import "primitives/core.futil";
import "primitives/memories/comb.futil";
component main(@go go: 1, @clk clk: 1, @reset reset: 1) -> (@done done: 1) {
cells {
@external @data A0 = comb_mem_d1(32, 8, 4);
@data A_read0_0 = std_reg(32);
@external @data B0 = comb_mem_d1(32, 8, 4);
@data B_read0_0 = std_reg(32);
@external @data Sum0 = comb_mem_d1(32, 8, 4);
@data add0 = std_add(32);
@data add1 = std_add(4);
@data const0 = std_const(4, 0);
@control const1 = std_const(4, 7);
@data const2 = std_const(4, 1);
@data i0 = std_reg(4);
@control le0 = std_le(4);
@generated comb_reg = std_reg(1);
@generated fsm = std_reg(3);
@generated ud = undef(1);
@generated adder = std_add(3);
@generated ud0 = undef(1);
@generated adder0 = std_add(3);
@generated signal_reg = std_reg(1);
@generated fsm0 = std_reg(2);
@generated invoke0_go = std_wire(1);
@generated invoke0_done = std_wire(1);
@generated early_reset_cond00_go = std_wire(1);
@generated early_reset_cond00_done = std_wire(1);
@generated early_reset_static_seq_go = std_wire(1);
@generated early_reset_static_seq_done = std_wire(1);
@generated wrapper_early_reset_cond00_go = std_wire(1);
@generated wrapper_early_reset_cond00_done = std_wire(1);
@generated while_wrapper_early_reset_static_seq_go = std_wire(1);
@generated while_wrapper_early_reset_static_seq_done = std_wire(1);
@generated tdcc_go = std_wire(1);
@generated tdcc_done = std_wire(1);
}
wires {
i0.write_en = invoke0_go.out | fsm.out == 3'd2 & early_reset_static_seq_go.out ? 1'd1;
i0.clk = clk;
i0.reset = reset;
i0.in = fsm.out == 3'd2 & early_reset_static_seq_go.out ? add1.out;
i0.in = invoke0_go.out ? const0.out;
early_reset_cond00_go.in = wrapper_early_reset_cond00_go.out ? 1'd1;
add1.left = fsm.out == 3'd2 & early_reset_static_seq_go.out ? i0.out;
add1.right = fsm.out == 3'd2 & early_reset_static_seq_go.out ? const2.out;
done = tdcc_done.out ? 1'd1;
fsm.write_en = early_reset_cond00_go.out | early_reset_static_seq_go.out ? 1'd1;
fsm.clk = clk;
fsm.reset = reset;
fsm.in = fsm.out != 3'd0 & early_reset_cond00_go.out ? adder.out;
fsm.in = fsm.out != 3'd3 & early_reset_static_seq_go.out ? adder0.out;
fsm.in = fsm.out == 3'd0 & early_reset_cond00_go.out | fsm.out == 3'd3 & early_reset_static_seq_go.out ? 3'd0;
adder.left = early_reset_cond00_go.out ? fsm.out;
adder.right = early_reset_cond00_go.out ? 3'd1;
add0.left = fsm.out == 3'd1 & early_reset_static_seq_go.out ? A_read0_0.out;
add0.right = fsm.out == 3'd1 & early_reset_static_seq_go.out ? B_read0_0.out;
comb_reg.write_en = early_reset_cond00_go.out | fsm.out == 3'd3 & early_reset_static_seq_go.out ? 1'd1;
comb_reg.clk = clk;
comb_reg.reset = reset;
comb_reg.in = early_reset_cond00_go.out | fsm.out == 3'd3 & early_reset_static_seq_go.out ? le0.out;
early_reset_cond00_done.in = ud.out;
