Advanced VHDL Configurations: Tying a component to an unrelated entity
Usually, people use VHDL configurations to select a given architecture for their component, or even to set generics that were not set in the instantiation. But you can also do more advanced stuff with configurations: you can tie a component to a completely unrelated entity. You can even re-wire the signals!
For a short recap. Normally, you'd see a component that looks exactly like an entity:
-- entity entity dut is port( a : in string; b : in string; c : in string ); end entity dut; --component component dut port( a : in string; b : in string; c : in string ); end component dut;
As I will explain in another blog post, these objects have no relation whatsoever, except that the default binding for
component dut is the
So if you type an instantiation:
dut_inst : component dut port map(a => a, b => b, c => c);
The VHDL elaborator will instantiate
entity dut by default, unless it is told otherwise. Here is where VHDL configurations come in.
You can configure this to instantiate a completely
unrelated entity, with an unrelated entity name, and unrelated port names. Even a different number of ports:
configuration c2 of testbench is for str for dut_inst : dut use entity work.unrelated(rtl) port map( port1 => a, port2 => b, port3 => c, port4 => "unused" ); end for; end for; end configuration c2;
Or you can instantiate the entity with the same name, but rewire the port names completely:
configuration c3 of testbench is for str for dut_inst : dut use entity work.dut(rtl) port map( a => b, -- Note we are binding to other ports here! b => c, c => a ); end for; end for; end configuration c3;
So why is this useful? Well, that's a good question. I haven't seen configurations being used like this in "real life" code. But knowing this will help you realize that components and entities are really completely different things. They are only connected during elaboration (that's when you give the
vsim command). And they can be connect in very flexible ways.
I've put the code fragments in a VETSMOD project that you can download here. You can play around with it and run it on your favorite simulator. The code reports which architecture you use and which ports are actually connected to what:
# Loading std.standard # Loading std.textio(body) # Loading ieee.std_logic_1164(body) # Loading work.c3 # Loading work.testbench(str) # Loading work.dut(rtl) # run 1 us # ** Note: this is dut(RTL) # Time: 0 ps Iteration: 0 Instance: /testbench/dut_inst # ** Note: port a:B # Time: 0 ps Iteration: 0 Instance: /testbench/dut_inst # ** Note: port b:C # Time: 0 ps Iteration: 0 Instance: /testbench/dut_inst # ** Note: port c:A # Time: 0 ps Iteration: 0 Instance: /testbench/dut_inst # exit