '/ X7) . f7x7 - 7 7 ;(/» t*(Z A* 2# 6 C i^-C# i t*. MjltN 7-©**7 "Cli, v>i?SvV-lll®:$r7 77^£ LTtN X? tc&SLT* J; o. [m&fig] - [: ««»7] 3-v > FA* END® END [: tgfS&T] rrvy Kli, ftSag&SjgSiBfKjgg L* 7 7 7 ^-CMS @=L-c^6, [:*#%%] $*/,?*!->Xt Afjco [y=i±V'] [n=v'V>x] Y g £A*f&«, ^<0%, @@t)< 7-tvCli, f^fi$;L/-7 7 7 JV*^£EL (WSitTv'-BfrifoTHIEl.'r 5; [f i 7 ^'K'f 7 I—4] Z}~7 > K<7)B5l U >8 L*3i ;| | 1. *-#- KA»tC 37 7 K^]«tmiax./:i; S (EMtm) | ■■| bs 1 . 2. z^y FtM&cTaMRUtt # (EMU/:#) , CTRL *-£ffL/.:3 3 c (CTRL+C) ^r#f. 3. rJ-?y K^»fL/;^, U/z^i # UNDO 37> Kfcfflv** (3.9®tr#fi9) O i 53 TZ lift®* w ^ % n 91 a tg B R « R0»I5<. RMoHStifcim 86 ARC Ct LRiiPZt'1019'9 ©Tj&tIb <. R Rtt5<. =PiuA¥g (Btl) 87 CIRCLE 0 R o75;£T}5<. K — -f v "J 87 V vmRtta <. DONUT o • x^5‘i-£H<. naiita^ ts .ABODE ' 87 DTE XT PI 1 2345 IEtfT# 3. 41*535^7 £3. pi^r-^P3 « R 5g- 3iSI5$4ATtaRt}S<. 88 ELL 1 PSE p2 saco^a-Tt^. SlUTcBJ^RSNISUfcA?- HATCH VTJ5W3. A5->tl/T 41 89 fijme^nru*. SSft. TftiS. R^wtssa^f !J ft ti5< . 21Xtg Cx,y) gif. 3IX 89 LINE = o^ 7b (x,y,z) SfS^lSSr 3. 115 V 7c h lasar. ig5vrc0R;0t8fU0 89 OFFSET H'S7c«4ft{S%»B<. igfi-r 3Sgft • RWttmK. <$ X'J 50 (—i $®ltSi:?-/WS5TS 3. 90 PL 1 NE 3DP0LY : 3»7cFUJ5T>. s5. .*%!§<. SOIsi'. +, X, • + X D o 90 POINT □ . Ott-E® 7- 2£|g<. HSH^bl024Sf!$ST®lE@. AKt(m<. C®g.AR#ii/TV 90 POLYGON 5Tv(:%3. 0O SHAPE vti/tfsts. - 91 ’? ' 7- 7 7 4 LS32 VA0- V^iSO^HTgST. V - V TU-A>K • XTcif X T -j f 797, 9TV v 189 SKETCH <£ J) DJ U VT|g<. P2 3;5 0ft; 3"9;aV7cg.AR(t!§<. FILLS? V K T'im$5M<7>5 91 SOLID Ti:t? 3„ 3 ? I s:|.ti35 XABCDEFG 92 TEXT PI iTn. X *x ^5V7c»atxiasi3<„ 92 TRACE A 54 4). m©m& LTz 0H5 < 3U3, pj% £ y break ® — 5fl$ '#JE8T 2 . I O6D0J?: n m m%9 9 :39 , T#/:2o(oma%a CHAMFER UK. Rssnii, e. @s. tSfl^fc'4SHf 5. 3K5c!2 CHANGE tS'ttSS CHANGE [x-?] SSOtaS! CHPROP is fR U f: 0 Jf 2£ t-<>U 3 ‘SIRIUS USE fc&icffftS'I DIVIDE ERASE K? TffliftLfcEl^SriSigti 51='SJI5©SI5B#t;SIPS?tx 5 OOPS EXPLODE 5$ £ EXTEND asTiigys 0:*Qmt^9:39. usu* 7 v U'L/ h ¥(2WRVH t;S <-. FILLET 0Ri%3A2-Tg£T%. (g i? pfhi i: l. f: mn?~$ft MEASURE ? - 7 Z ft It Z . 55 n m i* ft ■)i:J5ET5. t>fc©0fi t* n iHtRU* 0fi;t-j51®tiSfiA^*? MOVE -TUSS PEDIT iMlRUr:0fi<^ SELECT SiHIRVTtiC. aiRL%0Mt©L,©©:*g f ££;*; • $iH'T 5 fe© gf^ t © its ea». ?r a a r STRETCH i: ?l? ©tf r. 0H5tf>SL*:9. SILtuj h U lx M TRIM i #i: - }T ©tS T ffi?5 © 0 © tfiB5 9. IZfifcn-). UNDO J5Xf-y^i'©37>K|?nfi ©ttB^RS. UNDO. U i; <£ 9 B! 9 ;8 ? n REDO 56 V SBojSiR AutoCAD co^vy F<7^-< U, WffiV'PA'b&fcVffl&Zj&Rl-C , ^Kb \zttLT®b* #li. tv JSLTC»9it4a^I« : VA/toSSi)*, /Js5 £ ** v ? X (k:7 ? >K-v ? X) K:$fc> S = f C-fTKov'fiid'Ot7i/a S. 0^£OiSfi ?ES t § (i, EggtD/Dyy }. z)\ h swi®?*- (x ^-t.4--c<>zv ') *&to ^ntriiiisoiS^^^^ N \ ) / / 04.1 ^ h SL t^T^S, ^z%^SLTiM^^^86^m*^-bET66$toS:lllSc>3 K*1 t7 tiv'0 (l) A&1R ElBoroyr h t:^L-C-c<0|2UBttg#K^f S^&T*6. ***£*§ ^7S t@E±T^ ’jtV'tg-S-Tlt^Sco-e, % 57 SBOStRO 2 (2) W=® (Window) SiR T#-&. *-*'-Kri'6 w @ X? ') -y * -zL-frb [w=Sl &S#f&. -f Z t&ftZtw < < 3. -——™______ i*§: (i.ft§*}B5£) : (A - v ;v-Sr^li, LT 2 £§ 2 *S *l£t±, 3Z ?(:. ;u^$y^ ?ti^0 @ 4.2 4.2 -/ 7 x A - (3) c=3£S (Crossing) SI/? ±i£<7) [w=«] fctS^iiraii-C**. )I2 £U. $\zh^x^M£z ©J-Clf 2 o ^ig^TlSS^S^-C & 4V' fc ss Z:H£&aBRfc»*. Xv 1 Xji - V ;t,<0 2 ,6i OS^tO^rSj-C, 6. (5) L=B?* (Last) SIR &%t:%wZ:-c(Z)BimtS{Rf 3Rtm#4^&T$6. *-#- Kd'fcL 0 /: A;bT £ Z>\ x?')->*-3.-frb [L=%%] {rSjRf (6) P=EHi) (Previous) SIR tnBLfSBLfz^^m^ho z= a A if. * %37ypt%iTL, +-4(-PA^ p|gtA#-fad', xyv-yy-^-- i)'b [p=®m] £ StR-fSt, t:4 6. S5?t< '''%&*. wmii&v&LmcmMZfiiTxtZ’i 2 ^js-s-^n, select [ussiR] nv^rta^^rffiniv'. 58 65 '<*:? Y:y'i*aw ,a>j/i/$! 'tiv ? <0)^:1 5"4 5DlZIF,ySIIIri#3I3MSf < E/c/f [JjHl!=d] o.^j <^.c^a*(a@g]?cpo^ @w^n J.o:msQt:hy2 £3 X0373S ££ YAK^Z _____ : ] - [ma^] - rea^ana] aH/#s.*.5fiE*afl3 '#^7 -=w] - &w (Ojdjun^i) $4-=-H (01) °Z4-l$ftZ [D?#=v] 9'P-Tr-f <-f, 4Y ‘4Z4-#Y Y Bv^tu -^--* °g-if 5D^iTri&S0WTiSIFyYMS -t l"Dt #j °4-M-u -* m#j ^.h-* r^j (PPV) Df#"^ (6) r-w^u °*4-*stm® n^gt^ [^=ti] 9<(-T:-K<-r, y ?sr4-4:YY0y o xv s-wa x °S'4-^S‘* [H M(-Zk=fi] 9'^-^ - - 6 4ir ''P9'_f.Q:Y?B|09'Pj " '4-*:/ =-$ 111 ##*#8* (opun) n M-ffl'Q (:) E oMEtoSH s? WWW* DVIEV aamwatamTs PAN ®e©S (^nvieB) 16±TSfci:f§e#)f •*, 0S61S!t0?Aj6. (3Sx;tSS 0,0,1) iciSSTS REDRAW 0fl2©ffi** fc'TISJbicK-s fcT'g >*)#«).<3 *$«U 5. I®,*)* A ?5ia®t'a -/-K- HOiUT, HfcfclST i REDRAVALL *-a % KS) c > J wrrs o 0 REGEN V ) V IflSfflt'a - /it - MCMlzT, BSSK^t- ?<- 2018*3?: 100 fciU: CE0 LIT. PHtEA •s ^TOt'a - /It - 1-CM Lt MIf 5. REGENALL f V i ------ l " ^ " s 1 T V3 ': ! '■?...... \Vj s5. ts .0. A J / VIEW ) ■S S$J#. (ieinj® SifAiS) o\rz 10 1 Sil • SxiKii’&'ii-i. 60 3;atc,ij?a VPOINT 3IX jcS in ©?*£.