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//////////////////////////////////////////////////////////////////
//                                                              //
//  Memory Access - Instantiates the memory access stage        //
//  sub-modules of the Amber 25 Core                            //
//                                                              //
//  This file is part of the Amber project                      //
//  http://www.opencores.org/project,amber                      //
//                                                              //
//  Description                                                 //
//  Instantiates the Data Cache                                 //
//  Also contains a little bit of logic to decode memory        //
//  accesses to decide if they are cached or not                //
//                                                              //
//  Author(s):                                                  //
//      - Conor Santifort, csantifort.amber@gmail.com           //
//                                                              //
//////////////////////////////////////////////////////////////////
//                                                              //
// Copyright (C) 2011 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                     //
//                                                              //
//////////////////////////////////////////////////////////////////
 
 
module a25_mem
(
input                       i_clk,
input                       i_fetch_stall,          // Fetch stage asserting stall
input                       i_exec_stall,           // Execute stage asserting stall
output                      o_mem_stall,            // Mem stage asserting stall
 
input       [31:0]          i_daddress,
input                       i_daddress_valid,
input       [31:0]          i_daddress_nxt,         // un-registered version of address to the cache rams
input       [31:0]          i_write_data,
input                       i_write_enable,
input                       i_exclusive,            // high for read part of swap access
input       [3:0]           i_byte_enable,
input       [8:0]           i_exec_load_rd,         // The destination register for a load instruction
input                       i_cache_enable,         // cache enable
input                       i_cache_flush,          // cache flush
input       [31:0]          i_cacheable_area,       // each bit corresponds to 2MB address space
 
output      [31:0]          o_mem_read_data,
output                      o_mem_read_data_valid,
output      [10:0]          o_mem_load_rd,          // The destination register for a load instruction
 
// Wishbone accesses                                                         
output                      o_wb_cached_req,        // Cached Request
output                      o_wb_uncached_req,      // Unached Request
output                      o_wb_write,             // Read=0, Write=1
output     [15:0]           o_wb_byte_enable,       // byte eable
output     [127:0]          o_wb_write_data,
output     [31:0]           o_wb_address,           // wb bus                                 
input      [127:0]          i_wb_uncached_rdata,    // wb bus                              
input      [127:0]          i_wb_cached_rdata,      // wb bus                              
input                       i_wb_cached_ready,      // wishbone access complete and read data valid
input                       i_wb_uncached_ready     // wishbone access complete and read data valid
);
 
`include "memory_configuration.v"
 
wire    [31:0]              cache_read_data;
wire                        address_cachable;
wire                        sel_cache_p;
wire                        sel_cache;
wire                        cached_wb_req;
wire                        uncached_data_access;
wire                        uncached_data_access_p;
wire                        cache_stall;
wire                        uncached_wb_wait;
reg                         uncached_wb_req_r = 'd0;
reg                         uncached_wb_stop_r = 'd0;
reg                         cached_wb_stop_r = 'd0;
wire                        daddress_valid_p;  // pulse
reg      [31:0]             mem_read_data_r = 'd0;
reg                         mem_read_data_valid_r = 'd0;
reg      [10:0]             mem_load_rd_r = 'd0;
wire     [10:0]             mem_load_rd_c;
wire     [31:0]             mem_read_data_c;
wire                        mem_read_data_valid_c;
reg                         mem_stall_r = 'd0;
wire                        use_mem_reg;
reg                         fetch_only_stall_r = 'd0;
wire                        fetch_only_stall;
wire                        void_output;
wire                        wb_stop;
reg                         daddress_valid_stop_r = 'd0;
wire     [31:0]             wb_rdata32;
 
// ======================================
// Memory Decode
// ======================================
assign address_cachable         = in_cachable_mem( i_daddress ) && i_cacheable_area[i_daddress[25:21]];
assign sel_cache_p              = daddress_valid_p && address_cachable && i_cache_enable && !i_exclusive;
assign sel_cache                = i_daddress_valid && address_cachable && i_cache_enable && !i_exclusive;
assign uncached_data_access     = i_daddress_valid && !sel_cache && !cache_stall;
assign uncached_data_access_p   = daddress_valid_p && !sel_cache;
 
assign use_mem_reg              = wb_stop && !mem_stall_r;
assign o_mem_read_data          = use_mem_reg ? mem_read_data_r       : mem_read_data_c;
assign o_mem_load_rd            = use_mem_reg ? mem_load_rd_r         : mem_load_rd_c;
assign o_mem_read_data_valid    = !void_output && (use_mem_reg ? mem_read_data_valid_r : mem_read_data_valid_c);
 
