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I am seeking help, most importantly from VMEbus experts.

I am working on a project that aims to setup a communication channel from a real-time powerpc controller (Emerson MVME4100), running vxWorks 6.8, to a Linux Intel computer (Xembedded XVME6300), running Debian 6 with kernel 2.6.32. This channel runs over VME bus; both computers are in a VME enclosure and both use the Tundra Tsi148 chipset. The Intel computer is explicitly configured as the system controller, the real-time computer is explicitly not.

Setup: For the Intel computer I wrote a custom driver that creates a 4MB kernel buffer, and shares it over the VME bus by means of a slave window; For the real-time computer I setup a DMA transfer to repeatedly forward blocks of exactly 48640 bytes; filled with bytes of test data (zeros, ones, twos, etc), in quick succession (once every 32 milliseconds, if possible) For the Intel computer I read the kernel buffer from the driver, to see whether the data arrives correctly, with a hand-started Python program.

Expectation: I am expecting to see the same data (zeros, ones etc) from the Python program. I am expecting transmission times roughly corresponding to the chosen bus speed (typically 290 us or 145 us, depending on bus speed), plus a reasonable DMA setup overhead (up to 10us? I am willing to accept larger numbers, say hundreds of usecs, if that is what the bus normally needs)


  • Sometimes data does not arrive at all, and "transmission" time is ~2000 us
  • Sometimes data arrives reliably, but transmission time is ~98270us, or 98470us, depending on the chosen bus speed.

Questions: How could I make the transmission reliable and bring down these aweful latencies? What general direction should I search next?

(I would like to tag with VMEbus if I could)

Many thanks

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I found that 98470 us was due to an invalid setting at the real-time computer. I used a modification of example VME DMA transfer where I tried to let the tsi148 use a block size of 8192 bytes and a holdoff value of 64us between each two blocks. The blocksize of 8192 is an invalid value which the code translated in such a way that it effectively became 32bytes, thus accounting for roughly 97 of the 98 milliseconds latency. – Martijn Smitshoek Sep 19 '12 at 10:45
Failure to forward data with "latencies" of ~2000us was found to be a mismatch in speeds and endoding on the VME backplane. If a DMA transaction of 2eSST320 tries to talk to a window configured to 2eSST160, the transaction fails and the routine takes about this much time to discover the failure. – Martijn Smitshoek Sep 19 '12 at 10:51
Martijn, I don't know anything about this topic, I just wanted to compliment you for the well-worded and thorough question. – Ben Graham Oct 5 '12 at 6:36

1 Answer 1

up vote 1 down vote accepted

My comments on the question describe how I got the bus working: - ensure 2eSST320 on both sides of the bus - ensure that the DMA transaction used a valid block size (the largest valid was 4096 bytes)

I achieved an effective speed of 150MBytes/s (the bus can achieve 320MBytes/s but the tsi148 chip is known for causing significant overhead). This is good enough for me.

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