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//////////////////////////////////////////////////////////////////////
////                                                              ////
////  yifive Wishbone interface for Instruction memory            ////
////                                                              ////
////  This file is part of the yifive cores project               ////
////  http://www.opencores.org/cores/yifive/                      ////
////                                                              ////
////  Description:                                                ////
////     integrated wishbone i/f to instruction memory            ////
////                                                              ////
////  To Do:                                                      ////
////    nothing                                                   ////
////                                                              ////
////  Author(s):                                                  ////
////      - Dinesh Annayya, dinesha@opencores.org                 ////
////                                                              ////
////  Revision :                                                  ////
////     v0:    June 7, 2021, Dinesh A                            ////
////             wishbone integration                             ////
////                                                              ////
//////////////////////////////////////////////////////////////////////
////                                                              ////
//// Copyright (C) 2000 Authors and OPENCORES.ORG                 ////
////                                                              ////
//// This source file may be used and distributed without         ////
//// restriction provided that this copyright statement is not    ////
//// removed from the file and that any derivative work contains  ////
//// the original copyright notice and the associated disclaimer. ////
////                                                              ////
//// This source file is free software; you can redistribute it   ////
//// and/or modify it under the terms of the GNU Lesser General   ////
//// Public License as published by the Free Software Foundation; ////
//// either version 2.1 of the License, or (at your option) any   ////
//// later version.                                               ////
////                                                              ////
//// This source is distributed in the hope that it will be       ////
//// useful, but WITHOUT ANY WARRANTY; without even the implied   ////
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR      ////
//// PURPOSE.  See the GNU Lesser General Public License for more ////
//// details.                                                     ////
////                                                              ////
//// You should have received a copy of the GNU Lesser General    ////
//// Public License along with this source; if not, download it   ////
//// from http://www.opencores.org/lgpl.shtml                     ////
////                                                              ////
//////////////////////////////////////////////////////////////////////
//     Orginal owner Details                                      ////
//////////////////////////////////////////////////////////////////////
/// Copyright by Syntacore LLC � 2016-2021. See LICENSE for details///
/// @file                                         ///
/// @brief      Instruction memory AHB bridge                      ///
//////////////////////////////////////////////////////////////////////
 
`include "scr1_wb.svh"
`include "scr1_memif.svh"
 
module scr1_imem_wb (
    // Control Signals
    input   logic                           rst_n,
    input   logic                           clk,
 
    // Core Interface
    output  logic                           imem_req_ack,
    input   logic                           imem_req,
    input   logic   [SCR1_WB_WIDTH-1:0]     imem_addr,
    output  logic   [SCR1_WB_WIDTH-1:0]     imem_rdata,
    output  type_scr1_mem_resp_e            imem_resp,
 
    // WB Interface
    output  logic                           wbd_stb_o, // strobe/request
    output  logic   [SCR1_WB_WIDTH-1:0]     wbd_adr_o, // address
    output  logic                           wbd_we_o,  // write
    output  logic   [SCR1_WB_WIDTH-1:0]     wbd_dat_o, // data output
    output  logic   [3:0]                   wbd_sel_o, // byte enable
    input   logic   [SCR1_WB_WIDTH-1:0]     wbd_dat_i, // data input
    input   logic                           wbd_ack_i, // acknowlegement
    input   logic                           wbd_err_i  // error
 
);
 
//-------------------------------------------------------------------------------
// Local parameters declaration
//-------------------------------------------------------------------------------
`ifndef SCR1_IMEM_WB_OUT_BP
localparam  SCR1_FIFO_WIDTH = 2;
localparam  SCR1_FIFO_CNT_WIDTH = $clog2(SCR1_FIFO_WIDTH+1);
`endif // SCR1_IMEM_WB_OUT_BP
 
