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source: XOpenSparcT1/trunk/os2wb/os2wb.v @ 22

Revision 22, 59.0 KB checked in by pntsvt00, 14 years ago (diff)
checkpoint: la DDR effettua l'init

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1	`timescale 1ns / 1ps
2	//////////////////////////////////////////////////////////////////////////////////
3	// Company: (C) Athree, 2009
4	// Engineer: Dmitry Rozhdestvenskiy
5	// Email dmitry.rozhdestvenskiy@srisc.com dmitryr@a3.spb.ru divx4log@narod.ru
6	//
7	// Design Name: Bridge from SPARC Core to Wishbone Master
8	// Module Name: os2wb
9	// Project Name: SPARC SoC single-core
10	//
11	// LICENSE:
12	// This is a Free Hardware Design; you can redistribute it and/or
13	// modify it under the terms of the GNU General Public License
14	// version 2 as published by the Free Software Foundation.
15	// The above named program is distributed in the hope that it will
16	// be useful, but WITHOUT ANY WARRANTY; without even the implied
17	// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
18	// See the GNU General Public License for more details.
19	//
20	//////////////////////////////////////////////////////////////////////////////////
21	module os2wb(
22	input clk,
23	input rstn,
24
25	// Core interface
26	input [ 4:0] pcx_req,
27	input pcx_atom,
28	input [123:0] pcx_data,
29	output reg [ 4:0] pcx_grant,
30	output reg cpx_ready,
31	output reg [144:0] cpx_packet,
32
33	// Wishbone master interface
34	input [ 63:0] wb_data_i,
35	input wb_ack,
36	output reg wb_cycle,
37	output reg wb_strobe,
38	output reg wb_we,
39	output reg [ 7:0] wb_sel,
40	output reg [ 63:0] wb_addr,
41	output reg [ 63:0] wb_data_o,
42
43	// FPU interface
44	output reg [123:0] fp_pcx,
45	output reg fp_req,
46	input [144:0] fp_cpx,
47	input fp_rdy,
48
49	// Ethernet interrupt, sensed on posedge, mapped to vector 'd29
50	input eth_int
51	);
52
53	reg [123:0] pcx_packet_d; // Latched incoming PCX packet
54	reg [123:0] pcx_packet_2nd; // Second packet for atomic (CAS)
55	reg [ 4:0] pcx_req_d; // Latched request
56	reg pcx_atom_d; // Latched atomic flasg
57	reg [ 4:0] state; // FSM state
58	reg [144:0] cpx_packet_1; // First CPX packet
59	reg [144:0] cpx_packet_2; // Second CPX packet (for atomics and cached IFILLs)
60	reg cpx_two_packet; // CPX answer is two-packet (!=atomic, SWAP has atomic==0 and answer is two-packet)
61
62	reg [ 3:0] inval_vect0; // Invalidate, instr/data, way
63	reg [ 3:0] inval_vect1; // IFill may cause two D lines invalidation at a time
64
65	wire [111:0] store_inv_vec; // Store invalidation vector
66
67	assign store_inv_vec[111:91]=0;
68	assign store_inv_vec[90:88]=((pcx_packet_d[64+5:64+4]==2'b11) && inval_vect0[3:2]==2'b11) ? {inval_vect0[1:0],1'b1}:3'b000;
69	assign store_inv_vec[87:60]=0;
70	assign store_inv_vec[59:56]=((pcx_packet_d[64+5:64+4]==2'b10) && inval_vect0[3:2]==2'b11) \|\| ((pcx_packet_d[64+5]==1'b1) && inval_vect0[3:2]==2'b10) ? {inval_vect0[1:0],!inval_vect0[2],inval_vect0[2]}:4'b0000;
71	assign store_inv_vec[55:35]=0;
72	assign store_inv_vec[34:32]=((pcx_packet_d[64+5:64+4]==2'b01) && inval_vect0[3:2]==2'b11) ? {inval_vect0[1:0],1'b1}:3'b000;
73	assign store_inv_vec[31:4]=0;
74	assign store_inv_vec[3:0]=((pcx_packet_d[64+5:64+4]==2'b00) && inval_vect0[3:2]==2'b11) \|\| ((pcx_packet_d[64+5]==1'b0) && inval_vect0[3:2]==2'b10) ? {inval_vect0[1:0],!inval_vect0[2],inval_vect0[2]}:4'b0000;
75
76	wire [28:0] dcache0_do0;
77	wire [28:0] dcache0_do1;
78	wire [28:0] dcache1_do0;
79	wire [28:0] dcache1_do1;
80	wire [28:0] dcache2_do0;
81	wire [28:0] dcache2_do1;
82	wire [28:0] dcache3_do0;
83	wire [28:0] dcache3_do1;
84	wire [28:0] icache0_do;
85	wire [28:0] icache1_do;
86	wire [28:0] icache2_do;
87	wire [28:0] icache3_do;
88
89	`define TEST_DRAM_1 5'b00000
90	`define TEST_DRAM_2 5'b00001
91	`define TEST_DRAM_3 5'b00010
92	`define TEST_DRAM_4 5'b00011
93	`define INIT_DRAM_1 5'b00100
94	`define INIT_DRAM_2 5'b00101
95	`define WAKEUP 5'b00110
96	`define PCX_IDLE 5'b00111
97	`define GOT_PCX_REQ 5'b01000
98	`define PCX_REQ_2ND 5'b01001
99	`define PCX_REQ_STEP1 5'b01010
100	`define PCX_REQ_STEP1_1 5'b01011
101	`define PCX_REQ_STEP2 5'b01100
102	`define PCX_REQ_STEP2_1 5'b01101
103	`define PCX_REQ_STEP3 5'b01110
104	`define PCX_REQ_STEP3_1 5'b01111
105	`define PCX_REQ_STEP4 5'b10000
106	`define PCX_REQ_STEP4_1 5'b10001
107	`define PCX_BIS 5'b10010
108	`define PCX_BIS_1 5'b10011
109	`define PCX_BIS_2 5'b10100
110	`define CPX_READY_1 5'b10101
111	`define CPX_READY_2 5'b10110
112	`define PCX_UNKNOWN 5'b11000
113	`define PCX_FP_1 5'b11001
114	`define PCX_FP_2 5'b11010
115	`define FP_WAIT 5'b11011
116	`define CPX_FP 5'b11100
117	`define CPX_SEND_ETH_IRQ 5'b11101
118	`define CPX_INT_VEC_DIS 5'b11110
119	`define PCX_REQ_CAS_COMPARE 5'b11111
120
121	//`define MEM_SIZE 64'h00000000_10000000 //256 MB
122	//`define MEM_SIZE 64'h00000000_00100000 //1MB
123	`define MEM_SIZE 64'h00000000_00001000 //256KB
124
125	// sal: escludo test della DRAM `define TEST_DRAM 1
126	`define TEST_DRAM 1
127	`define DEBUGGING 1
128
129	reg cache_init;
130	wire [3:0] dcache0_hit;
131	wire [3:0] dcache1_hit;
132	wire [3:0] icache_hit;
133	reg multi_hit;
134	reg multi_hit1;
135	reg eth_int_d;
136	reg eth_int_send;
137	reg eth_int_sent;
138	reg [3:0] cnt;
139
140	// PCX channel FIFO
141	wire [129:0] pcx_data_fifo;
142	wire pcx_fifo_empty;
143	reg [ 4:0] pcx_req_1;
144	reg [ 4:0] pcx_req_2;
145	reg pcx_atom_1;
146	reg pcx_atom_2;
147	reg pcx_data_123_d;
148
149	always @(posedge clk)
150	begin
151	pcx_req_1<=pcx_req;
152	pcx_atom_1<=pcx_atom;
153	pcx_atom_2<=pcx_atom_1;
154	pcx_req_2<=pcx_atom_1 ? pcx_req_1:5'b0;
155	pcx_grant<=(pcx_req_1 \| pcx_req_2);
156	pcx_data_123_d<=pcx_data[123];
157	end
158
159	/*pcx_fifo pcx_fifo_inst(
160	// FIFO should be first word fall-through
161	// It has no full flag as the core will send only limited number of requests,
162	// in original design we used it 32 words deep
163	// Just make it deeper if you experience overflow -
164	// you can't just send no grant on full because the core expects immediate
165	// grant for at least two requests for each zone
166	.aclr(!rstn),
167	.clock(clk),
168	.data({pcx_atom_1,pcx_req_1,pcx_data}),
169	.rdreq(fifo_rd),
170	.wrreq((pcx_req_1!=5'b00000 && pcx_data[123]) \|\| (pcx_atom_2 && pcx_data_123_d)),
171	// Second atomic packet for FPU may be invalid, but should be sent to FPU
172	// so if the first atomic packet is valid we latch both
173	.empty(pcx_fifo_empty),
174	.q(pcx_data_fifo)
175	);
176	*/
177	reg fifo_rd;
178	wire [123:0] pcx_packet;
179
180
181	pcx_fifo pcx_fifo_inst(
182	.clk(clk),
183	.rst(!rstn),
184	.din({pcx_atom_1,pcx_req_1,pcx_data}),
185	.rd_en(fifo_rd),
186	.wr_en((pcx_req_1!=5'b00000 && pcx_data[123]) \|\| (pcx_atom_2 && pcx_data_123_d)),
187	.empty(pcx_fifo_empty),
188	.full(),
189	.dout(pcx_data_fifo)
190	);
191
192
193
194	// --------------------------
195
196	always @(posedge clk or negedge rstn)
197	if(!rstn)
198	eth_int_send<=0;
199	else
200	begin
201	eth_int_d<=eth_int;
202	if(eth_int && !eth_int_d)
203	eth_int_send<=1;
204	else
205	if(eth_int_sent)
206	eth_int_send<=0;
207	end
208
209
210	assign pcx_packet=pcx_data_fifo[123:0];
211
212	always @(posedge clk or negedge rstn)
213	if(rstn==0)
214	begin
215	//$display("INFO: OS2WB: RST_DRAM at %t",$time);
216	if(`TEST_DRAM)
217	state<=`TEST_DRAM_1;
218	else
219	state<=`INIT_DRAM_1; // DRAM initialization is mandatory!