* IS Sr 3 3K7COT0ffiOP,3‘a;@g5:t7 7 A f7 ei ( D 7 V H % ) t* t' a — /K— h VIEWPORTS ZTzlS & VPORTS TIKct'a -^-hotSS 143 f1 P/l- f m)- L. — * T \ ---- %-6 . J ZOOM v x^Zy J l / ' 101 Hj50t338 * ( D 7 > K Vk % 6 H y S?5= 3.266 \n ap©S# = 0.471 swim § S15 = 3 266 AREA \ 102 ®IS:0 Ez^ jfi,x= 8.7551 Y = 5.2475 Z= 0.0000 2Ci'6Zi5.X= 4.3775 Y= 3.9152 Z= 0.0000 DBASEtSiS &*/- 4.5758, X-Y¥B®a® = 17 DBLIST f/v? X= 4.3775 . t>7 Y= 1.3323 . Z= 0.0000 «06of"- ?'\-xot0J16/S^SS7nt t.o 10 2 X ■•v. 61 IJ, n n><1^ f ^ * -1 C7VK?) \ mifl- 3.266 §3^ J3@©£# = 0.471 siaitH ISIS- 3.266 AREA w S/Tk'f 5 . 102 sue: 0 «5. X = 8.7551 Y= 5.2475 Z= 0.0000 A.X= 4.3775 Y= 3.9152 Z= 0.0000 DBASEfSiB £? = 4.5758, X-Y = 17 DELIST X= 4.3775 , r>? Y= 1.3323 . r>? Z= 0.0000 i90ib®t'— fx— xoSSflztlfg&gjTvt" 5 102 5? = 4.3259 X-Y ?®± HELP • HELP D?^K-S(' -I19i£A37yK) L I NE («ft) 37yh'li. B!i65ISSt. OSNAPie@ a asm ( X-5.0000 Y*3. 0000 Z-0.0000 I D jgiEu/iScoefsiasrgT.ir 103 tStt @j,i : 0 2 C 6 (5.. X — * • • Y = ” • Z — * * • cYx jS, X = '" Y=--- Z= ■ • • SH;ta(S s? = •••, x -y vsoais f'jb'y X = • • •. ¥)\>J Y = - • •, %;'/ ? Z = ■ • • LIST & m t 0 a* © r - ^ ^ ' x t; ss § 5 -fv r %, 0R#mii;a. X,Y SM. 103 62 5<-a -t x fi m ( 3 7 > K ft ) 3?>K : STATUS ftnS -9 ? 1 ta©5*0ff?;6''B:HOUSE-3 i:«?ST i i ^ 0®©@ffli6@l$ X: 0.0000*6 12.0000 0ffifS)8 - i i - V-V Y: 0.0000*6 9.0000 STATUS X: 0.0000 *6 0.0000 155©0$©£ffl225:t8?l? (K^fS. S-K. 860^ i:) t 27 ssrs. %©s#@l 14 2 1990 16:13:45 0$©(t^6| 14 2 1990 14:12:25 0S© ®&CDttf$.BnL Sit STEBW. rtGmrJlKt:i3fr,T 2. 103 r LAYER bbt©^. ?*©]},?, m^ic'nmi^o'n ’-yk *t»t, isfco^irnsiu7i:tgsiT5. d©®JScSS/lfSS. ft. - 7 (f y0 |7 Ivt /M*.TS- k: , 63 irui ! xf to G IK -6 e rX «v >J @ K < a -i 00 Xr,„7=> , OSNAP S «3EUE±®J5Sa«:. lEtStcHaf 2> SNAP 7 o 2 TEftfi t }SEr 3 8 | t:, ils u /I El Eg ® 15 ,-2 (5.® O t: filFWTS 5>. 7.t-J yWZX.ZVJ.tv 70? 9/3 9% tnoiaas. n v y K®-|$v' ^ XZa -& K ?t m ( 3 9 9 K 6 ) " roman" -XYZ123#$% 'txt'-XYZ123#$% " italic" -XYZ123#$% STYLE eHTSX^ro^Hi (9? 9h, A??, Itl^^fc') siasr*. 128 Y - K Y * a- ‘♦i,„d-. MSBiS 0,0 > V 1 > X UCS iAvua-yssfiesSTs. 37 100mm “ 100.00 Of sttias UNITS 28 iH, £§23. SJ2®s2J12T:fcrSJI5:;2sTS. 108 90^\ ^ -"" IF M 0>£ 1 SOPLANE SSQicm^QT- Ki:y y »„ 3i3;$®#Sl5 104 (SB. ±B. SB) %. •SlSS.f. / \ ** JHk T9 T9 FILL i*;3S/fv€- F®T9/T9t«J]'9yA3. 105 65 qj @ Ty ^ < 'lA'CDWttt—Jlzt tthftbcDT. -f. zhzWAtii&iz&iR&tmtKft&zinjz -tzztvvz it. tz t itf. TeScOJ: L-Cglf ?ilTK5i> 0mi:|$At5 6 J . l$7^MA6 0l&mA&IR^TJ it. AutoCAD <7)tf-c(i. ®Lftmtm—jco$.iimfckn.%2na-cov. f (o-*e&m^tt ^ lf~V. ^*&^MLAlM'll%t&c t*'T J. ift. 8A@B£(*<7)Emi!fmiU c: fcri'T ?it. a*• l. fttr>commwTL tg*.samto0iffl(ot xh,. <-muLta$*LA0, w^icrp^L Lt3Mt& c £ <>T J it. bmi$:3--*r - w 11160 7 'f 7’7 V uSil» l-tfcim. J imKAAT IS J j&tr c t7>rf Jit. 66 £. (-yytf/H8S) £111 ^Tii^«^±if4^a»Tiit. ztuziix, motmam. ~m fSv'-ra^t-rfcJtix, ^^izteur^-^r 19> < Z t#TZ ibVTt. ^r-7 V £ SET ACAD=? -7 4-?7 '} cr>\-7ltf?T 4 V'^ b '/£ • & STORMS HiB^-ajciCjeA^o-c,- 0@^5fcgri"i t s. 4tt-co . zA,ttt$. tx&z&frmmzixa < iy c<^a^0ig£ a&LEt-Ktt-rx ftTv>5ffi^^gwwicacir?nst. • r 4 x^sfuicotoih SffiCffS intiKrt'tW* S i . fN AutoCAD u. ®^<7)@stii8 ¥g. ^ 84£) &2e#Lf ittm. «u ¥0004 £*>*£. tf 5 6. t-fttc# $4f-f X?2mUBA4*C4 6T L .t i . l*'L. f@v\T% zti£&&mfct Lrg»Lrfc(t(X. &%ttt s. z Ift. COPY (#?) . ARRAY (fi«||?) , MIRROR (^ft) 37'/flt SIX? £ M{Z 3 f -t4ft'D4«t. jfffcfc|Bii;0«£f# < wfcisi i;*** 0007 r -f ztib(D3-?> Kttft0«$IBm®nftLi+0ft r 4 x?SfHJ£65tt t it&. itti u copy * AutoCAD \Z (i. 5 -0(7)3 -v-y K (BLOCK («6-0$) . INSERT (0«ffA) . M INSERT (-feflA) . BASE ($^85:S) , WBLOCK (BW#&) ) ri'ffl £ 2 ft A V ;* ft. Z<7) f6, RENAME (£lffl*Jg) , PURGE (^gtR#) 3 v y K (SR 10 $) <, . t 67 X - 2 -Z n 91 x&jm f ^ ATTDEF BOLT 8x30 ATTDISP JS«SS* SIS** 203 ATTEDIT )S5T3. 2 7ifIS0fi base ?t^0fi; -mix AO) J fl-SBJi; MINSERT ?SS 0H?s fit MS t: gJ5'l L x (I XT 3, 57 WBLOCK 68 / (37VHS) [HORIZONTAL] [VERTICAL! AS [ ANGULAR] D I M irH- Hf2 (DIAMETER) ¥12 [RADIUS] P& f CENTER ] 3DFACE RULESURF TABSURF REV5URF ^ — a — '■& M fr (?l (37‘>Kt) 1#-^ Oo QSIMw (U \w SAVE 24 >m*-i - £ti?7 r END 0ffi477-f'M:KSlT@il7V?5S;7Ti. | 23 —»_ MM ^ z % - M35T7 QU 1 T 24 69 1 2 ) x 4--V” — K a, x-f-f /V Kon(cLT^<6yv K^+f '7ft6o on, off i)^'#60 b, LTl£ v,^ \6o 4504-y^^Tc? 3o c, -isoaf-yy a, -SJ:<®ffl^n a. a 3.4 gitoxtvyn-s-y Ko^e- mas ,60<- K «« =p.|> R. RaioT'C'KXt v 7t&. d.» *19-. RifflO«gU/:*>6Zv-^»)«Atcxtv7-t5, if AX* «-S-H3ertt-)ifA*A.KXtv 7T4. 3Z.» *«-. R. R5ffl^ir«gU9i2B»OX»Kxtv7r*. =P* *1)-. Rifio* 6 £ x t v y-f z>. ■£&& *«-. R. R5floSS*K-Si£v>#Kxt V 776. .« »icxtv7r*„ $* ft«CA*L**i'ib, *«-. R. RittKSat-%% L/c.AKXtv m. ra*R* RtBMD-ft & (tS*R*) »>)<,, teg*K -»aV>6KX t V y-f 4„ sa **^A73L**>4>. R. RiHlc§|v'Z:Sa(08l*t-xtv 7t-5>. MIHt git O xt 7 7OT- KtMBta. Ij [fx-;^Oh-9l $®0^t77t-^0Xt7y #t. #%&af 77U, ®@± ^O^tirii, f- 6$?. £%}-?