2012-10-21 01:14:50 +00:00
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<title>Paying It Forward: Documenting your Hardware</title>
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<meta name="description" content="A framework for easily creating beautiful presentations using HTML">
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<meta name="author" content="Sean "xobs" Cross">
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<!-- Start of main presentation -->
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<div class="footer">
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<a class="url" href="https://p.xobs.io/lca20-pif/">p.xobs.io/lca20-pif</a>
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<span class="theme">The Linux of Things</span><span class="hashtag"> | #LCA2020</span><span class="twitter"> |
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@linuxconfau</span>
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2011-06-07 19:10:59 +00:00
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</div>
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2020-01-02 03:01:08 +00:00
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<div class="slides">
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<section data-background-image="css/theme/lca2019-title-bg-transparent.svg">
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<h1>Paying it Forward: Documenting Your Hardware Project</h1>
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2020-01-02 03:55:53 +00:00
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<h4>Approaches to documenting a hardware description language using lxsocdoc</h4>
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2020-01-02 03:01:08 +00:00
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<p align="right">
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<small>Sean Cross - <a href="https://xobs.io/">https://xobs.io/</a> - @xobs</small>
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</p>
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</section>
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2020-01-02 06:46:03 +00:00
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<section>
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2020-01-02 06:58:41 +00:00
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<h2>Introduction</h2>
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<aside class="notes">
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This is the Open ISA miniconf, which today tends to mean FPGAs. This means that
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hardware and software are both extensible, and developers will be able to extend
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the hardware in addition to making modifications to your software package.
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</aside>
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</section>
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<section>
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2020-01-02 06:58:41 +00:00
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<h2>About Me</h2>
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<aside class="notes">
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My name is Sean Cross, also known as "xobs". I will be speaking later this week
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on the Betrusted project, but many know me as the main developer behind the Fomu
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project. Fomu is an FPGA that fits in your USB port. One of my goals with the
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Fomu project was to allow people to treat it as just a RISC-V CPU in their USB
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port, which means now we need to make documentation. This talk covers some of
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the problems I ran into while working on this project, and the solutions I came
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up with.
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</aside>
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</section>
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<section>
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<h2>Undocumented Hardware = Bad</h2>
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<h4>(But so easy to do!)</h4>
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2020-01-02 06:46:03 +00:00
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<aside class="notes">
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Undocumented hardware is bad. There are all sorts of quirks, and even if you have
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the source code, it can be very difficult to read. I'm the primary developer for
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the Fomu project, and this talk will cover some of the issues I've run into with
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respect to documentation. It is most directly related to the LiteX and Migen
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projects, but the concepts will carry over into any other Hardware Description
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Language you may use.
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2020-01-02 06:58:41 +00:00
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The goal of this talk is to show how it's easy to document hardware with
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the right framework, and how it's easier to have a project that's documented
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than one that isn't.
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2020-01-02 06:46:03 +00:00
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</aside>
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</section>
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<section>
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2020-01-02 06:58:41 +00:00
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<h2>Talk Outline</h2>
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2020-01-02 06:46:03 +00:00
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<aside class="notes">
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I'll briefly cover various methods of writing HDL code, then cover the rationale
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behind the approach we take with lxsocdoc, then give an example of how to use
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lxsocdoc and how you might apply it to your language. Finally, I'll cover the
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implications of having documented hardware and how this will help you pay it forward.
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</aside>
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</section>
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<section>
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2020-01-02 06:58:41 +00:00
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<h2>Motivation</h2>
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2020-01-02 06:46:03 +00:00
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<aside class="notes">
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Verilog and VHDL are kind of the C or assembly of the FPGA world. They're universal,
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but somewhat unwieldy to use. You need to manually set up your address decoders,
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and documentation is very free-form. Common approaches today involve comments in
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the HDL and/or C header files. This works, but we can do better. We just need to
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describe the hardware better.
