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We have been developing "Hardware Models" using C.

Our present work-flow:

  1. The data-structures in the "hardware model" are made "Bit accurate", and then tested.
  2. The "Bit Accurate Hardware model" is used for designing the LSI,
  3. After designing, the "Hardware model" is used once again for verifying the LSI,

Issues in using C language

Though C is nice for versatile coding, it lacks the "Concurrency" aspect that is found in Hardware design. And so, it is impossible to figure out "Racing condition" that might prop up in the hardware design.

So, we are looking into tools that can be used for designing the "Hardware models" that would imitate a hardware, better.

Presently we are (only) looking at - System C (Which resembles C ...)

I would be happy to see the tools used by others.

Thank you for reading through this rather long post ...

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You can develop hardware description from MATLAB: mathworks.com/products/featured/embeddedmatlab –  chrisaycock Feb 8 '11 at 3:08
    
Are you actually using C to design hardware? What other EDA / Design Flow tools are you using? –  ThomasMcLeod Feb 8 '11 at 5:04
    
"Hardware model" is designed using C, but Verilog is used to implement the hardware. –  Alphaneo Feb 8 '11 at 6:35
    
System C definitely has the concurrency hardware features that you're talking about. If you don't stick to the synthesizable subset, then it can be a higher level of abstraction than Verilog or VHDL. Also, if you have to do any bitslicing or manipulate "registers" that are greater than 64-bit, the System C library will do the adding of two 64+bit integers for you. No overflow detection necessary. –  Ross Rogers Feb 8 '11 at 21:50
    
Can you give an example of the kind of race condition you're hoping to find? I'm not sure that writing an architectural model to directly resemble the hardware is a good strategy for finding hardware-specific failure mechanisms (like async boundary issues). –  Andy Mar 20 '11 at 19:44
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4 Answers

(System)Verilog and VHDL are classicly used for detailed hardware design. However, you can write behavioral models in both, and drop down to clock-level accuracy where needed.

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This can't be answered reliably without knowing a lot more. Your question is not 'Right language for hardware modeling' but is closer to, 'What's the best way to validate this design'. I'd suggest possibly talking to an ASIC/FPGA consulting firm.

If I had to guess: You should build a SystemVerilog model(since your design is Verilog) to check timing/protocol, and then call the existing C model(since it is golden) using DPI to check data.

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I would naturally recommend GBL library, it has a lot more than SystemC.

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+1 for systemverilog. It has the ability for not only synthesizable code, but more importantly a clean object oriented approach to testbench design.

Also, it includes coverage points, assertions, protocol checks, random distribution and constraints, and a nice testbench to DUT interfacing (through the interface block). Most importantly for you, DPI is well supported to validate against a bit-accurate models. Check out the spec.

http://www.vhdl.org/sv/SystemVerilog_3.1a.pdf

.. also, if you haven't already, check out AVM too.

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