220	cpx_ready<=0;
221	fifo_rd<=0;
222	cpx_packet<=145'b0;
223	wb_cycle<=0;
224	wb_strobe<=0;
225	wb_we<=0;
226	wb_sel<=0;
227	wb_addr<=64'b0;
228	wb_data_o<=64'b0;
229	pcx_packet_d<=124'b0;
230	fp_pcx<=124'b0;
231	fp_req<=0;
232	end
233	else
234	case(state)
235	`TEST_DRAM_1:
236	begin
237	$display("INFO: OS2WB: TEST_DRAM_1");
238	wb_cycle<=1;
239	wb_strobe<=1;
240	wb_sel<=8'hFF;
241	wb_we<=1;
242	state<=`TEST_DRAM_2;
243	end
244	`TEST_DRAM_2:
245	if(wb_ack)
246	begin
247	$display("INFO: OS2WB: TEST_DRAM_2 at time %d with wb_addr=%x",$time,wb_addr);
248	wb_strobe<=0;
249	if(wb_addr<`MEM_SIZE-8)
250	begin
251	wb_addr[31:0]<=wb_addr[31:0]+8;
252	wb_data_o<={wb_addr[31:0]+8,wb_addr[31:0]+8};
253	state<=`TEST_DRAM_1;
254	end
255	else
256	begin
257	state<=`TEST_DRAM_3;
258	wb_cycle<=0;
259	wb_sel<=0;
260	wb_we<=0;
261	wb_data_o<=64'b0;
262	wb_addr<=64'b0;
263	end
264	end
265	`TEST_DRAM_3:
266	begin
267	$display("INFO: OS2WB: TEST_DRAM_3");
268	wb_cycle<=1;
269	wb_strobe<=1;
270	wb_sel<=8'hFF;
271	state<=`TEST_DRAM_4;
272	end
273	`TEST_DRAM_4:
274	if(wb_ack)
275	begin
276	$display("INFO: OS2WB: TEST_DRAM_4 at %t",$time);
277	wb_strobe<=0;
278	if(wb_addr<`MEM_SIZE-8)
279	begin
280	if(wb_data_i=={wb_addr[31:0],wb_addr[31:0]})
281	begin
282	wb_addr[31:0]<=wb_addr[31:0]+8;
283	state<=`TEST_DRAM_3;
284	end
285	else
286	$display("INFO: OS2WB: TEST_DRAM_4 error in read addres %x at %t",wb_addr,$time);
287
288	end
289	else
290	begin
291	$display("INFO: OS2WB: INIT_DRAM at %t",$time);
292	state<=`INIT_DRAM_1;
293	wb_cycle<=0;
294	wb_sel<=0;
295	wb_we<=0;
296	wb_data_o<=64'b0;
297	wb_addr<=64'b0;
298	end
299	end
300	`INIT_DRAM_1:
301	begin
302	wb_cycle<=1;
303	wb_strobe<=1;
304	wb_sel<=8'hFF;
305	wb_we<=1;
306	cache_init<=1; // We also init cache directories here
307	state<=`INIT_DRAM_2;
308	end
309	`INIT_DRAM_2:
310	if(wb_ack)
311	begin
312	wb_strobe<=0;
313	if(wb_addr<`MEM_SIZE-8)
314	begin
315	//for debug
316	// if (wb_addr[10:3]==8'b0)
317	// $display("INFO: OS2WB: INIT_DRAM_2 at time %d with wb_addr=%x",$time,wb_addr);
318	//
319	wb_addr[31:0]<=wb_addr[31:0]+8;
320	pcx_packet_d[64+11:64+4]<=pcx_packet_d[64+11:64+4]+1; // Address for cachedir init
321	state<=`INIT_DRAM_1;
322	end
323	else
324	begin
325	$display("INFO: OS2WB: WAKEUP_DRAM at %t",$time);
326	state<=`WAKEUP;
327	wb_cycle<=0;
328	wb_sel<=0;
329	wb_we<=0;
330	cache_init<=0;
331	wb_addr<=64'b0;
332	end
333	end
334	`WAKEUP:
335	begin
336	cpx_packet<=145'h1700000000000000000000000000000010001;
337	cpx_ready<=1;
338	state<=`PCX_IDLE;
339	end
340	`PCX_IDLE:
341	begin
342	cnt<=0;
343	cpx_packet<=145'b0;
344	cpx_ready<=0;
345	cpx_two_packet<=0;
346	inval_vect0[3]<=0;
347	inval_vect1[3]<=0;
348	multi_hit<=0;
349	multi_hit1<=0;
350	if(eth_int_send)
351	begin
352	state<=`CPX_SEND_ETH_IRQ;
353	eth_int_sent<=1;
354	end
355	else
356	if(!pcx_fifo_empty)
357	begin
358	pcx_req_d<=pcx_data_fifo[128:124];
359	pcx_atom_d<=pcx_data_fifo[129];
360	fifo_rd<=1;
361	state<=`GOT_PCX_REQ;
362	end
363	end
364	`GOT_PCX_REQ:
365	begin
366	pcx_packet_d<=pcx_packet;
367	if(`DEBUGGING)
368	begin
369	$display("INFO: OS2WB: GOT_PCX_REQ");
370	wb_sel[1:0]<=pcx_packet[113:112];
371	wb_sel[2]<=1;
372	end
373	if(pcx_packet[103:64]==40'h9800000800 && pcx_packet[122:118]==5'b00001)
374	begin
375	state<=`CPX_INT_VEC_DIS;
376	fifo_rd<=0;
377	end
378	else
379	if(pcx_atom_d==0)
380	begin
381	fifo_rd<=0;
382	if(pcx_packet[122:118]==5'b01010) // FP req
383	begin
384	state<=`PCX_FP_1;
385	pcx_packet_2nd[123]<=0;
386	end
387	else
388	state<=`PCX_REQ_STEP1;
389	end
390	else
391	state<=`PCX_REQ_2ND;
392	end
393	`PCX_REQ_2ND:
394	begin
395	pcx_packet_2nd<=pcx_packet; //Latch second packet for atomics
396	if(`DEBUGGING)
397	if(pcx_fifo_empty)
398	wb_sel<=8'h67;
399	fifo_rd<=0;
400	if(pcx_packet_d[122:118]==5'b01010) // FP req
401	state<=`PCX_FP_1;
402	else
403	state<=`PCX_REQ_STEP1;
404	end
405	`PCX_REQ_STEP1:
406	begin
407	if(pcx_packet_d[111]==1'b1) // Invalidate request
408	begin
409	cpx_packet_1[144]<=1; // Valid
410	cpx_packet_1[143:140]<=4'b0100; // Invalidate reply is Store ACK
411	cpx_packet_1[139]<=1; // L2 miss
412	cpx_packet_1[138:137]<=0; // Error
413	cpx_packet_1[136]<=pcx_packet_d[117]; // Non-cacheble
414	cpx_packet_1[135:134]<=pcx_packet_d[113:112]; // Thread ID
415	cpx_packet_1[133:131]<=0; // Way valid
416	cpx_packet_1[130]<=((pcx_packet_d[122:118]==5'b10000) && (pcx_req_d==5'b10000)) ? 1:0; // Four byte fill
417	cpx_packet_1[129]<=pcx_atom_d;
418	cpx_packet_1[128]<=pcx_packet_d[110]; // Prefetch
419	cpx_packet_1[127:0]<={2'b0,pcx_packet_d[109]/BIS/,pcx_packet_d[122:118]==5'b00000 ? 2'b01:2'b10,pcx_packet_d[64+5:64+4],3'b0,pcx_packet_d[64+11:64+6],112'b0};
420	state<=`CPX_READY_1;
421	end
422	else
423	if(pcx_packet_d[122:118]!=5'b01001) // Not INT
424	begin
425	wb_cycle<=1'b1;
426	wb_strobe<=1'b1;
427	if((pcx_packet_d[122:118]==5'b00000 && !pcx_req_d[4]) \|\| pcx_packet_d[122:118]==5'b00010 \|\| pcx_packet_d[122:118]==5'b00100 \|\| pcx_packet_d[122:118]==5'b00110)
428	wb_addr<={pcx_req_d,19'b0,pcx_packet_d[103:64+4],4'b0000}; //DRAM load/streamload, CAS and SWAP always use DRAM and load first
429	else
430	if(pcx_packet_d[122:118]==5'b10000 && !pcx_req_d[4])
431	wb_addr<={pcx_req_d,19'b0,pcx_packet_d[103:64+5],5'b00000}; //DRAM ifill
