Convert the following C/C++ fragment into equivalent MIPS assembly language. Assume that the variables a, b, c, d, i and x are assigned to registers $t1, $t2, $t3, $t4, $s0 and $s1 respectively.
if ((a<b && (c == 0)
d = 1;
Convert the following C/C++ fragment into equivalent MIPS assembly language. Assume that the variables a, b,...
Convert the following C fragment to equivalent MIPS assembly language. Assume that the variables a, b, c, d, i and x are assigened to registers $t1, $t2, $t3, $t4, $s0 and $s1 respectively. Assume that the base address of the array A and B is in register $a0 and $a1 respectively. if (a > 0) b = a + 10; else b = a - 10;
For the following C statement, what is the corresponding MIPS assembly code? Assume that the variables i, and j are assigned to registers $s0, $s1, respectively. Assume that the base address of the arrays A and B are in registers $s2 and $s3, respectively. B[i] = A[i] - 10
Convert the following c code into instructions MIPS Assembly language. Assume a associated with $s0, i with $s1, and j with $s2. if( i < 10) { if( j < 10) { a = 0; } else { a = 1;} } else { a = 2; }
Translate the following C code to MIPS assembly. Assume that the values of a, b, i, and j are in registers $s0, $s1, $t0, and $t1, respectively. Also assume that $s2 holds the base address of the array D. for (i = 0: i < a: i++) for (j = 0: j < b: j++) D[2 * j] = i + j;
For the following C statement, what is the corresponding MIPS assembly code? Assume that the variables i andj are assigned to registers $50 and $s1, respectively and the base address of the arrays A and B are in registers $s6 and $57, respectively. B[i] = A[B[j]+12];
Write an equivalent MIPS code for the following C code. Assume that the base address of an array A is stored in register 450. Variables x, i, j and h are stored in registers $t0,$t1, $t2 and $t3 respectively. do{ x = x + A[i]; i = i + j; } (while i != h); Make sure your MIPS code has sufficient comments.
2. The table below holds MIPS assembly code fragments with different branch instructions LOOP addi $s2. $s2. 2 subi $t1. st1. 1 bne t1. 0. LOOP DONE: LOOP: it st2. $0. stl beq t2. 0. DONE addi $s2. Ss2. 2 LOOP DONE: For the loops written in MIPS assembly in the above table, assume that the register Şt1 is initialized to the value of 10. What is the value in register $s2 assuming that $s2 initially has a value of...
1. (15 pts) For the following C statement, what is the corresponding MIPS assembly code? Assume f, g, h correspond to $80, $s1, and $s2, respectively. f=g+(h-5) 2. (15 pts) For the following pseudo-MIPS assembly instructions, what is the corresponding C code? add f, g, h add f,i, f 3. (30 pts) Provide the instruction type, assembly language instruction, and binary representation of the instruction described by the following MIPS fields: a. op = 0, rs = 18, rt=9, rd...
2.9 5 $2.2, 2.3> Translate the following C code to MIPS. Assume that the variables f, g, h, i, and j are assigned to registers $s0, $s1, $s2, $s3, and $s4, respectively. Assume that the base address of the arrays A and B are in registers $s6 and $s7, respectively. Assume that the elements of the arrays A and B are 4-byte words: fAlBg
1. Convert the following C statement to MIPS code. Assume x, y and z are assigned to registers $s0, $s1 and $s2 respectively and the starting address of array A is $s6. x = y + z + A[3] 2. 2.Convert the following C statement to MIPS code. Assume the base address of array A is $s3 and h is assigned to register $s2 . A[7] = h + A[7]