 
// Return read data either from the wishbone bus or the cache
assign wb_rdata32               = i_daddress[3:2] == 2'd0 ? i_wb_uncached_rdata[ 31: 0] :
                                  i_daddress[3:2] == 2'd1 ? i_wb_uncached_rdata[ 63:32] :
                                  i_daddress[3:2] == 2'd2 ? i_wb_uncached_rdata[ 95:64] :
                                                            i_wb_uncached_rdata[127:96] ;
 
assign mem_read_data_c          = sel_cache             ? cache_read_data :
                                  uncached_data_access  ? wb_rdata32      :
                                                          32'h76543210    ;
 
assign mem_load_rd_c            = {i_daddress[1:0], i_exec_load_rd};
assign mem_read_data_valid_c    = i_daddress_valid && !i_write_enable && !o_mem_stall;
 
assign o_mem_stall              = uncached_wb_wait || cache_stall;
 
// Request wishbone access
assign o_wb_byte_enable         = i_daddress[3:2] == 2'd0 ? {12'd0, i_byte_enable       } :
                                  i_daddress[3:2] == 2'd1 ? { 8'd0, i_byte_enable,  4'd0} :
                                  i_daddress[3:2] == 2'd2 ? { 4'd0, i_byte_enable,  8'd0} :
                                                            {       i_byte_enable, 12'd0} ;
 
assign o_wb_write               = i_write_enable;
assign o_wb_address             = {i_daddress[31:2], 2'd0};
assign o_wb_write_data          = {4{i_write_data}};
assign o_wb_cached_req          = !cached_wb_stop_r && cached_wb_req;
assign o_wb_uncached_req        = !uncached_wb_stop_r && uncached_data_access_p;
 
assign uncached_wb_wait         = (o_wb_uncached_req || uncached_wb_req_r) && !i_wb_uncached_ready;
 
always @( posedge i_clk )
    begin
    uncached_wb_req_r <=  (o_wb_uncached_req || uncached_wb_req_r) && !i_wb_uncached_ready;
    end
 
assign fetch_only_stall     = i_fetch_stall && !o_mem_stall;
 
always @( posedge i_clk )
    fetch_only_stall_r <= fetch_only_stall;
 
assign void_output = (fetch_only_stall_r && fetch_only_stall) || (fetch_only_stall_r && mem_read_data_valid_r);
 
 
// pulse this signal
assign daddress_valid_p = i_daddress_valid && !daddress_valid_stop_r;
 
always @( posedge i_clk )
    begin
    uncached_wb_stop_r      <= (uncached_wb_stop_r || (uncached_data_access_p&&!cache_stall)) && (i_fetch_stall || o_mem_stall);
    cached_wb_stop_r        <= (cached_wb_stop_r   || cached_wb_req)          && (i_fetch_stall || o_mem_stall);
    daddress_valid_stop_r   <= (daddress_valid_stop_r || daddress_valid_p)    && (i_fetch_stall || o_mem_stall);
    // hold this until the mem access completes
    mem_stall_r <= o_mem_stall;
    end
 
 
assign wb_stop = uncached_wb_stop_r || cached_wb_stop_r;
 
always @( posedge i_clk )
    if ( !wb_stop || o_mem_stall )
        begin
        mem_read_data_r         <= mem_read_data_c;
        mem_load_rd_r           <= mem_load_rd_c;
        mem_read_data_valid_r   <= mem_read_data_valid_c;
        end
 
 
// ======================================
// L1 Data Cache
// ======================================
a25_dcache u_dcache (
    .i_clk                      ( i_clk                 ),
    .i_fetch_stall              ( i_fetch_stall         ),
    .i_exec_stall               ( i_exec_stall          ),
    .o_stall                    ( cache_stall           ),
 
