Task assignment and description: EN: 03_seminar_assignment-en.pdf CZ: 03_cviceni_zadani.pdf
The second part of the seminar - Explanation of basic instructions of selected CPU and their use
Description of individual instructions:
Instruction | Instruction Syntax | Operation | Description |
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add | add \$d, \$s, \$t | \$d = \$s + \$t; | Add: Add together values in two registers (\$s + \$t) and stores the result in register \$d. |
addi | addi \$t, \$s, C | \$t = \$s + C; | Add immediate: Adds a value in \$s and a signed constant (immediate value) and stores the result in \$t. |
sub | sub \$d,\$s,\$t | \$d = \$s - \$t | Subtract: Subtracts a value in register \$t from value of \$s and stores result in \$d. |
and | and d,s,t | \$d = s & \$t | And: Logical and (bit-wise conjunction) |
andi | andi d,s,C | \$d = s & C | And immediate: Logical and with constant (no sign extension of C) |
or | or d,s,t | \$d = \$s | \$t | Or: Logical or (bit-vise inclusive disjunction) |
ori | ori d,s,t | \$d = \$s | C | Or: Logical or with constant (no sign extension of C) |
slt | slt \$d, \$s, \$t | \$d = \$s + \$t; | Set if less then: if value \$s < \$t set \$d to 1 else to 0. |
bne | bne \$s, \$t, offset | if \$s != \$t go to PC+4+4*offset; else go to PC+4 | Branch on not equal: (conditional) jump if value in \$s is not equal to a value in \$t. |
beq | beq \$s, \$t, offset | if \$s == \$t go to PC+4+4*offset; else go to PC+4 | Branch on equal: (conditional) jump if value in \$s is equal to a value in \$t. |
jump | j C | PC = (PC ∧ 0xf0000000) ∨ 4*C | Jump: Unconditional jump to label C. |
lw | lw \$t,C(\$s) | \$t = Memory[\$s + C] | Load word: Loads a word from address in memory and stores it in register \$t. |
sw | sw \$t,C(\$s) | Memory[\$s + C] = \$t | Store word: Stores a value in register \$t to given address in memory. |
lui | lui \$t,C | \$t = C << 16 | Load upper immediate: Stores given immediate value (constant) C to upper part of register \$t. Register is 32 bits long and C is 16 bits. |
if command | |
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if (i ==j) f = g + h; f = f – i; | // s0=f, s1=g, s2=h, s3=i, s4=j bne s3, s4, L1 // If i!=j, go to label L1 add s0, s1, s2 // if block: f=g+h L1: sub s0, s0, s3 // f = f-i |
if-else Command | |
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if (i ==j) f = g + h; else f = f – i; | // s0=f, s1=g, s2=h, s3=i, s4=j bne s3, s4, else // If i!=j, go to else label add s0, s1, s2 // if block: f=g+h j L2 // jump behind the else block to L2 else: sub s0, s0, s3 // else block: f = f-i L2: |
while Cycle | |
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int pow = 1; int x = 0; while(pow != 128) { pow = pow*2; x = x + 1; } | // s0=pow, s1=x addi s0, $0, 1 // pow = 1 addi s1, $0, 0 // x = 0 addi t0, $0, 128 // t0 = 128 pro porovnávání while: beq s0, t0, done // compare pow with value 128 in t0 (always have to compare two registers) sll s0, s0, 1 // pow = pow*2 addi s1, s1, 1 // x = x+1 j while done: |
for Cycle | |
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int sum = 0; for(int i=0; i!=10; i++) { sum = sum + i; } | // Is equivalent to following while cycle:: int sum = 0; int i = 0; while(i!=10){ sum = sum + i; i++; } |
Read values from the data memory. | |
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// // Just as an example... int a, *pa=0x80020040; int b, *pb=0x80020044; int c, *pc=0x00001234; a = *pa; b = *pb; c = *pc; | // s0=pa (Base address), s1=a, s2=b, s3=c lui s0, 0x8002 // pa = 0x80020000; lw s1, 0x40(s0) // a = *pa; lw s2, 0x44(s0) // b = *pb; addi s0, $0, 0x1234 // pc = 0x00001234; lw s3, 0x0(s0) // c = *pc; |