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86 lines
2.9 KiB
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86 lines
2.9 KiB
ReStructuredText
Py65
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====
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Py65 provides tools for simulating hardware based on 6502-like
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microprocessors. It has the following goals:
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- Focus on ease of use and modularity rather than performance. Py65 is
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written in the Python programming language for productivity, while
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similar programs are written in C for performance.
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- Enable simulations to be created for systems where it might have
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otherwise not been practical, such as homebuilt computers.
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- Rigorously unit test all of the components. While the tools provided
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by Py65 may not always be perfect, their behavior is verified through
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tests so unexpected results are minimized.
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Installation
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------------
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Py65 packages are `available <http://pypi.python.org/pypi/py65>`_ on the
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Python Package Index (PyPI). You download them from there or you can
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use ``pip`` to automatically install or upgrade Py65::
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$ pip install -U py65
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Devices
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-------
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The following devices are simulated at this time:
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- ``mpu6502`` simulates the original NMOS 6502 microprocessor from MOS
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Technology, later known as Commodore Semiconductor Group (CSG). At this
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time, all of the documented opcodes are supported. Support for the
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illegal opcodes is planned for the future.
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- ``mpu65c02`` simulates a generic CMOS 65C02 microprocessor. There were
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several 65C02 versions from various manufacturers, some with more
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opcodes than others. This simulation is based on the W65C02S from the
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Western Design Center (WDC).
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- ``mpu65org16`` simulates the 65Org16, a 6502-like microprocessor with a
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16-bit data bus and 32-bit address bus. This microprocessor is a project
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of the `6502.org community <http://forum.6502.org/viewtopic.php?t=1824>`_
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and a `Verilog core <https://github.com/BigEd/verilog-6502/wiki>`_ for it
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has been implemented.
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Monitor
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-------
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Py65 includes a console-based machine language monitor (sometimes also called
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a debugger). This program, ``py65mon``, allows you to interact with the
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simulations that you build. Its features include:
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- Commands that are largely compatible with those used in the monitor of
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the popular VICE emulator for Commodore computers.
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- Ability to load, dump, and fill memory.
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- Simple assemble and disassemble capability, including support for labels
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and labels with offsets.
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Documentation
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-------------
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Py65 documentation is written using `Sphinx <http://sphinx.pocoo.org/>`_ and
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is published to `http://py65.readthedocs.org/
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<http://py65.readthedocs.org/>`_.
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Contributors
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------------
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These people are responsible for Py65:
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- `Mike Naberezny <https://github.com/mnaberez>`_ is the original author of
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Py65 and is the primary maintainer.
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- `Oscar Lindberg <https://github.com/offe>`_ started the 65C02 simulation
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module and contributed greatly to its implementation.
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- `Ed Spittles <https://github.com/biged>`_ wrote the 65Org16 simulation
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module and provided many useful issue reports and patches.
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- `David Beazley <https://github.com/dabeaz>`_ did the initial port of Py65
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to Python 3.
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