&&o -B$O X-/--y rii, 6 a. BL±fl5t t^SMLt ^(nlllStrfHV'T^Z 70 cpiusi 70 13) , bAEAA N E CO p c 9 8 O ct cMi C NT L + X F E RtrBAfg^e- Kfctt Z0 £ t,lcX F E RZWttm¥8&Uz ttSo #L< (iMS-DOSO#|%#^mT 1 5) , CCTIi 3'-off mi# LA A', ffL < lia-f-X 'J 7 r b < /:^>o ### I, rAutoCa dOrgfflAV Kj Mill %&A^ttiRS£ 2. AUTCAD A- l- ?"? 7(1l:) - 71 ™ C ^ g %(ki"6o :##1 (^m) (#m) (mm ## 2 (^m (mm ZL-/< —4^/lx^7 t>:Xf —[gjg&g] (mm Or###, ^jii^cma:) ^#2 4-m# #i2#- me%^ - 73 2 zmmc co 1 2 6 3 1 8 4 2 6 8 4 2 1 7 6 5 4 3 2 10 2 2 2 2 2 2 2 2 4 0 0 0 0 0 10 0 2 3 (16+4+2+1) 0 0 0 1 0 111 12 3 ? 3 5 (32+2+1) 0 0 10 0 0 11 am (2cd«r) 110 1 110 0 #R (l©at») 110 1 110 1 8#m 3 B i t #ttCE«IoT, 16mm Tffii^4Bitffif;^-3t, 6 = 0-9 |S) b A 10 10 10 B 11 10 11 C 12 110 0 D 13 110 1 E 14 1110 F 15 1111 19 9 5 0 0 0 0 1 8mm 3 7 3 19 9 5 0 0 0 Oil i 6mm 7 c B Carry 1 1 0 10 0 3 0 0 11 0 0 10 + 3 + 0011 6 0 110 6 0 110 74 fin m 4 ii i 2m 4m 2# bit 2 1 1 0 0 0 1 0 1 0 1 0 1 1 0 0 bit 0 1 Sift 1 1 1 1 1 1 0 1 1 1 0 0 1 1 0 0 0 — < Sift 1 1 1 1 1 0 1 0 0 1 1 0 1 1 0 0 0 0 ) <- 1 1 1 1 1 0 0 1 0 0 1 1 1 1 0 0 0 0 1 1 + + + + (1) (1) Carry Carry > 75 -» (2©»K+n 1 1 0 = 1 0 0 1 1 0 0 0 1 1 1 1 0 1 1 0 0 0 0 1 1 1 1 1 0 1 1 0 1 0 1 1 0 0 1 1 1 0 0 0 0 0 0 0 0 ) 1 1 1 1 0 0 0 1 1 0 t 1 1 0 0 1 0 1 1 0 0 0 0 0 0 0 0 0 0 0 f 1 i 0 1 0 0 1 0 1 0 0 1 0 0 1 0 1 0 0 1 0 0 0 0 0 0 0 0 0 0 S — X omfktomu) 0 X X 0 0 X 0 0 0 0 0 i ( (<- + 00 0 + 00 0 ( Carry Carry + + ^ CM CM tH lOCD M ^ ; m (-» Sift) 8 t4 = 2 ...... 0 10 0 0 —> —> Sift 1/4 1 0 0 0 10 1 0 0/1 0 0 0 — 1 0 0 0 0 7 3 4-5 = 14 &0 3 73 = (6 4 + 8 + 1) 0 1110 10 1/1 0 0 1 0 0 1 10 1 10 0 0 -10 1 110 10 1 1 1 Sift JET JET COUNT' TS R TOGGLE COUNTER 76 SHIFT-* SHIP TA RING COUNTER - D Q — D Q - D Q D Q — D Q - CK CK CK CK - CK T ~Q T ~Q - ~Q - D Q D Q D Q D Q - D Q - CK CK - CK CK CK T ~Q T - "q ~Q 77 DECODER 7 SEGMENT INPUT 8 4 2 1 OUTPUT ENCODER INPUT 0 6 8 OUTPUT 8 4 78 x c ^ aa $ 17s y y ;i/ b BS 4B I 9 6 0 - (Qtt S (BBSS) ###myx*- k 1 9 7 0 - ☆ F 7 y S ttD S ( x * )]/ * - ) G e -> S i I C (DmX 1 9 8 0 - ☆ I C © Bf ft 77 S ( h v x y y ) * X y A I C PAL 1 9 9 0 - ☆ y □ y y A i c y£> S 'n iS -2> n y* y ^7 B BS Buff e r I n v e r t e r AND N A N D O R NOR X O R M < Etifl 5BBS mmtsm rXi'iJ y zL < v h h y # — 7W7U-^~ mrs ^ 'f 7 — #eBK y 7V yx x y y — 47 — * "7 y y — y 7 h y y x * - ft * j y y imm • %mm n MXyy y - x. y a — y — • f 3 — y — ktmmm in m bbs 79 * ^ I C <77 g# m 1 T4&9JU13& i) y- mum 2 ) 7 V »y 7* 7 n *y 7* 3 ) I a) TTL (74LSI) b) CMOS (7 4HCI) 2 1 ) SSB18S 2 ) 3 >/\* I/—7 3)3®f^«ffIC 80 U2Q Nega. IN FUNCTION Posi. OUT A B UP X cell 4 L L H L power 3.35 mW H L L H input 2 H H L L output UP 9 L H L H X 10 delay UP 2.5 nS X 2.5 or 5.0 nS Fig, 1 U20 2 input Adder U21 | Posi. IN FUNCTION Nega. OUT A B UP X cell 4 L L H H power 2.55 mW H L H L input 2 H H L H output UP 8 L H H L X 10 delay up 1.9 nS X 2.5 or 4.4 nS Fig, 2 U21 2 input Adder 81 U 22 Nega . IN Nega . OUT Cell 5 Power 4.25 mW Delay UP 3.8nS X 3.8nS or 5.7nS FUNCTION A B A' B ' UP B" X L L H H L H H H L L H H H L H H L L H L H L H H L H H L Fig, 3 U22 2 input Adder 82 U 30 Nega. IN Posi. IN Nega. OUT Posi. OUT AN 22 FUNCTION Cell 12 Power 9.3 mW Input loade A,B,C 2 Output UP,X 10 Delay UP 4.4 nS X 4.6 nS or 6.5 nS Fig, 4 U30 3 input Adder 83 U30 13.9 19.9 16.0 I 27.0 O C X O U30 I 33.3 up .21.0 0>O- 08 U22 up /£. 2 r° U22 n./ 23.1 27.3 -O c up|o p 4 r-d xfO 04 i 35.2 U30 U30 up > up Q—1 16.4 23.5 2 2 25.6 C X c X fr- 02 31 .6 .18.9 Power 113 mW Cell 104 + I/O 21.0 0>O- 01 27.0 Fig . g MAJORITY LOGIC (Bipolar G ate Array ) o- o o C 3 input ADD OR or EXOR o - — o 13 14 '84.5.18 OR or EXOR C8 out 8 input MAJORITY LOGIC C4 in C4 out 00 C2 in C2 out ^ Cl in Cl out --6 6------6 0-- 84.5.18 CASCADE N64 C8 out N32 C4 out N16 C2 out -o Cl out |^_o 15 16 17 18 00 00 C8 out N4 C4 out N2 M M M C2 out -o N1 Cl out -o 16 17 24 25 32 33 40 ri 48 M ink '84.5.18 n s m © m w (i ) S 89 : Ism 12 1 . 2 £ 1 $ <7) 7" V 7 hEiCEiLEH^LT, I C (AND, OR. NOR. COUNTER*^) ZMW X T. @££12 1 *> 6 ® ss o m. m ism Ef i & fern & (D m ^ m £ mm tsi $% X't, n e 5 5 5 <%%% a 3 > r yyomzmiRLX. OUT ^ T. <% LS22 l(Dt&tfl£3yryy(r)m$:MZf#]0. 2 ty £ 0 . 4 fy'izt£ OUT2. OUTS. OUT4#&;/72&B# 12#=% @ ££ El 2 a 1 6 f > © I C V A -y b 89 mg (2) g m : z zv y ? - corners-ft i oii^6ii<7)^±cf^M^o ® 9 $ 9 & £ (o 0 ^ co m m 0 S3 0 3 it 2 4 Be ^ E ^ © Be If CO 0 % ® (7) 1 MTt. L E D S^lCftS^ny^ttmSl-CfTofcNE 5 5 5 £ {£ (^ £ 1" CO T, £ ^ 3 ti it IE 51 ic 1 ft ic £ -5 £ o ic 1 m L £ t. #o; (7) A t) # it, i®IU-;MJ t7 htttoizto. ' Pel it 2 3 CO 90 O our. 3 007. / Oi C. / I * / 'O #4 Si, ( Ka - t UTJtOsi 1 OUT. N * K o ___0 666666 66 6 6 6 6 6—6—6—6 92 n|5 no V X h A. ( 1 ) an ^ ## y v > h g & 1 I C V ^ v F 1 6f> 1 I c 74LS06 3 LS221 1 NE555 1 LED ( #) 1 6 3 > t > -y- 0. 