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325 lines
13 KiB
Verilog
325 lines
13 KiB
Verilog
// © IBM Corp. 2020
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// Licensed under the Apache License, Version 2.0 (the "License"), as modified by
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// the terms below; you may not use the files in this repository except in
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// compliance with the License as modified.
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// You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0
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//
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// Modified Terms:
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//
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// 1) For the purpose of the patent license granted to you in Section 3 of the
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// License, the "Work" hereby includes implementations of the work of authorship
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// in physical form.
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//
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// 2) Notwithstanding any terms to the contrary in the License, any licenses
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// necessary for implementation of the Work that are available from OpenPOWER
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// via the Power ISA End User License Agreement (EULA) are explicitly excluded
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// hereunder, and may be obtained from OpenPOWER under the terms and conditions
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// of the EULA.
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//
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// Unless required by applicable law or agreed to in writing, the reference design
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// distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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// WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
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// for the specific language governing permissions and limitations under the License.
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//
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// Additional rights, including the ability to physically implement a softcore that
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// is compliant with the required sections of the Power ISA Specification, are
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// available at no cost under the terms of the OpenPOWER Power ISA EULA, which can be
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// obtained (along with the Power ISA) here: https://openpowerfoundation.org.
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`timescale 1 ns / 1 ns
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// *!****************************************************************
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// *! FILENAME : tri_128x34_4w_1r1w.v
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// *! DESCRIPTION : 128 entry x 34 bit x 4 way array,
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// *! 1 read & 1 write port
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// *!
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// *!****************************************************************
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`include "tri_a2o.vh"
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module tri_128x34_4w_1r1w(
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gnd,
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vdd,
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vcs,
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nclk,
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rd_act,
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wr_act,
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sg_0,
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abst_sl_thold_0,
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ary_nsl_thold_0,
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time_sl_thold_0,
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repr_sl_thold_0,
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func_sl_thold_0_b,
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func_force,
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clkoff_dc_b,
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ccflush_dc,
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scan_dis_dc_b,
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scan_diag_dc,
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d_mode_dc,
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mpw1_dc_b,
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mpw2_dc_b,
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delay_lclkr_dc,
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wr_abst_act,
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rd0_abst_act,
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abist_di,
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abist_bw_odd,
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abist_bw_even,
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abist_wr_adr,
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abist_rd0_adr,
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tc_lbist_ary_wrt_thru_dc,
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abist_ena_1,
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abist_g8t_rd0_comp_ena,
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abist_raw_dc_b,
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obs0_abist_cmp,
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abst_scan_in,
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time_scan_in,
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repr_scan_in,
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func_scan_in,
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abst_scan_out,
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time_scan_out,
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repr_scan_out,
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func_scan_out,
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lcb_bolt_sl_thold_0,
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pc_bo_enable_2,
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pc_bo_reset,
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pc_bo_unload,
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pc_bo_repair,
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pc_bo_shdata,
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pc_bo_select,
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bo_pc_failout,
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bo_pc_diagloop,
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tri_lcb_mpw1_dc_b,
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tri_lcb_mpw2_dc_b,
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tri_lcb_delay_lclkr_dc,
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tri_lcb_clkoff_dc_b,
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tri_lcb_act_dis_dc,
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wr_way,
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wr_addr,
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data_in,
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rd_addr,
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data_out
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);
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parameter addressable_ports = 128; // number of addressable register in this array
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parameter addressbus_width = 7; // width of the bus to address all ports (2^addressbus_width >= addressable_ports)
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parameter port_bitwidth = 34; // bitwidth of ports
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parameter ways = 4; // number of ways
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// POWER PINS
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inout gnd;
