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modules/zstd/memory: Add README describing the AXI interface
Co-authored-by: Pawel Czarnecki <[email protected]> Signed-off-by: Robert Winkler <[email protected]>
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# Memory | ||
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This directory contains procs responsible for issuing read and write | ||
transactions compatible with AXI subordinates. The AXI bus was selected | ||
because it consists of five streams, which closely resemble the streams | ||
to which XLS channels are translated. | ||
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Although XLS channels do not fully conform to the AXI standard, with proper | ||
I/O configuration, DSLX procs using XLS channels can successfully interface | ||
and communicate with AXI4 peripherals. | ||
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The signals used to form AXI channels are represented as individual fields | ||
in dedicated structures. However, the XLS toolchain generates these fields | ||
as a flattened bit array. As a result, the Verilog code produced from these | ||
structures will not match the expected AXI bus signature. To interface with | ||
other AXI peripherals, additional Verilog wrappers may be needed to split | ||
the flattened bit vector into individual signals. | ||
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# Data Structures | ||
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As noted, the procs in this directory use channels with dedicated | ||
structures to represent AXI bus signals in DSLX. For instance, the AXI read | ||
interface comprises the AR channel, which is used to provide a read address, | ||
and the length of data to read, as well as the R channel, which is used | ||
to receive the read data. These channels are represented by the `AxiAr` and | ||
`AxiR` structures in the `axi.x` file, which contains AXI4 bus definitions. | ||
The structures use to represent AXI4 Stream interface can be found in | ||
the `axi_st.x` file. | ||
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# Main components | ||
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The primary components of this directory are `MemReader` and `MemWriter`, | ||
which facilitate issuing read and write transactions on the AXI bus. | ||
They provide a convenient interface for the DSLX side of the design, | ||
managing the complexities of AXI transactions. | ||
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The `MemReader` includes several procs that can be used individually: | ||
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- `AxiReader`: Handles the creation of AXI transactions, managing unaligned | ||
addresses and issuing additional transactions when crossing the 4KB boundary | ||
or when the read request is longer than maximum possible burst size on the AXI bus | ||
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- `AxiStreamDownscaler`: An optional proc available in `MemReaderAdv`, | ||
enabling DSLX designs to connect to a wider AXI bus. | ||
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- `AxiStreamRemoveEmpty`: Removes empty data bits, identified by zeroed bits in | ||
the `tkeep` and `tstr` signals of the AXI Stream. | ||
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The `MemWriter` proc is organised in a similar manner, it consists of: | ||
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- `AxiWriter`: Handles the creation of AXI write transactions, managing unaligned | ||
addresses and issuing additional transactions when crossing the 4KB boundary, | ||
or when the write request is longer than maximum possible burst size on the AXI bus | ||
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- `AxiStreamAddEmpty`: Adds empty data bits in the stream of data to write. | ||
It is used to shift the data in the stream to facilitate writes to unaligned | ||
addresses. | ||
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# Usage | ||
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The list below shows the usage of the `MemReader` proc: | ||
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1. Configure the base address for the read transactions, by sending the | ||
properly filled `MemReaderCtrl` structure to the `ctrl_r` channel. | ||
All the requests performed later will be relative to the provided base address. | ||
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2. Send a `MemReaderReq` to the `req_in_r` channel, providing the information | ||
about the relative offset from which to read the data, and the length | ||
of data to read. | ||
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3. Wait for the response on the `resp_s` channel. The received packet | ||
consists of: | ||
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- the `status` of the operation indicating if the read was successful | ||
- `data` read from the bus | ||
- `length` of the valid `data` in bytes | ||
- `last` flag used for marking the last `packet` with data | ||
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The list below shows the usage of the `MemWriter` proc: | ||
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1. Configure the base address for the write transactions, by sending the | ||
properly filled `MemWriterCtrl` structure to the `ctrl_r` channel. | ||
All the requests performed later will be relative to the provided base address. | ||
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2. Send a `MemWriterReq` to the `req_in_r` channel, providing the information | ||
about the relative offset to which data should be sent, and length of the | ||
transaction in bytes. | ||
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3. Provide the data to write using the `MemWriterDataPacket` structure, which | ||
should be send to `data_in_r` channel. The structure consists of | ||
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- the actual `data` | ||
- `length` of the `data` in bytes | ||
- `last` flag used for marking the last `packet` with data. | ||
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4. Wait for the response submitted on the `resp_s` channel, which indicates | ||
if the write operation was successful or an error occurred. | ||
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# Cocotb Simulation | ||
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This directory also contains Verilog simulations of the created modules, | ||
which test their interaction with RAM attached to the AXI bus. These Verilog | ||
simulations provide insight into the design's latency and achievable throughput. |