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I think your first solution is clean. But you could also do assign mywire_shifted = mywire[shiftamount+8 +: 8]; This says starting from the LSB (shiftamount+8) return the next MSB(higher) 8 bits.


Verilog is a Hardware Descriptive Language(HDL). Whatever you write/declare, ultimately turns out to be a form of hardware. Lets have a look at the image below: Here, declaring wire [23:15] myvar; or wire [8:0] myvar; declares the same bunch of wires, nine bits wide. Its just the indexing part that differs. No matter you call it as a[0] (when a is wire ...


You are correct that you are declaring a 9-bit wire. Many designs have different ideas about what the LSB and MSB values should be, which direction the index numbering should go in. It really doesn't matter what use for index values until you start referencing individual bit or slices.


When you have a port with a wire on both sides of the port connection, the wire gets collapsed into a single wire. The way to do this is use logic instead of wire inside your module. The only place you should be using wire anywhere in SystemVerilog is if the signal has multiple drivers. In Verilog, you can always make the output port of a module a reg In ...


Assuming MYPARAM1 and MYPARAM2 are declared as parameters, then make savedbit_loc a parameter too. localparam int savedbit_loc = MYPARAM1 - MYPARAM2 - 1; Also, always use always_comb instead of always @(*) The big advantage is that always_comb guarantees to execute at a least once time 0, where as always @(*) waits for an event. This can cause ...

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