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1 408 julius
Wishbone arbiter RTL source
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The current implementation of these arbiters for the design is a hard-coded
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slightly configurable set up, rather than a configurable one-size-fits-all
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approach. It is assumed a Harvard architecture is in use, and therefore there
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are seperate busses for both instruction and data busses of the processor. The
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data bus arbiter also has a peripheral, or byte (wide) bus, attached to it.
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The busses have ports following the Wishbone B3 standard. They are a cross-bar
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switch setup, ie only one master can be controlling the bus at a time. A simple
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priority-based arbitration system is used, however this only really matters for
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the data bus, which has multiple masters.
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The addresses for each slave are configured through parameters. It is expected
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the instantiation of the arbiter will define these parameters also.
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The arbiters have the option of passing the signals through with or without any
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sequential logic (registering) however they _DO NOT_ yet support registered
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bursting (ie, where wb_cti indicates anything other than a Wishbone classic
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cycle.) Do not enable registering, via the defines, and expect bursting to work!
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There is an optional watchdog counter which will assert wb_err if a request is
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not serviced within the counting period of the clock. The width of the timer
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is defined.
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The arbiters depend on the design's top level define file. The options for
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registering and the watchdog timer should be set there.
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arbiter_ibus.v:
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        This has only one master input and two slaves - a ROM and a main memory.
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        This is the simplest of the arbiters. It has 32-bit wide data ports.
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arbiter_dbus.v:
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        This has two masters ports and several slave ports. It has 32-bit wide
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        data ports. It has a default slave it selects if none of the other
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        slaves are selected, allowing daisy-chaining of another arbiter onto it
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        (used for the peripheral byte-bus.)
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        Increasing or reducing the slaves here requires:
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        1. Altering the module() declaration, adding the required ports.
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        2. Altering the input/output declaration, adding the required ports.
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        3. Add/remove(comment-out) the appropriate line in the section under the
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           commend "Slave selects". Ensure to alter the final slave, or
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           "default" slave's select logic to include/exclude the slave being
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           added/removed.
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        4. Alter the inputs from the master going to the slave
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        5. Alter the inputs from the slave (wb_ack, wb_dat_i, etc.) going to the
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           master
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        6. When instantiating, be sure that the address for the new slave is
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           defined.
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        7. Be sure to update the appropriate parameters in design-params.v with
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           the correct total number of slaves, and the address of the new slave.
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        For most of this slave configuration change, it should be as easy as
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        following the example of the structure already in the file, and
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        potentially just moving the open block-comment marker "/*" past the
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        lines for the new slave.
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arbiter_bytebus.v:
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        This is a single-master arbiter, connecting to multiple slaves. It has
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        single byte-wide data ports. The data port back to the master maps read
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        bytes to the correct position in a 32-bit wide word, consistent with a
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        big-endian representation of data. There is no default slave. The
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        procedure for adding new slaves is the same as for the main data-bus
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        arbiter, except for the default slave selection considerations.
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