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```//Hardware definitions of the SoC. Also is the main repo of documentation for the
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//programmer-centric view of the hardware.```
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</aside>
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</section>
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<section>
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2020-01-02 06:58:41 +00:00
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<h2>About LiteX and lxsocdoc</h2>
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2020-01-02 06:46:03 +00:00
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<aside class="notes">
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Fomu uses LiteX, which is related to Migen. This is a hardware description language
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written in Python. You write Python code and run the program, and it generates
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a design file -- either Verilog code, or a Yosys netlist. There are many other
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alternatives such as SpinalHDL or Chisel. By writing in Python as opposed to
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direct Verilog, we get a lot of nice primitives. The examples from this talk
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are taken from lxsocdoc and LiteX, but most higher-level hardware description
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languages can take similar approaches to documentation.
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</aside>
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</section>
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<section>
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2020-01-02 06:58:41 +00:00
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<h2>LiteX Primitives</h2>
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2020-01-02 06:46:03 +00:00
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<aside class="notes">
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In LiteX, two of the primitives used to expose hardware registers to the CPU softcore
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are CSRStorage and CSRStatus. Instead of manually wiring up a crossbar and decoding
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the addresses ourselves, we just need to write `self.regname = CSRStatus(8)`,
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and the build system will wire up 8 bits of read-only memory to the target CPU.
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Similarly, `self.othername = CSRStorage(8)` will give 8-bits of write-only memory.
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</aside>
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</section>
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<section>
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<h4>SPI Bitbang Module</h4>
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<pre><code class="python" data-trim>self.bitbang = CSRStorage(4)
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If(self.bitbang.storage[3],
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dq.oe.eq(0)
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).Else(
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dq.oe.eq(1)
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),
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# CPOL=0/CPHA=0 or CPOL=1/CPHA=1 only.
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If(self.bitbang.storage[1],
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2020-01-02 06:46:03 +00:00
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self.miso.status.eq(dq.i[1])
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),
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2020-01-02 06:58:41 +00:00
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dq.o.eq(
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Cat(self.bitbang.storage[0], Replicate(1, spi_width-1))
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)</code></pre>
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2020-01-02 06:46:03 +00:00
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<aside class="notes">
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This works well, but exposes a new problem: Documentation. As an example, I was
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working with the SPI Flash block in litex, and wanted to know how the bitbang
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driver worked. There wasn't any documentation except the source, which looked
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like this.
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You can kind of understand it, but it does take a lot of mental power to
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work through it. I started by creating aliases for the various elements
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in the storage array, but then I thought: There has to be a better way!
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</aside>
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</section>
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<section>
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2020-01-02 06:58:41 +00:00
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<h2>Aside: Python Docstrings</h2>
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2020-01-02 06:46:03 +00:00
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<aside class="notes">
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As an aside, Python has something called Pydoc and Docstrings. These are
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comments that go at the top of functions and classes that let you describe
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what a Python object is and how to use it. This is almost what we want,
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except once the final SoC is generated we don't really care so much about
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things like constructor arguments or method properties. Documentation for
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the end user is different from documentation for the module developer.
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</aside>
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</section>
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2020-01-02 03:01:08 +00:00
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<section>
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2020-01-02 06:58:41 +00:00
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<h4>New Register Definition</h4>
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<pre><code class="python" data-trim>self.bitbang = CSRStorage(4, fields=[
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CSRField("mosi", description="Output value for MOSI pin, valid whenever ``dir`` is ``0``."),
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CSRField("clk", description="Output value for SPI CLK pin."),
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CSRField("cs_n", description="Output value for SPI CSn pin."),
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CSRField("dir", description="Sets the direction for *ALL* SPI data pins except CLK and CSn.", values=[
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("0", "OUT", "SPI pins are all output"),
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("1", "IN", "SPI pins are all input"),
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])
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], description="""
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Bitbang controls for SPI output. Only standard 1x SPI is supported, and as
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a result all four wires are ganged together. This means that it is only possible
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to perform half-duplex operations, using this SPI core.
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""")</code></pre>
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2020-01-02 06:46:03 +00:00
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<aside class="notes">
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This is when I hit upon the idea of `lxsocdoc`. The basic idea is that
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Python is really good at introspecting Python, so let's add a little bit
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more information to the CSR objects to make our life easier. And so, after
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working with the LiteX creator Florent, we refactored the bitbang
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2020-01-02 06:58:41 +00:00
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definition to this.