432	else
433	if(pcx_packet_d[64+39:64+28]==12'hFFF && pcx_packet_d[64+27:64+24]!=4'b0) // flash remap FFF1->FFF8
434	wb_addr<={pcx_req_d,19'b0,pcx_packet_d[103:64+3]+37'h0000E00000,3'b000};
435	else
436	wb_addr<={pcx_req_d,19'b0,pcx_packet_d[103:64+3],3'b000};
437	wb_data_o<=pcx_packet_d[63:0];
438	state<=`PCX_REQ_STEP1_1;
439	end
440	else
441	if((pcx_packet_d[12:10]!=3'b000) && !pcx_packet_d[117]) // Not FLUSH int and not this core
442	state<=`PCX_IDLE;
443	else
444	state<=`CPX_READY_1;
445	case(pcx_packet_d[122:118]) // Packet type
446	5'b00000://Load
447	begin
448	wb_we<=0;
449	if(!pcx_packet_d[110] && !pcx_packet_d[117])
450	case(icache_hit)
451	4'b0000:;
452	4'b0001:inval_vect0<=4'b1_0_00;
453	4'b0010:inval_vect0<=4'b1_0_01;
454	4'b0100:inval_vect0<=4'b1_0_10;
455	4'b1000:inval_vect0<=4'b1_0_11;
456	default:multi_hit<=1;
457	endcase
458	if(!pcx_req_d[4])
459	wb_sel<=8'b11111111; // DRAM requests are always 128 bit
460	else
461	case(pcx_packet_d[106:104]) //Size
462	3'b000://Byte
463	case(pcx_packet_d[64+2:64])
464	3'b000:wb_sel<=8'b10000000;
465	3'b001:wb_sel<=8'b01000000;
466	3'b010:wb_sel<=8'b00100000;
467	3'b011:wb_sel<=8'b00010000;
468	3'b100:wb_sel<=8'b00001000;
469	3'b101:wb_sel<=8'b00000100;
470	3'b110:wb_sel<=8'b00000010;
471	3'b111:wb_sel<=8'b00000001;
472	endcase
473	3'b001://Halfword
474	case(pcx_packet_d[64+2:64+1])
475	2'b00:wb_sel<=8'b11000000;
476	2'b01:wb_sel<=8'b00110000;
477	2'b10:wb_sel<=8'b00001100;
478	2'b11:wb_sel<=8'b00000011;
479	endcase
480	3'b010://Word
481	wb_sel<=(pcx_packet_d[64+2]==0) ? 8'b11110000:8'b00001111;
482	3'b011://Doubleword
483	wb_sel<=8'b11111111;
484	3'b100://Quadword
485	wb_sel<=8'b11111111;
486	3'b111://Cacheline
487	wb_sel<=8'b11111111;
488	default:
489	wb_sel<=8'b01011010; // Unreal eye-catching value for debug
490	endcase
491	end
492	5'b00001://Store
493	begin
494	wb_we<=1;
495	case({icache_hit,dcache0_hit})
496	8'b00000000:;
497	8'b00000001:inval_vect0<=4'b1_1_00;
498	8'b00000010:inval_vect0<=4'b1_1_01;
499	8'b00000100:inval_vect0<=4'b1_1_10;
500	8'b00001000:inval_vect0<=4'b1_1_11;
501	8'b00010000:inval_vect0<=4'b1_0_00;
502	8'b00100000:inval_vect0<=4'b1_0_01;
503	8'b01000000:inval_vect0<=4'b1_0_10;
504	8'b10000000:inval_vect0<=4'b1_0_11;
505	default:multi_hit<=1;
506	endcase
507	if(pcx_packet_d[110:109]!=2'b00) //Block (or init) store
508	wb_sel<=8'b11111111; // Blocks are always 64 bit
509	else
510	case(pcx_packet_d[106:104]) //Size
511	3'b000://Byte
512	case(pcx_packet_d[64+2:64])
513	3'b000:wb_sel<=8'b10000000;
514	3'b001:wb_sel<=8'b01000000;
515	3'b010:wb_sel<=8'b00100000;
516	3'b011:wb_sel<=8'b00010000;
517	3'b100:wb_sel<=8'b00001000;
518	3'b101:wb_sel<=8'b00000100;
519	3'b110:wb_sel<=8'b00000010;
520	3'b111:wb_sel<=8'b00000001;
521	endcase
522	3'b001://Halfword
523	case(pcx_packet_d[64+2:64+1])
524	2'b00:wb_sel<=8'b11000000;
525	2'b01:wb_sel<=8'b00110000;
526	2'b10:wb_sel<=8'b00001100;
527	2'b11:wb_sel<=8'b00000011;
528	endcase
529	3'b010://Word
530	wb_sel<=(pcx_packet_d[64+2]==0) ? 8'b11110000:8'b00001111;
531	3'b011://Doubleword
532	wb_sel<=8'b11111111;
533	default:
534	if(`DEBUGGING)
535	wb_sel<=8'b01011010; // Unreal eye-catching value for debug
536	endcase
537	end
538	5'b00010://CAS
539	begin
540	wb_we<=0; //Load first
541	case({icache_hit,dcache0_hit})
542	8'b00000000:;
543	8'b00000001:inval_vect0<=4'b1_1_00;
544	8'b00000010:inval_vect0<=4'b1_1_01;
545	8'b00000100:inval_vect0<=4'b1_1_10;
546	8'b00001000:inval_vect0<=4'b1_1_11;
547	8'b00010000:inval_vect0<=4'b1_0_00;
548	8'b00100000:inval_vect0<=4'b1_0_01;
549	8'b01000000:inval_vect0<=4'b1_0_10;
550	8'b10000000:inval_vect0<=4'b1_0_11;
551	default:multi_hit<=1;
552	endcase
553	wb_sel<=8'b11111111; // CAS loads are as cacheline
554	end
555	5'b00100://STRLOAD
556	begin
557	wb_we<=0;
558	wb_sel<=8'b11111111; // Stream loads are always 128 bit
559	end
560	5'b00101://STRSTORE
561	begin
562	wb_we<=1;
563	case({icache_hit,dcache0_hit})
564	8'b00000000:;
565	8'b00000001:inval_vect0<=4'b1_1_00;
566	8'b00000010:inval_vect0<=4'b1_1_01;
567	8'b00000100:inval_vect0<=4'b1_1_10;
568	8'b00001000:inval_vect0<=4'b1_1_11;
569	8'b00010000:inval_vect0<=4'b1_0_00;
570	8'b00100000:inval_vect0<=4'b1_0_01;
571	8'b01000000:inval_vect0<=4'b1_0_10;
572	8'b10000000:inval_vect0<=4'b1_0_11;
573	default:multi_hit<=1;
574	endcase
575	case(pcx_packet_d[106:104]) //Size
576	3'b000://Byte
577	case(pcx_packet_d[64+2:64])
578	3'b000:wb_sel<=8'b10000000;
579	3'b001:wb_sel<=8'b01000000;
580	3'b010:wb_sel<=8'b00100000;
581	3'b011:wb_sel<=8'b00010000;
582	3'b100:wb_sel<=8'b00001000;
583	3'b101:wb_sel<=8'b00000100;
584	3'b110:wb_sel<=8'b00000010;
585	3'b111:wb_sel<=8'b00000001;
586	endcase
587	3'b001://Halfword
588	case(pcx_packet_d[64+2:64+1])
589	2'b00:wb_sel<=8'b11000000;
590	2'b01:wb_sel<=8'b00110000;
591	2'b10:wb_sel<=8'b00001100;
592	2'b11:wb_sel<=8'b00000011;
593	endcase
594	3'b010://Word
595	wb_sel<=(pcx_packet_d[64+2]==0) ? 8'b11110000:8'b00001111;
596	3'b011://Doubleword
597	wb_sel<=8'b11111111;
598	3'b100://Quadword
599	wb_sel<=8'b11111111;
600	3'b111://Cacheline
601	wb_sel<=8'b11111111;
602	default:
603	wb_sel<=8'b01011010; // Unreal eye-catching value for debug
604	endcase
605	end
606	5'b00110://SWAP/LDSTUB
607	begin
608	case({icache_hit,dcache0_hit})
