Manual CEPR 96 - Balogh technical center
Manual CEPR 96 - Balogh technical center Manual CEPR 96 - Balogh technical center
Manuel instructions CEPR96 / MRUC20 M96.40.02 SYNTAX Hexadecimal : Mnemonic : EXECUTION COMMENTS EXAMPLE ACCU. MEMORY ADN (ADN) XOR DVN result IMMEDIATE ADDRESSING SYMBOLS DEFINITION LIMITS Make a logic XOR beetwen the data at the address 00 of the accumulator and the value 07. The result is stored at the address 00. Hexadecimal : 01 14 20 07 00 07 04 Mnemonic : X0R,0,7. XOR DATA/VALUE IMMEDIATE ADRESSING - SEPARATED FORMAT NC 16 NL NB AD0 DV0 ...ADN DVN..04 XOR,AD0,DV0...,ADN,DVN. PAGE 24 16H XOR Make a logic XOR beetwen the data at the address 00 of the accumulator and the value 07. The result is stored at the address 00. Résultat : (ADN)end = (ADN)begin ⊕ DVN (ADN) data at the address ADN. (ADN)end data at the address ADN after operation (ADN)begin data at the address ADN before operation DVN Immediat value 0 à FFH 0 à FFH 0 à FFH 0 à FFH
SYNTAX Hexadecimal : Mnemonic : EXECUTION COMMENTS EXAMPLE ACCU. MEMORY SYMBOLS DEFINITION LIMITS PAGE 25 Manuel instructions CEPR96 / MRUC20 M96.40.02 ADN (ADN) XOR DAN (DAN) result DIRECT ADDRESSING ACCU. MEMORY Allows to do a logic XOR beetwen 2 data stored in the memory. The result is stored in the address ADN. Result : (ADN)end = (ADN)begin ⊕ (DAN) Make a logic XOR beetwen the data at the address 00 of the accumulator and the data at the address 07. The result is stored at the address 00. Hexadecimal : 01 15 10 07 00 07 04 Mnemonic : XOR.D,0,7. XOR DATA/DATA DIRECT ADDRESSING - SEPARATED FORMAT NC 17 NL NB AD0 DA0 ...ADN DAN ..04. XOR.D,AD0,DA0...,ADN,DAN. (ADN) data at the address ADN. (ADN)end data at the address ADN after operation (ADN)begin data at the address ADN before operation DVN Immediate value 0 à FFH 0 à FFH 0 à FFH 0 à FFH 17H XOR.D
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- Page 63 and 64: SYNTAX EXECUTION SpF/Spf HEX VALUE
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- Page 67 and 68: SYNTAX STATEMENT OF MRER21 MODULES
Manuel instructions <strong>CEPR</strong><strong>96</strong> / MRUC20 M<strong>96</strong>.40.02<br />
SYNTAX<br />
Hexadecimal :<br />
Mnemonic :<br />
EXECUTION<br />
COMMENTS<br />
EXAMPLE<br />
ACCU. MEMORY<br />
ADN (ADN)<br />
XOR<br />
DVN<br />
result<br />
IMMEDIATE ADDRESSING<br />
SYMBOLS DEFINITION LIMITS<br />
Make a logic XOR beetwen the data at the address 00 of the accumulator and the value<br />
07. The result is stored at the address 00.<br />
Hexadecimal : 01 14 20 07 00 07 04<br />
Mnemonic : X0R,0,7.<br />
XOR DATA/VALUE<br />
IMMEDIATE ADRESSING - SEPARATED FORMAT<br />
NC 16 NL NB AD0 DV0 ...ADN DVN..04<br />
XOR,AD0,DV0...,ADN,DVN.<br />
PAGE 24<br />
16H<br />
XOR<br />
Make a logic XOR beetwen the data at the address 00 of the accumulator and the value<br />
07. The result is stored at the address 00.<br />
Résultat : (ADN)end = (ADN)begin ⊕ DVN<br />
(ADN) data at the address ADN.<br />
(ADN)end data at the address ADN after operation<br />
(ADN)begin data at the address ADN before operation<br />
DVN Immediat value<br />
0 à FFH<br />
0 à FFH<br />
0 à FFH<br />
0 à FFH