//-------------------------------------------------------------------------------
// Local types declaration
//-------------------------------------------------------------------------------
typedef enum logic {
    SCR1_FSM_ADDR = 1'b0,
    SCR1_FSM_DATA = 1'b1,
    SCR1_FSM_ERR  = 1'bx
} type_scr1_fsm_e;
 
typedef struct packed {
    logic   [SCR1_WB_WIDTH-1:0]    haddr;
} type_scr1_req_fifo_s;
 
typedef struct packed {
    logic                           hresp;
    logic   [SCR1_WB_WIDTH-1:0]    hrdata;
} type_scr1_resp_fifo_s;
 
//-------------------------------------------------------------------------------
// Local signal declaration
//-------------------------------------------------------------------------------
type_scr1_fsm_e                             fsm;
logic                                       req_fifo_rd;
logic                                       req_fifo_wr;
logic                                       req_fifo_up;
`ifdef SCR1_IMEM_WB_OUT_BP
type_scr1_req_fifo_s                        req_fifo_r;
type_scr1_req_fifo_s [0:0]                  req_fifo;
`else // SCR1_IMEM_WB_OUT_BP
logic [SCR1_WB_WIDTH-1:0]                   req_fifo_dout;
`endif // SCR1_IMEM_WB_OUT_BP
 
logic                                       req_fifo_empty;
logic                                       req_fifo_full;
 
type_scr1_resp_fifo_s                       resp_fifo;
logic                                       resp_fifo_hready;
 
//-------------------------------------------------------------------------------
// Interface to Core
//-------------------------------------------------------------------------------
assign imem_req_ack = ~req_fifo_full;
assign req_fifo_wr  = ~req_fifo_full & imem_req;
 
assign imem_rdata = resp_fifo.hrdata;
 
assign imem_resp = (resp_fifo_hready)
                    ? (resp_fifo.hresp == 1'b1)
                        ? SCR1_MEM_RESP_RDY_OK
                        : SCR1_MEM_RESP_RDY_ER
                    : SCR1_MEM_RESP_NOTRDY;
 
//-------------------------------------------------------------------------------
// REQ_FIFO
//-------------------------------------------------------------------------------
`ifdef SCR1_IMEM_WB_OUT_BP
always_ff @(negedge rst_n, posedge clk) begin
    if (~rst_n) begin
        req_fifo_full <= 1'b0;
    end else begin
        if (~req_fifo_full) begin
            req_fifo_full <= imem_req & ~req_fifo_rd;
        end else begin
            req_fifo_full <= ~req_fifo_rd;
        end
    end
end
assign req_fifo_empty = ~(req_fifo_full | imem_req);
 
assign req_fifo_up    = ~req_fifo_rd & req_fifo_wr;
always_ff @(posedge clk) begin
    if (req_fifo_up) begin
        req_fifo_r.haddr <= imem_addr;
    end
end
 
assign req_fifo[0] = (req_fifo_full) ? req_fifo_r : imem_addr;
 
`else // SCR1_IMEM_WB_OUT_BP
 
 
 sync_fifo #(
      .DATA_WIDTH(SCR1_WB_WIDTH), // Data Width
      .ADDR_WIDTH(1),   // Address Width
      .FIFO_DEPTH(2)    // FIFO DEPTH
     )   u_req_fifo(
 
       .dout      (req_fifo_dout  ),
 
       .rstn      (rst_n          ),
       .clk       (clk            ),
       .wr_en     (req_fifo_wr    ), // Write
       .rd_en     (req_fifo_rd    ), // Read
       .din       (imem_addr      ),
       .full      (req_fifo_full  ),
       .empty     (req_fifo_empty )
);
 
 
 
 
`endif // SCR1_IMEM_WB_OUT_BP
 
 
always_comb begin
    req_fifo_rd = 1'b0;
    if (wbd_ack_i) begin
         req_fifo_rd = ~req_fifo_empty;
    end
end
 
