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965 lines
40 KiB
Verilog
965 lines
40 KiB
Verilog
3 years ago
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// © 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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// *!****************************************************************
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// *! FILENAME : tri_serial_scom2.v
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// *! DESCRIPTION : SCOM Satellite
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// *! Only supports 1:1 ratio
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// *!
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// *!****************************************************************
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`timescale 1 ns / 1 ns
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`include "tri_a2o.vh"
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module tri_serial_scom2(
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nclk,
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vdd,
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gnd,
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scom_func_thold,
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sg,
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act_dis_dc,
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clkoff_dc_b,
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mpw1_dc_b,
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mpw2_dc_b,
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d_mode_dc,
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delay_lclkr_dc,
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func_scan_in,
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func_scan_out,
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dcfg_scan_dclk,
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dcfg_scan_lclk,
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dcfg_d1clk,
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dcfg_d2clk,
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dcfg_lclk,
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dcfg_scan_in,
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dcfg_scan_out,
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scom_local_act,
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sat_id,
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scom_dch_in,
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scom_cch_in,
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scom_dch_out,
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scom_cch_out,
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sc_req,
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sc_ack,
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sc_ack_info,
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sc_r_nw,
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sc_addr,
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addr_v,
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sc_rdata,
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sc_wdata,
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sc_wparity,
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scom_err,
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fsm_reset
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);
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//=====================================================================
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// I/O Definition
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//=====================================================================
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parameter WIDTH = 64; // 64 is the maximum allowed
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parameter INTERNAL_ADDR_DECODE = 1'b0;
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// Made these parameters local (they don't play nice with vhdl wrapper)
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//parameter [0:WIDTH-1] USE_ADDR = 64'b1000000000000000000000000000000000000000000000000000000000000000;
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//parameter [0:WIDTH-1] ADDR_IS_RDABLE = 64'b1000000000000000000000000000000000000000000000000000000000000000;
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//parameter [0:WIDTH-1] ADDR_IS_WRABLE = 64'b1000000000000000000000000000000000000000000000000000000000000000;
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//parameter [0:WIDTH-1] PIPELINE_ADDR_V = 64'b0000000000000000000000000000000000000000000000000000000000000000;
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parameter PIPELINE_PARITYCHK = 1'b0; // pipeline parcheck for timing
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parameter SATID_NOBITS = 4; // should not be set by user
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parameter REGID_NOBITS = 6;
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parameter RINGID_NOBITS = 3;
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// clock, scan and misc interfaces
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input [0:`NCLK_WIDTH-1] nclk;
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inout vdd;
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inout gnd;
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input scom_func_thold;
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input sg;
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input act_dis_dc;
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input clkoff_dc_b;
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input mpw1_dc_b;
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input mpw2_dc_b;
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input d_mode_dc;
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input delay_lclkr_dc;
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//lcb_align_0 : in std_ulogic;
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//! scan chain should evaluate to 0:176 for WIDTH=64 and 6 REGID_NOBITS (=64 SCOM addresses)
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//! scan chain vector is longer than number of latches being used due to
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//! vhdl generics formulation and shortings
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input [0:WIDTH+2*((WIDTH-1)/16+1)+(2**REGID_NOBITS)+40] func_scan_in;
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output [0:WIDTH+2*((WIDTH-1)/16+1)+(2**REGID_NOBITS)+40] func_scan_out;
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// for mask slat inside of c_err_rpt
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input dcfg_scan_dclk;
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input [0:`NCLK_WIDTH-1] dcfg_scan_lclk;
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//! for nlats inside of c_err_rpt