1 u F 7 10 m F 2 Eire VR 1MQ 1 1 k Q x 8 (9t'7) 2 560 Q 1 2 7 k Q 1 5 6 k Q 1 3. 9MQ 1 5. 6MQ 1 e m e > ( ^ X ) 3 0 dr — 7* A/ 15 cm 1 0 3 0 cm 1 0 93 B, ( 2 ) y v > h g % ^ i I C 74LS00 1 L S 0 8 1 LS32 1 LS49 6 LS90 6 NE555 1 LED TR320(]f)*y-h ) 3 'i v ^ u 'ft y x 'f v 3 $ 0. 1 n F 17 & til VR 1MQ 1 2. 7kQ x 7 (8b ’ >) 6 510 Q 4 3 . 9 k Q 2 4 7k Q 2 3.9MQ 1 5.6MQ 1 / 94 LED TR32D CEO TR3SO 22u ZERO ADJUST » jC-o-^ume nt Number - S' /■;: "C.7 95 IE D /: o o ? <^ ?. '$/$)'!£/?)% J TE320 *3 V~h" 3-3 *> -t ^7'Y7-K #-#7^ £ —[>{— \ j- b -f ------O ^%j— O 9- ^ 7>A" 7y-h' ~D>|~ h c HC>j- d TE32/ 3E3j;-h" ** ~?)-h", E y- h-" @ t°i ^ £ c-lh/z LZt« £, A ® (g) /^320, 32/ <9 —— 2 * 6 b a # @ # # # © © © * // /O 7 / 2 5* * 5" <4 7 @ @ # # © @ S © (Z)z 0 & c e oC 0 (2) e C 97 LINEAR WIDE TEMP INTEGRATED TYPES SE555, NE555 PRECISION TIMERS CIRCUITS BULLETIN NO.DL-S 12053, SEPTEMBER 1973-REVISED OCTOBER 1979 • Timing from Microseconds to Hours • Astable or Monostable Operation • Adjustable Duty Cycle JG OR R DUAL-IN-LINE PACKAGE (TOP VIEW) • TTL Compatible Output Can Sink or Source up to 200 mA CONTROL OIS- THRES-VOLT- « Designed to be Interchangeable with Vcc CHARGE HOLD AGE Signetics SE555/NE555 description The SE555 and NE555 are monolithic timing circuits capable of producing accurate time delays or oscilla tion. In the time-delay or monostable mode of opera tion, the timed interval is controlled by a single ex ternal resistor and capacitor network. In the astable GNO TRIG OUT- RESET mode of operation, the frequency and duty cycle GER PUT may be independently controlled with two external resistors and a single external capacitor. The threshold and trigger levels are normally two- thirds and one third, respectively, of Vqc - These levels can be altered by use of the control voltage terminal. When the trigger input falls below the trigger level, the flip-flop is set and the output goes high. When the threshold input rises above the threshold level, the flip-flop is reset and the output functional block diagram goes low. The reset input can override all other inputs and can be used to initiate a new timing cycle. When the reset input goes low, the flip-flop is reset and the output goes low. When the output is low, a low- impedance path is provided between the discharge terminal and ground. The output circuit is capable of sinking or sourcing urrent up to 200 milliamperes. Operation is specified for supplies of 5 to 15 volts. With a 5-volt supply, output levels are compatible with TTL inputs. sras 7-101 Texas Instruments incorporated 98 - 54/74 FAMILIES OF COMPATIBLE TTL CIRCUITS PIN ASSIGNMENTS (TOP VIEWS) QUADRUPLE 2-INPUT POSITIVE NANO GATES 00 gj positive logic: Y - AB 1A 11 IV Vcc 2V ZA IS SN5400 Ul SN7400 (J. Nl SN5400 (Wl SN54H00 IJ| SN74H00 (J. Nl SN54H00 (Wl SN54LOO Ul SN74LOO U. N) SN54L00 (T) See page 6-2 SN64LS00 (J, W| SN74LSOO IJ, N) SN54S00 (J, Wl SN74S00 (J. N) QUADRUPLE 2 INPUT GNO ze SA 3V POSITIVE NANO GATES WITH OPEN-COLLECTOR OUTPUTS ZSH positive logic: js GL Y - AB 1A IB IV Vcc tv ZA ze SN5401 (J) SN7401 (J. Nl SN5401 IW) SN54LS01 (J, W> SN74LS01 (J, N) SN54H01 (Wl SN54L01 (T) Vcc *6 *A 4Y 38 1A 3Y 1A :6 IY 2A ZB IV GNO SN54H01 (J) SN74H01 U, N) See page 6-4 4Y 48 *A CND 36 3A 3Y QUADRUPLE 2 INPUT rq^U^f^n.- U7].r,-u POSITIVE NOR GATES 02 positive logic: Y - A+B nminiJiiriiriiAir 1A ie IV Vcc tv 1A ze SN5402 Ul SN7402 (J. Nl SN5402 (Wl SN54L02 Ul SN74L02 U, Nl SN54L02 (Tl See page 6-8 SN54LS02 (J. W| SN74LS02U.NI SN54S02 IJ. Wl SN74S02 (J. Nl 1076 Texas Instruments INCORPORATED POST OFFICE BOX S012 • DALLAS. TEXAS 7S222 I 5-6 99 54/74 FAMILIES OF COMPATIBLE HL CIRCUITS PIN ASSIGNMENTS (TOP VIEWS) QUADRUPLE 2 INPUT POSITIVE NANO GATES WITH OPEN-COLLECTOR OUTPUTS 03 positive logic: TininiiliftiJIiJlif Y - AB 1A IB IV ZA ZB ZY SN5403 |J| SN7403 IJ, N) SN54L03 {J) SN74L03 (J. N) See page 6-4 SN54 LS03 I J. W) SN74LS03 (J. NI SN54S03 IJ, W) SN74S03 (J, N) Vrc SA 6Y SA 5Y «A 4V iv U «V GNO *V M 4V HEX INVERTERS 04 W P A •• ■ A positive logic: Y - A Pi Pi Pi r4 Pi liJiininiiTiniriif 1A IV ZA ZV ZA ZY GNO 1A ZY ZA Vcc ZA ZY AA SN5404 (J) SN7404 IJ. N) SN5404 (Wl SN54H04 (J) SN74H04 IJ, N) SN54H04 (Wl SN54L04 (J) SN74L04tJ.N) SN54L04 (Tl See page 6-2 SN54LS04 IJ. Wl SN74LS04 IJ, Nl SN54S04IJ.W) SN74S04 IJ, Nl iv «a rr gno sv &a 4v HEX INVERTERS WITH OPEN-COLLECTOR OUTPUTS t>J 05 A A positive logic: r4 Y - A n.!jijii?TijLn?.n'rL!.r 1A IV ZA ZY ZA ZY GNO 1A ZY ZA Vcc *A ZY SN540S IJ) SN7405 IJ, Nl SNS40S (Wl SN54H05 (J) SN74H05 (J, Nl