Mikroprotsessorlar va mikroehm asoslari
I n t e l f i r m a s i p r o t s e s s o r l a r i
Yüklə 9,57 Mb. Pdf görüntüsü
|
- Bu səhifədəki naviqasiya:
- A y r i m P e n t i u m va b o s h q a p r o t s e s s o r l a r n i n g ta v sifla ri 1 .1 7 -ja d v a l
- R 6 p r o ts e s s o rla ri.
| I n t e l f i r m a s i p r o t s e s s o r l a r i .
Intel fi rm as i u z o q yillar d a v o m i d a x 8 6 p r o t s e s s o r la r in i ishla b c h iq a r is h va q a y ta i s h la s h d a te n g i y o ’q b ir in c h i b o 'i i b keldi. IB M PC b a rc h a a v lo d p ro t s e s s o rla r i q o ’ llan ilgan. Intel fi rm a s i P e n ti u m p ro t s e s s o rla r i bilan x 8 6 o il a s i n in g 5 -a v l o d p r o t s e s s o r la r in i is h lab c h iq a r a b o s h l a y d i. U la r a r x i t e k t u r a registrla ri ba z a si v a k o m a n d a l a r i s i s te m a s i b o ' y i c h a 3 2 - r a z r y a d li p r o t s e s s o r l a r tu r ig a kir adi, a m m o 64 bitli m a ’ l u m o tl a r s h i n a s ig a e g a sh u s ab ab li b a ’z id a ula rni 6 4 -r a z ry a d li bilan ad a s h t ir i s h a d i . A d r e s l a r sh i n a s i fizik x o ti ra n i 4 G b a y t a d re s la s h im k o n in i bera di. 64 A y r i m P e n t i u m va b o s h q a p r o t s e s s o r l a r n i n g ta v sifla ri 1 .1 7 -ja d v a l P ro tse sso r S istem a sh in asin in g ch asto tasi m G ts Y a d ro c h asto tasi (P R )m G ts K E SH LI K bayt K E SH L2 M M X k o 'm a g i Soket (slo t) M an b a.V In te l firm a sin in g p ro tse sso rlari P en tiu m ( 1 -a v lo d ) 6 0 ,6 6 60 .6 6 16(86/8) Soket 4 5 5 0 ,60.66 7 0 .9 0 .1 0 0 16(86/8) 3 ,3 ;7 .9 /3 . (1 -av fo d ) 3 P entium M M X 66 166,200,233 3 2 (1 6 /1 6 ) Soket 7 2 .8 /3 .3 P en tiu m P ro 5 0 ,60,66 150.1 6 6 .1 8 0 .2 0 0 16(86/8) 2 56kb 5 1 2kb Soket 8 3.3 P en tiu m II o v es d rive 66 333 3 2 (1 6 ,1 6 ) 5 1 2kb S o k et 8 2.5 P en tiu m !1 6 6 ,100 2 3 3 .2 6 6 .3 0 0. 3 5 0 .4 0 0 .4 5 0 32(16. 16) 5 1 2kb 4 Slot 1 2.8 ;2 .0 P en tiu m П X eom 100 4 0 0 .4 5 0 3 2 (1 6 /1 6 ) 5 1 2kb Im b .2 tn b 4 Slot 2 2,0 C elero n 66 2 6 6 .3 0 0 3 2 (1 6 /1 6 ) 4 _ Slot 1. So k et-3 7 0 2,0 C eleron 66 3 0 0 0 A ,3 3 3 . 3 6 6 .4 0 0 .4 3 3 . 4 6 6 .5 0 9 .5 3 3 32(16 16) !2 8 k b Slot 1 (4 3 3 m G tsg a c h a) Soket- 370 2.0 C elero n (C o p p e m in e ) 6 6 .1 0 0 5 3 3 Л . 566-766. 8 0 0 .8 5 0 .9 0 0 3 2 ( 1 6 1 6 ) 128kb f .S S E So k et-3 7 0 1.5 P en tiu m HI 100,133 4 5 0 ,5 0 0 .5 3 3 . 5 50.600 3 2 (1 6 /1 6 ) 5 12 kb + .SS E Slot 1 2.0-2.05 P en tiu m 11 {C o p p em in e) 100.133 5 0 0 .5 3 3 .5 5 0 . 6 0 0 .6 5 0 .6 6 7 . 7 0 0 .7 3 3 .7 5 0 . 8 0 0 .8 5 0 .8 6 6 . 9 0 0 .9 3 3 .1 0 0 0 . 1 130 3 2 (1 6 /1 6 ) 2 56kb J-.SSE Slot 1. S o k et-3 7 0 (1 G G ts g ach a) 1.65-1,80 P en tiu m II) X eom (n asto p n b iy ) 100,103 6 00 -8 66 3 2 ( 16 16) 2 56kb t-.SSE Slot 2 2.0 P en tiu m III X eom ( s e n e n ib iy ) 100 5 00 -5 50 32(16 16) 5 12kb Im b. 2 m b + SSE Slot 2 2.0 P en tiu m 4 4 x 1 0 0 1 4 0 0 .1 5 0 0 .17 0 0 18 2 5 6 k b 4 .SSE S o ket-423 1.6 A M D i rm asi p ro tsesso rlari A M D K5 50.60 .6 6 P R 5 .9 0 .1 0 0 .120 133.166 2 4 (1 6 /8 ) - Soket 5,7 3.8 ;2.5- 2.9:3.3 A M D K6 M M X 66 P R 16 6 .2 0 0 .2 3 3 . 2 6 6 ,3 0 0 .3 3 3 6 4 (3 2 /3 2 ) 4- S oket 7 2,9/3.3 3.2.-3.3 2 .2 /3 .3 A M D K6-2 6 6 .100 3 0 0 .3 3 3 .3 5 0 . 