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input dcfg_d1clk; // needed for one bit only, always or scom_local_act clocked dcfg
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input dcfg_d2clk; // needed for one bit only, always or scom_local_act clocked dcfg
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input [0:`NCLK_WIDTH-1] dcfg_lclk; // needed for one bit only, always or scom_local_act clocked dcfg
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// contains mask slat and hold nlat of c_err_rpt
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input [0:1] dcfg_scan_in;
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output [0:1] dcfg_scan_out;
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// denotes SCOM sat active if set to '1', can be used for local clock gating
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output scom_local_act;
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//---------------------------------------------------------------------
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// SCOM Interface
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//---------------------------------------------------------------------
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// SCOM satellite ID tied to a specific pattern
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input [0:SATID_NOBITS-1] sat_id;
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// SCOM Data Channel input (carry both address and data)
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input scom_dch_in;
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// SCOM Control Channel input
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input scom_cch_in;
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// SCOM Data Channel output
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output scom_dch_out;
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// SCOM Control Channel output
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output scom_cch_out;
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//---------------------------------------------------------------------
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// Interface between SCOM satellite and internal macro logic
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//---------------------------------------------------------------------
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// denotes a request if asserted to '1', level
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output sc_req;
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// acknowledge a pending request with sc_ack_info+sc_rdata+sc_rparity
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// being valid
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input sc_ack;
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// acknowledge information
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// 0: '1' if access violation, otherwise '0'
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// 1: '1' if register address invalid
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input [0:1] sc_ack_info;
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// '1' if read access, '0' write access
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output sc_r_nw;
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// Register address, default 6 bits for up to 64 register addresses
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output [0:REGID_NOBITS-1] sc_addr;
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// one-hot address, valid only if INTERNAL_ADDR_DECODE=TRUE, else zeros
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output [0:WIDTH-1] addr_v;
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// Read data delivered by macro logic as response to a read request
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input [0:WIDTH-1] sc_rdata;
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// Write data delivered from SCOM satellite for a write request
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output [0:WIDTH-1] sc_wdata;
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// Write data parity bit over sc_wdata, optional usage
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output sc_wparity;
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//---------------------------------------------------------------------
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// parity error of fsm state vector, wire to next local fir
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output scom_err;
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// reset fsm (optional), tie to '0' if unused
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input fsm_reset;
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//=====================================================================
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// Signal Declarations
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//=====================================================================
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parameter [0:WIDTH-1] USE_ADDR = 64'b1000000000000000000000000000000000000000000000000000000000000000;
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parameter [0:WIDTH-1] ADDR_IS_RDABLE = 64'b1000000000000000000000000000000000000000000000000000000000000000;
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parameter [0:WIDTH-1] ADDR_IS_WRABLE = 64'b1000000000000000000000000000000000000000000000000000000000000000;
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parameter [0:WIDTH-1] PIPELINE_ADDR_V = 64'b0000000000000000000000000000000000000000000000000000000000000000;
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parameter STATE_WIDTH = 5;
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parameter PAR_NOBITS = (WIDTH - 1)/16 + 1;
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parameter REG_NOBITS = REGID_NOBITS;
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parameter SATID_REGID_NOBITS = SATID_NOBITS + REGID_NOBITS;
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parameter RW_BIT_INDEX = SATID_REGID_NOBITS + 1;
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parameter PARBIT_INDEX = RW_BIT_INDEX + 1;
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parameter HEAD_WIDTH = PARBIT_INDEX + 1;
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parameter [0:HEAD_WIDTH-1] HEAD_INIT = 13'b0000000000000;
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// 0123Parity
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parameter [0:STATE_WIDTH-1] IDLE = 5'b00000; // 0 = x00
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parameter [0:STATE_WIDTH-1] REC_HEAD = 5'b00011; // 1 = x03
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parameter [0:STATE_WIDTH-1] CHECK_BEFORE= 5'b00101; // 2 = x05
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parameter [0:STATE_WIDTH-1] REC_WDATA = 5'b00110; // 3 = x06