609	8'b00000000:;
610	8'b00000001:inval_vect0<=4'b1_1_00;
611	8'b00000010:inval_vect0<=4'b1_1_01;
612	8'b00000100:inval_vect0<=4'b1_1_10;
613	8'b00001000:inval_vect0<=4'b1_1_11;
614	8'b00010000:inval_vect0<=4'b1_0_00;
615	8'b00100000:inval_vect0<=4'b1_0_01;
616	8'b01000000:inval_vect0<=4'b1_0_10;
617	8'b10000000:inval_vect0<=4'b1_0_11;
618	default:multi_hit<=1;
619	endcase
620	wb_we<=0; // Load first, as CAS
621	wb_sel<=8'b11111111; // SWAP/LDSTUB loads are as cacheline
622	end
623	5'b01001://INT
624	if(pcx_packet_d[117]) // Flush
625	cpx_packet_1<={9'h171,pcx_packet_d[113:112],11'h0,pcx_packet_d[64+5:64+4],3'b0,pcx_packet_d[64+11:64+6],30'h0,pcx_packet_d[17:0],46'b0,pcx_packet_d[17:0]}; //FLUSH instruction answer
626	else // Tread-to-thread interrupt
627	cpx_packet_1<={9'h170,pcx_packet_d[113:112],52'h0,pcx_packet_d[17:0],46'h0,pcx_packet_d[17:0]};
628	//5'b01010: FP1 - processed by separate state
629	//5'b01011: FP2 - processed by separate state
630	//5'b01101: FWDREQ - not implemented
631	//5'b01110: FWDREPL - not implemented
632	5'b10000://IFILL
633	begin
634	wb_we<=0;
635	if(!pcx_req_d[4]) // not I/O access
636	begin
637	case(dcache0_hit)
638	4'b0000:;
639	4'b0001:inval_vect0<=4'b1_1_00;
640	4'b0010:inval_vect0<=4'b1_1_01;
641	4'b0100:inval_vect0<=4'b1_1_10;
642	4'b1000:inval_vect0<=4'b1_1_11;
643	default:multi_hit<=1;
644	endcase
645	case(dcache1_hit)
646	4'b0000:;
647	4'b0001:inval_vect1<=4'b1_1_00;
648	4'b0010:inval_vect1<=4'b1_1_01;
649	4'b0100:inval_vect1<=4'b1_1_10;
650	4'b1000:inval_vect1<=4'b1_1_11;
651	default:multi_hit1<=1;
652	endcase
653	end
654	if(pcx_req_d[4]) // I/O access
655	wb_sel<=(pcx_packet_d[64+2]==0) ? 8'b11110000:8'b00001111;
656	else
657	wb_sel<=8'b11111111;
658	end
659	default:
660	begin
661	wb_we<=0;
662	wb_sel<=8'b10101010; // Unreal eye-catching value for debug
663	end
664	endcase
665	end
666	`PCX_REQ_STEP1_1:
667	begin
668	if(wb_ack)
669	begin
670	cpx_packet_1[144]<=1; // Valid
671	cpx_packet_1[139]<=(pcx_packet_d[122:118]==5'b00000) \|\| (pcx_packet_d[122:118]==5'b10000) ? 1:0; // L2 always miss on load and ifill
672	cpx_packet_1[138:137]<=0; // Error
673	cpx_packet_1[136]<=pcx_packet_d[117] \|\| (pcx_packet_d[122:118]==5'b00001) ? 1:0; // Non-cacheble is set on store too
674	cpx_packet_1[135:134]<=pcx_packet_d[113:112]; // Thread ID
675	if((pcx_packet_d[122:118]==5'b00000 && !pcx_packet_d[117] && !pcx_packet_d[110]) \|\| (pcx_packet_d[122:118]==5'b10000)) // Cacheble Load or IFill
676	cpx_packet_1[133:131]<={inval_vect0[3],inval_vect0[1:0]};
677	else
678	cpx_packet_1[133:131]<=3'b000; // Way valid
679	if(pcx_packet_d[122:118]==5'b00100) // Strload
680	cpx_packet_1[130]<=pcx_packet_d[106]; // A
681	else
682	if(pcx_packet_d[122:118]==5'b00101) // Stream store
683	cpx_packet_1[130]<=pcx_packet_d[108]; // A
684	else
685	cpx_packet_1[130]<=((pcx_packet_d[122:118]==5'b10000) && pcx_req_d[4]) ? 1:0; // Four byte fill
686	if(pcx_packet_d[122:118]==5'b00100) // Strload
687	cpx_packet_1[129]<=pcx_packet_d[105]; // B
688	else
689	cpx_packet_1[129]<=pcx_atom_d \|\| (pcx_packet_d[122:118]==5'b00110); // SWAP is single-packet but needs atom in CPX
690	cpx_packet_1[128]<=pcx_packet_d[110] && pcx_packet_d[122:118]==5'b00000; // Prefetch
691	cpx_packet_2[144]<=1; // Valid
692	cpx_packet_2[139]<=0; // L2 miss
693	cpx_packet_2[138:137]<=0; // Error
694	cpx_packet_2[136]<=pcx_packet_d[117] \|\| (pcx_packet_d[122:118]==5'b00001) ? 1:0; // Non-cacheble is set on store too
695	cpx_packet_2[135:134]<=pcx_packet_d[113:112]; // Thread ID
696	if(pcx_packet_d[122:118]==5'b10000) // IFill
697	cpx_packet_2[133:131]<={inval_vect1[3],inval_vect1[1:0]};
698	else
699	cpx_packet_2[133:131]<=3'b000; // Way valid
700	cpx_packet_2[130]<=0; // Four byte fill
701	cpx_packet_2[129]<=pcx_atom_d \|\| (pcx_packet_d[122:118]==5'b00110) \|\| ((pcx_packet_d[122:118]==5'b10000) && !pcx_req_d[4]);
702	cpx_packet_2[128]<=0; // Prefetch
703	wb_strobe<=0;
704	wb_sel<=8'b0;
705	wb_addr<=64'b0;
706	wb_data_o<=64'b0;
707	wb_we<=0;
708	case(pcx_packet_d[122:118]) // Packet type
709	5'b00000://Load
710	begin
711	cpx_packet_1[143:140]<=4'b0000; // Type
712	if(!pcx_req_d[4])
713	begin
714	cpx_packet_1[127:0]<={wb_data_i,wb_data_i};
715	state<=`PCX_REQ_STEP2;
716	end
717	else
718	case(pcx_packet_d[106:104]) //Size
719	3'b000://Byte
720	begin
721	case(pcx_packet_d[64+2:64])
722	3'b000:cpx_packet_1[127:0]<={wb_data_i[63:56],wb_data_i[63:56],wb_data_i[63:56],wb_data_i[63:56],wb_data_i[63:56],wb_data_i[63:56],wb_data_i[63:56],wb_data_i[63:56],wb_data_i[63:56],wb_data_i[63:56],wb_data_i[63:56],wb_data_i[63:56],wb_data_i[63:56],wb_data_i[63:56],wb_data_i[63:56],wb_data_i[63:56]};
723	3'b001:cpx_packet_1[127:0]<={wb_data_i[55:48],wb_data_i[55:48],wb_data_i[55:48],wb_data_i[55:48],wb_data_i[55:48],wb_data_i[55:48],wb_data_i[55:48],wb_data_i[55:48],wb_data_i[55:48],wb_data_i[55:48],wb_data_i[55:48],wb_data_i[55:48],wb_data_i[55:48],wb_data_i[55:48],wb_data_i[55:48],wb_data_i[55:48]};
724	3'b010:cpx_packet_1[127:0]<={wb_data_i[47:40],wb_data_i[47:40],wb_data_i[47:40],wb_data_i[47:40],wb_data_i[47:40],wb_data_i[47:40],wb_data_i[47:40],wb_data_i[47:40],wb_data_i[47:40],wb_data_i[47:40],wb_data_i[47:40],wb_data_i[47:40],wb_data_i[47:40],wb_data_i[47:40],wb_data_i[47:40],wb_data_i[47:40]};