SN54H05 (Wl See page 6-4 SN54LS05 (J, Wl SN74LS05 (J. Nl SN54S05 (J, Wl SN74S05 IJ. Nl HEX INVERTER BUFFERS/DRIVERS WITH OPEN COLLECTOR ^ffibR-VOLTAGE OUTPUTS positive logic: Y - A See page 6-24 SN5406 (J. W) SN7406 (J, N) 1076 Texas Instruments INCORPORATED POST OFFICE BOX S012 • DALLAS. TEXAS 7S222 I 5-7 100 54/74 FAMILIES OF COMPATIBLE TTL CIRCUITS PIN ASSIGNMENTS (TOP VIEWS) vcc «* nr m iy *a 4v HEX BUFFERS/DRIVERS WITH OPEN-COLLECTOR HIGH-VOLTAGE OUTPUTS 07 positive logic: Y - A ^ininininirtinif IA IV 2A TV 1A JV GNO See page 6-24 SN5407 (J, Wl SN7407 (J. Nl QUADRUPLE 2 INPUT POSITIVE AND GATES 08 positive logic: Y - AB SN5408 (J. Wl SN7408 (J. Nl SN54LS06 (J. Wl SN74LS08 (J. Nl SN54S08 (J, Wl SN74S08 (J. Nl See page 6-10 Vcc « «A 4Y JS JA 3Y QUADRUPLE 2-INPUT POSITIVE AND GATES WITH OP^i-COLLECTOR OUTPUTS (J! positive logic: Y - AB SN5409 (J.W) SN7409 (J, Nl SNS4LS09 (J, Wl SN74LS09 IJ. Nl SN54S09 (J. W| SN74S09 (J. Nl Seepage 6-12 TRIPLE 3-INPUT POSITIVE-NAND GATES 10 positive logic: Y - ABC SN5410 Wl SN7410 IJ, Nl SN5410 (Wl SN64HL0 (Jl SN74H10 W. Nl SN54H10 IWI SN54L10 Wl SN74L10 IJ, Nl SN54L10 IT) See page 6-2 SN54LS10 (J. Wl SN74LS10 (J, Nl SN54S10 W, Wl SN74S10 IJ, Nl 1076 Texas Instruments INCORPORATED POST OFFICE BOX SOI* • DALLAS. TEXAS 75222 I 5-8 101 54/74 FAMILIES OF COMPATIBLE TTL CIRCUITS PIN ASSIGNMENTS (TOP VIEWS) QUADRUPLE 2 INPUT POSITIVE-OR GATES 32 positive logic: Y-A+B SN5432 (J, Wl SN7432 (J, N) See page 6-28 SN54LS32 (J. W) SN74LS32 (J. N) SN64S32 (J. W) SN74S32 (J, Nl QUADRUPLE 2 INPUT POSITIVE NOR BUFFERS PEN-COLLECTOR OUTPUTS 33 % positive logic: Y - A+B SN5433 (J. W) SN7433 IJ. Nl SNS4LS33 (J. Wl SN74LS33 (J. Nl See pages 6-24 and 6-26 VCC 4« 4A 4Y * 3A 1Y QUADRUPLE 2-INPUT POSITIVE NANO BUFFERS 37 positive logic: Y-AB Tjjiiniiiin±ri±riir 1A la IV 2A is ZV CND SN5437 IJ, W) SN7437 (J. NI See page 6-20 SN54LS37 IJ, Wl SN74LS37 IJ. Nl SN54S37 I J, W| SN74S37 IJ.NI Wc «S «A IV » 1A IV QUADRUPLE 2-INPUT POSITIVE NANO BUFFERS PEN-COLLECTOR OUTPUTS 18 =D]I pOj ‘iininSrilnSF positive logic: Y-AB 1A IS IV 2A 2S ZV CNO SN5438 IJ, Wl SN7438 IJ. Nl SN54LS38 IJ. Wl SN74LS38 IJ, Nl SN54S38 IJ, Wl SN74S38 IJ. Nl See pages 6-24 and 6-26 1078 Texas Instruments INCORPORATED post o 'picc eox son s oallab . tcxab ?saaa I 5-13 102 54/74 FAMILIES OF COMPATIBLE TTL CIRCUITS PIN ASSIGNMENTS (TOP VIEWS) BCD-TO-SEVEN-SEGMENT DECODERS/DRIVERS 46 ACTIVE-LOW, OPEN-COLLECTOR, 30-V OUTPUTS 47 ACTIVE-LOW, OPEN-COLLECTOR, 15-V OUTPUTS ■ C LTABQAI tMPI/TI PUT PUT MUrt SNS446A IJ, W) SN7446AIJ, Nl SN54L46IJ) SN74L46U.NI SN5447A (J. W> SN7447A (J, Nl See page 7-22 SN54L47 (J) SN74L47 (J. Nl SN54LS47 (J. W) SN74LS47 (J. Nl BCD-TO-SEVEN-SEGMENT DECODERS/DRIVERS 48 INTERNAL PULL-UP OUTPUTS yi l rrrT • c it mob * o a PPTii linirijniilimtirtLr x > C/ LAW M M* v0 A ^ CNO PPUT1 M W MVTI SNS448 (J, W) SN7448 IJ, Nl See page 7-22 SN54LS48 (J, Wl SN74LS48 IJ, Nl BCD-TO-SEVEN-SEGMENT DECODERS/DRIVERS JWUWIR L, 49 OPENCOLLECTOR OUTPUTS IttM 1 r—P r n^riLriinirLininir \ 6 ^ C / M.AMA- x 0 * j e CMO wputi nerurs outputs SN5449 (W) See page 7-22 SN54LS49 (J, W) SN74LS49 (J, Nl 1076 Texas Instruments INCORPORATED POST OFFICE BOX 5012 • DALLAS, TEXAS 75222 I 5-15 103 - 54/74 FAMILIES OF COMPATIBLE TIL CIRCUITS ...... ULj'TnrrmBtisw«yMu PIN ASSIGNMENTS (TOP VIEWS) 256-BIT READ-ONLY MEMORIES 32 8-BIT WORDS OPEN-COLLECTOR OUTPUTS ace POt POT Sea Bipolar Microcomputer Component! Data Book. LCC4270 WEfWWW SN5488A (J, Wl SN7488A (J.NI 64-BIT READ/WRITE MEMORIES 16 4-BIT WORDS See Bipolar Microcomputer Components Data Book, LCC4270 ada HT WF at i T6i o«i Col owe SN7489 (J,N) ECADBCOUNTERS SO JolVIDE-BY-TWO AND DIVIDE-BY FIVE SN5490A (J, W) SN7490A (J. N) SN54L90 (J, T) SN74L90 (J, NI SN54LS90 U. Wl SN74LS90 (J. N) NC — No Internal connection 1076 Texas Instruments INCORPORATED POST OFFICE SOX SOI* • DALLAS. TSXAS 79**1 I 5-27 54/74 FAMILIES OF COMPATIBLE TTL CIRCUITS PIN ASSIGNMENTS (TOP VIEWS) DUAL MONOSTABLE MULTIVIBRATORS SN74221 (J.NI SNB4LS221 IJ.WI SN74LS221 (J. N) ASYNCHRONOUS FIRST IN, FIRST OUT MEMORIES 225 16 6-BIT WORDS Data Book, LCC4270 SN74S22S (J. N) 4-BIT PARALLEL LATCHED BUS TRANSCEIVERS 3-STATE OUTPUTS Tinimniniiiininir era si *i *i *i *• oca* c*o 7-345 SN54S228U.W) SN74S226 (J, N) OCTAL BUFFERS/LINE DRIVERS/LINE RECEIVERS INVERTED 3STATE OUTPUTS SN64LS240 (Jl SN74LS240 (J, N) SN54S240 IJI SN74S240 (J. N) 1076 . Texas Instruments INCORPORATED POST Office BOX soil • DALLAS, TEXAS 7*322 I 5-54 105 - K/v 8 ^ v -y 4 'C 8 y Z i I - ylo> NEXT PAGE(S) left BLANK filH 1995^3 ft 15 0 UNIX 7-?X-r-'> a 7 (fiTWS tV'5) £ 3. T^ y b 7- y b 7 - 7 ^ WS £ Ethernet ^ t , jo l t/V "7 %t LX(Dmh~^XW®Z'rt'ifzo ##li, ~f~ b 7^T<7)E6tCOV>T^^o 4r^ b ($#jtlR) 4. W^-^oig^LffS 7>y b 7-^Wffl<75*lc^T7 B,;^-'>3 > l/cVya^S’ttC, STIE Lfz i> •?