See the simplified example code here:
process job[num_objs]; // assume also, arr_obj1s (array of type obj1) and // arr_obj2s (array of type obj2) are arrays of size // num_objs, and the objects define a run() function foreach (arr_obj1s[i]) begin fork automatic int j = i; arr_obj1s[j].run(); // these run forever loops begin job[j] = process::self(); arr_obj2s[j].run(); // these run finite logic end join_none end foreach (job[i]) begin wait (job[i] != null); job[i].await(); end // How do we ever reach here?
My confusion is that the calls to
arr_obj1s[j].run() will never return (they run forever loops) and I don't quite follow the meaning of that call's placement outside the begin/end block. Which process is that forever
run() executed on, and how can it be that each call to
await() will return if some process is running a
run() which won't return?
EDIT: Here is some more information. Posting the full code would be pages and pages, but I hope this extra bit helps.
run() function looks like this:
virtual task run; fork run_a(); // different logically separated tasks run_b(); run_c(); join endtask: run
And as an example,
run_a looks basically like this (they are all similar):
virtual task run_a; // declare some local variables forever begin @(posedge clk) // ... end endtask: run_a
run() function looks basically like this:
virtual task run; fork run_d(); // different logically separated tasks run_e(); join endtask: run
And as an example
run_d() looks like this:
virtual task run_d; while ((data_que.size() > 0)) begin // process a pre-loaded queue, // data will not be pushed on during the simulation end endtask:run_d