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inout vdd;
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(* analysis_not_referenced="true" *)
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inout vcs;
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// CLOCK and CLOCKCONTROL ports
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input [0:`NCLK_WIDTH-1] nclk;
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input rd_act;
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input wr_act;
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input sg_0;
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input abst_sl_thold_0;
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input ary_nsl_thold_0;
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input time_sl_thold_0;
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input repr_sl_thold_0;
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input func_sl_thold_0_b;
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input func_force;
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input clkoff_dc_b;
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input ccflush_dc;
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input scan_dis_dc_b;
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input scan_diag_dc;
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input d_mode_dc;
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input [0:4] mpw1_dc_b;
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input mpw2_dc_b;
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input [0:4] delay_lclkr_dc;
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// ABIST
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input wr_abst_act;
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input rd0_abst_act;
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input [0:3] abist_di;
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input abist_bw_odd;
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input abist_bw_even;
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input [0:addressbus_width-1] abist_wr_adr;
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input [0:addressbus_width-1] abist_rd0_adr;
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input tc_lbist_ary_wrt_thru_dc;
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input abist_ena_1;
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input abist_g8t_rd0_comp_ena;
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input abist_raw_dc_b;
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input [0:3] obs0_abist_cmp;
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// Scan
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input [0:1] abst_scan_in;
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input time_scan_in;
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input repr_scan_in;
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input func_scan_in;
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output [0:1] abst_scan_out;
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output time_scan_out;
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output repr_scan_out;
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output func_scan_out;
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// BOLT-ON
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input lcb_bolt_sl_thold_0;
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input pc_bo_enable_2; // general bolt-on enable
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input pc_bo_reset; // reset
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input pc_bo_unload; // unload sticky bits
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input pc_bo_repair; // execute sticky bit decode
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input pc_bo_shdata; // shift data for timing write and diag loop
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input [0:1] pc_bo_select; // select for mask and hier writes
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output [0:1] bo_pc_failout; // fail/no-fix reg
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output [0:1] bo_pc_diagloop;
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input tri_lcb_mpw1_dc_b;
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input tri_lcb_mpw2_dc_b;
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input tri_lcb_delay_lclkr_dc;
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input tri_lcb_clkoff_dc_b;
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input tri_lcb_act_dis_dc;
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// Write Ports
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input [0:ways-1] wr_way;
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input [0:addressbus_width-1] wr_addr;
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input [0:port_bitwidth*ways-1] data_in;
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// Read Ports
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input [0:addressbus_width-1] rd_addr;
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output [0:port_bitwidth*ways-1] data_out;
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// tri_128x34_4w_1r1w
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parameter ramb_base_width = 36;
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parameter ramb_base_addr = 9;
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parameter ramb_width_mult = (port_bitwidth - 1)/ramb_base_width + 1; // # of RAMB's per way
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// Configuration Statement for NCsim
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//for all:RAMB16_S36_S36 use entity unisim.RAMB16_S36_S36;
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localparam rd_act_offset = 0;
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localparam data_out_offset = rd_act_offset + 1;
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localparam scan_right = data_out_offset + port_bitwidth*ways - 1;
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wire [0:(ramb_base_width*ramb_width_mult-1)] ramb_data_in[0:ways-1];
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wire [0:(ramb_base_width*ramb_width_mult-1)] ramb_data_out[0:ways-1];
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wire [0:ramb_base_addr-1] ramb_rd_addr;
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wire [0:ramb_base_addr-1] ramb_wr_addr;
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wire rd_act_l2;
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wire [0:port_bitwidth*ways-1] data_out_d;
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wire [0:port_bitwidth*ways-1] data_out_l2;
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wire tidn;
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(* analysis_not_referenced="true" *)
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wire unused;
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wire [31:0] dob;
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wire [3:0] dopb;
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wire [0:scan_right] func_sov;
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generate
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begin
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assign tidn = 1'b0;
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if (addressbus_width < ramb_base_addr)
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begin
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assign ramb_rd_addr[0:(ramb_base_addr - addressbus_width - 1)] = {(ramb_base_addr-addressbus_width){1'b0}};
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assign ramb_rd_addr[ramb_base_addr - addressbus_width:ramb_base_addr - 1] = rd_addr;
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assign ramb_wr_addr[0:(ramb_base_addr - addressbus_width - 1)] = {(ramb_base_addr-addressbus_width){1'b0}};
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assign ramb_wr_addr[ramb_base_addr - addressbus_width:ramb_base_addr - 1] = wr_addr;
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end
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if (addressbus_width >= ramb_base_addr)
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begin