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parameter [0:STATE_WIDTH-1] REC_WPAR = 5'b01001; // 4 = x09
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parameter [0:STATE_WIDTH-1] EXE_CMD = 5'b01010; // 5 = x0A
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parameter [0:STATE_WIDTH-1] FILLER0 = 5'b01100; // 6 = x0C
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parameter [0:STATE_WIDTH-1] FILLER1 = 5'b01111; // 7 = x0F
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parameter [0:STATE_WIDTH-1] GEN_ULINFO = 5'b10001; // 8 = x11
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parameter [0:STATE_WIDTH-1] SEND_ULINFO = 5'b10010; // 9 = x12
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parameter [0:STATE_WIDTH-1] SEND_RDATA = 5'b10100; // 10 = x14
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parameter [0:STATE_WIDTH-1] SEND_0 = 5'b10111; // 11 = x17
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parameter [0:STATE_WIDTH-1] SEND_1 = 5'b11000; // 12 = x18
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parameter [0:STATE_WIDTH-1] CHECK_WPAR = 5'b11011; // 13 = x1B
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// 14 = x1D
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parameter [0:STATE_WIDTH-1] NOT_SELECTED= 5'b11110; // 15 = x1E
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parameter EOF_WDATA = PARBIT_INDEX - 1 + 64; // here max width, it is 64
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parameter EOF_WPAR = EOF_WDATA + 4;
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parameter EOF_WDATA_N = PARBIT_INDEX - 1 + WIDTH;
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parameter EOF_WPAR_M = EOF_WDATA + PAR_NOBITS;
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parameter CNT_SIZE = 7;
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wire is_idle;
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wire is_rec_head;
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wire is_check_before;
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wire is_rec_wdata;
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wire is_rec_wpar;
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wire is_exe_cmd;
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wire is_gen_ulinfo;
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wire is_send_ulinfo;
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wire is_send_rdata;
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wire is_send_0;
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wire is_send_1;
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wire is_filler_0;
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wire is_filler_1;
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reg [0:STATE_WIDTH-1] next_state;
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wire [0:STATE_WIDTH-1] state_in;
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wire [0:STATE_WIDTH-1] state_lt;
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wire dch_lt;
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wire [0:1] cch_in;
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wire [0:1] cch_lt;
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wire reset;
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wire got_head;
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wire gor_eofwdata;
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wire got_eofwpar;
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wire sent_rdata;
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wire got_ulhead;
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wire do_send_par;
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wire cntgtheadpluswidth;
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wire cntgteofwdataplusparity;
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wire p0_err;
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wire any_ack_error;
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wire match;
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wire do_write;
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wire do_read;
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wire [0:CNT_SIZE-1] cnt_in;
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wire [0:CNT_SIZE-1] cnt_lt;
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wire [0:HEAD_WIDTH-1] head_in;
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wire [0:HEAD_WIDTH-1] head_lt;
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wire [0:4] tail_in;
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wire [0:4] tail_lt;
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wire [0:1] sc_ack_info_in;
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wire [0:1] sc_ack_info_lt;
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wire head_mux;
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wire [0:WIDTH-1] data_shifter_in;
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wire [0:WIDTH-1] data_shifter_lt;
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wire [0:63] data_shifter_lt_tmp;
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wire [0:PAR_NOBITS-1] datapar_shifter_in;
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wire [0:PAR_NOBITS-1] datapar_shifter_lt;
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wire data_mux;
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wire par_mux;
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wire dch_out_internal_in;
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wire dch_out_internal_lt;
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wire parity_satid_regaddr;
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wire func_force;
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wire func_thold_b;
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wire d1clk;
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wire d2clk;
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wire [0:`NCLK_WIDTH-1] lclk;
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wire local_act;
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wire local_act_int;
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wire scom_err_in;
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wire scom_err_lt;
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wire scom_local_act_in;
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wire scom_local_act_lt;
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wire wpar_err;
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wire [0:PAR_NOBITS-1] par_data_in;
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wire [0:PAR_NOBITS-1] par_data_lt;
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wire [0:PAR_NOBITS-1] sc_rparity;
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wire read_valid;
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wire write_valid;
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wire [0:WIDTH-1] dec_addr_in;
