[Xenomai] OMAP L138

Gilles Chanteperdrix gilles.chanteperdrix at xenomai.org
Wed Apr 9 02:20:20 CEST 2014


On 04/09/2014 01:30 AM, Peter Howard wrote:
> On Tue, 2014-04-08 at 11:18 +0200, Gilles Chanteperdrix wrote:
>> On 04/07/2014 07:34 AM, Peter Howard wrote:
>>>
>>> On Wed, 2014-04-02 at 09:24 +0200, Gilles Chanteperdrix wrote:
>>>> On 04/02/2014 04:59 AM, Peter Howard wrote:
>>>>> Hi,
>>>>>
>>>>> I'm interested in running xenomai on a TI-OMAP L138 board.  I found the
>>>>> following thread in the archives:
>>>>>
>>>>> http://www.xenomai.org/pipermail/xenomai/2010-January/018898.html
>>>>>
>>>>> where someone was working on porting ipipe and xenomai to that board.
>>>>> However, the thread ended with problems still unresolved, and the patch
>>>>> in the thread (just the changes for ipipe) isn't in the ipipe
>>>>> repository.
>>>>>
>>>>> Does anyone know if this work was completed or just faded into the
>>>>> ether?
>>>>
>>>> We never merged a patch for this processor. And a lot of things changed
>>>> since that time. If you are interested in porting the I-pipe patch to
>>>> this processor, see:
>>>>
>>>> http://www.xenomai.org/index.php/I-pipe-core:ArmPorting
>>>>
>>>
>>> Contrary to what I said last week, I'm working on a patch off the head
>>> of the ipipe repo.  I have built a kernel with an ipipe port and with
>>> xenomai patched in.  However the latency results are bad right now:
>>>
>>> root at arago:~# xeno latency -T 25
>>> == Sampling period: 1000 us
>>> == Test mode: periodic user-mode task
>>> == All results in microseconds
>>> warming up...
>>> RTT|  00:00:01  (periodic user-mode task, 1000 us period, priority 99)
>>> RTH|----lat min|----lat avg|----lat max|-overrun|---msw|---lat best|--lat worst
>>> RTD|      3.541|      8.833|     60.749|       0|     0|      3.541|     60.749
>>> RTD|      3.499|     13.583|     93.916|       0|     0|      3.499|     93.916
>>> RTD|      3.666|     88.999|    109.708|       0|     0|      3.499|    109.708
>>> RTD|      3.541|     14.958|     95.374|       0|     0|      3.499|    109.708
>>> RTD|      3.541|      9.333|     77.583|       0|     0|      3.499|    109.708
>>> RTD|      4.041|     88.416|    109.791|       0|     0|      3.499|    109.791
>>> RTD|      3.499|      8.958|     72.791|       0|     0|      3.499|    109.791
>>> RTD|      3.499|     26.041|    106.874|       0|     0|      3.499|    109.791
>>> RTD|      3.874|     82.708|    107.916|       0|     0|      3.499|    109.791
>>> RTD|      3.499|      9.083|     73.708|       0|     0|      3.499|    109.791
>>> RTD|      3.333|      8.874|     62.458|       0|     0|      3.333|    109.791
>>> RTD|      3.333|      8.749|     62.208|       0|     0|      3.333|    109.791 
>>> RTD|      3.416|     12.708|     99.416|       0|     0|      3.333|    109.791 
>>> RTD|      3.499|     14.249|    106.749|       0|     0|      3.333|    109.791 
>>> RTD|      3.541|      9.083|     76.499|       0|     0|      3.333|    109.791 
>>> RTD|      3.249|      8.791|     63.499|       0|     0|      3.249|    109.791 
>>> RTD|      3.416|      8.999|     62.499|       0|     0|      3.249|    109.791 
>>> RTD|      3.541|     26.166|    101.208|       0|     0|      3.249|    109.791 
>>> RTD|      3.583|     13.624|     92.458|       0|     0|      3.249|    109.791 
>>> RTD|      3.541|      8.916|     73.708|       0|     0|      3.249|    109.791 
>>> RTD|      3.541|      8.999|     64.291|       0|     0|      3.249|    109.791 
>>> RTT|  00:00:22  (periodic user-mode task, 1000 us period, priority 99)          
>>> RTH|----lat min|----lat avg|----lat max|-overrun|---msw|---lat best|--lat worst 
>>> RTD|      3.499|      8.874|     61.374|       0|     0|      3.249|    109.791 
>>> RTD|      3.499|     13.833|    100.749|       0|     0|      3.249|    109.791 
>>> RTD|      3.541|     13.083|     99.249|       0|     0|      3.249|    109.791 
>>> ---|-----------|-----------|-----------|--------|------|------------------------
>>> RTS|      3.249|     21.458|    109.791|       0|     0|    00:00:25/00:00:25   
>>> root at arago:~# 
>>
>> Note that if the OMAPL138 is an armv4 or armv5, you may want to enable
>> the FCSE in order to reduce context switch time (and latencies).
>>
>>
> 
> I enabled FCSE, and the max latency is more consistent (though the min
> and average  latency has climbed).  How do the below figures look?

Otherwise, it is hard to say whether there is an issue or not. It is not
uncommon for armv4 or armv5 to have high latencies like this.
On what core is this processor based, running at what frequency?


-- 
                                                                Gilles.




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