For instance,

```
And @@ Thread[A >= B]
```

should do the job.

EDIT: On the other hand, this

```
cmp = Compile[
{
{a, _Integer, 1},
{b, _Integer, 1}
},
Module[
{flag = True},
Do[
If[Not[a[[p]] >= b[[p]]], flag = False; Break[]],
{p, 1, Length@a}];
flag],
CompilationTarget \[Rule] "C"
]
```

is 20 times faster. 20 times uglier, too, though.

EDIT 2: Since David does not have a C compiler available, here are all the timing results, with two differences. Firstly, his second method has been fixed to compare all elements. Secondly, I compare `a`

to itself, which is the worst case (otherwise, my second method above will only have to compare elements up to the first to violate the condition).

```
(*OP's method*)
And @@ Table[a[[i]] >= b[[i]], {i, 10^6}] // Timing
(*acl's uncompiled method*)
And @@ Thread[a >= b] // Timing
(*Leonid's method*)
lessEqual[a, b] // Timing
(*David's method #1*)
NonNegative[Min[a - b]] // Timing
(*David's method #2*)
Timing[result = True;
n = 1; While[n < Length[a],
If[a[[n]] < b[[n]], result = False; Break[]];
n++]; result]
(*acl's compiled method*)
cmp[a, a] // Timing
```

So the compiled method is much faster (note that David's second method and the compiled method here are the same algorithm, and the only difference is overhead).

All these are on battery power so there may be some random fluctuations, but I think they are representative.

EDIT 3: If, as ruebenko suggested in a comment, I replace `Part`

with `Compile`GetElement`

, like this

```
cmp2 = Compile[{{a, _Integer, 1}, {b, _Integer, 1}},
Module[{flag = True},
Do[If[Not[Compile`GetElement[a, p] >= Compile`GetElement[b, p]],
flag = False; Break[]], {p, 1, Length@a}];
flag], CompilationTarget -> "C"]
```

then `cmp2`

is a twice as fast as `cmp`

.