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wire [0:WIDTH-1] dec_addr_q;
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wire addr_nvld;
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wire write_nvld;
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wire read_nvld;
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wire state_par_error;
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wire [0:SATID_NOBITS-1] sat_id_net;
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wire spare_latch1_in;
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wire spare_latch1_lt;
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wire spare_latch2_in;
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wire spare_latch2_lt;
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// Don't reference unused inputs:
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(* analysis_not_referenced="true" *)
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wire [0:1] unused;
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(* analysis_not_referenced="true" *)
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wire unused_signals;
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tri_lcbor lcbor_func(
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.clkoff_b(clkoff_dc_b),
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.thold(scom_func_thold),
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.sg(sg),
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.act_dis(act_dis_dc),
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.force_t(func_force),
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.thold_b(func_thold_b)
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);
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tri_lcbnd lcb_func(
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.vd(vdd),
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.gd(gnd),
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.act(local_act_int),
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.delay_lclkr(delay_lclkr_dc),
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.mpw1_b(mpw1_dc_b),
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.mpw2_b(mpw2_dc_b),
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.nclk(nclk),
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.force_t(func_force),
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.sg(sg),
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.thold_b(func_thold_b),
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//--------------------------
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.d1clk(d1clk),
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.d2clk(d2clk),
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.lclk(lclk)
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);
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//-----------------------------------------------------------------------------
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tri_err_rpt #(.WIDTH(1), // use to bundle error reporting checkers of the same exact type
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.INLINE(1'b0), // make hold latch be inline
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.MASK_RESET_VALUE(1'b0), // do not report address and data parity errors by default
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.NEEDS_SRESET(1) // since already reported to PCB through error reply
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) parity_err(
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.vd(vdd),
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.gd(gnd),
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.err_d1clk(dcfg_d1clk),
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.err_d2clk(dcfg_d2clk),
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.err_lclk(dcfg_lclk),
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.err_scan_in(dcfg_scan_in[0:0]),
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.err_scan_out(dcfg_scan_out[0:0]),
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.mode_dclk(dcfg_scan_dclk),
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.mode_lclk(dcfg_scan_lclk),
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.mode_scan_in(dcfg_scan_in[1:1]),
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.mode_scan_out(dcfg_scan_out[1:1]),
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//--------------------------
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.err_in(state_par_error),
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.err_out(scom_err_in)
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);
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assign scom_err = scom_err_lt; // drive this output with a latch / 1.35
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//-----------------------------------------------------------------------------
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// fill spares of scan vector
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assign func_scan_out[STATE_WIDTH+WIDTH+(2*PAR_NOBITS)+HEAD_WIDTH+22+(2**REGID_NOBITS):WIDTH+(2*((WIDTH-1)/16+1))+(2**REGID_NOBITS)+40] =
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func_scan_in[ STATE_WIDTH+WIDTH+(2*PAR_NOBITS)+HEAD_WIDTH+22+(2**REGID_NOBITS):WIDTH+(2*((WIDTH-1)/16+1))+(2**REGID_NOBITS)+40];
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//-----------------------------------------------------------------------------
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assign sat_id_net = sat_id;
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assign cch_in = {scom_cch_in, cch_lt[0]};
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assign reset = (cch_lt[0] & (~scom_cch_in)) | // with falling edge of scom_cch_in
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fsm_reset | // or with fsm_reset
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||
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scom_err_lt; // MP timing fix -- or state_par_error;
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||
|
assign local_act = (|{scom_cch_in, cch_lt}); // active with scom_cch_in and as long as cch_lt
|
||
|
|
||
|
assign local_act_int = local_act | scom_local_act_lt; // MP... and scom_local_act_lt is cleared
|
||
|
|
||
|
assign scom_local_act_in = local_act; // drive this output with a latch / 1.35
|
||
|
assign scom_local_act = scom_local_act_lt;
|
||
|
|
||
|
assign scom_cch_out = cch_lt[0];
|
||
|
|
||
|
assign dch_out_internal_in = (is_send_ulinfo == 1'b1) ? head_lt[0] :
|
||
|
(is_send_0 == 1'b1) ? 1'b0 :
|
||
|
(is_send_1 == 1'b1) ? 1'b1 :
|
||
|
((is_send_rdata & (~do_send_par)) == 1'b1) ? data_shifter_lt[0] :
|
||
|
((is_send_rdata & do_send_par) == 1'b1) ? datapar_shifter_lt[0] :
|
||
|
dch_lt;
|
||
|
assign scom_dch_out = dch_out_internal_lt;
|
||
|
|
||
|
assign sc_req = is_exe_cmd;
|
||
|
assign sc_addr = head_lt[SATID_NOBITS + 1:SATID_REGID_NOBITS];
|
||
|