725	3'b011:cpx_packet_1[127:0]<={wb_data_i[39:32],wb_data_i[39:32],wb_data_i[39:32],wb_data_i[39:32],wb_data_i[39:32],wb_data_i[39:32],wb_data_i[39:32],wb_data_i[39:32],wb_data_i[39:32],wb_data_i[39:32],wb_data_i[39:32],wb_data_i[39:32],wb_data_i[39:32],wb_data_i[39:32],wb_data_i[39:32],wb_data_i[39:32]};
726	3'b100:cpx_packet_1[127:0]<={wb_data_i[31:24],wb_data_i[31:24],wb_data_i[31:24],wb_data_i[31:24],wb_data_i[31:24],wb_data_i[31:24],wb_data_i[31:24],wb_data_i[31:24],wb_data_i[31:24],wb_data_i[31:24],wb_data_i[31:24],wb_data_i[31:24],wb_data_i[31:24],wb_data_i[31:24],wb_data_i[31:24],wb_data_i[31:24]};
727	3'b101:cpx_packet_1[127:0]<={wb_data_i[23:16],wb_data_i[23:16],wb_data_i[23:16],wb_data_i[23:16],wb_data_i[23:16],wb_data_i[23:16],wb_data_i[23:16],wb_data_i[23:16],wb_data_i[23:16],wb_data_i[23:16],wb_data_i[23:16],wb_data_i[23:16],wb_data_i[23:16],wb_data_i[23:16],wb_data_i[23:16],wb_data_i[23:16]};
728	3'b110:cpx_packet_1[127:0]<={wb_data_i[15: 8],wb_data_i[15: 8],wb_data_i[15: 8],wb_data_i[15: 8],wb_data_i[15: 8],wb_data_i[15: 8],wb_data_i[15: 8],wb_data_i[15: 8],wb_data_i[15: 8],wb_data_i[15: 8],wb_data_i[15: 8],wb_data_i[15: 8],wb_data_i[15: 8],wb_data_i[15: 8],wb_data_i[15: 8],wb_data_i[15: 8]};
729	3'b111:cpx_packet_1[127:0]<={wb_data_i[ 7: 0],wb_data_i[ 7: 0],wb_data_i[ 7: 0],wb_data_i[ 7: 0],wb_data_i[ 7: 0],wb_data_i[ 7: 0],wb_data_i[ 7: 0],wb_data_i[ 7: 0],wb_data_i[ 7: 0],wb_data_i[ 7: 0],wb_data_i[ 7: 0],wb_data_i[ 7: 0],wb_data_i[ 7: 0],wb_data_i[ 7: 0],wb_data_i[ 7: 0],wb_data_i[ 7: 0]};
730	endcase
731	wb_cycle<=0;
732	state<=`CPX_READY_1;
733	end
734	3'b001://Halfword
735	begin
736	case(pcx_packet_d[64+2:64+1])
737	2'b00:cpx_packet_1[127:0]<={wb_data_i[63:48],wb_data_i[63:48],wb_data_i[63:48],wb_data_i[63:48],wb_data_i[63:48],wb_data_i[63:48],wb_data_i[63:48],wb_data_i[63:48]};
738	2'b01:cpx_packet_1[127:0]<={wb_data_i[47:32],wb_data_i[47:32],wb_data_i[47:32],wb_data_i[47:32],wb_data_i[47:32],wb_data_i[47:32],wb_data_i[47:32],wb_data_i[47:32]};
739	2'b10:cpx_packet_1[127:0]<={wb_data_i[31:16],wb_data_i[31:16],wb_data_i[31:16],wb_data_i[31:16],wb_data_i[31:16],wb_data_i[31:16],wb_data_i[31:16],wb_data_i[31:16]};
740	2'b11:cpx_packet_1[127:0]<={wb_data_i[15: 0],wb_data_i[15: 0],wb_data_i[15: 0],wb_data_i[15: 0],wb_data_i[15: 0],wb_data_i[15: 0],wb_data_i[15: 0],wb_data_i[15: 0]};
741	endcase
742	wb_cycle<=0;
743	state<=`CPX_READY_1;
744	end
745	3'b010://Word
746	begin
747	if(pcx_packet_d[64+2]==0)
748	cpx_packet_1[127:0]<={wb_data_i[63:32],wb_data_i[63:32],wb_data_i[63:32],wb_data_i[63:32]};
749	else
750	cpx_packet_1[127:0]<={wb_data_i[31:0],wb_data_i[31:0],wb_data_i[31:0],wb_data_i[31:0]};
751	wb_cycle<=0;
752	state<=`CPX_READY_1;
753	end
754	3'b011://Doubleword
755	begin
756	cpx_packet_1[127:0]<={wb_data_i,wb_data_i};
757	wb_cycle<=0;
758	state<=`CPX_READY_1;
759	end
760	3'b100://Quadword
761	begin
762	cpx_packet_1[127:0]<={wb_data_i,wb_data_i};
763	wb_cycle<=0;
764	state<=`CPX_READY_1; // 16 byte access to PROM should just duplicate the data
765	end
766	3'b111://Cacheline
767	begin
768	cpx_packet_1[127:0]<={wb_data_i,wb_data_i};
769	wb_cycle<=0;
770	state<=`CPX_READY_1; // 16 byte access to PROM should just duplicate the data
771	end
772	default:
773	begin
774	cpx_packet_1[127:0]<={wb_data_i,wb_data_i};
775	wb_cycle<=0;
776	state<=`PCX_UNKNOWN;
777	end
778	endcase
779	end
780	5'b00001://Store
781	begin
782	cpx_packet_1[143:140]<=4'b0100; // Type
783	cpx_packet_1[127:0]<={2'b0,pcx_packet_d[109]/BIS/,2'b0,pcx_packet_d[64+5:64+4],3'b0,pcx_packet_d[64+11:64+6],store_inv_vec};
784	// if((pcx_packet_d[110:109]==2'b01) && (pcx_packet_d[64+5:64]==0) && !inval_vect0[3] && !inval_vect1[3]) // Block init store
785	// state<=`PCX_BIS;
786	// else
787	// begin
788	wb_cycle<=0;
789	state<=`CPX_READY_1;
790	// end
791	end
792	5'b00010://CAS
793	begin
794	cpx_packet_1[143:140]<=4'b0000; // Load return for first packet
795	cpx_packet_2[143:140]<=4'b0100; // Store ACK for second packet
796	cpx_packet_2[127:0]<={5'b0,pcx_packet_d[64+5:64+4],3'b0,pcx_packet_d[64+11:64+6],store_inv_vec};
797	cpx_packet_1[127:0]<={wb_data_i,wb_data_i};
798	state<=`PCX_REQ_STEP2;
799	end
800	5'b00100://STRLOAD
801	begin
802	cpx_packet_1[143:140]<=4'b0010; // Type
803	cpx_packet_1[127:0]<={wb_data_i,wb_data_i};
804	state<=`PCX_REQ_STEP2;
805	end
806	5'b00101://STRSTORE
807	begin
808	cpx_packet_1[143:140]<=4'b0110; // Type
809	cpx_packet_1[127:0]<={5'b0,pcx_packet_d[64+5:64+4],3'b0,pcx_packet_d[64+11:64+6],store_inv_vec};
810	wb_cycle<=0;
811	state<=`CPX_READY_1;
812	end
813	5'b00110://SWAP/LDSTUB
814	begin
815	cpx_packet_1[143:140]<=4'b0000; // Load return for first packet
816	cpx_packet_2[143:140]<=4'b0100; // Store ACK for second packet
817	cpx_packet_2[127:0]<={5'b0,pcx_packet_d[64+5:64+4],3'b0,pcx_packet_d[64+11:64+6],store_inv_vec};
818	cpx_packet_1[127:0]<={wb_data_i,wb_data_i};
819	state<=`PCX_REQ_STEP2;
820	end
821	5'b10000://IFILL
822	begin
823	cpx_packet_1[143:140]<=4'b0001; // Type
824	cpx_packet_2[143:140]<=4'b0001; // Type
825	if(pcx_req_d[4]) // I/O access
826	begin
827	if(pcx_packet_d[64+2]==0)
828	cpx_packet_1[127:0]<={wb_data_i[63:32],wb_data_i[63:32],wb_data_i[63:32],wb_data_i[63:32]};
829	else