> NIS(Network Information Service) tCOV^> i m# 1. OS ‘BHMftta# K, -f >7. b -;b5r Lit-tS-S-T-t), IMEBirJCuasuda8ins .u-tokyo . ac. jp> Vf 7 e#c-C#g&*X:ff»x.6o ^lh^# - 109 - 7" T^SJtiaTtbiL&o ^-<7)%(7)#ami, o~6 £ #JI)iK£o Sun (7) WS x ? m scsi ID li • ID=3 sdO • ID=1 sdl • ID=2 sd2 • ID=0 sd3 k&ot:fc*9, SCSI ID k Sd #-#kdf—%L&V' 2.2.2 /N-Kr-'-f X-^(7)8I5E r j ? im&fczm'itzPiMZMMmi>m. frtzi)'tz%\zf£'iXi5'0 ■> l/n-K7l/-t<7)7- A(Oi 9&~y FdfgS*##f&o WTK-f Ox h • hxv7 • iiLiD -i' > x h — tzl&fr f-etc UNIX 75^**6 LTV^ WS K=rv>K • t7x #h Wyat^'n h 7J-7&k'£ didn't bo tzMfr^fr . 7yyy WK • ^Py7 -kO&vxt-o^&A/ckcO OS WT'ft-fiyyW?^; ?XOk . mizmfrMfttzPimnmc}' o * &l:i ZV'tfrfzt <9 CLttf) 2.2 A-Kt< 2.2.3 X7vy## ox h -M^Smi^-Kx' -f x^coSHto* ^nrk-e*& 0 li, #^tU±|:*6'/oy9A(0 9t,T, 2.2.1 SCSI (X* v-) ^2k7)%gT*'5o c K?ib*m - 110 df 3 -7 7 X <7)^7F$I Filesystem kbytes used avail capacity Mounted on /dev/sdOa 61209 13424 41665 24% / /dev/sdOd 451469 13335 392988 3% /var /dev/sdOe 959408 5966 953452 1% /tmp /dev/sdOg 939816 314703 631132 37% /usr /dev/sdOh 459371 189485 223949 46% /home fc/iu ^-—*fffl &<7)1 0C7 7 dOl/OXx A (/N’-T- 4 V 3 7) £ sX-AtW 1/7 M fc NFS-4— < TZV'o A--r 4 73 7 XSSI'S 0 • / (71/— h ) 2.2.5 ;U- W\"-f >f va 71:114-471/^08 co$ df3-7 7KCZ ^laftvOXh LTV>£ 7r4”71/ #Z%^3"77X, ^#7 7^7WMfLao Mxff, *§ ^litik/vtfE'ffcL&V'OT-OS T## insuty T'df 37>K^|ftl) t fdf 3-77X0) (SunOS4.1.xT-16MB col a ^SS(7)/dev/sd0a urn) a V' o COlif/i /f X 7 7 /f 71/^T SCSI 3 7 h □- • X7 7-/I1 7 sd IdtEStL/:, lirB (SCSI 7 K 1/71 0) • /var ^<7)T,'f 7 7 h V l±X7'-7V-^n7‘7 7d'7V 2.2.6 format 37 >K 7)f*^>Z:*«Ei:7 7 -f7V(7)igSf^fi^^tl format 377K 1:11%#^##^/: < $A,*& 6o $Za ##1:7 7^71/^# < 111 BT'frtofiSo /etc/fstab 7 r 'f A 1. 9- T-WTWJ: oK^AfSo 2. Timezone diSjR /dev/sdOa / 4.2 rw 1 1 3. /dev/sdOd /var 4.2 rw 1 2 4. V-y /dev/sdOe /tmp 4.2 rw 1 3 /dev/sdOg /usr 4.2 rw 1 4 • AX b£, V-yy :M7<7)|£^ /dev/sdOh /home 4.2 rw 1 5 • IP TK /dev/fdO /pets pets rw,noauto 0 0 1/X. NIS <7)|£tE 2.3 -JUD&M 5. SK@ -i* yx b - vwi&rneimTff bfia. 6. vx b A^7(2Htli-Si£5E 7. ?7fry b i2g@fs#% • t^X^co^-A -i y 3-yr • UNIX <7)A XX b - A 2.4 UNIX U • UNIX SunOS4.1.x 12imT?) Z 0 ^ - b 2.3.1 > t U UNIX 777,7 7^'Wsi5o 'tiXjetl 112 - 2.5.1 'r-7)MD&n br 7"- 7 0 >9 t 7- nt-'/3 mx XT'-)!/f/f l/X h Vl:##&A^77 ^^<0 3 075^^)0 -i ;k • x> h a~9 7 (/ V T ;U) 7 0 'y h 7 7 Y-fZ>7 7 T;ko7 b‘-75c—B# RS232C 7-7)l'lZ7 \ Bj{;:J3jHx* 7V V? h V <# 1/-Y t 9u7i7hhtf. 2 2T@0(7)#? b o /usr/spool mkdir /usr/spool/lpkensyu 2.5.2 V7 hOXT'CDiSS chown daemon /usr/spool/lpkensyu chmod 0700 /usr/spool/lpkensyu 1. /etc/printcap <7)SH 3. v^e- hT'v >^<0S# 70 > 9 UMi"^)i##li/etc/printcap £ V' o g£h<7) ws(n-# ju* x Ftt'T) iz7 0 > 7T T;virE^t-^o ia&mnrncS1"o 975f8MSSsh.TV'$:vd»£-i±, (tfcco ws( V t- h *x h hv>0) V lpkensyuI postscript I PostScript:\ >^ tv h 7- <7 zfrLxmm-rz> z t :lp=/dev/ttya:\ t5?T*S £o h7V :sd=/usr/spool/lpkensyu:\ 'j -t- h 7” V > 9 coISSIZ, n - rt ;k * X :If=/usr/spool/lpkensyu/log:\ h i:7'J :af=/usr/spool/lpkensyu/acct:\ ( - /etc/printcap 5:SI6i"Z>Zbb 77—Tv :br#19200:\ ■r-il'9Y 0 zm&-f 2>z tX$>2>o 7 0 > 9 : rw: sf : sb: f c#0000374: \ &75*lpremote, OX— h >"hX h 3a75*Ipserver* :fs#0000003:xc#0:xs#0040040:\ V^E- b *X h XX>7 0 > 9 lp T*& :mx#0: yHaCO 'J -t — h 7s V > ^ fflCO/etc/printcap CO M^r#i"o m&-t2>*7^a xco?*,, ±&*>coi i'Av IM 0 X&> Z> o lpremoteIlpserver ps printer:\ 7 0 >9% 1sM - 113 - 3 £t , 10Base-5 y-tlPl: b 7 > y-/<<-#iKL, b 7>->-/<^r--/;v^cfhLt *y b lOBase-T ^(0/\7"$r#^L, WS k li Twisted- fTI: 2 ®«a#0H8t* ni?A [4] [5] Wfft> Pair tVM CO^-H&lftT* iir\*'2> 3.1 Ethernet 3.2 IP(<>^-^ y h ■7'Ph nib) (7) WS **y b 7L-C, # *# t HRW4<73&t Ethernet t?*-6o EA^tX/M . IP TK l/X CtV'ft, S-$<7) WS3£B£, Ethernet I:# ip 7k i/xii 4 /'>-A'^iIL, F7>y- wtx-eii, 3cm* y b 7-7k LT tlCi I), IP 7K VX^'#JI)StibtL, *x 10Base-5 #*$?)# b^6%%f 6o 57n b irtn-K^-vX b • TKVyitJtCD* 1*ofc 3FDDI ws A1** *1996 $4Hi hamefltV'& UTnet-2 Tli. IP T K 4-try y b Hi, tJS6<]t* 1 %- - 114 - • * * 7 b 7 - X Z<7)R]<7D(m am* *> ttu£, m - m *) #it t- liSffl3:A735^ET** Z> o - WOftbfZ:#, 3 5jc<7)#b60d *4>(^> - IP TK VX:#JI) btlfz IP 7 K 1/ % *t#*) tm#(y-;PKl:#M) t(D (0^)133.11.131.12 ffiflMJ y), 25 f-fc £ SEi-^» = - TT* 7 :255.255.255.0 - />-b If- bXd’vT^ESE-t'E.o WS - yo-K^-vxhTK^XrSiJOSTe ^/<7 3 > ON, >'7*? tm IP 7 K 1/X<7)*X b 1 V (:T6o 9 izLfzi>(r>0 (0?!1)133.11.131.255 4.3 77b^i7« - ry * & h y- b7MV MX bti OS t7)T>x b fz IP TK l/X - 7)'L, *<0|*jS£S#FLT:t5 < C: fctt, b 7TIP wr, z soR mm co*f&& fc\ t7b7-t £3fflT£±T*£-^& ins.u-tokyo.ac.jp icrr.u-tokyo.ac.jp 4.3.1 ifconfig 3 "7 > K - ^-At-ZN-miPTFl^X 133.11.128.4(inssun) t>yb7-t' -f7^-7%.