QP actor frameworks and QM modeling tool Icon

QP actor frameworks and QM modeling tool

1 of 5 2 of 5 3 of 5 4 of 5 5 of 5 (15) Read Reviews | Last Updated
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Reviews (15)

★★★★★
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ease 1 of 5 2 of 5 3 of 5 4 of 5 5 of 5 4 / 5
features 1 of 5 2 of 5 3 of 5 4 of 5 5 of 5 5 / 5
design 1 of 5 2 of 5 3 of 5 4 of 5 5 of 5 5 / 5
support 1 of 5 2 of 5 3 of 5 4 of 5 5 of 5 5 / 5
  • 1 of 5 2 of 5 3 of 5 4 of 5 5 of 5

    Perfect HSM model.It fits embedded projects.

    Posted 04/21/2015
  • 1 of 5 2 of 5 3 of 5 4 of 5 5 of 5

    So excellent!

    Posted 04/23/2014
  • 1 of 5 2 of 5 3 of 5 4 of 5 5 of 5

    So excellent!

    Posted 04/23/2014
  • 1 of 5 2 of 5 3 of 5 4 of 5 5 of 5

    QP is fantastic!

    Posted 01/16/2014
  • 1 of 5 2 of 5 3 of 5 4 of 5 5 of 5

    Thanks for Qpc, it's perfect!

    Posted 06/08/2013
  • 1 of 5 2 of 5 3 of 5 4 of 5 5 of 5

    qpc works perfectly, thanks

    Posted 10/28/2012
  • 1 of 5 2 of 5 3 of 5 4 of 5 5 of 5

    QP and QM are wonderful tools for creating modern model driven reactive designs.

    Posted 01/23/2012
  • 1 of 5 2 of 5 3 of 5 4 of 5 5 of 5

    good job

    Posted 07/11/2011
  • 1 of 5 2 of 5 3 of 5 4 of 5 5 of 5

    Miro does an excellent job of supporting this product. In the last couple of weeks I have submitted two requests for clarification and he has gotten back in less than a day. I encourage anyone who want to learn a new way of thinking and coding that results in better, much better, code right away consider this product.

    Posted 04/19/2011
  • 1 of 5 2 of 5 3 of 5 4 of 5 5 of 5

    The QP State Machine Framework should be in every embedded developer's toolkit. Virtually every embedded system is event-driven (even cyclical / periodic systems are event-driven - the event is a timer timeout!), and thus the QP can be used in a huge variety of systems, ranging from tiny low-power devices to very large distributed systems with thousands of states and objects. The QP supports FSMs and HSMs in C and C++. The active object computing model (active object = state machine + thread + message queue) is exploited to obtain ultra-efficient processing of events. Also the licensing model is very reasonable, especially when you consider what you get (including excellent & speedy support) -- a hierarchical event processor, a framework for event driven applications (memory / event pools, timers, garbage collection, zero copy event posting, broadcast & direct post, etc...) Also the QF can sit on top of any RTOS, a lean & fast preemptive kernel named QK, or even a simple non-preemtpive kernel. There's even a very small lightweight version called QP-nano that is tailored for memory & CPU-constrained systems. The best part: you spend your time focusing on identifying your system's states & events, and implementing your design in the QP, instead of writing the infrastructure ("reinventing the wheel"). In short: get the book, download the code, build the examples, and evaluate the QP for use in your system.

    Posted 12/17/2009

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