//-------------------------------------------------------------------------------
// FIFO response
//-------------------------------------------------------------------------------
`ifdef SCR1_IMEM_WB_IN_BP
assign resp_fifo_hready = wbd_ack_i;
assign resp_fifo.hresp  = (wbd_err_i) ? 1'b0 : 1'b1;
assign resp_fifo.hrdata = wbd_dat_i;
assign wbd_stb_o        = ~req_fifo_empty;
assign wbd_adr_o        = req_fifo[0];
assign wbd_we_o         = 0; // Only Read supported
assign wbd_dat_o        = 32'h0; // No Write
assign wbd_sel_o        = 4'b1111; // Only Read allowed in imem i/f
 
 
`else // SCR1_IMEM_WB_IN_BP
always_ff @(negedge rst_n, posedge clk) begin
    if (~rst_n) begin
        resp_fifo_hready <= 1'b0;
    end else begin
        resp_fifo_hready <= wbd_ack_i ;
    end
end
 
always_ff @(posedge clk) begin
    if (wbd_ack_i) begin
        resp_fifo.hresp  <= (wbd_err_i) ? 1'b0 : 1'b1;
        resp_fifo.hrdata <= wbd_dat_i;
    end
end
 
assign wbd_stb_o    = ~req_fifo_empty;
assign wbd_adr_o    = req_fifo_dout;
assign wbd_we_o     = 0; // Only Read supported
assign wbd_dat_o    = 32'h0; // No Write
assign wbd_sel_o    = 4'b1111; // Only Read allowed in imem i/f
`endif // SCR1_IMEM_WB_IN_BP
 
 
 
`ifdef SCR1_TRGT_SIMULATION
//-------------------------------------------------------------------------------
// Assertion
//-------------------------------------------------------------------------------
 
// Check Core interface
SCR1_SVA_IMEM_WB_BRIDGE_REQ_XCHECK : assert property (
    @(negedge clk) disable iff (~rst_n)
    !$isunknown(imem_req)
    ) else $error("IMEM WB bridge Error: imem_req has unknown values");
 
SCR1_IMEM_WB_BRIDGE_ADDR_XCHECK : assert property (
    @(negedge clk) disable iff (~rst_n)
    imem_req |-> !$isunknown(imem_addr)
    ) else $error("IMEM WB bridge Error: imem_addr has unknown values");
 
SCR1_IMEM_WB_BRIDGE_ADDR_ALLIGN : assert property (
    @(negedge clk) disable iff (~rst_n)
    imem_req |-> (imem_addr[1:0] == '0)
    ) else $error("IMEM WB bridge Error: imem_addr has unalign values");
 
// Check WB interface
SCR1_IMEM_WB_BRIDGE_HREADY_XCHECK : assert property (
    @(negedge clk) disable iff (~rst_n)
    !$isunknown(hready)
    ) else $error("IMEM WB bridge Error: hready has unknown values");
 
SCR1_IMEM_WB_BRIDGE_HRESP_XCHECK : assert property (
    @(negedge clk) disable iff (~rst_n)
    !$isunknown(hresp)
    ) else $error("IMEM WB bridge Error: hresp has unknown values");
 
`endif // SCR1_TRGT_SIMULATION
 
endmodule : scr1_imem_wb

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[/] [yifive/] [trunk/] [caravel_yifive/] [verilog/] [rtl/] [syntacore/] [scr1/] [src/] [top/] [scr1_imem_wb.sv] - Blame information for rev 11