    .i_request                  ( sel_cache_p           ),
    .i_exclusive                ( i_exclusive           ),
    .i_write_data               ( i_write_data          ),
    .i_write_enable             ( i_write_enable        ),
    .i_address                  ( i_daddress            ),
    .i_address_nxt              ( i_daddress_nxt        ),
    .i_byte_enable              ( i_byte_enable         ),
 
    .i_cache_enable             ( i_cache_enable        ),
    .i_cache_flush              ( i_cache_flush         ),
    .o_read_data                ( cache_read_data       ),
 
    .o_wb_cached_req            ( cached_wb_req         ),
    .i_wb_cached_rdata          ( i_wb_cached_rdata     ),
    .i_wb_cached_ready          ( i_wb_cached_ready     )
);
 
 
 
endmodule
 

Line No.	Rev	Author	Line
1	16	csantifort	`//////////////////////////////////////////////////////////////////`
2			`// //`
3			`// Memory Access - Instantiates the memory access stage //`
4			`// sub-modules of the Amber 25 Core //`
5			`// //`
6			`// This file is part of the Amber project //`
7			`// http://www.opencores.org/project,amber //`
8			`// //`
9			`// Description //`
10			`// Instantiates the Data Cache //`
11			`// Also contains a little bit of logic to decode memory //`
12			`// accesses to decide if they are cached or not //`
13			`// //`
14			`// Author(s): //`
15			`// - Conor Santifort, csantifort.amber@gmail.com //`
16			`// //`
17			`//////////////////////////////////////////////////////////////////`
18			`// //`
19			`// Copyright (C) 2011 Authors and OPENCORES.ORG //`
20			`// //`
21			`// This source file may be used and distributed without //`
22			`// restriction provided that this copyright statement is not //`
23			`// removed from the file and that any derivative work contains //`
24			`// the original copyright notice and the associated disclaimer. //`
25			`// //`
26			`// This source file is free software; you can redistribute it //`
27			`// and/or modify it under the terms of the GNU Lesser General //`
28			`// Public License as published by the Free Software Foundation; //`
29			`// either version 2.1 of the License, or (at your option) any //`
30			`// later version. //`
31			`// //`
32			`// This source is distributed in the hope that it will be //`
33			`// useful, but WITHOUT ANY WARRANTY; without even the implied //`
34			`// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR //`
35			`// PURPOSE. See the GNU Lesser General Public License for more //`
36			`// details. //`
37			`// //`
38			`// You should have received a copy of the GNU Lesser General //`
39			`// Public License along with this source; if not, download it //`
40			`// from http://www.opencores.org/lgpl.shtml //`
41			`// //`
42			`//////////////////////////////////////////////////////////////////`
43
44
45			`module a25_mem`
46			`(`
47			`input i_clk,`
48			`input i_fetch_stall, // Fetch stage asserting stall`
49	35	csantifort	`input i_exec_stall, // Execute stage asserting stall`
50	16	csantifort	`output o_mem_stall, // Mem stage asserting stall`
51
52			`input [31:0] i_daddress,`
53			`input i_daddress_valid,`
54			`input [31:0] i_daddress_nxt, // un-registered version of address to the cache rams`
55			`input [31:0] i_write_data,`
56			`input i_write_enable,`
57			`input i_exclusive, // high for read part of swap access`
58			`input [3:0] i_byte_enable,`
59	35	csantifort	`input [8:0] i_exec_load_rd, // The destination register for a load instruction`
