# Can someone look to see if i am doing my Newtons Method in MIPS correctly?(Assembly)

I am new to this and i am trying to do it without using co-processors. Any suggestions? I really need to do good on this assignment! This code is supposed to be in MIPS assembly in which codes newtons method and contains the a-e points. I keep getting my code to asemble but it drops off the bottom.....i am not sure what that means though.

#Part 1
# (A)
# g(x) = 0
# x = 7^(1/3)
# g(x) = x^3 - 7
# g'(x) = 3x^2
.data
x: .float 1.0
bb: .float 7.0
c: .float 3.0
epsilom: .float 0.00001
divide: .float 2.0

#=======================================
# (B)
# Write a MIPS function newtons_top that takes 1 “floating-point argument”:
# $f0 xn, the current estimate of the root # It computes your function g(xn) = g($f0), and leaves the result in $f2. Do not # modify$f0’s value.  (This would be a good place to document your g(x).)
newtons_top:
l.s $f0, x l.s$f1, bb
mul.s $f5,$f0, $f0 mul.s$f0, $f5,$f0
sub.s $f2,$f0, $f1 #======================================= # (C) #$f0   xn, the current estimate of the root
# It computes your function g’(xn) = g’($f0), and leaves the result in$f4.  Do not
# modify $f0’s value. (This would be a good place to document your g’(x).) newtons_bottom: l.s$f3, c
mul.s $f5,$f0, $f0 mul.s$f4, $f5,$f3

#======================================
#(D)
#  Write a MIPS function newtons_err that takes 1 “floating-point argument”:
# $f0 xn, the current estimate of the root # It computes the error term ?n from (Eq. 3), and leaves the result in$f6.  Do not
# modify $f0’s value. Hint: Call your previous function newtons_err: div.s$f6,$f2,$f4

#========================================
#(E)

newtons_nth:
div.s $f2,$f0, $f1 #$f2 gets n/x
add.s $f2,$f2, $f1 #$f2 gets n/x + x
div.s $f2,$f2, divide  # $f2 gets x'=(n/x + x)/2 sub.s$f3, $f2,$f1  # $f3 gets x'-x abs.s$f3, $f3 #$f3 gets |x'-x|
c.lt.s $f3, epsilom # set the flag if |x'-x| < 0.00001 li$v0, 1

#===========================================
#(F)
#  Write a MIPS function newtons_gee that takes no arguments, and does this:
#• Initializes x0 = 1.0 from (Eq. 1), by setting $f0 to 1.0. # • Repeatedly calls newtons_nth until the return value is non-zero. # Remember to pass the current n in$a0 (even if your implementation
# doesn’t use it for printing)

newtons_gee:
l.s $f0, 1 beqz$t3, newtons_nth

#=============================================
# Main Block

main:
j newtons_gee
syscall

-
If it's an assignment, add the "homework" tag please. Also if you are actually using answers from your different quections, accept or at least upvote them. –  Vladimir F Nov 10 '11 at 17:54
Don't just post your whole codes here like that. It is better for everyone if you can produce a minimal working example of your problem (most of the times you will solve the problem yourself just by trying to do that!) –  hugomg Nov 13 '11 at 18:19

Here's a start.

The following code is nonsense:

newtons_gee:
l.s $f0, 1 beqz$t3, newtons_nth


To call a function in MIPS assembly you should be using the jal instruction and not beqz. \$t3 has an undefined value (probably non-zero) when main jumps to newtons_gee, so the branch is not taken and control returns back to main.

You need to go back and re-read your notes on how to do function calls.

-
okay, ill do that. Thanks for looking at it. Is that the only problem or is there a lot more problems? –  user1026822 Nov 11 '11 at 0:35
i'll upvote this answer for you, but please learn how to do that and also learn how tio accept answers. Also use homework tag. –  Vladimir F Nov 11 '11 at 7:48
Okay, i am new to this stuff. I am really bad at MIPS i just am not understanding it very well :( –  user1026822 Nov 11 '11 at 7:55