Line No.	Rev	Author	Line
1	11	dinesha	`//////////////////////////////////////////////////////////////////////`
2			`//// ////`
3			`//// yifive Wishbone interface for Instruction memory ////`
4			`//// ////`
5			`//// This file is part of the yifive cores project ////`
6			`//// http://www.opencores.org/cores/yifive/ ////`
7			`//// ////`
8			`//// Description: ////`
9			`//// integrated wishbone i/f to instruction memory ////`
10			`//// ////`
11			`//// To Do: ////`
12			`//// nothing ////`
13			`//// ////`
14			`//// Author(s): ////`
15			`//// - Dinesh Annayya, dinesha@opencores.org ////`
16			`//// ////`
17			`//// Revision : ////`
18			`//// v0: June 7, 2021, Dinesh A ////`
19			`//// wishbone integration ////`
20			`//// ////`
21			`//////////////////////////////////////////////////////////////////////`
22			`//// ////`
23			`//// Copyright (C) 2000 Authors and OPENCORES.ORG ////`
24			`//// ////`
25			`//// This source file may be used and distributed without ////`
26			`//// restriction provided that this copyright statement is not ////`
27			`//// removed from the file and that any derivative work contains ////`
28			`//// the original copyright notice and the associated disclaimer. ////`
29			`//// ////`
30			`//// This source file is free software; you can redistribute it ////`
31			`//// and/or modify it under the terms of the GNU Lesser General ////`
32			`//// Public License as published by the Free Software Foundation; ////`
33			`//// either version 2.1 of the License, or (at your option) any ////`
34			`//// later version. ////`
35			`//// ////`
36			`//// This source is distributed in the hope that it will be ////`
37			`//// useful, but WITHOUT ANY WARRANTY; without even the implied ////`
38			`//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////`
39			`//// PURPOSE. See the GNU Lesser General Public License for more ////`
40			`//// details. ////`
41			`//// ////`
42			`//// You should have received a copy of the GNU Lesser General ////`
43			`//// Public License along with this source; if not, download it ////`
44			`//// from http://www.opencores.org/lgpl.shtml ////`
45			`//// ////`
46			`//////////////////////////////////////////////////////////////////////`
47			`// Orginal owner Details ////`
48			`//////////////////////////////////////////////////////////////////////`
49			`/// Copyright by Syntacore LLC � 2016-2021. See LICENSE for details///`
50			`/// @file ///`
51			`/// @brief Instruction memory AHB bridge ///`
52			`//////////////////////////////////////////////////////////////////////`
53
54			`include "scr1_wb.svh"
55			`include "scr1_memif.svh"
56
57			`module scr1_imem_wb (`
58			`// Control Signals`
59			`input logic rst_n,`
60			`input logic clk,`
61
62			`// Core Interface`
63			`output logic imem_req_ack,`
64			`input logic imem_req,`
65			`input logic [SCR1_WB_WIDTH-1:0] imem_addr,`
66			`output logic [SCR1_WB_WIDTH-1:0] imem_rdata,`
67			`output type_scr1_mem_resp_e imem_resp,`
68
69			`// WB Interface`
70			`output logic wbd_stb_o, // strobe/request`
71			`output logic [SCR1_WB_WIDTH-1:0] wbd_adr_o, // address`
72			`output logic wbd_we_o, // write`
73			`output logic [SCR1_WB_WIDTH-1:0] wbd_dat_o, // data output`
74			`output logic [3:0] wbd_sel_o, // byte enable`
75			`input logic [SCR1_WB_WIDTH-1:0] wbd_dat_i, // data input`
76			`input logic wbd_ack_i, // acknowlegement`
