**Update**

I've just updated benchmarks according to new comments. Following Joshua's comment, the inject method will gain a 25% speedup, see `array walking without to_a`

in the table below.

However since speed is the primary goal for the OP we have a new winner for the contest which reduces runtime from `.34`

to `.22`

in my benchmarks.

I still prefer `inject`

method because it's more ruby-ish, but if speed matters then the while loop seems to be the way.

**New Answer**

You can always benchmark all these answers, I did it for curiosity:

```
> ./matrix.rb
Rehearsal --------------------------------------------------------------
matrix method 1.500000 0.000000 1.500000 ( 1.510685)
array walking 0.470000 0.010000 0.480000 ( 0.475307)
array walking without to_a 0.340000 0.000000 0.340000 ( 0.337244)
array zip 0.590000 0.000000 0.590000 ( 0.594954)
array zip 2 0.500000 0.000000 0.500000 ( 0.509500)
while loop 0.220000 0.000000 0.220000 ( 0.219851)
----------------------------------------------------- total: 3.630000sec
user system total real
matrix method 1.500000 0.000000 1.500000 ( 1.501340)
array walking 0.480000 0.000000 0.480000 ( 0.480052)
array walking without to_a 0.340000 0.000000 0.340000 ( 0.338614)
array zip 0.610000 0.010000 0.620000 ( 0.625805)
array zip 2 0.510000 0.000000 0.510000 ( 0.506430)
while loop 0.220000 0.000000 0.220000 ( 0.220873)
```

Simple array walking wins, Matrix method is worse because it includes object instantiation. I think that if you want to beat the `inject`

`while`

method (to beat here means an order of magnitude fastest) you need to implement a `C`

extension and bind it in your ruby program.

Here it's the script I've used

```
#!/usr/bin/env ruby
require 'benchmark'
require 'matrix'
array_A = [1, 2, 1, 4, 5, 3, 2, 6, 5, 8, 9]
array_B = [3, 2, 4, 2, 5, 1, 3, 3, 7, 5, 4]
def matrix_method a1, a2
(Matrix.row_vector(a1) * Matrix.column_vector(a2)).element(0,0)
end
n = 100000
Benchmark.bmbm do |b|
b.report('matrix method') { n.times { matrix_method(array_A, array_B) } }
b.report('array walking') { n.times { (0...array_A.count).to_a.inject(0) {|r, i| r + array_A[i]*array_B[i]} } }
b.report('array walking without to_a') { n.times { (0...array_A.count).inject(0) {|r, i| r + array_A[i]*array_B[i]} } }
b.report('array zip') { n.times { array_A.zip(array_B).map{|i,j| i*j }.inject(:+) } }
b.report('array zip 2') { n.times { array_A.zip(array_B).inject(0) {|r, (a, b)| r + (a * b)} } }
b.report('while loop') do
n.times do
sum, i, size = 0, 0, array_A.size
while i < size
sum += array_A[i] * array_B[i]
i += 1
end
sum
end
end
end
```