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2020-01-02 06:46:03 +00:00
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</aside>
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2020-01-02 03:01:08 +00:00
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</section>
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2020-01-02 03:55:53 +00:00
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2020-01-02 06:46:03 +00:00
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<section>
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2020-01-02 06:58:41 +00:00
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<h4>Refactored SPI Bitbang</h4>
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<pre><code class="python" data-trim>If(self.bitbang.fields.dir,
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dq.oe.eq(0)
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).Else(
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dq.oe.eq(1)
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),
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# CPOL=0/CPHA=0 or CPOL=1/CPHA=1 only.
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If(self.bitbang.fields.clk,
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self.miso.status.eq(dq.i[1])
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),
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dq.o.eq(
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Cat(self.bitbang.fields.mosi, Replicate(1, spi_width-1))
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)</code></pre>
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2020-01-02 06:46:03 +00:00
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<aside class="notes">
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2020-01-02 06:58:41 +00:00
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Now the actual bitbang logic looks like this.
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2020-01-02 06:46:03 +00:00
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This is a little bit easier to understand -- no longer are we looking at indices
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in an array to determine what field does what. Instead we get actual named fields.
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But because Python can introspect Python very easily, this is just the beginning.
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</aside>
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</section>
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<section>
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2020-01-02 06:58:41 +00:00
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<h2>Generating a Manual</h2>
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2020-01-02 06:46:03 +00:00
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<aside class="notes">
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After the design is elaborated and the output file is generated, we can iterate
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through the resulting tree and pick out any CSR objects and using any additional
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information. We can actually generate a full reference manual, just like one you
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would receive from a SoC Vendor.
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For example, this is what the start of the Fomu SPI Flash documentation looks like:
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[Register Listing for LXSPI]
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This is already pretty useful. You can hand this file to someone and show them
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how your design works. But the title of this talk is called "Paying it Forward",
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and I can tell you from experience that having such a reference manual for yourself
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while developing software for your own hardware is still invaluable. Hardware
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designs are complex things, and not having to decode bitfield offsets in your
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head or constantly referring to various sections of code to see how it's implemented
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saves valuable time.
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</aside>
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</section>
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<section>
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2020-01-02 06:58:41 +00:00
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<h2>More Documentation: ModuleDoc</h2>
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2020-01-02 06:46:03 +00:00
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<aside class="notes">
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So now we have register documentation. Can we do better? Of course we can.
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SoC reference manuals are more than just register definitions. They also include
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background information on protocols, as well as more elaboration on how the block
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works. We can take a cue from CSRs themselves, and add module documentation
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in a similar fashion.
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</aside>
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</section>
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<section>
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2020-01-02 06:58:41 +00:00
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<h2>Protocol Documentation</h2>
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<aside class="notes">
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We can add additional documentation such as protocol waveforms. Here
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we use WaveDrom to define the protocol of Wishbone-over-SPI. There
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are multiple formats of the protocol depending on which version is
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instantiated.
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</aside>
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</section>
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<section>
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<h2>SVD: Documentation for Machines</h2>
|
2020-01-02 06:46:03 +00:00
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<aside class="notes">
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|
Having documentation for humans is great, but we can go one step further and
|
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|
make documentation for computers. SVD is an XML format defined by ARM that
|
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|
defines various aspects about a chip, including memory layout, interrupt map,
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|
and register sets. SVD includes information such as default values and field
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|
bits, all information we have thanks to the introspectability of Python.