77			`input logic wbd_err_i // error`
78
79			`);`
80
81			`//-------------------------------------------------------------------------------`
82			`// Local parameters declaration`
83			`//-------------------------------------------------------------------------------`
84			`ifndef SCR1_IMEM_WB_OUT_BP
85			`localparam SCR1_FIFO_WIDTH = 2;`
86			`localparam SCR1_FIFO_CNT_WIDTH = $clog2(SCR1_FIFO_WIDTH+1);`
87			`endif // SCR1_IMEM_WB_OUT_BP
88
89			`//-------------------------------------------------------------------------------`
90			`// Local types declaration`
91			`//-------------------------------------------------------------------------------`
92			`typedef enum logic {`
93			`SCR1_FSM_ADDR = 1'b0,`
94			`SCR1_FSM_DATA = 1'b1,`
95			`SCR1_FSM_ERR = 1'bx`
96			`} type_scr1_fsm_e;`
97
98			`typedef struct packed {`
99			`logic [SCR1_WB_WIDTH-1:0] haddr;`
100			`} type_scr1_req_fifo_s;`
101
102			`typedef struct packed {`
103			`logic hresp;`
104			`logic [SCR1_WB_WIDTH-1:0] hrdata;`
105			`} type_scr1_resp_fifo_s;`
106
107			`//-------------------------------------------------------------------------------`
108			`// Local signal declaration`
109			`//-------------------------------------------------------------------------------`
110			`type_scr1_fsm_e fsm;`
111			`logic req_fifo_rd;`
112			`logic req_fifo_wr;`
113			`logic req_fifo_up;`
114			`ifdef SCR1_IMEM_WB_OUT_BP
115			`type_scr1_req_fifo_s req_fifo_r;`
116			`type_scr1_req_fifo_s [0:0] req_fifo;`
117			`else // SCR1_IMEM_WB_OUT_BP
118			`logic [SCR1_WB_WIDTH-1:0] req_fifo_dout;`
119			`endif // SCR1_IMEM_WB_OUT_BP
120
121			`logic req_fifo_empty;`
122			`logic req_fifo_full;`
123
124			`type_scr1_resp_fifo_s resp_fifo;`
125			`logic resp_fifo_hready;`
126
127			`//-------------------------------------------------------------------------------`
128			`// Interface to Core`
129			`//-------------------------------------------------------------------------------`
130			`assign imem_req_ack = ~req_fifo_full;`
131			`assign req_fifo_wr = ~req_fifo_full & imem_req;`
132
133			`assign imem_rdata = resp_fifo.hrdata;`
134
135			`assign imem_resp = (resp_fifo_hready)`
136			`? (resp_fifo.hresp == 1'b1)`
137			`? SCR1_MEM_RESP_RDY_OK`
138			`: SCR1_MEM_RESP_RDY_ER`
139			`: SCR1_MEM_RESP_NOTRDY;`
140
141			`//-------------------------------------------------------------------------------`
142			`// REQ_FIFO`
143			`//-------------------------------------------------------------------------------`
144			`ifdef SCR1_IMEM_WB_OUT_BP
145			`always_ff @(negedge rst_n, posedge clk) begin`
146			`if (~rst_n) begin`
147			`req_fifo_full <= 1'b0;`
148			`end else begin`
149			`if (~req_fifo_full) begin`
150			`req_fifo_full <= imem_req & ~req_fifo_rd;`
151			`end else begin`
152			`req_fifo_full <= ~req_fifo_rd;`
153			`end`
154			`end`
155			`end`
156			`assign req_fifo_empty = ~(req_fifo_full \| imem_req);`
157
158			`assign req_fifo_up = ~req_fifo_rd & req_fifo_wr;`
159			`always_ff @(posedge clk) begin`
160			`if (req_fifo_up) begin`
161			`req_fifo_r.haddr <= imem_addr;`
162			`end`
163			`end`
164
165			`assign req_fifo[0] = (req_fifo_full) ? req_fifo_r : imem_addr;`
166
167			`else // SCR1_IMEM_WB_OUT_BP
168
169
170			`sync_fifo #(`
171			`.DATA_WIDTH(SCR1_WB_WIDTH), // Data Width`
172			`.ADDR_WIDTH(1), // Address Width`
