STR910 Instruction and GPIO speed

Posted on May 17, 2011 at 09:35

Hi All

I have seen a few discussions about instruction speed and the speed of toggling GPIOs. However the discussions are not very thorough and leave many open questions, including actual results and their relevence.

Since I have to deliver results at a critical stage in a project I have spent some time doing real measurements and am having difficulties working out whether they represent optimum speed or whether there is some setting which is causing slower results as expected.

Test set up:

The testing involves measuring a GPIO output pin and benchmark reference is from the ST presentation where 12MHz toggle speed is stated as achievable. As well as determining the toggle speed possible, also the instruction speed from FLASH and SRAM was measured.

1. Setup. Running on STR912F with PLL set to 48MHz. No other dividers activated as far as aware. [verification - speed when running from 25MHz oscillator was about half that as from PLL and various additional dividers did decrease the speed accordingly - the dividers were all removed for the measurements below]

2. Test 1. RAW GPIO toggle speed based on a sequence of assember instructions optimised for one instruction per output state change:

str r2,[r0,#0] set '1'

str r1,[r0,#0] set '0'

str r2,[r0,#0] set '1'

str r3,[r0,#0] set '0'

str r4,[r0,#0] set '1'

The period between '0' and '1' was measured as:

- 185ns when running from FLASH

- 185ns when running from SRAM with no wait states

- 210ns when running from SRAM with wait states

The results were identical with or without buffered peripherals (this is contrary to statements in other postings ?).

Accesses between buffered and unbuffered is understood to be basically 0x4800xxxx and 0x5800xxxx addresses.

This gives a toggle frequency of 5,4MHz according to period or 2,7MHz when measured as the generated square wave frequency (it is not clear how the ST value is defined).

Assuming that the speed will be doubled at the max. 96MHz this gives 10,8MHz (or 5,4MHz) which is a little less than the stated 12MHz or a little less than half of it.

It seems as though the toggle speed is not identical to the instruction execution speed in this case but limited in the port access hardware to some extent (see instruction speed measurement in next point)

3. Instruction speed

To interprete the speed of instruction execution a small loop was placed between two of the toggles. A variable was incremented in a register and the resulting loop caused a total of 65 instructions in Thumb mode to be executed (I don't think that mode (ARM or Thumb) is actually relevant for the instruction speed test).

By measuring the time increase between the GPIO changes and dividing it by the total quantity of instructions the single instruction execution time was calculated.

Time for 65 instructions when running in FLASH = 10,2us

Time for 65 instructions when running in SRAM with wait states = 5,33us

Time for 65 instructions when running in SRAM without wait states = 3,97us

The instruction times are therefore:

157ns / 82ns / 61ns or expressed in instructions per second

6.4M / 12M / 16.4M

The results suggest that the instruction speed from SRAM could be faster than the GPIO toggle speed, so probably the port accesses are slowing.

Since the PLL speed was 48MHz is suggests that about 3 or more clock are required to execute one instruction.

Now these are the measurement results and everyone knows that measurement results have to be treated with great care because they may not be accurate. And this is the main reason why I want to show them here. I was expecting the instruction speed to be equal to the PLL speed but the results deviate by a factor of about 3 and more (depending on where the code is running). The fact that it can be slower is not the point because this is clear from the way the FLASH and its queue operates.

The other way of stating the results are : what am I doing wrong to not measure faster instruction speed? If there is an incorrect chip setting what is it (or could it be)? Are the GPIO results accurate (same basic question about settings).

If we assume some measurement inaccuracy and the actual factor between clock and instruction and GPIO toggle to ST stated amximum is a factor of 2, where can this half speed reduction be coming from???

Many thanks for any serious analysis and suggestions!!

Regards

Mark Butcher

http://www.uTasker.com