while_wrapper_early_reset_static_seq_go.in = !while_wrapper_early_reset_static_seq_done.out & fsm0.out == 2'd2 & tdcc_go.out ? 1'd1;
invoke0_go.in = !invoke0_done.out & fsm0.out == 2'd0 & tdcc_go.out ? 1'd1;
tdcc_go.in = go;
A0.clk = clk;
A0.addr0 = fsm.out == 3'd0 & early_reset_static_seq_go.out ? i0.out;
A0.reset = reset;
Sum0.write_en = fsm.out == 3'd1 & early_reset_static_seq_go.out ? 1'd1;
Sum0.clk = clk;
Sum0.addr0 = fsm.out == 3'd1 & early_reset_static_seq_go.out ? i0.out;
Sum0.reset = reset;
Sum0.write_data = fsm.out == 3'd1 & early_reset_static_seq_go.out ? add0.out;
fsm0.write_en = fsm0.out == 2'd3 | fsm0.out == 2'd0 & invoke0_done.out & tdcc_go.out | fsm0.out == 2'd1 & wrapper_early_reset_cond00_done.out & tdcc_go.out | fsm0.out == 2'd2 & while_wrapper_early_reset_static_seq_done.out & tdcc_go.out ? 1'd1;
fsm0.clk = clk;
fsm0.reset = reset;
fsm0.in = fsm0.out == 2'd0 & invoke0_done.out & tdcc_go.out ? 2'd1;
fsm0.in = fsm0.out == 2'd3 ? 2'd0;
fsm0.in = fsm0.out == 2'd2 & while_wrapper_early_reset_static_seq_done.out & tdcc_go.out ? 2'd3;
fsm0.in = fsm0.out == 2'd1 & wrapper_early_reset_cond00_done.out & tdcc_go.out ? 2'd2;
adder0.left = early_reset_static_seq_go.out ? fsm.out;
adder0.right = early_reset_static_seq_go.out ? 3'd1;
invoke0_done.in = i0.done;
early_reset_static_seq_go.in = while_wrapper_early_reset_static_seq_go.out ? 1'd1;
le0.left = early_reset_cond00_go.out | fsm.out == 3'd3 & early_reset_static_seq_go.out ? i0.out;
le0.right = early_reset_cond00_go.out | fsm.out == 3'd3 & early_reset_static_seq_go.out ? const1.out;
signal_reg.write_en = fsm.out == 3'd0 & signal_reg.out | fsm.out == 3'd0 & !signal_reg.out & wrapper_early_reset_cond00_go.out ? 1'd1;
signal_reg.clk = clk;
signal_reg.reset = reset;
signal_reg.in = fsm.out == 3'd0 & !signal_reg.out & wrapper_early_reset_cond00_go.out ? 1'd1;
signal_reg.in = fsm.out == 3'd0 & signal_reg.out ? 1'd0;
B0.clk = clk;
B0.addr0 = fsm.out == 3'd0 & early_reset_static_seq_go.out ? i0.out;
B0.reset = reset;
B_read0_0.write_en = fsm.out == 3'd0 & early_reset_static_seq_go.out ? 1'd1;
B_read0_0.clk = clk;
B_read0_0.reset = reset;
B_read0_0.in = fsm.out == 3'd0 & early_reset_static_seq_go.out ? B0.read_data;
wrapper_early_reset_cond00_go.in = !wrapper_early_reset_cond00_done.out & fsm0.out == 2'd1 & tdcc_go.out ? 1'd1;
wrapper_early_reset_cond00_done.in = fsm.out == 3'd0 & signal_reg.out ? 1'd1;
early_reset_static_seq_done.in = ud0.out;
tdcc_done.in = fsm0.out == 2'd3 ? 1'd1;
while_wrapper_early_reset_static_seq_done.in = !comb_reg.out & fsm.out == 3'd0 ? 1'd1;
A_read0_0.write_en = fsm.out == 3'd0 & early_reset_static_seq_go.out ? 1'd1;
A_read0_0.clk = clk;
A_read0_0.reset = reset;
A_read0_0.in = fsm.out == 3'd0 & early_reset_static_seq_go.out ? A0.read_data;
A0.write_en = 1'd0;
B0.write_en = 1'd0;
}
control {}
}