Initial commit of OpenSPARC T2 design and verification files.

[OpenSPARC-T2-DV] / design / sys / iop / rdp / rtl / rdp_n2_efuhdr4a_msff_ctl_macro__en_1__width_22.v

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// OpenSPARC T2 Processor File: rdp_n2_efuhdr4a_msff_ctl_macro__en_1__width_22.v
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// any PARAMS parms go into naming of macro

module rdp_n2_efuhdr4a_msff_ctl_macro__en_1__width_22 (
 din, 
 en, 
 l1clk, 
 scan_in, 
 siclk, 
 soclk, 
 dout, 
 scan_out);
wire [21:0] fdin;
wire [21:1] sout;

 input [ 21 : 0 ] din;
 input en;
 input l1clk;
 input scan_in;


 input siclk;
 input soclk;

 output [ 21 : 0 ] dout;
 output scan_out;
assign fdin[ 21 : 0 ] = (din[ 21 : 0 ] & {22{en}}) | (dout[ 21 : 0 ] & ~{22{en}});








   







cl_a1_msff_4x d0_0 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 0 ]),
.si(sout[ 1 ]),
.so(scan_out),
.q(dout[ 0 ])
);
cl_a1_msff_4x d0_1 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 1 ]),
.si(sout[ 2 ]),
.so(sout[ 1 ]),
.q(dout[ 1 ])
);
cl_a1_msff_4x d0_2 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 2 ]),
.si(sout[ 3 ]),
.so(sout[ 2 ]),
.q(dout[ 2 ])
);
cl_a1_msff_4x d0_3 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 3 ]),
.si(sout[ 4 ]),
.so(sout[ 3 ]),
.q(dout[ 3 ])
);
cl_a1_msff_4x d0_4 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 4 ]),
.si(sout[ 5 ]),
.so(sout[ 4 ]),
.q(dout[ 4 ])
);
cl_a1_msff_4x d0_5 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 5 ]),
.si(sout[ 6 ]),
.so(sout[ 5 ]),
.q(dout[ 5 ])
);
cl_a1_msff_4x d0_6 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 6 ]),
.si(sout[ 7 ]),
.so(sout[ 6 ]),
.q(dout[ 6 ])
);
cl_a1_msff_4x d0_7 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 7 ]),
.si(sout[ 8 ]),
.so(sout[ 7 ]),
.q(dout[ 7 ])
);
cl_a1_msff_4x d0_8 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 8 ]),
.si(sout[ 9 ]),
.so(sout[ 8 ]),
.q(dout[ 8 ])
);
cl_a1_msff_4x d0_9 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 9 ]),
.si(sout[ 10 ]),
.so(sout[ 9 ]),
.q(dout[ 9 ])
);
cl_a1_msff_4x d0_10 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 10 ]),
.si(sout[ 11 ]),
.so(sout[ 10 ]),
.q(dout[ 10 ])
);
cl_a1_msff_4x d0_11 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 11 ]),
.si(sout[ 12 ]),
.so(sout[ 11 ]),
.q(dout[ 11 ])
);
cl_a1_msff_4x d0_12 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 12 ]),
.si(sout[ 13 ]),
.so(sout[ 12 ]),
.q(dout[ 12 ])
);
cl_a1_msff_4x d0_13 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 13 ]),
.si(sout[ 14 ]),
.so(sout[ 13 ]),
.q(dout[ 13 ])
);
cl_a1_msff_4x d0_14 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 14 ]),
.si(sout[ 15 ]),
.so(sout[ 14 ]),
.q(dout[ 14 ])
);
cl_a1_msff_4x d0_15 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 15 ]),
.si(sout[ 16 ]),
.so(sout[ 15 ]),
.q(dout[ 15 ])
);
cl_a1_msff_4x d0_16 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 16 ]),
.si(sout[ 17 ]),
.so(sout[ 16 ]),
.q(dout[ 16 ])
);
cl_a1_msff_4x d0_17 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 17 ]),
.si(sout[ 18 ]),
.so(sout[ 17 ]),
.q(dout[ 17 ])
);
cl_a1_msff_4x d0_18 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 18 ]),
.si(sout[ 19 ]),
.so(sout[ 18 ]),
.q(dout[ 18 ])
);
cl_a1_msff_4x d0_19 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 19 ]),
.si(sout[ 20 ]),
.so(sout[ 19 ]),
.q(dout[ 19 ])
);
cl_a1_msff_4x d0_20 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 20 ]),
.si(sout[ 21 ]),
.so(sout[ 20 ]),
.q(dout[ 20 ])
);
cl_a1_msff_4x d0_21 (
.l1clk(l1clk),
.siclk(siclk),
.soclk(soclk),
.d(fdin[ 21 ]),
.si(scan_in),
.so(sout[ 21 ]),
.q(dout[ 21 ])
);




endmodule