#include #include "systemc.h" #include "test.h" using namespace std; struct M1_1i1o : sc_module { sc_in_clk clk; sc_in i1; sc_out o1; void eval_mealy1() { o1 = ~i1; }; SC_CTOR (M1_1i1o) : clk("clk"), i1("i1"), o1("o1") { SC_METHOD(eval_mealy1); sensitive << clk.neg(); sensitive << i1; dont_initialize(); #ifdef SYSTEMCASS_SPECIFIC o1(i1); #endif } }; struct M2_1i1o : sc_module { sc_in_clk clk; sc_in i1; sc_out o1; sc_signal reg; void tr_moore1() { reg = ~i1; } void gen_moore1() { o1 = ~reg; } SC_CTOR (M2_1i1o) : clk("clk"), i1("i1"), o1("o1") { SC_METHOD(tr_moore1); sensitive << clk.pos(); dont_initialize(); SC_METHOD(gen_moore1); sensitive << clk.neg(); dont_initialize(); } }; int sc_main (int argc, char * argv[]) { sc_clock signal_clk("my_clock"); sc_signal s1 ("s01"), s2 ("s02"), s3 ("s03"), s4 ("s04"), s5 ("s05"), s6 ("s06"), s7 ("s07"), s8 ("s08"), s9 ("s09"), s10("s10"), s11("s11"), s12("s12"), s13("s13"), s14("s14"), s15("s15"); // Setup number of threads open-mp to 1 with the macro threads_omp() threads_omp(); M1_1i1o a("a"); M1_1i1o b("b"); M1_1i1o c("c"); M1_1i1o d("d"); M1_1i1o e("e"); M2_1i1o f("f"); M1_1i1o g("g"); a.clk(signal_clk); b.clk(signal_clk); c.clk(signal_clk); d.clk(signal_clk); e.clk(signal_clk); f.clk(signal_clk); g.clk(signal_clk); a.i1(s1); a.o1(s2); b.i1(s2); d.i1(s2); b.o1(s3); c.i1(s3); c.o1(s4); d.o1(s5); e.i1(s5); e.o1(s6); f.i1(s6); f.o1(s7); g.i1(s7); g.o1(s8); // Init & run sc_start(sc_time(0, sc_core::SC_NS)); return EXIT_SUCCESS; } /* # Local Variables: # tab-width: 4; # c-basic-offset: 4; # c-file-offsets:((innamespace . 0)(inline-open . 0)); # indent-tabs-mode: nil; # End: # # vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=4:softtabstop=4 */