3 8 0 ,4 0 0 .4 5 0 , 4 7 5 .5 0 0 ,5 3 3 . 550 6 4 (3 2 /3 2 ) + 3D NO W ! S oket 7 2,2/3.3 A M D K6-3 100 4 0 0 .4 5 0 6 4 (3 2 /3 2 ) 2 5 6 kb f .3 D NO W ! S oket 7 A M D A thlon m odel i 1 va 3 2 x 100 5 5 0 ,6 0 0 ,6 5 0 . 7 0 0 ,7 5 0 .8 5 0 . 128 (6 4 /6 4 ) 5 l2 k b - 8m b + ,3D NO W ! S ok et A 1,6 - 1,7/ 2 ,5-3.3 65 9 5 0 ,9 0 0 ,1 0 0 0 0 k e n g a y tm a li A M D A thlon m o d eli 4 2 x 1 0 0 2x 133 3 0 0 ,9 0 0 ,9 5 0 , 1 0 0 0 ,1 1 0 0 .1 3 0 0 1 0 0 0 .1 1 3 0 ,1 2 0 0 1330 128 (6 4 /6 4 ) 2 5 6 k b + ,3 D NO W ! k e n g a y tm a li S o k e t A 1,7-1,75 A M D D uron 200 6 0 0 ,6 5 0 ,7 0 0 , 8 0 0 .8 5 0 .9 0 0 128 (6 4 /6 4 ) 64 k b + .3 D NO W ! k e n g a y tm a i f S o k e t A C y r ix firm a sin in g p ro tse sso rlari C yrix 6x 8 6 < M l)-6 x8 6 I. 5 0 .5 5 .6 0 , 66. 75 PR 120. 133, 1 50 .1 6 6 .2 0 0 16 S o k e t 5,7 S o k et 7 3,3- 3 .5 2 /2 ,8 - 3,3 C y rix 6x 8 6 M X 3 0 .3 3 .7 5 .8 3 P R 120. 133. 1 5 0.166.200 16 -i- Soket 7 2 ,9/3.3 C v rix 6x86 V llIx x x C lP 6 6 .7 5 .1 0 0 PR 300 3 ^ 350 16 ’■ Soket 7 V I A firm asi p ro tse sso rlari V IA C yrix M lh 133 16 256 kb К 3D NO W ! k e n u a v tm a " if S o k et-3 7 0 V IA C yrix 111 ( J o s h u a ) 133 4 3 3 .4 6 6 .5 0 0 . 5 3 3 ...7 0 0 64 256 kb + . 3D N O W ! k e n g a y tm a V S o k et-3 7 0 Pentium M M X (R 55S) protsessorlari Pentium protsessorlarining navbatdagi avlodidir. M M X kengaytm adan tashqari Pentium M M X arxitekturasida takomillashgan joylari k o ’p. U ning bu takom illashuvi sodda am alla m i bajarishini oshiradi. Oxirgi Pentium modeli 233 MGts yadro chastotaga ega, Pentium M M X - 266M G ts ga ega. Interfeys b o 'y ich a Pentium protsessorlari shinasi 486 protsessori shinasining aylandi. A gar 486 shinasi maksimal ixchamiik egiluvchanlik va turli razryadli qurilm ala rg a ulanish imkonini bersa, unda Pentium shinasi maksimal ishlab chiqarish darajasini beradi. Interfeys ichki ikkilamchi kesh ishlatish va ichki birlamchi y ordam ida o ’tkazuvchi (W T) bilan ishlashga imkon beradi va shu kabi teskari yozuv bilan ham. Interfeys 2 ta protsess orgacha SM P yoki FRC ni bitta shina y ord am id a am alga oshirish imkonini beradi. Pentium interfeysi 4,5 va soketlarda turli ishlab chiq aruvchilarning protsessorlari bilan ishiatiladi. R 6 p r o ts e s s o rla ri. Intel protsessorlarining 6-avlodiga Pentium Pro, Pentium II/III ni turli к о ' rinishiari va Celeron kiradi. Bu aviod protsessorlarini um um la shgan nomi R6. Hisoblashlarni tashkil qilish prinsipi nuqtai nazaridan din am ik ijro etish bu avlodning asosiy farqidir. Bu masalani yechish chastotaning taktini oshirishga emas protsessorning arxitekturasini vaxshilanish hisobiga ishlab chiqaruvchanligiga qaratilgan. Dinamik ijro protsessor yadros ining m a ’lumot va topshiriqlar shinasida tezligini oshiradi, chunki bir vaqtni o ’zida bir q ancha topshiriqlarni ishlab chiqadi. Kichik chiqish jo y i g a tashqi shina uchun ikki mustaqil shina DIB (Dual Indepent Bus), arxitekturasi R6 da qo'lianiladi. Bu shinalardan biri faqat ikkilamchi keshi 66 kristali bilan a lo qa qilish uchun ishlatiladi. R6 mik ro arxitektura “ haqiqiy” protsessor modellari qatorida ishlatiladi. U Pentium Pro dan to Pentium III gacha boshlanadi. Pentium II1-1, 13 GGtsni 1- Yüklə 9,57 Mb. Dostları ilə paylaş:
|