830	cpx_packet_1[127:0]<={wb_data_i[31:0],wb_data_i[31:0],wb_data_i[31:0],wb_data_i[31:0]};
831	state<=`CPX_READY_1;
832	wb_cycle<=0;
833	end
834	else
835	begin
836	cpx_packet_1[127:0]<={wb_data_i,wb_data_i};
837	state<=`PCX_REQ_STEP2;
838	end
839	end
840	default:
841	begin
842	wb_cycle<=0;
843	state<=`PCX_UNKNOWN;
844	end
845	endcase
846	end
847	end
848	`PCX_REQ_STEP2: // IFill, Load/strload, CAS, SWAP, LDSTUB - alwas load
849	begin
850	wb_strobe<=1'b1;
851	if(pcx_packet_d[122:118]==5'b10000)
852	wb_addr<={pcx_req_d,19'b0,pcx_packet_d[103:64+5],5'b01000};
853	else
854	wb_addr<={pcx_req_d,19'b0,pcx_packet_d[103:64+4],4'b1000};
855	wb_sel<=8'b11111111; // It is always full width for subsequent IFill and load accesses
856	state<=`PCX_REQ_STEP2_1;
857	end
858	`PCX_REQ_STEP2_1:
859	if(wb_ack==1)
860	begin
861	wb_strobe<=0;
862	wb_sel<=8'b0;
863	wb_addr<=64'b0;
864	wb_data_o<=64'b0;
865	wb_we<=0;
866	cpx_packet_1[63:0]<=wb_data_i;
867	if((pcx_packet_d[122:118]!=5'b00000) && (pcx_packet_d[122:118]!=5'b00100))
868	if(pcx_packet_d[122:118]!=5'b00010) // IFill, SWAP
869	state<=`PCX_REQ_STEP3;
870	else
871	state<=`PCX_REQ_CAS_COMPARE; // CAS
872	else
873	begin
874	wb_cycle<=0;
875	state<=`CPX_READY_1;
876	end
877	end
878	`PCX_REQ_CAS_COMPARE:
879	begin
880	cpx_two_packet<=1;
881	if(pcx_packet_d[106:104]==3'b010) // 32-bit
882	case(pcx_packet_d[64+3:64+2])
883	2'b00:state<=cpx_packet_1[127:96]==pcx_packet_d[63:32] ? `PCX_REQ_STEP3:`CPX_READY_1;
884	2'b01:state<=cpx_packet_1[95:64]==pcx_packet_d[63:32] ? `PCX_REQ_STEP3:`CPX_READY_1;
885	2'b10:state<=cpx_packet_1[63:32]==pcx_packet_d[63:32] ? `PCX_REQ_STEP3:`CPX_READY_1;
886	2'b11:state<=cpx_packet_1[31:0]==pcx_packet_d[63:32] ? `PCX_REQ_STEP3:`CPX_READY_1;
887	endcase
888	else
889	if(pcx_packet_d[64+3]==0)
890	state<=cpx_packet_1[127:64]==pcx_packet_d[63:0] ? `PCX_REQ_STEP3:`CPX_READY_1;
891	else
892	state<=cpx_packet_1[63:0]==pcx_packet_d[63:0] ? `PCX_REQ_STEP3:`CPX_READY_1;
893	end
894	`PCX_REQ_STEP3: // 256-bit IFILL; CAS, SWAP and LDSTUB store
895	begin
896	if(pcx_packet_d[122:118]==5'b10000)
897	wb_addr<={pcx_req_d,19'b0,pcx_packet_d[103:64+5],5'b10000};
898	else
899	wb_addr<={pcx_req_d,19'b0,pcx_packet_d[103:64+3],3'b000}; // CAS or SWAP save
900	cpx_two_packet<=1;
901	if(pcx_packet_d[122:118]==5'b10000)
902	wb_we<=0;
903	else
904	wb_we<=1;
905	wb_strobe<=1'b1;
906	if(pcx_packet_d[122:118]==5'b00010) // CAS
907	if(pcx_packet_d[106:104]==3'b010)
908	wb_sel<=(pcx_packet_d[64+2]==0) ? 8'b11110000:8'b00001111;
909	else
910	wb_sel<=8'b11111111; //CASX
911	else
912	if(pcx_packet_d[122:118]==5'b00110) //SWAP or LDSTUB
913	if(pcx_packet_d[106:104]==3'b000) //LDSTUB
914	case(pcx_packet_d[64+2:64])
915	3'b000:wb_sel<=8'b10000000;
916	3'b001:wb_sel<=8'b01000000;
917	3'b010:wb_sel<=8'b00100000;
918	3'b011:wb_sel<=8'b00010000;
919	3'b100:wb_sel<=8'b00001000;
920	3'b101:wb_sel<=8'b00000100;
921	3'b110:wb_sel<=8'b00000010;
922	3'b111:wb_sel<=8'b00000001;
923	endcase
924	else
925	wb_sel<=(pcx_packet_d[64+2]==0) ? 8'b11110000:8'b00001111; ///SWAP is always 32-bit
926	else
927	wb_sel<=8'b11111111; // It is always full width for subsequent IFill accesses
928	if(pcx_packet_d[122:118]==5'b00110) //SWAP or LDSTUB
929	wb_data_o<={pcx_packet_d[63:32],pcx_packet_d[63:32]};
930	// wb_data_o<=pcx_packet_d[63:0];
931	else
932	wb_data_o<=pcx_packet_2nd[63:0]; // CAS store second packet data
933	// if(pcx_packet_d[106:104]==3'b010)
934	// wb_data_o<={pcx_packet_2nd[63:32],pcx_packet_2nd[63:32]}; // CAS store second packet data
935	// else
936	// wb_data_o<=pcx_packet_2nd[63:0];
937	state<=`PCX_REQ_STEP3_1;
938	end
939	`PCX_REQ_STEP3_1:
940	if(wb_ack==1)
941	begin
942	wb_strobe<=0;
943	wb_sel<=8'b0;
944	wb_addr<=64'b0;
945	wb_we<=0;
946	wb_data_o<=64'b0;
947	if(pcx_packet_d[122:118]==5'b10000) // IFill
948	begin
949	cpx_packet_2[127:64]<=wb_data_i;
950	state<=`PCX_REQ_STEP4;
951	end
952	else
953	begin
954	wb_cycle<=0;
955	state<=`CPX_READY_1;
956	end
957	end
958	`PCX_REQ_STEP4: // 256-bit IFILL only
959	begin
960	wb_strobe<=1'b1;
961	wb_addr<={pcx_req_d,19'b0,pcx_packet_d[103:64+5],5'b11000};
962	wb_sel<=8'b11111111; // It is always full width for subsequent accesses
963	state<=`PCX_REQ_STEP4_1;
964	end
965	`PCX_REQ_STEP4_1:
966	if(wb_ack==1)
967	begin
968	wb_cycle<=0;
969	wb_strobe<=0;
970	wb_sel<=8'b0;
971	wb_addr<=64'b0;
972	wb_we<=0;
973	cpx_packet_2[63:0]<=wb_data_i;
974	state<=`CPX_READY_1;
975	end
976	`PCX_BIS: // Block init store
977	begin
978	wb_strobe<=1'b1;
979	wb_we<=1;
980	wb_addr<={pcx_req_d,19'b0,pcx_packet_d[103:64+6],6'b001000};
981	wb_sel<=8'b11111111;
982	wb_data_o<=64'b0;
983	state<=`PCX_BIS_1;
984	end
985	`PCX_BIS_1:
986	if(wb_ack)
987	begin
988	wb_strobe<=0;
989	if(wb_addr[39:0]<(pcx_packet_d[64+39:64]+8*7))
990	state<=`PCX_BIS_2;
991	else
992	begin
993	wb_cycle<=0;
994	wb_sel<=0;
995	wb_we<=0;
996	wb_addr<=64'b0;
997	state<=`CPX_READY_1;
998	end
999	end
1000	`PCX_BIS_2:
1001	begin
1002	wb_strobe<=1'b1;
1003	wb_addr[5:0]<=wb_addr[5:0]+8;
1004	state<=`PCX_BIS_1;
1005	end
1006	`PCX_FP_1:
1007	begin
1008	fp_pcx<=pcx_packet_d;
1009	fp_req<=1;
1010	state<=`PCX_FP_2;
1011	if(`DEBUGGING)
1012	begin
1013	wb_addr<=pcx_packet_d[103:64];
1014	wb_data_o<=pcx_packet_d[63:0];
1015	wb_sel<=8'h22;
1016	end
1017	end
1018	`PCX_FP_2:
1019	begin
1020	fp_pcx<=pcx_packet_2nd;
