I'm trying to design a simple CPU in VHDL for an Altera FPGA. I am however trying to get my head around how to account for latency incurred by the ROM blocks. The ROM blocks themselves can have both the input address and output data clocked or just the input address clocked, giving a 1 or 2 clock cycle latency between data request (setting the address) and getting the data back.
I can understand if the ROM is essentially a massive data mux, doing things like jumps is trivial because you just set the address and by the next clock cycle, the correct instruction will be there! I just don't quite understand how to manage this with latencies between the ROM and the CPU. From what I gather, each instruction needs to know whether to fetch a new instruction, modify the PC - program counter (jump) or stall (keep the PC the same) but surely if there is a latency of 2 cycles, the instruction will need to know for 2 cycles ahead?
How does one go about writing a PC for this kind of system?
For reference, the memory data width will be the same size as the instructions so each memory location stores one instruction.