If it takes 15uS to read/prepare a record then your maximum throughput will be about 1sec/15uSec = 67k/sec. You can ignore the 6uSec part as the single thread reading the file cannot generate more records than that. (try it, change the program to only read/process and discard the output) not sure how you got 9uS.
To make this fly beyond 67k/sec ...
A) estimate the maximum records per second you can read from the disk to be formatted. While this depends on hardware a lot, a figure of 20Mb/sec is typical for an average laptop. This number will give you the upper bound to aim for, and as you get close you can ease off trying.
B) create a single thread just to read the file and incur the IO delay. This thread should write to large preallocated buffers, say 4Mb each. See http://en.wikipedia.org/wiki/Circular_buffer for a way of managing these. You are looking to hold maybe 1000 records per buffer (guess, but not just 8 ish records!) pseudo code:
while not EOF
Allocate big buffer
While not EOF and not buffer full
Read file using fgets() or whatever
Apply only very small preprocessing, ideally none
Save into buffer
Release buffer for other threads
C) create another thread ( or several if the order of records is not important) to process a ring buffer when it is full, your regex step. This thread in turn writes to another set of output ring buffers (tip, keep the ring buffer control structures apart in memory)
Wait/get an input buffer to process, semaphores/mutex/whatever you prefer
Allocate output buffer
Process records from input buffer,
Place result in output buffer
Release output buffer for next thread
Release input buffer for reading thread
D) create you final thread to consume the data. It isn't clear if this output is being written to disk or network, so this might affect the disk reading thread.
Wait/get input buffer from processed records pool
Output records to wherever
Return buffer to processed records pool
Preallocate all buffers and pass them back to where they came from. Eg you might have 4 buffers between file reading thread and processing threads, when all 4 are infuse, the file reader waits for one to be free, it doesn't just allocate new buffers.
Try not to memset() buffers if you can avoid it, waste of memory bandwidth.
You won't need many buffers, 6? Per ring buffer?
The system will auto tune to slowest thread ( http://en.wikipedia.org/wiki/Theory_of_constraints ) so if you can read and prepare data faster than you want to output it, all the buffers will fill up and everything will pause except the output.
As the threads are passing reasonable amounts of data each sync point, the overhead of this will not matter too much.
The above design is how some of my code reads CSV files as quick as possible, basically it all comes to to input IO bandwidth as limiting factor.