Fundamentals of Digital Logic and Microcomputer Design |
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30 sonuçtan 1-3 arası sonuçlar
Sayfa 404
... of sign extension is that , to multiply a signed 8 - bit number by a signed 16 - bit
number , one must first sign - extend the signed 8 - bit into a signed 16 - bit
number and then the instruction IMUL can be used for 16 x 16 signed
multiplication .
... of sign extension is that , to multiply a signed 8 - bit number by a signed 16 - bit
number , one must first sign - extend the signed 8 - bit into a signed 16 - bit
number and then the instruction IMUL can be used for 16 x 16 signed
multiplication .
Sayfa 531
44 Write an 80386 assembly program to divide a signed 32 - bit number in DX :
AX by an 8 - bit signed number in BH . Store the 16 - bit quotient and 16 - bit
remainder in AX and DX respectively . 9 . 45 Write an 80386 assembly program
to ...
44 Write an 80386 assembly program to divide a signed 32 - bit number in DX :
AX by an 8 - bit signed number in BH . Store the 16 - bit quotient and 16 - bit
remainder in AX and DX respectively . 9 . 45 Write an 80386 assembly program
to ...
Sayfa 552
16 - bit by 16 - bit multiplication ( both signed and unsigned ) and 32 - bit by 16 -
bit division ( both signed and unsigned ) • Compare , clear , and negate
instructions . • Extended arithmetic instruction for performing multiprecision
arithmetic .
16 - bit by 16 - bit multiplication ( both signed and unsigned ) and 32 - bit by 16 -
bit division ( both signed and unsigned ) • Compare , clear , and negate
instructions . • Extended arithmetic instruction for performing multiprecision
arithmetic .
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İçindekiler
NUMBER SYSTEMS AND CODES | 31 |
BOOLEAN ALGEBRA AND DIGITAL LOGIC GATES | 67 |
SEQUENTIAL LOGIC DESIGN | 171 |
Telif Hakkı | |
16 diğer bölüm gösterilmiyor
Sık kullanılan terimler ve kelime öbekleri
addition address register addressing modes assembly asserted Assume base basic binary bits block branch byte cache called carry chip circuit clear clock combinational complement condition connected consider contains contents converter counter cycle decoder determine device diagram digits displacement effective enable example exception execution external field Figure flags flip-flop four function gate hardware HIGH immediate implemented indicates indirect Initialize input instruction interface interrupt K-map language lines loaded logic main memory means memory microcomputer microprocessor mode MOVE multiplication Note obtained offset operand operation output Pentium perform pins placed pointer port processing processor reset result segment sequence shift shown in Figure shows signal signed specified stack starting stored transfer typical unit vector Write zero
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Kaynakça bilgileri
| Başlık | Fundamentals of Digital Logic and Microcomputer Design |
| Yazar | Mohamed Rafiquzzaman |
| Baskı | 3, resimli, düzeltilmiş |
| Yayıncı | Rafi Systems, Incorporated, 1999 |
| Orijinalin kaynağı: | Michigan Üniversitesi |
| Dijital ortama aktarılmış | 12 Ara 2007 |
| ISBN | 0966498011, 9780966498011 |
| Uzunluk | 828 sayfa |
| Alıntıyı Dışa Aktar | BiBTeX EndNote RefMan |