60	16	csantifort	`input i_cache_enable, // cache enable`
61			`input i_cache_flush, // cache flush`
62			`input [31:0] i_cacheable_area, // each bit corresponds to 2MB address space`
63
64			`output [31:0] o_mem_read_data,`
65			`output o_mem_read_data_valid,`
66	35	csantifort	`output [10:0] o_mem_load_rd, // The destination register for a load instruction`
67	16	csantifort
68			`// Wishbone accesses`
69			`output o_wb_cached_req, // Cached Request`
70			`output o_wb_uncached_req, // Unached Request`
71			`output o_wb_write, // Read=0, Write=1`
72	35	csantifort	`output [15:0] o_wb_byte_enable, // byte eable`
73			`output [127:0] o_wb_write_data,`
74	16	csantifort	`output [31:0] o_wb_address, // wb bus`
75	35	csantifort	`input [127:0] i_wb_uncached_rdata, // wb bus`
76			`input [127:0] i_wb_cached_rdata, // wb bus`
77	16	csantifort	`input i_wb_cached_ready, // wishbone access complete and read data valid`
78			`input i_wb_uncached_ready // wishbone access complete and read data valid`
79			`);`
80
81			`include "memory_configuration.v"
82
83			`wire [31:0] cache_read_data;`
84			`wire address_cachable;`
85			`wire sel_cache_p;`
86			`wire sel_cache;`
87			`wire cached_wb_req;`
88			`wire uncached_data_access;`
89			`wire uncached_data_access_p;`
90			`wire cache_stall;`
91			`wire uncached_wb_wait;`
92			`reg uncached_wb_req_r = 'd0;`
93			`reg uncached_wb_stop_r = 'd0;`
94			`reg cached_wb_stop_r = 'd0;`
95			`wire daddress_valid_p; // pulse`
96			`reg [31:0] mem_read_data_r = 'd0;`
97			`reg mem_read_data_valid_r = 'd0;`
98	35	csantifort	`reg [10:0] mem_load_rd_r = 'd0;`
99			`wire [10:0] mem_load_rd_c;`
100			`wire [31:0] mem_read_data_c;`
101	16	csantifort	`wire mem_read_data_valid_c;`
102			`reg mem_stall_r = 'd0;`
103			`wire use_mem_reg;`
104			`reg fetch_only_stall_r = 'd0;`
105			`wire fetch_only_stall;`
106			`wire void_output;`
107			`wire wb_stop;`
108			`reg daddress_valid_stop_r = 'd0;`
109	35	csantifort	`wire [31:0] wb_rdata32;`
110	16	csantifort
111			`// ======================================`
112			`// Memory Decode`
113			`// ======================================`
114			`assign address_cachable = in_cachable_mem( i_daddress ) && i_cacheable_area[i_daddress[25:21]];`
115			`assign sel_cache_p = daddress_valid_p && address_cachable && i_cache_enable && !i_exclusive;`
116			`assign sel_cache = i_daddress_valid && address_cachable && i_cache_enable && !i_exclusive;`
117	60	csantifort	`assign uncached_data_access = i_daddress_valid && !sel_cache && !cache_stall;`
118			`assign uncached_data_access_p = daddress_valid_p && !sel_cache;`
119	16	csantifort
120			`assign use_mem_reg = wb_stop && !mem_stall_r;`
121			`assign o_mem_read_data = use_mem_reg ? mem_read_data_r : mem_read_data_c;`
122			`assign o_mem_load_rd = use_mem_reg ? mem_load_rd_r : mem_load_rd_c;`
123			`assign o_mem_read_data_valid = !void_output && (use_mem_reg ? mem_read_data_valid_r : mem_read_data_valid_c);`
124
125
126			`// Return read data either from the wishbone bus or the cache`
127	35	csantifort	`assign wb_rdata32 = i_daddress[3:2] == 2'd0 ? i_wb_uncached_rdata[ 31: 0] :`
128			`i_daddress[3:2] == 2'd1 ? i_wb_uncached_rdata[ 63:32] :`
129			`i_daddress[3:2] == 2'd2 ? i_wb_uncached_rdata[ 95:64] :`
130			`i_wb_uncached_rdata[127:96] ;`
131
132	16	csantifort	`assign mem_read_data_c = sel_cache ? cache_read_data :`
133	35	csantifort	`uncached_data_access ? wb_rdata32 :`
