I'm writing real-time data to an empty spinning disk sequentially. (EDIT: It doesn't have to be sequential, as long as I can read it back as if it was sequential.) The data arrives at a rate of 100 MB/s and the disks have an average write speed of 120 MB/s.
Sometimes (especially as free space starts to decrease) the disk speed goes under 100 MB/s depending on where on the platter the disk is writing, and I have to drop vital data.
Is there any way to write to disk in a pattern (or some other way) to ensure a constant write speed close to the average rate? Regardless of how much data there currently is on the disk.
EDIT:
Some notes on why I think this should be possible.
When usually writing to the disk, it starts in the fast portion of the platter and then writes towards the slower parts. However, if I could write half the data to the fast part and half the data to the slow part (i.e. for 1 second it could write 50MB to the fast part and 50MB to the slow part), they should meet in the middle. I could possibly achieve a constant rate?
As a programmer, I am not sure how I can decide where on the platter the data is written or even if the OS can achieve something similar.
Partition the disk into two equally sized partitions. Write a few seconds worth of data alternating between the partitions. That way you get almost all of the usual sequential speed, nicely averaged. One disk seek every few seconds eats up almost no time. One seek per second reduces the usable time from 1000ms to ~990ms which is a ~1% reduction in throughput. The more RAM you can dedicate to buffering the less you have to seek.
Use more partitions to increase the averaging effect.