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|
</aside>
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|
</section>
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|
<section>
|
2020-01-02 06:58:41 +00:00
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|
<h2>SVD2Rust: Generating Safe Accessors</h2>
|
2020-01-02 06:46:03 +00:00
|
|
|
<aside class="notes">
|
|
|
|
In addition to generating a reference manual for humans, we can generate an SVD
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|
file that's usable in a wide variety of areas. For example, we can turn an SVD
|
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|
|
file into a Rust Peripheral Access Crate (PAC) using `SVD2Rust`, giving us an
|
|
|
|
easy way to safely access all peripherals on a device.
|
|
|
|
</aside>
|
|
|
|
</section>
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|
|
|
|
|
<section>
|
2020-01-02 06:58:41 +00:00
|
|
|
<h2>Renode: Fancy Register Logging</h2>
|
2020-01-02 06:46:03 +00:00
|
|
|
<aside class="notes">
|
|
|
|
We can also import this SVD file into an emulator such as Renode, which will
|
|
|
|
print out fields and flags that get accessed, giving us greater visibility into
|
|
|
|
what a program is doing.
|
|
|
|
</aside>
|
|
|
|
</section>
|
2020-01-02 03:01:08 +00:00
|
|
|
</div>
|
|
|
|
</div> <!-- class="reveal" -->
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|
|
|
<!-- End of main presentation -->
|
|
|
|
|
|
|
|
<!-- Start of configuration section -->
|
|
|
|
<script src="lib/js/head.min.js"></script>
|
|
|
|
<script src="js/reveal.js"></script>
|
|
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|
|
|
|
|
<script>
|
|
|
|
var presenter = !!Reveal.getQueryHash().s;
|
|
|
|
|
|
|
|
// More info https://github.com/hakimel/reveal.js#configuration
|
|
|
|
Reveal.initialize({
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|
|
|
controls: presenter ? false : true,
|
|
|
|
progress: true,
|
|
|
|
history: true,
|
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|
|
center: true,
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|
|
|
controlsTutorial: presenter ? false : true,
|
|
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|
|
|
|
slideNumber: presenter ? null : 'c/t',
|
|
|
|
|
|
|
|
// The "normal" size of the presentation, aspect ratio will be preserved
|
|
|
|
// when the presentation is scaled to fit different resolutions. Can be
|
|
|
|
// specified using percentage units.
|
|
|
|
width: 960,
|
|
|
|
height: 700,
|
|
|
|
|
|
|
|
// Factor of the display size that should remain empty around the content
|
|
|
|
margin: 0.1,
|
|
|
|
|
|
|
|
multiplex: {
|
|
|
|
url: 'https://p.xobs.io/',
|
|
|
|
id: '631bb3db6fbaea78',
|
|
|
|
secret: Reveal.getQueryHash().s || null
|
|
|
|
},
|
|
|
|
|
|
|
|
// Bounds for smallest/largest possible scale to apply to content
|
|
|
|
minScale: 0.02,
|
|
|
|
maxScale: 5.5,
|
|
|
|
|
|
|
|
transition: 'slide', // none/fade/slide/convex/concave/zoom
|
|
|
|
|
|
|
|
// More info https://github.com/hakimel/reveal.js#dependencies
|
|
|
|
dependencies: [
|
|
|
|
{ src: 'lib/js/classList.js', condition: function () { return !document.body.classList; } },
|
|
|
|
{ src: 'plugin/markdown/marked.js', condition: function () { return !!document.querySelector('[data-markdown]'); } },
|
|
|
|
{ src: 'plugin/markdown/markdown.js', condition: function () { return !!document.querySelector('[data-markdown]'); } },
|
|
|
|
{ src: 'plugin/highlight/highlight.js', async: true, callback: function () { hljs.initHighlightingOnLoad(); } },
|
|
|
|
{ src: 'plugin/search/search.js', async: true },
|
|
|
|
{ src: 'plugin/zoom-js/zoom.js', async: true },
|
|
|
|
{ src: 'plugin/notes/notes.js', async: true },
|
|
|
|
|
|
|
|
{ src: 'lib/js/socket.io.js', async: true },
|
|
|
|
{
|
|
|
|
src: presenter ?
|
|
|
|
'plugin/multiplex/master.js' :
|
|
|
|
'plugin/multiplex/client.js', async: true
|
|
|
|
},
|
|
|
|
]
|
|
|
|
});
|
|
|
|
</script>
|
|
|
|
</body>
|
2012-03-24 16:48:16 +00:00
|
|
|
|
2012-08-04 04:33:27 +00:00
|
|
|
</html>
|