1021	state<=`FP_WAIT;
1022	if(`DEBUGGING)
1023	begin
1024	wb_addr<=pcx_packet_2nd[103:64];
1025	wb_data_o<=pcx_packet_d[63:0];
1026	wb_sel<=8'h23;
1027	end
1028	end
1029	`FP_WAIT:
1030	begin
1031	fp_pcx<=124'b0;
1032	fp_req<=0;
1033	if(fp_rdy)
1034	state<=`CPX_FP;
1035	if(`DEBUGGING)
1036	wb_sel<=8'h24;
1037	end
1038	`CPX_FP:
1039	if(fp_cpx[144]) // Packet valid
1040	begin
1041	cpx_packet_1<=fp_cpx;
1042	state<=`CPX_READY_1;
1043	if(`DEBUGGING)
1044	begin
1045	wb_addr<=fp_cpx[63:0];
1046	wb_data_o<=fp_cpx[127:64];
1047	end
1048	end
1049	else
1050	if(!fp_rdy)
1051	state<=`FP_WAIT; // Else wait for another one if it is not here still
1052	`CPX_SEND_ETH_IRQ:
1053	begin
1054	cpx_packet_1<=145'h1_7_000_000000000000001D_000000000000_001D;
1055	eth_int_sent<=0;
1056	state<=`CPX_READY_1;
1057	end
1058	`CPX_INT_VEC_DIS:
1059	begin
1060	if(pcx_packet_d[12:10]==3'b000)
1061	cpx_two_packet<=1; // Send interrupt only if it is for this core
1062	cpx_packet_1[144:140]<=5'b10100;
1063	cpx_packet_1[139:137]<=0;
1064	cpx_packet_1[136]<=1;
1065	cpx_packet_1[135:134]<=pcx_packet_d[113:112]; // Thread ID
1066	cpx_packet_1[133:130]<=0;
1067	cpx_packet_1[129]<=pcx_atom_d;
1068	cpx_packet_1[128]<=0;
1069	cpx_packet_1[127:0]<={5'b0,pcx_packet_d[64+5:64+4],3'b0,pcx_packet_d[64+11:64+6],112'b0};
1070	cpx_packet_2<={9'h170,54'h0,pcx_packet_d[17:0],46'h0,pcx_packet_d[17:0]};
1071	state<=`CPX_READY_1;
1072	end
1073	`CPX_READY_1:
1074	begin
1075	cpx_ready<=1;
1076	cpx_packet<=cpx_packet_1;
1077	cnt<=cnt+1;
1078	if(`DEBUGGING)
1079	if(multi_hit \|\| multi_hit1)
1080	wb_sel<=8'h11;
1081	if(!cpx_two_packet)
1082	state<=`PCX_IDLE;
1083	else
1084	//if(cnt==4'b1111 \|\| pcx_packet_d[103:64]!=40'h9800000800)
1085	state<=`CPX_READY_2;
1086	end
1087	`CPX_READY_2:
1088	begin
1089	cpx_ready<=1;
1090	cpx_packet<=cpx_packet_2;
1091	state<=`PCX_IDLE;
1092	end
1093	`PCX_UNKNOWN:
1094	begin
1095	wb_sel<=8'b10100101; // Illegal eye-catching value for debugging
1096	state<=`PCX_IDLE;
1097	end
1098	endcase
1099
1100	/* Cache directory checking:
1101	Load: allocate D if cacheable, check I, invalidate&deallocate if found
1102	Store: check I, invalidate&deallocate if found; check D, invalidate if found
1103	IFill: allocate I if cacheable, check D, invalidate&deallocate if found
1104	SWAP/LDSTUB: check I, invalidate&deallocate if found; check D, invalidate&deallocate if found
1105	CAS: Like SWAP
1106
1107	Allocation and querying is made simultaneously at GOT_PCX_REQ
1108	(memory read mode does not matter as long as allocation and invalidation
1109	are never made to the same directory, so if memory is written its output will not be checked)
1110	Invalidation vectors are built during PCX_REQ_STEP1, or Invalidate all ways issued
1111	During PCX_REQ_STEP1_1 directory is deallocated if needed
1112
1113	*/
1114
1115	// Directory enable
1116	assign dir_en=((state==`GOT_PCX_REQ) \|\| (state==`PCX_REQ_STEP1) \|\| cache_init \|\|
1117	((state==`PCX_REQ_STEP1_1) && wb_ack)) ? 1:0;
1118
1119	// ICache deallocation flag
1120	assign loadstore=((pcx_packet_d[122:118]==5'b00000) && !pcx_packet_d[117] && !pcx_packet_d[110]) \|\| // cacheable load, not prefetch
1121	(pcx_packet_d[122:118]==5'b00001) \|\| (pcx_packet_d[122:118]==5'b00010) \|\| // Store, CAS
1122	(pcx_packet_d[122:118]==5'b00110) \|\| (pcx_packet_d[122:118]==5'b00101); // SWAP/LDSTUB, StrStore
1123
1124	// DCache deallocation flag
1125	assign ifillcas=(pcx_packet_d[122:118]==5'b00110) \|\| (pcx_packet_d[122:118]==5'b00010) \|\| //SWAP, CAS
1126	(pcx_packet_d[122:118]==5'b10000) \|\| (pcx_packet_d[122:118]==5'b00101) \|\| // IFill, StrStore
1127	((pcx_packet_d[122:118]==5'b00001) && pcx_packet_d[110:109]!=2'b00); // Block (or init) store
1128
1129	// DCache allocation flag
1130	assign cacheload=(pcx_packet[122:118]==5'b00000) && !pcx_packet[110] && !pcx_packet[117] && !pcx_packet[111];
1131
1132	// ICache allocation flag
1133	assign cacheifill=(pcx_packet[122:118]==5'b10000) && !pcx_packet[117] && !pcx_packet[111];
1134
1135	assign dcache0_alloc=(state==`GOT_PCX_REQ) && (pcx_packet[108:107]==2'b00) && cacheload;
1136	assign dcache0_dealloc0=(state==`PCX_REQ_STEP1_1) && (inval_vect0==4'b1_1_00) && ifillcas;
1137	assign dcache0_dealloc1=(state==`PCX_REQ_STEP1_1) && (inval_vect1==4'b1_1_00) && ifillcas;
1138
1139	assign dcache1_alloc=(state==`GOT_PCX_REQ) && (pcx_packet[108:107]==2'b01) && cacheload;
1140	assign dcache1_dealloc0=(state==`PCX_REQ_STEP1_1) && (inval_vect0==4'b1_1_01) && ifillcas;
1141	assign dcache1_dealloc1=(state==`PCX_REQ_STEP1_1) && (inval_vect1==4'b1_1_01) && ifillcas;
1142
1143	assign dcache2_alloc=(state==`GOT_PCX_REQ) && (pcx_packet[108:107]==2'b10) && cacheload;
1144	assign dcache2_dealloc0=(state==`PCX_REQ_STEP1_1) && (inval_vect0==4'b1_1_10) && ifillcas;
1145	assign dcache2_dealloc1=(state==`PCX_REQ_STEP1_1) && (inval_vect1==4'b1_1_10) && ifillcas;
1146
1147	assign dcache3_alloc=(state==`GOT_PCX_REQ) && (pcx_packet[108:107]==2'b11) && cacheload;
1148	assign dcache3_dealloc0=(state==`PCX_REQ_STEP1_1) && (inval_vect0==4'b1_1_11) && ifillcas;
1149	assign dcache3_dealloc1=(state==`PCX_REQ_STEP1_1) && (inval_vect1==4'b1_1_11) && ifillcas;
1150
1151	assign icache0_alloc=(state==`GOT_PCX_REQ) && (pcx_packet[108:107]==2'b00) && cacheifill;
