entity accu is port ( cke : in bit; i : in bit_vector(2 downto 0); alu_out : in bit_vector(3 downto 0); q0_from : in bit; q3_from : in bit; q0_to : out mux_bit bus; q3_to : out mux_bit bus; accu : inout bit_vector(3 downto 0); vdd : in bit; vss : in bit ); end accu; architecture structural of accu is Component o2_x2 port ( i0 : in bit; i1 : in bit; q : out bit; vdd : in bit; vss : in bit ); end component; Component no2_x1 port ( i0 : in bit; i1 : in bit; nq : out bit; vdd : in bit; vss : in bit ); end component; Component inv_x2 port ( i : in bit; nq : out bit; vdd : in bit; vss : in bit ); end component; Component ao22_x2 port ( i0 : in bit; i1 : in bit; i2 : in bit; q : out bit; vdd : in bit; vss : in bit ); end component; Component an12_x1 port ( i0 : in bit; i1 : in bit; q : out bit; vdd : in bit; vss : in bit ); end component; Component nao22_x1 port ( i0 : in bit; i1 : in bit; i2 : in bit; nq : out bit; vdd : in bit; vss : in bit ); end component; Component na2_x1 port ( i0 : in bit; i1 : in bit; nq : out bit; vdd : in bit; vss : in bit ); end component; Component on12_x1 port ( i0 : in bit; i1 : in bit; q : out bit; vdd : in bit; vss : in bit ); end component; Component na3_x1 port ( i0 : in bit; i1 : in bit; i2 : in bit; nq : out bit; vdd : in bit; vss : in bit ); end component; Component sff1_x4 port ( ck : in bit; i : in bit; q : out bit; vdd : in bit; vss : in bit ); end component; Component buf_x2 port ( i : in bit; q : out bit; vdd : in bit; vss : in bit ); end component; Component no3_x1 port ( i0 : in bit; i1 : in bit; i2 : in bit; nq : out bit; vdd : in bit; vss : in bit ); end component; Component ts_x8 port ( cmd : in bit; i : in bit; q : out mux_bit bus; vdd : in bit; vss : in bit ); end component; signal not_i : bit_vector( 2 downto 1); signal rtlalc_0 : bit_vector( 3 downto 0); signal on12_x1_sig : bit; signal on12_x1_6_sig : bit; signal on12_x1_5_sig : bit; signal on12_x1_4_sig : bit; signal on12_x1_3_sig : bit; signal on12_x1_2_sig : bit; signal not_aux2 : bit; signal no3_x1_sig : bit; signal no3_x1_2_sig : bit; signal nao22_x1_sig : bit; signal nao22_x1_4_sig : bit; signal nao22_x1_3_sig : bit; signal nao22_x1_2_sig : bit; signal na3_x1_sig : bit; signal na3_x1_8_sig : bit; signal na3_x1_7_sig : bit; signal na3_x1_6_sig : bit; signal na3_x1_5_sig : bit; signal na3_x1_4_sig : bit; signal na3_x1_3_sig : bit; signal na3_x1_2_sig : bit; signal na2_x1_sig : bit; signal na2_x1_4_sig : bit; signal na2_x1_3_sig : bit; signal na2_x1_2_sig : bit; signal inv_x2_sig : bit; signal inv_x2_2_sig : bit; signal aux3 : bit; signal aux1 : bit; signal aux0 : bit; signal ao22_x2_sig : bit; signal ao22_x2_2_sig : bit; signal an12_x1_sig : bit; signal an12_x1_2_sig : bit; begin not_aux2_ins : o2_x2 port map ( i0 => i(0), i1 => not_i(1), q => not_aux2, vdd => vdd, vss => vss ); not_i_2_ins : inv_x2 port map ( i => i(2), nq => not_i(2), vdd => vdd, vss => vss ); not_i_1_ins : inv_x2 port map ( i => i(1), nq => not_i(1), vdd => vdd, vss => vss ); aux3_ins : no2_x1 port map ( i0 => i(1), i1 => i(0), nq => aux3, vdd => vdd, vss => vss ); aux1_ins : on12_x1 port map ( i0 => i(2), i1 => accu(2), q => aux1, vdd => vdd, vss => vss ); aux0_ins : on12_x1 port map ( i0 => i(2), i1 => accu(1), q => aux0, vdd => vdd, vss => vss ); inv_x2_ins : inv_x2 port map ( i => not_aux2, nq => inv_x2_sig, vdd => vdd, vss => vss ); ao22_x2_ins : ao22_x2 port map ( i0 => not_i(2), i1 => q0_from, i2 => inv_x2_sig, q => ao22_x2_sig, vdd => vdd, vss => vss ); nao22_x1_ins : nao22_x1 port map ( i0 => rtlalc_0(0), i1 => i(2), i2 => ao22_x2_sig, nq => nao22_x1_sig, vdd => vdd, vss => vss ); na2_x1_ins : na2_x1 port map ( i0 => i(0), i1 => rtlalc_0(0), nq => na2_x1_sig, vdd => vdd, vss => vss ); on12_x1_ins : on12_x1 port map ( i0 => not_i(2), i1 => alu_out(0), q => on12_x1_sig, vdd => vdd, vss => vss ); na3_x1_2_ins : na3_x1 port map ( i0 => aux3, i1 => on12_x1_sig, i2 => aux0, nq => na3_x1_2_sig, vdd => vdd, vss => vss ); na3_x1_ins : na3_x1 port map ( i0 => na3_x1_2_sig, i1 => na2_x1_sig, i2 => nao22_x1_sig, nq => na3_x1_sig, vdd => vdd, vss => vss ); rtlalc_0_0_ins : sff1_x4 port map ( ck => cke, i => na3_x1_sig, q => rtlalc_0(0), vdd => vdd, vss => vss ); inv_x2_2_ins : inv_x2 port map ( i => not_aux2, nq => inv_x2_2_sig, vdd => vdd, vss => vss ); ao22_x2_2_ins : ao22_x2 port map ( i0 => not_i(2), i1 => accu(0), i2 => inv_x2_2_sig, q => ao22_x2_2_sig, vdd => vdd, vss => vss ); nao22_x1_2_ins : nao22_x1 port map ( i0 => rtlalc_0(1), i1 => i(2), i2 => ao22_x2_2_sig, nq => nao22_x1_2_sig, vdd => vdd, vss => vss ); na2_x1_2_ins : na2_x1 port map ( i0 => i(0), i1 => rtlalc_0(1), nq => na2_x1_2_sig, vdd => vdd, vss => vss ); on12_x1_2_ins : on12_x1 port map ( i0 => not_i(2), i1 => alu_out(1), q => on12_x1_2_sig, vdd => vdd, vss => vss ); na3_x1_4_ins : na3_x1 port map ( i0 => aux3, i1 => on12_x1_2_sig, i2 => aux1, nq => na3_x1_4_sig, vdd => vdd, vss => vss ); na3_x1_3_ins : na3_x1 port map ( i0 => na3_x1_4_sig, i1 => na2_x1_2_sig, i2 => nao22_x1_2_sig, nq => na3_x1_3_sig, vdd => vdd, vss => vss ); rtlalc_0_1_ins : sff1_x4 port map ( ck => cke, i => na3_x1_3_sig, q => rtlalc_0(1), vdd => vdd, vss => vss ); an12_x1_ins : an12_x1 port map ( i0 => not_aux2, i1 => aux0, q => an12_x1_sig, vdd => vdd, vss => vss ); nao22_x1_3_ins : nao22_x1 port map ( i0 => rtlalc_0(2), i1 => i(2), i2 => an12_x1_sig, nq => nao22_x1_3_sig, vdd => vdd, vss => vss ); na2_x1_3_ins : na2_x1 port map ( i0 => i(0), i1 => rtlalc_0(2), nq => na2_x1_3_sig, vdd => vdd, vss => vss ); on12_x1_3_ins : on12_x1 port map ( i0 => i(2), i1 => accu(3), q => on12_x1_3_sig, vdd => vdd, vss => vss ); on12_x1_4_ins : on12_x1 port map ( i0 => not_i(2), i1 => alu_out(2), q => on12_x1_4_sig, vdd => vdd, vss => vss ); na3_x1_6_ins : na3_x1 port map ( i0 => on12_x1_4_sig, i1 => on12_x1_3_sig, i2 => aux3, nq => na3_x1_6_sig, vdd => vdd, vss => vss ); na3_x1_5_ins : na3_x1 port map ( i0 => na3_x1_6_sig, i1 => na2_x1_3_sig, i2 => nao22_x1_3_sig, nq => na3_x1_5_sig, vdd => vdd, vss => vss ); rtlalc_0_2_ins : sff1_x4 port map ( ck => cke, i => na3_x1_5_sig, q => rtlalc_0(2), vdd => vdd, vss => vss ); an12_x1_2_ins : an12_x1 port map ( i0 => not_aux2, i1 => aux1, q => an12_x1_2_sig, vdd => vdd, vss => vss ); nao22_x1_4_ins : nao22_x1 port map ( i0 => rtlalc_0(3), i1 => i(2), i2 => an12_x1_2_sig, nq => nao22_x1_4_sig, vdd => vdd, vss => vss ); na2_x1_4_ins : na2_x1 port map ( i0 => i(0), i1 => rtlalc_0(3), nq => na2_x1_4_sig, vdd => vdd, vss => vss ); on12_x1_5_ins : on12_x1 port map ( i0 => i(2), i1 => q3_from, q => on12_x1_5_sig, vdd => vdd, vss => vss ); on12_x1_6_ins : on12_x1 port map ( i0 => not_i(2), i1 => alu_out(3), q => on12_x1_6_sig, vdd => vdd, vss => vss ); na3_x1_8_ins : na3_x1 port map ( i0 => on12_x1_6_sig, i1 => on12_x1_5_sig, i2 => aux3, nq => na3_x1_8_sig, vdd => vdd, vss => vss ); na3_x1_7_ins : na3_x1 port map ( i0 => na3_x1_8_sig, i1 => na2_x1_4_sig, i2 => nao22_x1_4_sig, nq => na3_x1_7_sig, vdd => vdd, vss => vss ); rtlalc_0_3_ins : sff1_x4 port map ( ck => cke, i => na3_x1_7_sig, q => rtlalc_0(3), vdd => vdd, vss => vss ); accu_0_ins : buf_x2 port map ( i => rtlalc_0(0), q => accu(0), vdd => vdd, vss => vss ); accu_1_ins : buf_x2 port map ( i => rtlalc_0(1), q => accu(1), vdd => vdd, vss => vss ); accu_2_ins : buf_x2 port map ( i => rtlalc_0(2), q => accu(2), vdd => vdd, vss => vss ); accu_3_ins : buf_x2 port map ( i => rtlalc_0(3), q => accu(3), vdd => vdd, vss => vss ); no3_x1_ins : no3_x1 port map ( i0 => not_i(1), i1 => not_i(2), i2 => i(0), nq => no3_x1_sig, vdd => vdd, vss => vss ); q3_to_ins : ts_x8 port map ( cmd => no3_x1_sig, i => alu_out(3), q => q3_to, vdd => vdd, vss => vss ); no3_x1_2_ins : no3_x1 port map ( i0 => i(1), i1 => not_i(2), i2 => i(0), nq => no3_x1_2_sig, vdd => vdd, vss => vss ); q0_to_ins : ts_x8 port map ( cmd => no3_x1_2_sig, i => alu_out(0), q => q0_to, vdd => vdd, vss => vss ); end structural;