-T (CCTIi Eth 133.11.139.10(insuty) ernet d?— K) co v 7 b 69 &£■ ifconfig zi~?> 130.69.127.102(:£«K 115 • address ;v-T •< yT • 7P“K***h7KU**$£5£t ‘&oSunOS LT, yyo2 -ei±, #6»#Kiisfrx Ht&t-fro coyn- K + t^hTKUxfcili cot\ l-T^hx h i. i^v-f-fy/ “ IP 1 CO & <7) £ j§/E"t" -5) o W3#tS% 7)' K* route uvyK^ftot • up, down ;u—f't y/- ■r-7'^co^y h 'JSriiJn/IIU -f y ?-7.%-X(7)#m-f5/##L&v\ £ !BT£ = MAIf, y/x -X(7)t$fcA^ iiSii up0 CO WS ti 1 o/3t Ethernet ifconfig leO 133.11.131.12 netmask 255.256.255.0 • rat -fc T 7 y h t:## $ tlT v>£*x h ktifijEIfm^o 1I/-T broadcast 133.11.128.265 up * yy • -r-7,;VT*l±jg|t)5fe(T- h 7 ifconfig nvy K<7)5||8:('-a l±6^-S#kE35tL^,o • #(7) Ethernet -bT y h , B#4- f > ifconfig -a y / ::t, loO tv'o '[>*- ;l/ h )]/— V t LXfemtZ>XttfX%Z>o TvSt)*, diUirat WSrt<737pn'bx[H]±^il route 7vy Y <) XsbZo i9-f& t & £>& o route add|delete [host|net] destination [gateway [metric]] 4.3.2 M'MtZ7 T 1 JlsOWLfc ±4r3HkO*l*l±^oai)-C**o 1. /etc/hosts • add [delete IP TK UXKUfrX hfefcg*-** „ ^-ffy/ • f-7;w:x.y h v £ii W 133.11.131.12 hosta tint" h ]#-*-&& o f<7)1# • gateway d yy • Jr — ~f)VX JU-7- (y- h 73-4) <7) IP T K l/X - 116 netstat y K (O##)# hosta*/. netstat -rn Routing tables Destination Gateway Flags Refcut Use Interface 127.0.0.1 127.0.0.1 UH 3 65595 loO default 133.11.131.1 UG 2 258026 leO 133.11.131.0 133.11.131.12 U 70 814097 leO )H7toE L < -k ^SE"t>E,= Cti • metric 6(07-77 Kli, X y b V-^yiSffl^tcjEL < b nmMi-z>$X' EBMJr -V 7X "C 1 0(7) Ethernet 4 '•/ 9 ~ 7x-7^0WSt, S^-f^yr^ • netstat ff-) tcii, it#o^* X (133.11.???.1) CO 3 /W b B (±S^t |WI • tracerute DIP7KbXfi)4o £ *, SunOS T*li tmfc*x b c/ 2. s&toR'-x •? y y 5.1 Sbto^—t 'f >y-ci±, routed y —y yffju— T -Y 's'/T —y < tl-So routed y-^Eyidssmtc*v b 7-7±cmti S;u-y * yyflMg*£itWiK y-y/Pco 1. x-yy mail 3?y Kfc ifT'X-OPfcfiHg xy b V &„ SunOS T*l±> WS jg y ^ o $jj^FtZ/etc/defaultroute 7 7 d 2. mail 377 b* l±/usr/lib/sendmail L> routed(in.routed) tt, — 7~ -Y -5"t0 sendmail U £ — )lz<0f*JW5'®'3*o Mac intosh <0 Eudora y Windows <7) Winbiff & if <7)/ Y7 n 7<7) 7-)U7 7 b t, UNIX 7- 4.3.4 tt£0)ff|g 7Xf 7 3 y±cO sendmail kiHtE LT — )P mTcon-vy KKZ m <-*#LTV^o 117 traceroute 3V7 K 3. sendmail , WtO.-? 7 -4 ^/etc/sendmail.cf 5.2 'SttfiKoZry-jvcoSB&S- Ei&fr&Srs SIMiJfc fc^EiE LZ:77 -f ;u 4. 13 WS /usr/bin/mail /etc/sendmail.cf SriE/E"!" t >1 t "Cab t 0 send- 5E5fcAcoy-;i/co7,7 ,-;i/t%t mail.cf (0# # * t (OT, '& %-py — ^XCOfxSJ£ LTV>t,, sendmail m#co##^#Z:i-y-;i/ • (y- 1. sendmail.cf 7-) eemfto / usr/lib/sendmail.subsidiary.cf • i KiiCZ: t’t) y- 7- 4c sendmail.cf £ V' 7 ^ItTC/tmp & £*113 /usr/bin/mail —*;l/i7)y —;l/% ti-U C(07k"-LZ:7 7 4';b^#jEfto 7* —-e-0’C^V'^ral±, send SjEl-tfiSliK y -Y 7^co@#ef 1 mail 6 #7)5'teCO sendmail 11 y — T*to aozffo Dmins.u-tokyo.ac.jp 118 2. sendmail.cf m^ftb + a_(Z^oTV'J sendmail.cf /i$]E L ( LTV^t)1 h" y-;i/OX£ $, ^T.-izAtu^ ji/^B "7 5" , sendmail o trX F 7 &0 s#> me##, S65r$^LT< ji-Bo (b) /usr/lib/sendmail -bt -C/tmp/sendmail.cf • Connection refused by ..... zee, f-y? Fl:&&BMM8Mia#9S# /tmp/sendmail.cfiT- X F L/zV' sendmail.cf 7rfJi^ W7-^Xf “’>3 XCO sendmail A*£tl 7-t> L & V X 6 tta0 f 2. >-w!iot < a yi-;v<7)ttiL^ES7) $EL < &v>h JZ7-;< • -qlh: > — a. — (Zj@ 3: -o /z > — -;vk LT&m$tvc< ac UCHh LTI±, frzmik-tzftfflfflmzmfco Wi< 1 B#M£jg5E0 • User Unknown: X — lW<7)5S-$fe<7)X.— V'&V'0 5.3 wm • Host Unknown: X —lUGD^S^fc^filJiSoT 5.3.1 S-Jl'lZffltZ h v^a o • ^-1F(D4:#I±77 7& F -e#i@5 17 i. j-wfa&omefi&v'. ®fc*oT*s»K e##cBimf-6^ (a) mailq nv > F* Em#t)4-^-— "dZ 18 0^±C7)^irg-|i > ^cfir*zc.7 IZitoT^a E 119 ($HOME/.forward ml-addr: addrl,addr2...... • /etc/bootparams 7* d X L WS ICOV'T -X-V>7'jXb£ ml-addr S > —A-7 K <7)#* l/X addr?^3>VTg^JoTM^*o • /etc/passwd 3.—Hf—## ml-addr: :include: filename • /etc/group 3-—tf — 7 )\z~~f • /etc/hosts *X b£k IP 7 b* l/X [include: C#V^T. * W«7)>-;V7 K l/X£S #&A,^f77 d"A/^#%tSo • /etc/networks d> 7 b 7 — ^ % k 7 b 7 “ ^7b* WX 6 NIS COl't • /etc/netmasks ^ 7 b 7“ 7 6.1 NIS ^ • /etc/ethers d*X b £3 k Ethernet 7 K I'X LAN mmx'ff) WS • /etc/netgroup d> 7 b 7 ~ 7W$LX • NIS b* 7 d* > Xf At’, Sun Microsystems tttC J: |Hl-<7) NIS -9 — kfX£-gdtS WS<7)^lV-7' fl/Co • NIS -7X?--?