I know that Little's Law states (paraphrased):

the average number of things in a system is the product of the average rate at which things leave the system and the average time each one spends in the system, or:

```
n=x*(r+z);
x-throughput
r-response time
z-think time
r+z - average response time
```

now i have question about a problem from *programming pearls*:

Suppose that system makes 100 disk accesses to process a transaction (although some systems require fewer, some systems will require several hundred disk access per transaction). How many transactions per hour per disk can the system handle? Assumption: disk access takes 20 milliseconds.

Here is solution on this problem

Ignoring slowdown due to queuing, 20 milliseconds (of the seek time) per disk operation gives 2 seconds per transaction or 1800 transactions per hour

i am confused because i did not understand solution of this problem please help

allof devit's questions, this should be tagged with`homework`

– BlueRaja - Danny Pflughoeft Jun 7 '10 at 14:37