1152	assign icache0_dealloc=(state==`PCX_REQ_STEP1_1) && (inval_vect0==4'b1_0_00) && loadstore;
1153
1154	assign icache1_alloc=(state==`GOT_PCX_REQ) && (pcx_packet[108:107]==2'b01) && cacheifill;
1155	assign icache1_dealloc=(state==`PCX_REQ_STEP1_1) && (inval_vect0==4'b1_0_01) && loadstore;
1156
1157	assign icache2_alloc=(state==`GOT_PCX_REQ) && (pcx_packet[108:107]==2'b10) && cacheifill;
1158	assign icache2_dealloc=(state==`PCX_REQ_STEP1_1) && (inval_vect0==4'b1_0_10) && loadstore;
1159
1160	assign icache3_alloc=(state==`GOT_PCX_REQ) && (pcx_packet[108:107]==2'b11) && cacheifill;
1161	assign icache3_dealloc=(state==`PCX_REQ_STEP1_1) && (inval_vect0==4'b1_0_11) && loadstore;
1162
1163	assign dcache_inval_all=(state==`PCX_REQ_STEP1) && pcx_packet_d[111] && pcx_packet_d[122:118]==5'b00000;
1164	assign icache_inval_all=(state==`PCX_REQ_STEP1) && pcx_packet_d[111] && pcx_packet_d[122:118]==5'b10000;
1165
1166	`define INVAL_TAG 29'h10000000
1167
1168	// DCache least address bit for first bank
1169	// it should be 0 for IFill (1 is hardcoded for second bank)
1170	assign dcache_la=(state==`GOT_PCX_REQ) ? (pcx_packet[122:118]==5'b10000 ? 1'b0:pcx_packet[64+4]):
1171	(pcx_packet_d[122:118]==5'b10000 ? 1'b0:pcx_packet_d[64+4]);
1172
1173	wire [ 6:0] dcache_index;
1174	wire [28:0] dcache_data;
1175	assign dcache_index=(state==`GOT_PCX_REQ) ? pcx_packet[64+10:64+5]:pcx_packet_d[64+10:64+5];
1176	assign dcache_data=(state==`GOT_PCX_REQ) ? pcx_packet[64+39:64+11]:`INVAL_TAG;
1177
1178	cachedir dcache0 (
1179	.clock(clk),
1180	.enable(dir_en),
1181	.wren_a(dcache0_alloc \|\| dcache0_dealloc0 \|\| dcache_inval_all \|\| cache_init),
1182	.address_a({1'b0,dcache_index,dcache_la}),
1183	.data_a(dcache_data),
1184	.q_a(dcache0_do0),
1185
1186	.wren_b(dcache0_dealloc1),
1187	.address_b({1'b0,dcache_index,1'b1}),
1188	.data_b(`INVAL_TAG),
1189	.q_b(dcache0_do1)
1190	);
1191
1192	cachedir dcache1 (
1193	.clock(clk),
1194	.enable(dir_en),
1195	.wren_a(dcache1_alloc \|\| dcache1_dealloc0 \|\| dcache_inval_all \|\| cache_init),
1196	.address_a({1'b0,dcache_index,dcache_la}),
1197	.data_a(dcache_data),
1198	.q_a(dcache1_do0),
1199
1200	.wren_b(dcache1_dealloc1),
1201	.address_b({1'b0,dcache_index,1'b1}),
1202	.data_b(`INVAL_TAG),
1203	.q_b(dcache1_do1)
1204	);
1205
1206	cachedir dcache2 (
1207	.clock(clk),
1208	.enable(dir_en),
1209	.wren_a(dcache2_alloc \|\| dcache2_dealloc0 \|\| dcache_inval_all \|\| cache_init),
1210	.address_a({1'b0,dcache_index,dcache_la}),
1211	.data_a(dcache_data),
1212	.q_a(dcache2_do0),
1213
1214	.wren_b(dcache2_dealloc1),
1215	.address_b({1'b0,dcache_index,1'b1}),
1216	.data_b(`INVAL_TAG),
1217	.q_b(dcache2_do1)
1218	);
1219
1220	cachedir dcache3 (
1221	.clock(clk),
1222	.enable(dir_en),
1223	.wren_a(dcache3_alloc \|\| dcache3_dealloc0 \|\| dcache_inval_all \|\| cache_init),
1224	.address_a({1'b0,dcache_index,dcache_la}),
1225	.data_a(dcache_data),
1226	.q_a(dcache3_do0),
1227
1228	.wren_b(dcache3_dealloc1),
1229	.address_b({1'b0,dcache_index,1'b1}),
1230	.data_b(`INVAL_TAG),
1231	.q_b(dcache3_do1)
1232	);
1233
1234	assign dcache0_hit={dcache3_do0==pcx_packet_d[64+39:64+11],
1235	dcache2_do0==pcx_packet_d[64+39:64+11],
1236	dcache1_do0==pcx_packet_d[64+39:64+11],
1237	dcache0_do0==pcx_packet_d[64+39:64+11]};
1238	assign dcache1_hit={dcache3_do1==pcx_packet_d[64+39:64+11],
1239	dcache2_do1==pcx_packet_d[64+39:64+11],
1240	dcache1_do1==pcx_packet_d[64+39:64+11],
1241	dcache0_do1==pcx_packet_d[64+39:64+11]};
1242
1243	wire [ 6:0] icache_index;
1244	wire [28:0] icache_data;
1245	assign icache_index=(state==`GOT_PCX_REQ) ? pcx_packet[64+11:64+5]:pcx_packet_d[64+11:64+5];
1246	assign icache_data=(state==`GOT_PCX_REQ) ? {pcx_packet[64+39:64+12],1'b0}:`INVAL_TAG;
1247
1248	cachedir icache01 (
1249	.clock(clk),
1250	.enable(dir_en),
1251	.wren_a(icache0_alloc \|\| icache0_dealloc \|\| icache_inval_all \|\| cache_init),
1252	.address_a({2'b0,icache_index}),
1253	.data_a(icache_data),
1254	.q_a(icache0_do),
1255
1256	.wren_b(icache1_alloc \|\| icache1_dealloc \|\| icache_inval_all \|\| cache_init),
1257	.address_b({2'b0,icache_index}),
1258	.data_b(icache_data),
1259	.q_b(icache1_do)
1260	);
1261
1262	cachedir icache23 (
1263	.clock(clk),
1264	.enable(dir_en),
1265	.wren_a(icache2_alloc \|\| icache2_dealloc \|\| icache_inval_all \|\| cache_init),
1266	.address_a({2'b0,icache_index}),
1267	.data_a(icache_data),
1268	.q_a(icache2_do),
1269
1270	.wren_b(icache3_alloc \|\| icache3_dealloc \|\| icache_inval_all \|\| cache_init),
1271	.address_b({2'b0,icache_index}),
1272	.data_b(icache_data),
1273	.q_b(icache3_do)
1274	);
1275
1276	assign icache_hit={icache3_do[28:1]==pcx_packet_d[64+39:64+12],
1277	icache2_do[28:1]==pcx_packet_d[64+39:64+12],
1278	icache1_do[28:1]==pcx_packet_d[64+39:64+12],
1279	icache0_do[28:1]==pcx_packet_d[64+39:64+12]};
1280
1281	/*
1282	case(pcx_packet_d[122:118]) // Packet type
1283	5'b00000://Load
1284	5'b00001://Store
1285	5'b00010://CAS
1286	5'b00100://STRLOAD
1287	5'b00101://STRSTORE
1288	5'b00110://SWAP
1289	5'b01001://INT
1290	//5'b01010://FP1
1291	//5'b01011://FP2
1292	//5'b01101://FWDREQ
1293	//5'b01110://FWDREPL
1294	5'b10000://IFILL
1295	endcase
1296	*/
1297	endmodule

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