// © IBM Corp. 2020
// Licensed under the Apache License, Version 2.0 (the "License"), as modified by
// the terms below; you may not use the files in this repository except in
// compliance with the License as modified.
// You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0
//
// Modified Terms:
//
//    1) For the purpose of the patent license granted to you in Section 3 of the
//    License, the "Work" hereby includes implementations of the work of authorship
//    in physical form.
//
//    2) Notwithstanding any terms to the contrary in the License, any licenses
//    necessary for implementation of the Work that are available from OpenPOWER
//    via the Power ISA End User License Agreement (EULA) are explicitly excluded
//    hereunder, and may be obtained from OpenPOWER under the terms and conditions
//    of the EULA.  
//
// Unless required by applicable law or agreed to in writing, the reference design
// distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
// WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
// for the specific language governing permissions and limitations under the License.
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// Additional rights, including the ability to physically implement a softcore that
// is compliant with the required sections of the Power ISA Specification, are
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`timescale 1 ns / 1 ns

   `include "tri_a2o.vh"


module fu_add_all1(
   ex4_inc_byt_c_b,
   ex4_inc_byt_c_glb,
   ex4_inc_byt_c_glb_b,
   ex4_inc_all1
);
   input [0:6]  ex4_inc_byt_c_b;		// from each byte section
   output [1:6] ex4_inc_byt_c_glb;
   output [1:6] ex4_inc_byt_c_glb_b;
   output       ex4_inc_all1;
   //   ATTRIBUTE BTR_NAME            OF fu_add_all1 : ENTITY IS "fu_add_all1";

   parameter    tiup = 1'b1;
   parameter    tidn = 1'b0;

   wire [0:6]   ex4_inc_byt_g1;
   wire [0:6]   ex4_inc_byt_g2_b;
   wire [0:6]   ex4_inc_byt_g4;
   wire [0:6]   ex4_inc_byt_g8_b;
   wire [1:6]   ex4_inc_byt_g_glb_int;



   assign ex4_inc_byt_g1[0:6] = (~ex4_inc_byt_c_b[0:6]);		//expect some wire distance between latches
   // drive to a common location

   assign ex4_inc_byt_g2_b[6] = (~(ex4_inc_byt_g1[6]));
   assign ex4_inc_byt_g2_b[5] = (~(ex4_inc_byt_g1[5] & ex4_inc_byt_g1[6]));
   assign ex4_inc_byt_g2_b[4] = (~(ex4_inc_byt_g1[4] & ex4_inc_byt_g1[5]));
   assign ex4_inc_byt_g2_b[3] = (~(ex4_inc_byt_g1[3] & ex4_inc_byt_g1[4]));
   assign ex4_inc_byt_g2_b[2] = (~(ex4_inc_byt_g1[2] & ex4_inc_byt_g1[3]));
   assign ex4_inc_byt_g2_b[1] = (~(ex4_inc_byt_g1[1] & ex4_inc_byt_g1[2]));
   assign ex4_inc_byt_g2_b[0] = (~(ex4_inc_byt_g1[0] & ex4_inc_byt_g1[1]));

   assign ex4_inc_byt_g4[6] = (~(ex4_inc_byt_g2_b[6]));
   assign ex4_inc_byt_g4[5] = (~(ex4_inc_byt_g2_b[5]));
   assign ex4_inc_byt_g4[4] = (~(ex4_inc_byt_g2_b[4] | ex4_inc_byt_g2_b[6]));
   assign ex4_inc_byt_g4[3] = (~(ex4_inc_byt_g2_b[3] | ex4_inc_byt_g2_b[5]));
   assign ex4_inc_byt_g4[2] = (~(ex4_inc_byt_g2_b[2] | ex4_inc_byt_g2_b[4]));
   assign ex4_inc_byt_g4[1] = (~(ex4_inc_byt_g2_b[1] | ex4_inc_byt_g2_b[3]));
   assign ex4_inc_byt_g4[0] = (~(ex4_inc_byt_g2_b[0] | ex4_inc_byt_g2_b[2]));

   assign ex4_inc_byt_g8_b[6] = (~(ex4_inc_byt_g4[6]));
   assign ex4_inc_byt_g8_b[5] = (~(ex4_inc_byt_g4[5]));
   assign ex4_inc_byt_g8_b[4] = (~(ex4_inc_byt_g4[4]));
   assign ex4_inc_byt_g8_b[3] = (~(ex4_inc_byt_g4[3]));
   assign ex4_inc_byt_g8_b[2] = (~(ex4_inc_byt_g4[2] & ex4_inc_byt_g4[6]));
   assign ex4_inc_byt_g8_b[1] = (~(ex4_inc_byt_g4[1] & ex4_inc_byt_g4[5]));
   assign ex4_inc_byt_g8_b[0] = (~(ex4_inc_byt_g4[0] & ex4_inc_byt_g4[4]));

   assign ex4_inc_all1 = (~ex4_inc_byt_g8_b[0]);
   assign ex4_inc_byt_c_glb[1] = (~ex4_inc_byt_g8_b[1]);		// drive back from common
   assign ex4_inc_byt_c_glb[2] = (~ex4_inc_byt_g8_b[2]);		// drive back from common
   assign ex4_inc_byt_c_glb[3] = (~ex4_inc_byt_g8_b[3]);		// drive back from common
   assign ex4_inc_byt_c_glb[4] = (~ex4_inc_byt_g8_b[4]);		// drive back from common
   assign ex4_inc_byt_c_glb[5] = (~ex4_inc_byt_g8_b[5]);		// drive back from common
   assign ex4_inc_byt_c_glb[6] = (~ex4_inc_byt_g8_b[6]);		// drive back from common

   assign ex4_inc_byt_g_glb_int[1] = (~ex4_inc_byt_g8_b[1]);
   assign ex4_inc_byt_g_glb_int[2] = (~ex4_inc_byt_g8_b[2]);
   assign ex4_inc_byt_g_glb_int[3] = (~ex4_inc_byt_g8_b[3]);
   assign ex4_inc_byt_g_glb_int[4] = (~ex4_inc_byt_g8_b[4]);
   assign ex4_inc_byt_g_glb_int[5] = (~ex4_inc_byt_g8_b[5]);
   assign ex4_inc_byt_g_glb_int[6] = (~ex4_inc_byt_g8_b[6]);

   assign ex4_inc_byt_c_glb_b[1] = (~ex4_inc_byt_g_glb_int[1]);		// drive back from common
   assign ex4_inc_byt_c_glb_b[2] = (~ex4_inc_byt_g_glb_int[2]);		// drive back from common
   assign ex4_inc_byt_c_glb_b[3] = (~ex4_inc_byt_g_glb_int[3]);		// drive back from common
   assign ex4_inc_byt_c_glb_b[4] = (~ex4_inc_byt_g_glb_int[4]);		// drive back from common
   assign ex4_inc_byt_c_glb_b[5] = (~ex4_inc_byt_g_glb_int[5]);		// drive back from common
   assign ex4_inc_byt_c_glb_b[6] = (~ex4_inc_byt_g_glb_int[6]);		// drive back from common

endmodule