-/<- nis K^d- i s&tm 6.2 NIS <7)^14 WSo NIS T#mf S##C0AT^2(7) WS ^iiiiiLT < s k, 'Jk 120 - • NIS X 6. ■9--/>'-7)t$h7)'o7t77d,7y h ■ 7u7y WS Til bfz&>~ C-, -i^X)^—/d—±<7) ypserv iZ bZiiK flE<7)iEWrf±6 e>l±T-B & < Tvx M LT/etc/passwd X)fS%£lE3R't" Z 0 9 —y—/*-frbn\S-%i >b :7Z.kT\ NIS 6.6 NIS (DMA t WS • NIS 7 7 'i 7 > b 6.6.1 NIS HA NIS NIS»- Sr-gttiRS WS0 • & WS X)£$ 9 (i*i4-K 7 d' • NIS <7)±&7,-^> >fcV'o) - ypserv • K7^^10ofe NIS -9 —v <- icSE L T X 7 d” 7 > b 6o • -9--/<- (-7X7- • X 7-7) #i$<7)&60 - ypbind NIS X 7 4 7 > b USE LTf<7) WS it* 6.6.2 TX^-db-zi-X)## M7Z NIS K 7 d' 7|*j(7)-9 —/<- L/Ji-o • ®6W$SLTv^0 - f X)# • ffLv^NIS ^rSATv^0 rpc.ypupdated rpc.yppaawdd # • 24 Bm##L-CV'a. 6.5 NIS • /itt CPU xkf — K7)?i$<, V'o 7 7 d’7 > b 6 6 9fMR 5* > -7-"9"' til IS (/etc/passwd) oT|9,99 6.6.3 WS TCDISfS 1. X 7 'f 7 7 b • T'n jfvA»7etc/passwd <7) • D — * )V WS M "C/etc/passwd *#*#& [fmfo STf-S Cl 7i"6o 2. ^(7)SIS:I±6 WS O/etc/passwd • "7X X --^-yd-T* NIS t'- 7^-X • 7 7 f NIS Zoi: ^SStL-rv^tLif, ypbind r-^'SlZtfL X NIS -9--y<-(O^S (IP 7 Y VX) 6.7 "t" - 121 4. /etc/rc.local <7)$Mo <1 <75 7 7 A )W7) "C* , 1. -VX^-y--7<-T't7)-7 ,-^^-X(/>iE$T ypserv,ypbind,yppasswdd if * 9 T7C<7) 7 7 -f A- (fl|X.If*#l:*xb nx > h 7 7 MiioTV'ixtf, &z Lfc<75& £>/etc/hosts) MT<7)3v>Ki:Z >)sEWrt"^>o 5. OT«3-7>K(:i i) # cd /var/yp f£-fZ>o # make VyT'^ $lx.lf # make hosts # cd /usr/etc/yp # ypin.it -m 2. X l/-7'y —/<—\<7)-r- 7-^t-XCOlsiai x i/—t' y~ —7^—(i jF) t' — 9 x <7)rt^ xv-T'-y — £v x x —y --> <•- 0& <7) k — gc $ y- /; * K, )k(7) 2 6. WS <75 reboot (a) VX 7 — y — ;<75 V \y T^lESr$ tL/: 7. NIS B# J&TN yppush tV'-SXf V7H:Z •9, X Ix-T'y —/<-#(7)V vT'$rM# 6.8 X 1/ — — /\ — (DixS -f&o 111, Xlz-T'y —y<-^S6V'T vxf-y — V'*V'k, ^Ct: yppush I*r-CS4v»0 (b) X lx-7'y--;<-#T — # cd /usr/etc/yp ypxfr k v» -9 x X V 7" b 5rl§!Bb L, vx # ypinit -s VX^—f-A'-^ f —9 — A<75f,‘- 9^t-x £7 1: «: #iE-r * o itlT*y — /*- frb-r- 9 s<-X3 fcf'- $ilh o 3. —Ex.-y-'-7)f NIS vy/|:*t/ 6.11 nis =iv>K • /etc/group ypwhitch SltEk^d'X b i)f NIS y* —7<— '>X-rAH8B^;l'-7>, -E-60 WS "<&o ypset NIS y" —7<— fctyj I) 2. /etc/defaultdomain ~7 7 -i 7VU K X 4 : yppoll V "j ~f - 122 - 7 NFS <7)Effl ■f-tT.JiI^<7)7 7 mrj$<7)J.--’f<7)*-A 77 b V-fc&Ak LT. i/jl)U • X7U 7 NFS(Network File System) b b'W’W-f V- • t'dT'^A. #m7 9"77 U4 7 - 7 WS<9fflT7 7 9 ,;V'£* 7.3 NFS 7.1 NFS SA(7)WS NFS f—7<- • •§■7.—-y —d$> <£> f> *> 7) ws iccfed'—a • L'(D WS i:x7X;f- b76d' tw 77 b v - &eaL&itKif& %&v'„ • LV)Z 9l:x77tf<- b76d^(E*#^"T • WS Z'tiZJL—if-SrfiSLilt #. BAdfLSffl&k*) £&V'0 • NFS • 7 7 9" &V'#T\ 1. /etc/exports ~7 T 'i )V fc"(D77^7>Mc. tW'f77h'J^. h" W.±<7) i t 3& 123 - 2. exportfs 3 7 2K t7^%&L^#'77 7b Stl. -5eB# /etc/exports L7l"-:iS.'/E:6’ NFS M7 7 4zXt)^V'B#(-7 7-t7 7 b StL exportfsT-dbSo # So NFS 4"-7<-^f 7 7 L^#-A"T ati, 6, 4—/<-### L. 7 7tXA^r# l7j:o^ftfit77 7 bfS<75-C% 7 7 exports -a 417 7 b 7 r 7 7 7tS oTtgtt£M 2k^W$So t LT, /etc/exports 7.4 NFS ?7 S 7 7 4X/)?%& L/2#(Cx automount # mount server:/usr/local /trap_mnt/local Cl i) @#?4 7 btS # In -s /tmp_mnt/local /usr/local uitli, automount C £. -SB#W7 7-kX^tth- • @#W^777b/7777b 3. 7 7 7 7)## 7(: Z ^Te^ftSo 7 7 124 automount ”C(i, "7 "j~f £B7 7 'i 5. automount 60jj3|$; NFS bf tf'Z U?b')~ 4?-W>ym >b&fc*£*g5&tto 77^ automount <0^S!jl±, f 60#H^ t o automountX -m\ -1 /etc/auto.master (a) M#"7 7 V (indirect map) -7^ > b df-f > H: 1 Oi* -m l± NIS ©7^?-77ZI:®bi^It -77 > b / U 7 b V (i *#/ /usr S'"77 > b dM > b lift t, /usr/local [4] immsm. 7 U X b ') (/usr/bin f/usr/lib, 2 *%#####* /usr/etc 6 %") liEAt < » l)7XtX^ 7AIH, INS-T-519,June 1993 %l:tto /usr £-77>bd*d’>btcLT [5] fSSH: 7-7 b 7-X, /usr/local $r automount "CWS L /usr/bin 4#%###*vins- ^/usr/lib £-e<0<7)i$1$V'Z:V' /project -re,hard,intr hosts:/home/project •7X ^--7 7 7" (7 7 dfV^S: /etc/auto.master fcft) li^JX)<£ 0 to /- /etc/auto.direct 125 M## & & W^com#^ g % lo GM#t##(D#% 2o 3. ^#'7#co#%(cZ5#^ 4. 7^(Dgg#CO#Z#MlJ w ^cP3g)^ —- 127 - 0 s t 5 +- m; m m 6? ## If ] # W if 16 liHE -R is 16 if tn e E W # H ^ co 1-1 6 95 V 'k A o R a|D CO ''S $K A n \ o 00 CNI Z C0$g-S*lt, 6 £ Jx/iftW** e*suw#x#Mem» i 9 #ffltx»'tgs *•* i:fefctrox?-t-„ »SfS'ie«»(ifii, x-^ftic/J'A#:T*5~7 Bica 0 t f '*#? L A. s%E* 5ndMfc#< A*^sros*#*=i: LT5$< $ i feSHfcV' tSotl'* Lfc#. *t6t|ii7)A«i»fPBAt i t), Tte/vtr^V-Xay r irismsei bfc. AAlc fcBbB-r«e-Srottlto//;AtBKati, Stt Lfcr j: LIR*< SvX, aSrTSBSS-frTIlWcgIS •) zh-lcoV'T >b(SSSilSv'fcv^iSv'$ ¥/$ 6 ¥SS««-S; ®SfS« tiSW ft, 6 ¥*•§•«# y ^fi7ASM^ y^-teKTro** T*fcd : msc omrnm aa«» c#im) itnes (^w> ##*Z (%ft) 6E»A (##@) SW^S (ItS#) SBttH (SteS) traceroute kekux.kek.jp traceroute to kekux.kek.jp (130.87.34.2), 30 hops max, 40 byte packets 1 insgel.ins.u-tokyo.ac.jp (133.11.139.1) 2 ms 1 ms 2 ms 2 133.11.141.9 (133.11.141.9) 4ms 4ms 4ms 3 ra06.nc.u-tokyo.ac.jp (133.11.125.17) 10 ms 11 ms 12 ms 4 ra07.nc.u-tokyo.ac.jp (133.11.126.7) 12 ms 11 ms 12 ms 5 192.41.197.15 (192.41.197.15) 9 ms 9 ms 9 ms 6 nee-nacsis.bb.sinet.ad.jp (150.99.101.1) 16 ms 16 ms 16 ms 7 kek-chiba.sinet.ad.jp (150.99.99.14) 12 ms 19 ms 12 ms 8 202.13.223.209 (202.13.223.209) 23 ms 23 ms 23 ms 9 kekcis2.kek.jp (130.87.43.4) 22 ms 28 ms 22 ms 10 kekcis-lirewall.kek.jp (130.87.43.1) 23 ms 23 ms 24 ms 11 kekux.kek.jp (130.87.34.2) 26 ms 26 ms 26 ms