doc: Move interface documentation to its own document

This is more detailed technical documentation, and doesn't really need
to go at the top-level.

Signed-off-by: Sean Anderson <seanga2@gmail.com>
This commit is contained in:
Sean Anderson 2023-03-15 15:00:50 -04:00
parent d150d88249
commit 12b98c8d46
4 changed files with 53 additions and 52 deletions

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@ -170,6 +170,7 @@ doc/output/%.html: doc/%.adoc doc/docinfo.html | doc/output
$(ADOC) -o $@ $<
DOCS += index
DOCS += interfaces
DOCS += uart_wb_bridge
.PHONY: htmldocs

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@ -249,58 +249,6 @@ slave a (priority-decoded) address bit.
Add a register stage to a wishbone bus. This helps improve timing, but will add
a cycle of latency (and decrease throughput).
== Interfaces
Throughout this project, a variety of interfaces, some standard and some
bespoke, are used to communicate between cores. This section describes these
interfaces.
=== "`MII`"
This is the Media-Independent Interface (MII) described by IEEE 802.3 clause 22.
However, instead of RX and TX clocks, clock-enables are used instead. This is a
better fit for the clocking resources found on iCE40 FPGAs. In the 125 MHz clock
domain used by these cores, the clock enable is asserted every 5 clock cycles.
The clock enable generated by `pcs_rx` may vary somewhat from this due to
differences in the local and far end clocks. The `mii_elastic_buffer` module can
be used to smooth out these variations over the course of a frame.
=== "`PMD`"
This is a bespoke interface used by modules in the receive data path below the
PCS layer. It consists of three signals: `clk`, `data`, and `data_valid`. `data`
and `data_valid` are both two bits wide. Data is transferred on the rising edge
of `clk`. The following table shows the relation between `data` and
`data_valid`:
[cols="1,1,1"]
|===
| `data_valid` | `data[1]` | `data[0]`
| 0 | Invalid | Invalid
| 1 | Valid | Invalid
| 2 or 3 | Valid | Valid
|===
In the case where both bits in `data` are valid, `data[1]` is the most recent
bit. As a consequence, when `data_valid` is non-zero, `data[1]` always holds the
new bit to process. Because three bits cannot be transferred at once, only
`data_valid[1]` is necessary to determine if two bits are to be transferred.
=== AXI-Stream
This is https://zipcpu.com/doc/axi-stream.pdf[AMBA 4 AXI4-Stream], minus several
signals. Generally, `ARESETn`, `TSTRB`, `TKEEP`, `TID`, `TDEST` are ommitted.
Sometimes `TUSER` is omitted as well. Additionally, the `A` and `T` prefixes
are not used.
=== Wishbone
This is https://cdn.opencores.org/downloads/wbspec_b4.pdf[Wishbone B4] in
non-pipelined mode. Generally, `RST`, `TGA`, `TGC`, `TGD`, `RTY`, `SEL`, and
`LOCK` signals are omitted. The `_I` and `_O` suffixes are not used. `DAT` is
named `data_read` or `data_write`, depending on the direction of transfer. `ADR`
is expanded to `addr`.
== Licensing

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@ -3,4 +3,5 @@
This is the documentation for my https://github.com/Forty-Bot/ethernet[ethernet
cores].
* xref:interfaces.adoc[Interfaces]
* xref:uart_wb_bridge.adoc[UART-Wishbone Bridge]

51
doc/interfaces.adoc Normal file
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@ -0,0 +1,51 @@
= Interfaces
Throughout this project, a variety of interfaces, some standard and some
bespoke, are used to communicate between cores.
== "`MII`"
This is the Media-Independent Interface (MII) described by IEEE 802.3 clause 22.
However, instead of RX and TX clocks, clock-enables are used instead. This is a
better fit for the clocking resources found on iCE40 FPGAs. In the 125 MHz clock
domain used by these cores, the clock enable is asserted every 5 clock cycles.
The clock enable generated by `pcs_rx` may vary somewhat from this due to
differences in the local and far end clocks. The `mii_elastic_buffer` module can
be used to smooth out these variations over the course of a frame.
== "`PMD`"
This is a bespoke interface used by modules in the receive data path below the
PCS layer. It consists of three signals: `clk`, `data`, and `data_valid`. `data`
and `data_valid` are both two bits wide. Data is transferred on the rising edge
of `clk`. The following table shows the relation between `data` and
`data_valid`:
[cols="1,1,1"]
|===
| `data_valid` | `data[1]` | `data[0]`
| 0 | Invalid | Invalid
| 1 | Valid | Invalid
| 2 or 3 | Valid | Valid
|===
In the case where both bits in `data` are valid, `data[1]` is the most recent
bit. As a consequence, when `data_valid` is non-zero, `data[1]` always holds the
new bit to process. Because three bits cannot be transferred at once, only
`data_valid[1]` is necessary to determine if two bits are to be transferred.
== AXI-Stream
This is https://zipcpu.com/doc/axi-stream.pdf[AMBA 4 AXI4-Stream], minus several
signals. Generally, `ARESETn`, `TSTRB`, `TKEEP`, `TID`, `TDEST` are ommitted.
Sometimes `TUSER` is omitted as well. Additionally, the `A` and `T` prefixes
are not used.
== Wishbone
This is https://cdn.opencores.org/downloads/wbspec_b4.pdf[Wishbone B4] in
non-pipelined mode. Generally, `RST`, `TGA`, `TGC`, `TGD`, `RTY`, `SEL`, and
`LOCK` signals are omitted. The `_I` and `_O` suffixes are not used. `DAT` is
named `data_read` or `data_write`, depending on the direction of transfer. `ADR`
is expanded to `addr`.