assign sc_r_nw = head_lt[RW_BIT_INDEX];
|
||
|
assign sc_wdata = data_shifter_lt;
|
||
|
assign sc_wparity = (^datapar_shifter_lt);
|
||
|
|
||
|
//-----------------------------------------------------------------------------
|
||
|
// FSM: serial => parallel => serial state machine
|
||
|
//
|
||
|
always @(state_lt or got_head or gor_eofwdata or got_eofwpar or got_ulhead or sent_rdata or
|
||
|
p0_err or any_ack_error or match or do_write or do_read or cch_lt[0] or dch_lt or
|
||
|
sc_ack or wpar_err or read_nvld)
|
||
|
|
||
|
begin: fsm_transition
|
||
|
next_state = state_lt;
|
||
|
|
||
|
case (state_lt)
|
||
|
IDLE :
|
||
|
if (dch_lt == 1'b1)
|
||
|
next_state = REC_HEAD;
|
||
|
|
||
|
REC_HEAD :
|
||
|
if ((got_head) == 1'b1)
|
||
|
next_state = CHECK_BEFORE;
|
||
|
|
||
|
CHECK_BEFORE :
|
||
|
if (match == 1'b0)
|
||
|
next_state = NOT_SELECTED;
|
||
|
else if (((read_nvld | p0_err) & do_read) == 1'b1)
|
||
|
next_state = FILLER0;
|
||
|
else if (((~p0_err) & (~read_nvld) & do_read) == 1'b1)
|
||
|
next_state = EXE_CMD;
|
||
|
else
|
||
|
next_state = REC_WDATA;
|
||
|
|
||
|
REC_WDATA :
|
||
|
if (gor_eofwdata == 1'b1)
|
||
|
next_state = REC_WPAR;
|
||
|
|
||
|
REC_WPAR :
|
||
|
if ((got_eofwpar & (~p0_err)) == 1'b1)
|
||
|
// next_state = EXE_CMD;
|
||
|
next_state = CHECK_WPAR;
|
||
|
else if ((got_eofwpar & p0_err) == 1'b1)
|
||
|
next_state = FILLER0;
|
||
|
|
||
|
CHECK_WPAR :
|
||
|
if (wpar_err == 1'b0)
|
||
|
next_state = EXE_CMD;
|
||
|
else
|
||
|
next_state = FILLER1;
|
||
|
|
||
|
EXE_CMD :
|
||
|
if (sc_ack == 1'b1)
|
||
|
next_state = FILLER1;
|
||
|
|
||
|
FILLER0 :
|
||
|
next_state = FILLER1;
|
||
|
|
||
|
FILLER1 :
|
||
|
next_state = GEN_ULINFO;
|
||
|
|
||
|
GEN_ULINFO :
|
||
|
next_state = SEND_ULINFO;
|
||
|
|
||
|
SEND_ULINFO :
|
||
|
if ((got_ulhead & (do_write | (do_read & any_ack_error))) == 1'b1)
|
||
|
next_state = SEND_0;
|
||
|
else if ((got_ulhead & do_read & (~any_ack_error)) == 1'b1)
|
||
|
next_state = SEND_RDATA;
|
||
|
|
||
|
SEND_RDATA :
|
||
|
if (sent_rdata == 1'b1)
|
||
|
next_state = SEND_0;
|
||
|
|
||
|
SEND_0 :
|
||
|
next_state = SEND_1;
|
||
|
|
||
|
SEND_1 :
|
||
|
next_state = IDLE;
|
||
|
|
||
|
NOT_SELECTED :
|
||
|
if (cch_lt[0] == 1'b0)
|
||
|
next_state = IDLE;
|
||
|
|
||
|
default :
|
||
|
next_state = IDLE;
|
||
|
endcase
|
||
|
end
|
||
|
|
||
|
assign state_in = (local_act == 1'b0) ? state_lt :
|
||
|
(reset == 1'b1) ? IDLE :
|
||
|
next_state;
|
||
|
|
||
|
assign state_par_error = (^state_lt);
|
||
|
|
||
|
//-----------------------------------------------------------------------------
|
||
|
assign is_idle = (state_lt == IDLE);
|
||
|
assign is_rec_head = (state_lt == REC_HEAD);
|
||
|
assign is_check_before = (state_lt == CHECK_BEFORE);
|
||
|
assign is_rec_wdata = (state_lt == REC_WDATA);
|
||
|
assign is_rec_wpar = (state_lt == REC_WPAR);
|
||
|
assign is_exe_cmd = (state_lt == EXE_CMD);
|
||
|
assign is_gen_ulinfo = (state_lt == GEN_ULINFO);
|
||
|
assign is_send_ulinfo = (state_lt == SEND_ULINFO);
|
||
|
assign is_send_rdata = (state_lt == SEND_RDATA);
|
||
|
assign is_send_0 = (state_lt == SEND_0);
|
||
|
assign is_send_1 = (state_lt == SEND_1);
|
||
|
assign is_filler_0 = (state_lt == FILLER0);
|
||
|
assign is_filler_1 = (state_lt == FILLER1);
|
||
|
|
||
|
//-----------------------------------------------------------------------------
|
||
|
assign cnt_in = ((is_idle | is_gen_ulinfo) == 1'b1) ? 7'b0000000 :
|
||
|
((is_rec_head | is_check_before | is_rec_wdata |
|
||
|
is_rec_wpar | is_send_ulinfo | is_send_rdata |
|
||
|
is_send_0 | is_send_1) == 1'b1) ? cnt_lt + 7'b0000001 :
|
||
|
cnt_lt;
|
||
|
|
||
|
// downlink head (command) has been received when start bit, satellite id and register id have been received
|
||
|
assign got_head = ({{32-CNT_SIZE{1'b0}},cnt_lt} == (1 + SATID_NOBITS + REGID_NOBITS));
|
||
|
|
||
|
// uplink head (response) has been received when start bit, satellite id, register id and 4 ack bits have been received
|
||
|
assign got_ulhead = ({{32-CNT_SIZE{1'b0}},cnt_lt} == (1 + SATID_NOBITS + REGID_NOBITS + 4));
|
||
|
|
||
|
assign gor_eofwdata = ({{32-CNT_SIZE{1'b0}},cnt_lt} == EOF_WDATA);
|
||
|
assign got_eofwpar = ({{32-CNT_SIZE{1'b0}},cnt_lt} == EOF_WPAR);
|
||
|
|
||
|
// for sent_rdata: 1 start, 10 sat_id + reg, 4 ack, 1 p, 64 data = 84, but count from 0 is 1st bit => 83 is end
|
||
|
assign sent_rdata = (cnt_lt == 7'd83);
|
||
|
|
||
|
assign cntgtheadpluswidth = ({{32-CNT_SIZE{1'b0}},cnt_lt} > EOF_WDATA_N);
|
||
|
assign cntgteofwdataplusparity = ({{32-CNT_SIZE{1'b0}},cnt_lt} > EOF_WPAR_M);
|
||
|
|
||
|
assign do_send_par = ({{32-CNT_SIZE{1'b0}},cnt_lt} > 79); // 78 bits=15 ulhead + 64 data
|
||
|
|
||
|
//-----------------------------------------------------------------------------
|
||
|
// shift downlink command (for this or any subsequent satellite) or uplink response (from previous satellite)
|
||
|
assign head_in[HEAD_WIDTH-2:HEAD_WIDTH-1] = ((is_rec_head | (is_idle & dch_lt)) == 1'b1) ? {head_lt[HEAD_WIDTH-1], dch_lt} :
|
||
|
head_lt[HEAD_WIDTH-2:HEAD_WIDTH-1];
|
||
|
|
||
|
assign head_in[0:SATID_REGID_NOBITS] = ((is_rec_head | is_send_ulinfo) == 1'b1) ? {head_lt[1:SATID_REGID_NOBITS], head_mux} :
|
||
|
head_lt[0:SATID_REGID_NOBITS];
|
||
|
|
||
|
assign head_mux = (is_rec_head == 1'b1) ? head_lt[RW_BIT_INDEX] :
|
||
|
tail_lt[0];
|
||
|
|
||
|
// calculate parity P0 of uplink frame
|
||
|
assign tail_in[4] = (is_gen_ulinfo == 1'b1 & (INTERNAL_ADDR_DECODE == 1'b0)) ? (^({parity_satid_regaddr, tail_lt[0], (wpar_err & do_write), sc_ack_info_lt[0:1]})) :
|
||
|
(is_gen_ulinfo == 1'b1 & (INTERNAL_ADDR_DECODE == 1'b1)) ? (^({parity_satid_regaddr, tail_lt[0], (wpar_err & do_write), (write_nvld | read_nvld), addr_nvld})) :
|
||
|
tail_lt[4];
|
||
|
|
||
|
// copy sampled ack_info coming from logic
|
||
|
assign tail_in[2:3] = (is_gen_ulinfo == 1'b1 & INTERNAL_ADDR_DECODE == 1'b0) ? sc_ack_info_lt[0:1] :
|
||
|
(is_gen_ulinfo == 1'b1 & INTERNAL_ADDR_DECODE == 1'b1) ? {(write_nvld | read_nvld), addr_nvld} :
|
||
|
(is_send_ulinfo == 1'b1) ? tail_lt[3:4] : // shift out
|
||
|
tail_lt[2:3];
|
||
|
|
||
|
// Write Data Parity error
|
||
|
assign tail_in[1] = (is_gen_ulinfo == 1'b1) ? (wpar_err & do_write) : // parity error on write operation
|
||
|
(is_send_ulinfo == 1'b1) ? tail_lt[2] : // shift out
|
||
|
tail_lt[1];
|
||
|
|
||
|
// parity check of of downlink P0 yields error
|
||
|
assign tail_in[0] = (is_check_before == 1'b1) ? (~p0_err) : // set to '1' if a downlink parity error is detected by satellite, otherwise '0'
|
||
|
(is_send_ulinfo == 1'b1) ? tail_lt[1] : // shift out
|
||
|
tail_lt[0];
|
||
|
|
||
|
// sample and hold ack_info, one spare bit
|
||
|
assign sc_ack_info_in = ((is_exe_cmd & sc_ack) == 1'b1) ? sc_ack_info :
|
||
|
(is_idle == 1'b1) ? 2'b00 :
|
||
|
sc_ack_info_lt;
|
||
|
|
||
|
//-----------------------------------------------------------------------------
|
||
|
assign do_write = (~do_read);
|
||
|
assign do_read = head_lt[RW_BIT_INDEX];
|
||
|
assign match = (head_lt[1:SATID_NOBITS] == sat_id_net);
|
||
|
|
||
|