134	16	csantifort	`32'h76543210 ;`
135	35	csantifort
136	16	csantifort	`assign mem_load_rd_c = {i_daddress[1:0], i_exec_load_rd};`
137			`assign mem_read_data_valid_c = i_daddress_valid && !i_write_enable && !o_mem_stall;`
138
139			`assign o_mem_stall = uncached_wb_wait \|\| cache_stall;`
140
141			`// Request wishbone access`
142	35	csantifort	`assign o_wb_byte_enable = i_daddress[3:2] == 2'd0 ? {12'd0, i_byte_enable } :`
143			`i_daddress[3:2] == 2'd1 ? { 8'd0, i_byte_enable, 4'd0} :`
144			`i_daddress[3:2] == 2'd2 ? { 4'd0, i_byte_enable, 8'd0} :`
145			`{ i_byte_enable, 12'd0} ;`
146
147	16	csantifort	`assign o_wb_write = i_write_enable;`
148			`assign o_wb_address = {i_daddress[31:2], 2'd0};`
149	35	csantifort	`assign o_wb_write_data = {4{i_write_data}};`
150	16	csantifort	`assign o_wb_cached_req = !cached_wb_stop_r && cached_wb_req;`
151			`assign o_wb_uncached_req = !uncached_wb_stop_r && uncached_data_access_p;`
152
153			`assign uncached_wb_wait = (o_wb_uncached_req \|\| uncached_wb_req_r) && !i_wb_uncached_ready;`
154
155			`always @( posedge i_clk )`
156			`begin`
157			`uncached_wb_req_r <= (o_wb_uncached_req \|\| uncached_wb_req_r) && !i_wb_uncached_ready;`
158			`end`
159
160			`assign fetch_only_stall = i_fetch_stall && !o_mem_stall;`
161
162			`always @( posedge i_clk )`
163			`fetch_only_stall_r <= fetch_only_stall;`
164
165			`assign void_output = (fetch_only_stall_r && fetch_only_stall) \|\| (fetch_only_stall_r && mem_read_data_valid_r);`
166
167
168			`// pulse this signal`
169			`assign daddress_valid_p = i_daddress_valid && !daddress_valid_stop_r;`
170
171			`always @( posedge i_clk )`
172			`begin`
173	60	csantifort	`uncached_wb_stop_r <= (uncached_wb_stop_r \|\| (uncached_data_access_p&&!cache_stall)) && (i_fetch_stall \|\| o_mem_stall);`
174	16	csantifort	`cached_wb_stop_r <= (cached_wb_stop_r \|\| cached_wb_req) && (i_fetch_stall \|\| o_mem_stall);`
175			`daddress_valid_stop_r <= (daddress_valid_stop_r \|\| daddress_valid_p) && (i_fetch_stall \|\| o_mem_stall);`
176			`// hold this until the mem access completes`
177			`mem_stall_r <= o_mem_stall;`
178			`end`
179
180
181			`assign wb_stop = uncached_wb_stop_r \|\| cached_wb_stop_r;`
182
183			`always @( posedge i_clk )`
184			`if ( !wb_stop \|\| o_mem_stall )`
185			`begin`
186			`mem_read_data_r <= mem_read_data_c;`
187			`mem_load_rd_r <= mem_load_rd_c;`
188			`mem_read_data_valid_r <= mem_read_data_valid_c;`
189			`end`
190
191
192			`// ======================================`
193			`// L1 Data Cache`
194			`// ======================================`
195			`a25_dcache u_dcache (`
196			`.i_clk ( i_clk ),`
197			`.i_fetch_stall ( i_fetch_stall ),`
198	35	csantifort	`.i_exec_stall ( i_exec_stall ),`
199	16	csantifort	`.o_stall ( cache_stall ),`
200
201			`.i_request ( sel_cache_p ),`
202			`.i_exclusive ( i_exclusive ),`
203			`.i_write_data ( i_write_data ),`
204			`.i_write_enable ( i_write_enable ),`
205			`.i_address ( i_daddress ),`
206			`.i_address_nxt ( i_daddress_nxt ),`
207			`.i_byte_enable ( i_byte_enable ),`
208
209			`.i_cache_enable ( i_cache_enable ),`
210			`.i_cache_flush ( i_cache_flush ),`
211			`.o_read_data ( cache_read_data ),`
212
213	35	csantifort	`.o_wb_cached_req ( cached_wb_req ),`
214			`.i_wb_cached_rdata ( i_wb_cached_rdata ),`
215			`.i_wb_cached_ready ( i_wb_cached_ready )`
216	16	csantifort	`);`
217
218
219
220			`endmodule`
221

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