Several factors are needed to be considered to reach to any conclusion in this case.
Every machine/assembly instruction takes one or more clock cycles to complete.
After fetching the assembly code for your program, you can calculate the total time using following formula:
Execution time = Total number of cycles * Clock cycle time = Instruction count * cycles per instruction * clock cycle time
.
In general, you cannot directly estimate the the total time to process an array of size 10^6 to be 1 second.
The time to execute a program may be dependent on the following factors:
Processor: To find the closest estimate, you can read the processor manual to get the cycles per instruction for an instruction (as different instruction takes different number of cycles to retire) and use the above formula.
The data/operand: The size of the operand (in your case, the data in the array), has effect on latency.
Caching: The time required to access the data on the same cache line is same. Therefore, the total time is also dependent on the number of cache lines the CPU needs to access in total.
Compiler Optimizations: The modern compilers are very smart in optimising the code where read/write operations are not involved. In your case, you are just traversing the array and not performing any operations. Therefore, due to the optimisation, it may take much less than 1 second to traverse the array.