// if downlink parity error then set p0_err
|
||
|
assign p0_err = (is_check_before & (^(head_lt[1:PARBIT_INDEX])));
|
||
|
// why constant 11 here: ???
|
||
|
// first part sat id; second part reg address (curr. 6 bits) => 10 instead of 11
|
||
|
// now new constant SATID_REGID_NOBITS
|
||
|
assign parity_satid_regaddr = (^{sat_id_net, head_lt[SATID_NOBITS+1:SATID_REGID_NOBITS]});
|
||
|
|
||
|
assign any_ack_error = (|sc_ack_info_lt);
|
||
|
|
||
|
//-----------------------------------------------------------------------------
|
||
|
assign data_mux = ((is_check_before | is_rec_wdata) == 1'b1) ? dch_lt : 1'b0;
|
||
|
|
||
|
assign data_shifter_in = ((is_check_before | (is_rec_wdata & (~cntgtheadpluswidth)) | is_send_rdata) == 1'b1) ? {data_shifter_lt[1:WIDTH-1], data_mux} :
|
||
|
((is_exe_cmd & sc_ack & do_read) == 1'b1) ? sc_rdata :
|
||
|
data_shifter_lt;
|
||
|
|
||
|
//-----------------------------------------------------------------------------
|
||
|
// parity handling
|
||
|
assign par_mux = ((is_rec_wpar) == 1'b1) ? dch_lt : 1'b0;
|
||
|
|
||
|
// receiving parity: shift when receiving write data parity
|
||
|
// sending parity of read data: shift when sending read data parity
|
||
|
// latch generated parity of read data when read data is accepted
|
||
|
assign datapar_shifter_in = (((is_rec_wpar & (~cntgteofwdataplusparity)) | (is_send_rdata & do_send_par)) == 1'b1) ? {datapar_shifter_lt[1:PAR_NOBITS-1], par_mux} :
|
||
|
((is_filler_1 == 1'b1)) ? sc_rparity :
|
||
|
datapar_shifter_lt;
|
||
|
|
||
|
//----------------------------------------------------------------------------
|
||
|
assign data_shifter_lt_tmp[0:WIDTH-1] = data_shifter_lt;
|
||
|
|
||
|
generate
|
||
|
if (WIDTH < 64)
|
||
|
begin : data_shifter_padding
|
||
|
assign data_shifter_lt_tmp[WIDTH:63] = {64-WIDTH {1'b0}};
|
||
|
end
|
||
|
endgenerate
|
||
|
|
||
|
generate
|
||
|
begin : xhdl0
|
||
|
genvar i;
|
||
|
for (i=0; i<=PAR_NOBITS-1; i=i+1)
|
||
|
begin : wdata_par_check
|
||
|
assign par_data_in[i] = (^data_shifter_lt_tmp[16*i:16*(i+1)-1]);
|
||
|
end
|
||
|
end
|
||
|
endgenerate
|
||
|
|
||
|
generate
|
||
|
if (PIPELINE_PARITYCHK == 1'b1)
|
||
|
begin : wdata_par_check_pipe
|
||
|
tri_nlat_scan #(.WIDTH(PAR_NOBITS), .NEEDS_SRESET(1)) state(
|
||
|
.d1clk(d1clk),
|
||
|
.vd(vdd),
|
||
|
.gd(gnd),
|
||
|
.lclk(lclk),
|
||
|
.d2clk(d2clk),
|
||
|
.scan_in(func_scan_in[ STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+22:STATE_WIDTH+WIDTH+(2*PAR_NOBITS)+HEAD_WIDTH+21]),
|
||
|
.scan_out(func_scan_out[STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+22:STATE_WIDTH+WIDTH+(2*PAR_NOBITS)+HEAD_WIDTH+21]),
|
||
|
.din(par_data_in),
|
||
|
.q(par_data_lt)
|
||
|
);
|
||
|
end
|
||
|
endgenerate
|
||
|
|
||
|
generate
|
||
|
if (PIPELINE_PARITYCHK == 1'b0)
|
||
|
begin : wdata_par_check_nopipe
|
||
|
assign par_data_lt = par_data_in;
|
||
|
assign func_scan_out[STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+22:STATE_WIDTH+WIDTH+(2*PAR_NOBITS)+HEAD_WIDTH+21] =
|
||
|
func_scan_in[ STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+22:STATE_WIDTH+WIDTH+(2*PAR_NOBITS)+HEAD_WIDTH+21];
|
||
|
end
|
||
|
endgenerate
|
||
|
|
||
|
assign wpar_err = (^{par_data_lt, datapar_shifter_lt});
|
||
|
|
||
|
//-----------------------------------------------------------------------------
|
||
|
generate
|
||
|
begin : xhdl1
|
||
|
genvar i;
|
||
|
for (i=0; i<=PAR_NOBITS-1; i=i+1)
|
||
|
begin : rdata_parity_gen
|
||
|
assign sc_rparity[i] = (^data_shifter_lt_tmp[16*i:16*(i+1)-1]);
|
||
|
end
|
||
|
end
|
||
|
endgenerate
|
||
|
//-----------------------------------------------------------------------------
|
||
|
|
||
|
//-----------------------------------------------------------------
|
||
|
// address decoding section
|
||
|
// Generate onehot Address (binary to one-hot)
|
||
|
//-----------------------------------------------------------------
|
||
|
//-----------------------------------------------------------------------------
|
||
|
generate
|
||
|
if (INTERNAL_ADDR_DECODE == 1'b1)
|
||
|
begin : internal_addr_decoding
|
||
|
//-----------------------------------------------------------------------------
|
||
|
genvar i;
|
||
|
for (i=0; i<WIDTH; i=i+1)
|
||
|
begin : foralladdresses
|
||
|
if ( USE_ADDR[i] == 1'b1)
|
||
|
begin : addr_bit_set
|
||
|
assign dec_addr_in[i] = (head_lt[SATID_NOBITS+1:SATID_REGID_NOBITS] == i);
|
||
|
|
||
|
// generate latch to hold addr_v only if required
|
||
|
if ( PIPELINE_ADDR_V[i] == 1'b1)
|
||
|
begin : latch_for_onehot
|
||
|
tri_nlat #(.WIDTH(1), .NEEDS_SRESET(1)) dec_addr(
|
||
|
.d1clk(d1clk),
|
||
|
.vd(vdd),
|
||
|
.gd(gnd),
|
||
|
.d2clk(d2clk),
|
||
|
.lclk(lclk),
|
||
|
.scan_in(func_scan_in[ STATE_WIDTH+WIDTH+(2*PAR_NOBITS)+HEAD_WIDTH+22 +i]),
|
||
|
.scan_out(func_scan_out[STATE_WIDTH+WIDTH+(2*PAR_NOBITS)+HEAD_WIDTH+22 +i]),
|
||
|
.din(dec_addr_in[i]),
|
||
|
.q(dec_addr_q[i])
|
||
|
);
|
||
|
end
|
||
|
|
||
|
// otherwise no latch
|
||
|
if ( PIPELINE_ADDR_V[i] == 1'b0)
|
||
|
begin : no_latch_for_onehot
|
||
|
assign func_scan_out[STATE_WIDTH+WIDTH+(2*PAR_NOBITS)+HEAD_WIDTH+22 +i] =
|
||
|
func_scan_in[ STATE_WIDTH+WIDTH+(2*PAR_NOBITS)+HEAD_WIDTH+22 +i];
|
||
|
assign dec_addr_q[i] = dec_addr_in[i];
|
||
|
end
|
||
|
end
|
||
|
|
||
|
//----------------------------------------------------------------------
|
||
|
if ( USE_ADDR[i] != 1'b1) // do not generate hardware for unused addresses
|
||
|
begin : addr_bit_notset
|
||
|
assign func_scan_out[STATE_WIDTH+WIDTH+(2*PAR_NOBITS)+HEAD_WIDTH+22 +i] =
|
||
|
func_scan_in[ STATE_WIDTH+WIDTH+(2*PAR_NOBITS)+HEAD_WIDTH+22 +i];
|
||
|
assign dec_addr_in[i] = 1'b0;
|
||
|
assign dec_addr_q[i] = dec_addr_in[i];
|
||
|
end
|
||
|
end
|
||
|
//------------------------------------------------------------------------
|
||
|
// check writable and/or readable
|
||
|
assign read_valid = (|(dec_addr_q & ADDR_IS_RDABLE));
|
||
|
assign write_valid = (|(dec_addr_q & ADDR_IS_WRABLE));
|
||
|
assign addr_nvld = (~(|dec_addr_q));
|
||
|
assign write_nvld = ((~write_valid) & (~addr_nvld)) & do_write;
|
||
|
assign read_nvld = ((~read_valid) & (~addr_nvld)) & do_read;
|
||
|
|
||
|
assign unused = 2'b00;
|
||
|
end
|
||
|
endgenerate
|
||
|
|
||
|
generate
|
||
|
if (INTERNAL_ADDR_DECODE == 1'b0)
|
||
|
begin : external_addr_decoding
|
||
|
genvar i;
|
||
|
for (i=0; i<WIDTH ; i=i+1)
|
||
|
begin : foralladdresses
|
||
|
assign func_scan_out[STATE_WIDTH+WIDTH+(2*PAR_NOBITS)+HEAD_WIDTH+22 +i] =
|
||
|
func_scan_in[ STATE_WIDTH+WIDTH+(2*PAR_NOBITS)+HEAD_WIDTH+22 +i];
|
||
|
assign dec_addr_in[i] = 1'b0;
|
||
|
assign dec_addr_q[i] = dec_addr_in[i];
|
||
|
end
|
||
|
assign read_valid = 1'b1; // suppressing wrong error generation
|
||
|
assign write_valid = 1'b1; // suppressing wrong error generation
|
||
|
assign addr_nvld = 1'b0;
|
||
|
assign write_nvld = 1'b0;
|
||
|
assign read_nvld = 1'b0;
|
||
|
|
||
|
assign unused = {write_valid, read_valid};
|
||
|
end
|
||
|
endgenerate
|
||
|
|
||
|
// This was for unused addresses if USE_ADDR was smaller than the 64 bit width.
