a2o/dev/verilog/trilib/tri_regk.v

// © 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.
// 
// Additional rights, including the ability to physically implement a softcore that
// is compliant with the required sections of the Power ISA Specification, are
// available at no cost under the terms of the OpenPOWER Power ISA EULA, which can be
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`timescale 1 ns / 1 ns

// *!****************************************************************
// *! FILENAME    : tri_regk.v
// *! DESCRIPTION : Multi-bit non-scannable latch, LCB included
// *!****************************************************************

`include "tri_a2o.vh"

module tri_regk(
   vd,
   gd,
   nclk,
   act,
   force_t,
   thold_b,
   d_mode,
   sg,
   delay_lclkr,
   mpw1_b,
   mpw2_b,
   scin,
   din,
   scout,
   dout
);
   parameter                      WIDTH = 4;
   parameter                      OFFSET = 0;		//starting bit
   parameter                      INIT = 0;		// will be converted to the least signficant
                                                        // 31 bits of init_v
   parameter                      SYNTHCLONEDLATCH = "";
   parameter                      NEEDS_SRESET = 1;		// for inferred latches
   parameter                      DOMAIN_CROSSING = 0;

   inout                          vd;
   inout                          gd;
   input [0:`NCLK_WIDTH-1]        nclk;
   input                          act;                  // 1: functional, 0: no clock
   input                          force_t;		// 1: force LCB active
   input                          thold_b;		// 1: functional, 0: no clock
   input                          d_mode;		// 1: disable pulse mode, 0: pulse mode
   input                          sg;                   // 0: functional, 1: scan
   input                          delay_lclkr;		// 0: functional
   input                          mpw1_b;		// pulse width control bit
   input                          mpw2_b;		// pulse width control bit
   input [OFFSET:OFFSET+WIDTH-1]  scin;                 // scan in
   input [OFFSET:OFFSET+WIDTH-1]  din;                  // data in
   output [OFFSET:OFFSET+WIDTH-1] scout;
   output [OFFSET:OFFSET+WIDTH-1] dout;

   parameter [0:WIDTH-1]          init_v = INIT;
   parameter [0:WIDTH-1]          ZEROS = {WIDTH{1'b0}};

   // tri_regk

   generate
   begin
     wire                         sreset;
     wire [0:WIDTH-1]             int_din;
     reg [0:WIDTH-1]              int_dout;
     wire [0:WIDTH-1]             vact;
     wire [0:WIDTH-1]             vact_b;
     wire [0:WIDTH-1]             vsreset;
     wire [0:WIDTH-1]             vsreset_b;
     wire [0:WIDTH-1]             vthold;
     wire [0:WIDTH-1]             vthold_b;
       (* analysis_not_referenced="true" *)
     wire                         unused;

     if (NEEDS_SRESET == 1)
     begin : rst
       assign sreset = nclk[1];
     end
     if (NEEDS_SRESET != 1)
     begin : no_rst
       assign sreset = 1'b0;
     end

     assign vsreset = {WIDTH{sreset}};
     assign vsreset_b = {WIDTH{~sreset}};
     assign int_din = (vsreset_b & din) | (vsreset & init_v);

     assign vact = {WIDTH{act | force_t}};
     assign vact_b = {WIDTH{~(act | force_t)}};

     assign vthold_b = {WIDTH{thold_b}};
     assign vthold = {WIDTH{~thold_b}};


     always @(posedge nclk[0])
     begin: l
       int_dout <= (((vact & vthold_b) | vsreset) & int_din) | (((vact_b | vthold) & vsreset_b) & int_dout);
     end
     assign dout = int_dout;

     assign scout = ZEROS;

     assign unused = | {vd, gd, nclk, d_mode, sg, delay_lclkr, mpw1_b, mpw2_b, scin};
   end
   endgenerate
endmodule