Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

Imagine you run a program that can run many virtual computers of different sort (or other electronic stuff), based only their hardware. This program simulates the whole process from the most basic combinational and sequential chips to a running computer with inputs/outputs (which are also simulated by the program, but let's ignore this part).

For example say, running a random old 16 bit computer, or an old video game console inside a real computer.

How would someone go about evaluating the "cost" of any of these simulations? That is, on the real computer that runs the simulation, how much real processor cycles would you need to run one full cycle of the simulated hardware?

The program would be able to run any hardware (written in HDL for example), and so I am looking for a general solution able to calculate/estimate the cost of running a virtual computer given its hardware specs.

Edit - Just for a starting idea : Considering we know the exact pieces used in a HDL file, for example a CPU can be broken down to an ALU, some registers and stuff, which can themselves be broken down in the end to a certain amount of primordial gates and flip flops (say, XXXX NAND gates and XXXX flip flops).

If we have a piece of hardware that is broken down in an assemblage of primordial parts, consider the following algorithm:

hardwarePartsSimulationTime = { // Time to simulate each primordial type of hardware in MS
    partOne : 0.01,
    partTwo : 0.1,
    partThree : 0.02
    // ...
totalSimulationTime = 0;

foreach (primordialPart in hardwareToSimulate.parts) 
    partTime = primordialPart.quantity * hardwarePartsSimulationTime[primordialPart.type];
    totalSimulationTime += partTime;

Would it correctly calculate the simulation time for the whole piece, as a sum of the time taken by every part ?

share|improve this question
I am pretty sure that no one would try to emulate (not simulate) any kind of computer using a HDL, because the level of abstraction is far too low and therefore the simulation is far too slow to generate any practically usable emulator. E.g. there are a number of HDL descriptions out there for things like the C64 PC and a simulation using that description is nowhere near real time. For a proper emulation I would use abstract functional descriptions of the CPU etc. and run them in software. At which costs? no idea... look at the available open source emulators dosbox, or the C64/Amiga stuff. – BennyBarns Nov 6 '13 at 10:39
@BennyBarns, simulating logic-level or gate-level behavior of CPUs is quite a common practice for various academic or industrial development processes. It's usually very slow of course, depending on the detail level. Here's a nice set of slides with some data (and a pretty fast simulator too, from what i've heard) - csl.stanford.edu/~christos/publications/… . gate level simulation however is magnitudes slower. – Leeor Nov 6 '13 at 10:49
Yep running virtual hardware is possible, and I've already run a 16 bit computer with no sign of lag on my computer, and I think I had a very large margin. The thing is, I'm wondering how we could calculate it. – Malharhak Nov 6 '13 at 16:12
Well I know that it is possible, however Malharhak is talking about several virtual machines running on one CPU which makes me think that he is actually interested in the functionality provided by those CPUs, not the actual low level signalling and such... Why use a HDL if you are not interested in the low level signals? – BennyBarns Nov 7 '13 at 6:59
Sorry my post may be missleading on that point. I'm not only interested in classical CPUs, but in electronic hardware in general. It's just that most of the things people want to simulate are old computers/video game consoles, which share some basic things (like a CPU) however the electronics behind them may be different. – Malharhak Nov 7 '13 at 10:16

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Browse other questions tagged or ask your own question.