|
||
|
// From VHDL: short_unused_addr_range: for i in use_addr'high+1 to 63 generate
|
||
|
// Shouldn't be needed for A2, since we always define 64 SCOM addresses.
|
||
|
generate
|
||
|
begin : xhdl4
|
||
|
genvar i;
|
||
|
for (i=WIDTH; i<64; i=i+1)
|
||
|
begin : short_unused_addr_range
|
||
|
assign func_scan_out[STATE_WIDTH+WIDTH+(2*PAR_NOBITS)+HEAD_WIDTH+22 +i] =
|
||
|
func_scan_in[ STATE_WIDTH+WIDTH+(2*PAR_NOBITS)+HEAD_WIDTH+22 +i];
|
||
|
end
|
||
|
end
|
||
|
endgenerate
|
||
|
|
||
|
assign addr_v = dec_addr_q[0:WIDTH-1];
|
||
|
|
||
|
//-----------------------------------------------------------------------------
|
||
|
|
||
|
|
||
|
tri_nlat_scan #(.WIDTH(STATE_WIDTH), .INIT(IDLE), .NEEDS_SRESET(1)) state(
|
||
|
.d1clk(d1clk),
|
||
|
.vd(vdd),
|
||
|
.gd(gnd),
|
||
|
.lclk(lclk),
|
||
|
.d2clk(d2clk),
|
||
|
.scan_in(func_scan_in[ 0:STATE_WIDTH-1]),
|
||
|
.scan_out(func_scan_out[0:STATE_WIDTH-1]),
|
||
|
.din(state_in),
|
||
|
.q(state_lt)
|
||
|
);
|
||
|
|
||
|
|
||
|
tri_nlat_scan #(.WIDTH(7), .INIT(7'b0000000), .NEEDS_SRESET(1)) counter(
|
||
|
.d1clk(d1clk),
|
||
|
.vd(vdd),
|
||
|
.gd(gnd),
|
||
|
.lclk(lclk),
|
||
|
.d2clk(d2clk),
|
||
|
.scan_in(func_scan_in[ STATE_WIDTH:STATE_WIDTH+6]),
|
||
|
.scan_out(func_scan_out[STATE_WIDTH:STATE_WIDTH+6]),
|
||
|
.din(cnt_in),
|
||
|
.q(cnt_lt)
|
||
|
);
|
||
|
|
||
|
|
||
|
tri_nlat_scan #(.WIDTH(WIDTH), .NEEDS_SRESET(1)) data_shifter(
|
||
|
.d1clk(d1clk),
|
||
|
.vd(vdd),
|
||
|
.gd(gnd),
|
||
|
.lclk(lclk),
|
||
|
.d2clk(d2clk),
|
||
|
.scan_in(func_scan_in[ STATE_WIDTH+7:STATE_WIDTH+WIDTH+6]),
|
||
|
.scan_out(func_scan_out[STATE_WIDTH+7:STATE_WIDTH+WIDTH+6]),
|
||
|
.din(data_shifter_in),
|
||
|
.q(data_shifter_lt)
|
||
|
);
|
||
|
|
||
|
|
||
|
tri_nlat_scan #(.WIDTH(PAR_NOBITS), .NEEDS_SRESET(1)) datapar_shifter(
|
||
|
.d1clk(d1clk),
|
||
|
.vd(vdd),
|
||
|
.gd(gnd),
|
||
|
.lclk(lclk),
|
||
|
.d2clk(d2clk),
|
||
|
.scan_in(func_scan_in[ STATE_WIDTH+WIDTH+7:STATE_WIDTH+WIDTH+PAR_NOBITS+6]),
|
||
|
.scan_out(func_scan_out[STATE_WIDTH+WIDTH+7:STATE_WIDTH+WIDTH+PAR_NOBITS+6]),
|
||
|
.din(datapar_shifter_in),
|
||
|
.q(datapar_shifter_lt)
|
||
|
);
|
||
|
|
||
|
|
||
|
tri_nlat_scan #(.WIDTH(HEAD_WIDTH), .INIT(HEAD_INIT), .NEEDS_SRESET(1)) head_lat(
|
||
|
.d1clk(d1clk),
|
||
|
.vd(vdd),
|
||
|
.gd(gnd),
|
||
|
.lclk(lclk),
|
||
|
.d2clk(d2clk),
|
||
|
.scan_in(func_scan_in[ STATE_WIDTH+WIDTH+PAR_NOBITS+7:STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+6]),
|
||
|
.scan_out(func_scan_out[STATE_WIDTH+WIDTH+PAR_NOBITS+7:STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+6]),
|
||
|
.din(head_in),
|
||
|
.q(head_lt)
|
||
|
);
|
||
|
|
||
|
|
||
|
tri_nlat_scan #(.WIDTH(5), .INIT(5'b00000), .NEEDS_SRESET(1)) tail_lat(
|
||
|
.d1clk(d1clk),
|
||
|
.vd(vdd),
|
||
|
.gd(gnd),
|
||
|
.lclk(lclk),
|
||
|
.d2clk(d2clk),
|
||
|
.scan_in(func_scan_in[ STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+7:STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+11]),
|
||
|
.scan_out(func_scan_out[STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+7:STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+11]),
|
||
|
.din(tail_in),
|
||
|
.q(tail_lt)
|
||
|
);
|
||
|
|
||
|
|
||
|
tri_nlat #(.WIDTH(1), .NEEDS_SRESET(1)) dch_inlatch(
|
||
|
.d1clk(d1clk),
|
||
|
.vd(vdd),
|
||
|
.gd(gnd),
|
||
|
.lclk(lclk),
|
||
|
.d2clk(d2clk),
|
||
|
.scan_in(func_scan_in[ STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+12]),
|
||
|
.scan_out(func_scan_out[STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+12]),
|
