I now understand the problem so I thought I’d explained it on here to improve the forum with more information.
Total CPI = Base CPI + Memory-Stall Cycles per Instruction
Memory-Stall Cycles per Instruction = Miss Penalty (in cycles) x Miss Rate
The first order of business is to figure out the miss penalty if there was not a second cache. This is easily determined by the following calculation:
Main Memory Access Time/ (1/Processor Speed) = (100) / (.5) = 200 cycles
Note: Main Memory Access Time is in ns, and the inverse of Processor Speed will be in ns/cycles, so by dividing the two we get the number of cycles. We are doing this calculation because it takes a certain amount of time to go all the way to main memory (100ns) and the processor speed determines how fast we can go (2GHz) and by changing clock speed to clock rate by inversion we can calculate the number of cycles required to go to main memory (miss penalty).
Because the problem involves two caches, when there is a miss in L1 there will be an attempt to retrieve the information from L2 and then if the information is still not found it will access main memory, so the flow looks something like this.
Access L1 -----> Access L2 -----> Access Main Memory
(it’s implied that if there is a “hit” we will not need to continue the flow)
The problem tells us that L2 direct mapped access takes = 12 cycles
So the calculation will look as follow:
Total CPI = 1.5 + (0.07 x 12) + (0.035 x 200) = 9.34 CPI
Because you miss 7% of the time you will need to access L2 and that takes 12 cycles so you multiply the two. Then if it’s still not found we must access main memory which takes 200 cycles and the global miss rate is 3.5%
Total CPI = 1.5 + (0.07 x 28) + (0.015 x 200) = 6.46
The second calculation is done in a similar fashion