173			`.FIFO_DEPTH(2) // FIFO DEPTH`
174			`) u_req_fifo(`
175
176			`.dout (req_fifo_dout ),`
177
178			`.rstn (rst_n ),`
179			`.clk (clk ),`
180			`.wr_en (req_fifo_wr ), // Write`
181			`.rd_en (req_fifo_rd ), // Read`
182			`.din (imem_addr ),`
183			`.full (req_fifo_full ),`
184			`.empty (req_fifo_empty )`
185			`);`
186
187
188
189
190			`endif // SCR1_IMEM_WB_OUT_BP
191
192
193			`always_comb begin`
194			`req_fifo_rd = 1'b0;`
195			`if (wbd_ack_i) begin`
196			`req_fifo_rd = ~req_fifo_empty;`
197			`end`
198			`end`
199
200			`//-------------------------------------------------------------------------------`
201			`// FIFO response`
202			`//-------------------------------------------------------------------------------`
203			`ifdef SCR1_IMEM_WB_IN_BP
204			`assign resp_fifo_hready = wbd_ack_i;`
205			`assign resp_fifo.hresp = (wbd_err_i) ? 1'b0 : 1'b1;`
206			`assign resp_fifo.hrdata = wbd_dat_i;`
207			`assign wbd_stb_o = ~req_fifo_empty;`
208			`assign wbd_adr_o = req_fifo[0];`
209			`assign wbd_we_o = 0; // Only Read supported`
210			`assign wbd_dat_o = 32'h0; // No Write`
211			`assign wbd_sel_o = 4'b1111; // Only Read allowed in imem i/f`
212
213
214			`else // SCR1_IMEM_WB_IN_BP
215			`always_ff @(negedge rst_n, posedge clk) begin`
216			`if (~rst_n) begin`
217			`resp_fifo_hready <= 1'b0;`
218			`end else begin`
219			`resp_fifo_hready <= wbd_ack_i ;`
220			`end`
221			`end`
222
223			`always_ff @(posedge clk) begin`
224			`if (wbd_ack_i) begin`
225			`resp_fifo.hresp <= (wbd_err_i) ? 1'b0 : 1'b1;`
226			`resp_fifo.hrdata <= wbd_dat_i;`
227			`end`
228			`end`
229
230			`assign wbd_stb_o = ~req_fifo_empty;`
231			`assign wbd_adr_o = req_fifo_dout;`
232			`assign wbd_we_o = 0; // Only Read supported`
233			`assign wbd_dat_o = 32'h0; // No Write`
234			`assign wbd_sel_o = 4'b1111; // Only Read allowed in imem i/f`
235			`endif // SCR1_IMEM_WB_IN_BP
236
237
238
239			`ifdef SCR1_TRGT_SIMULATION
240			`//-------------------------------------------------------------------------------`
241			`// Assertion`
242			`//-------------------------------------------------------------------------------`
243
244			`// Check Core interface`
245			`SCR1_SVA_IMEM_WB_BRIDGE_REQ_XCHECK : assert property (`
246			`@(negedge clk) disable iff (~rst_n)`
247			`!$isunknown(imem_req)`
248			`) else $error("IMEM WB bridge Error: imem_req has unknown values");`
249
250			`SCR1_IMEM_WB_BRIDGE_ADDR_XCHECK : assert property (`
251			`@(negedge clk) disable iff (~rst_n)`
252			`imem_req \|-> !$isunknown(imem_addr)`
253			`) else $error("IMEM WB bridge Error: imem_addr has unknown values");`
254
255			`SCR1_IMEM_WB_BRIDGE_ADDR_ALLIGN : assert property (`
256			`@(negedge clk) disable iff (~rst_n)`
257			`imem_req \|-> (imem_addr[1:0] == '0)`
258			`) else $error("IMEM WB bridge Error: imem_addr has unalign values");`
259
260			`// Check WB interface`
261			`SCR1_IMEM_WB_BRIDGE_HREADY_XCHECK : assert property (`
262			`@(negedge clk) disable iff (~rst_n)`
263			`!$isunknown(hready)`
264			`) else $error("IMEM WB bridge Error: hready has unknown values");`
265
266			`SCR1_IMEM_WB_BRIDGE_HRESP_XCHECK : assert property (`
267			`@(negedge clk) disable iff (~rst_n)`
268			`!$isunknown(hresp)`
269			`) else $error("IMEM WB bridge Error: hresp has unknown values");`
270
271			`endif // SCR1_TRGT_SIMULATION
272
273			`endmodule : scr1_imem_wb`