||
|
.din(scom_dch_in),
|
||
|
.q(dch_lt)
|
||
|
);
|
||
|
|
||
|
|
||
|
tri_nlat_scan #(.WIDTH(2), .NEEDS_SRESET(1)) ack_info(
|
||
|
.d1clk(d1clk),
|
||
|
.vd(vdd),
|
||
|
.gd(gnd),
|
||
|
.lclk(lclk),
|
||
|
.d2clk(d2clk),
|
||
|
.scan_in(func_scan_in[ STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+13:STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+14]),
|
||
|
.scan_out(func_scan_out[STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+13:STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+14]),
|
||
|
.din(sc_ack_info_in),
|
||
|
.q(sc_ack_info_lt)
|
||
|
);
|
||
|
|
||
|
|
||
|
tri_nlat #(.WIDTH(1), .NEEDS_SRESET(1)) dch_outlatch(
|
||
|
.d1clk(d1clk),
|
||
|
.vd(vdd),
|
||
|
.gd(gnd),
|
||
|
.lclk(lclk),
|
||
|
.d2clk(d2clk),
|
||
|
.scan_in(func_scan_in[ STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+15]),
|
||
|
.scan_out(func_scan_out[STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+15]),
|
||
|
.din(dch_out_internal_in),
|
||
|
.q(dch_out_internal_lt)
|
||
|
);
|
||
|
|
||
|
|
||
|
tri_nlat_scan #(.WIDTH(2), .NEEDS_SRESET(1)) cch_latches(
|
||
|
.d1clk(d1clk),
|
||
|
.vd(vdd),
|
||
|
.gd(gnd),
|
||
|
.lclk(lclk),
|
||
|
.d2clk(d2clk),
|
||
|
.scan_in(func_scan_in[ STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+16:STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+17]),
|
||
|
.scan_out(func_scan_out[STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+16:STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+17]),
|
||
|
.din(cch_in),
|
||
|
.q(cch_lt)
|
||
|
);
|
||
|
|
||
|
|
||
|
tri_nlat #(.WIDTH(1), .NEEDS_SRESET(1)) scom_err_latch(
|
||
|
.d1clk(d1clk),
|
||
|
.vd(vdd),
|
||
|
.gd(gnd),
|
||
|
.lclk(lclk),
|
||
|
.d2clk(d2clk),
|
||
|
.scan_in(func_scan_in[ STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+18]),
|
||
|
.scan_out(func_scan_out[STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+18]),
|
||
|
.din(scom_err_in),
|
||
|
.q(scom_err_lt)
|
||
|
);
|
||
|
|
||
|
|
||
|
tri_nlat #(.WIDTH(1), .NEEDS_SRESET(1)) scom_local_act_latch(
|
||
|
.d1clk(d1clk),
|
||
|
.vd(vdd),
|
||
|
.gd(gnd),
|
||
|
.lclk(lclk),
|
||
|
.d2clk(d2clk),
|
||
|
.scan_in(func_scan_in[ STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+19]),
|
||
|
.scan_out(func_scan_out[STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+19]),
|
||
|
.din(scom_local_act_in),
|
||
|
.q(scom_local_act_lt)
|
||
|
);
|
||
|
|
||
|
|
||
|
tri_nlat #(.WIDTH(1), .NEEDS_SRESET(1)) spare_latch1(
|
||
|
.d1clk(d1clk),
|
||
|
.vd(vdd),
|
||
|
.gd(gnd),
|
||
|
.lclk(lclk),
|
||
|
.d2clk(d2clk),
|
||
|
.scan_in(func_scan_in[ STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+20]),
|
||
|
.scan_out(func_scan_out[STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+20]),
|
||
|
.din(spare_latch1_in),
|
||
|
.q(spare_latch1_lt)
|
||
|
);
|
||
|
|
||
|
|
||
|
tri_nlat #(.WIDTH(1), .NEEDS_SRESET(1)) spare_latch2(
|
||
|
.d1clk(d1clk),
|
||
|
.vd(vdd),
|
||
|
.gd(gnd),
|
||
|
.lclk(lclk),
|
||
|
.d2clk(d2clk),
|
||
|
.scan_in(func_scan_in[ STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+21]),
|
||
|
.scan_out(func_scan_out[STATE_WIDTH+WIDTH+PAR_NOBITS+HEAD_WIDTH+21]),
|
||
|
.din(spare_latch2_in),
|
||
|
.q(spare_latch2_lt)
|
||
|
);
|
||
|
|
||
|
//-----------------------------------------------------------------------------
|
||
|
assign unused_signals = |({is_filler_0, is_filler_1, spare_latch1_lt, spare_latch2_lt, d_mode_dc});
|
||
|
|
||
|
assign spare_latch1_in = 1'b0;
|
||
|
assign spare_latch2_in = 1'b0;
|
||
|
|
||
|
endmodule
|