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assign ramb_rd_addr = rd_addr[addressbus_width - ramb_base_addr:addressbus_width - 1];
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assign ramb_wr_addr = wr_addr[addressbus_width - ramb_base_addr:addressbus_width - 1];
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end
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genvar w;
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for (w = 0; w < ways; w = w + 1)
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begin : dw
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genvar i;
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for (i = 0; i < (ramb_base_width * ramb_width_mult); i = i + 1)
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begin : din
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if (i < port_bitwidth)
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begin
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assign ramb_data_in[w][i] = data_in[w * port_bitwidth + i];
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end
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if (i >= port_bitwidth)
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begin
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assign ramb_data_in[w][i] = 1'b0;
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end
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end
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end
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//genvar w;
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for (w = 0; w < ways; w = w + 1)
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begin : aw
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genvar x;
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for (x = 0; x < ramb_width_mult; x = x + 1)
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begin : ax
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RAMB16_S36_S36
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#(.SIM_COLLISION_CHECK("NONE")) // all, none, warning_only, generate_x_only
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arr(
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.DOA(ramb_data_out[w][x * ramb_base_width:x * ramb_base_width + 31]),
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.DOB(dob),
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.DOPA(ramb_data_out[w][x * ramb_base_width + 32:x * ramb_base_width + 35]),
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.DOPB(dopb),
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.ADDRA(ramb_rd_addr),
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.ADDRB(ramb_wr_addr),
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.CLKA(nclk[0]),
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.CLKB(nclk[0]),
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.DIA(ramb_data_in[w][x * ramb_base_width:x * ramb_base_width + 31]),
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.DIB(ramb_data_in[w][x * ramb_base_width:x * ramb_base_width + 31]),
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.DIPA(ramb_data_in[w][x * ramb_base_width + 32:x * ramb_base_width + 35]),
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.DIPB(ramb_data_in[w][x * ramb_base_width + 32:x * ramb_base_width + 35]),
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.ENA(rd_act),
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.ENB(wr_act),
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.SSRA(nclk[1]),
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.SSRB(nclk[1]),
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.WEA(tidn),
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.WEB(wr_way[w])
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);
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end //ax
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assign data_out_d[w * port_bitwidth:((w + 1) * port_bitwidth) - 1] = ramb_data_out[w][0:port_bitwidth - 1];
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end //aw
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end
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endgenerate
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assign data_out = data_out_l2;
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tri_rlmlatch_p #(.INIT(0), .NEEDS_SRESET(0)) rd_act_latch(
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.vd(vdd),
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.gd(gnd),
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.nclk(nclk),
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.act(1'b1),
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.thold_b(func_sl_thold_0_b),
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.sg(sg_0),
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.force_t(func_force),
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.delay_lclkr(delay_lclkr_dc[0]),
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.mpw1_b(mpw1_dc_b[0]),
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.mpw2_b(mpw2_dc_b),
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.d_mode(d_mode_dc),
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.scin(1'b0),
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.scout(func_sov[rd_act_offset]),
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.din(rd_act),
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.dout(rd_act_l2)
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);
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tri_rlmreg_p #(.WIDTH(port_bitwidth*ways), .INIT(0), .NEEDS_SRESET(0)) data_out_latch(
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.vd(vdd),
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.gd(gnd),
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.nclk(nclk),
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.act(rd_act_l2),
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.thold_b(func_sl_thold_0_b),
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.sg(sg_0),
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.force_t(func_force),
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.delay_lclkr(delay_lclkr_dc[0]),
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.mpw1_b(mpw1_dc_b[0]),
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.mpw2_b(mpw2_dc_b),
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.d_mode(d_mode_dc),
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.scin({port_bitwidth*ways{1'b0}}),
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.scout(func_sov[data_out_offset:data_out_offset + (port_bitwidth*ways) - 1]),
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.din(data_out_d),
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.dout(data_out_l2)
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);
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assign abst_scan_out = {tidn, tidn};
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assign time_scan_out = tidn;
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assign repr_scan_out = tidn;
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assign func_scan_out = tidn;
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assign bo_pc_failout = {tidn, tidn};
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assign bo_pc_diagloop = {tidn, tidn};
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assign unused = | ({nclk[2:`NCLK_WIDTH-1], sg_0, abst_sl_thold_0, ary_nsl_thold_0, time_sl_thold_0, repr_sl_thold_0, clkoff_dc_b, ccflush_dc, scan_dis_dc_b, scan_diag_dc, d_mode_dc, mpw1_dc_b, mpw2_dc_b, delay_lclkr_dc, wr_abst_act, rd0_abst_act, abist_di, abist_bw_odd, abist_bw_even, abist_wr_adr, abist_rd0_adr, tc_lbist_ary_wrt_thru_dc, abist_ena_1, abist_g8t_rd0_comp_ena, abist_raw_dc_b, obs0_abist_cmp, abst_scan_in, time_scan_in, repr_scan_in, func_scan_in, lcb_bolt_sl_thold_0, pc_bo_enable_2, pc_bo_reset, pc_bo_unload, pc_bo_repair, pc_bo_shdata, pc_bo_select, tri_lcb_mpw1_dc_b, tri_lcb_mpw2_dc_b, tri_lcb_delay_lclkr_dc, tri_lcb_clkoff_dc_b, tri_lcb_act_dis_dc, dob, dopb, func_sov, ramb_data_out[0][34:35], ramb_data_out[1][34:35], ramb_data_out[2][34:35], ramb_data_out[3][34:35]});
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endmodule
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