I need to build a platform for logging some sensor data. And possibly later doing some calculations on this logged data.
The Raspberry Pi seem like an interesting (and cheap!) device for this.
I have a gyroscope that can sample at 800 Hz which is equivalent to one sample every 1.25 ms. The gyroscope has a built-in FIFO that can store 32 samples. This means that the FIFO has to be emptied at least every 32 * 1.25 = 40 ms, otherwise samples will be dropped.
So my question is: Can I be 100% certain that my kernel driver will be able to extract the data from this FIFO within the specified time?
The gyroscope communicates with the host via i2c, and it can also trigger an interrupt pin on a "almost full"-event if that would make things simpler. But it would be easiest if I could just have a loop in the driver that retrieves the data at regular intervals.
I can live with storing the data in kernel space, and move it to user space more infrequently (no constraint on time).
I can also live with sampling the gyroscope at lower sample rates (400 or 200 Hz is acceptable).
This is with regards to the stock kernel, and not the special real-time kernel as it seems like this is currently not supported for the Raspberry Pi.