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ucb_flow_jbi.v @ 6

Revision 6, 17.1 KB checked in by pntsvt00, 13 years ago (diff)
versione iniziale opensparc

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1	// ========== Copyright Header Begin ==========================================
2	//
3	// OpenSPARC T1 Processor File: ucb_flow_jbi.v
4	// Copyright (c) 2006 Sun Microsystems, Inc. All Rights Reserved.
5	// DO NOT ALTER OR REMOVE COPYRIGHT NOTICES.
6	//
7	// The above named program is free software; you can redistribute it and/or
8	// modify it under the terms of the GNU General Public
9	// License version 2 as published by the Free Software Foundation.
10	//
11	// The above named program is distributed in the hope that it will be
12	// useful, but WITHOUT ANY WARRANTY; without even the implied warranty of
13	// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14	// General Public License for more details.
15	//
16	// You should have received a copy of the GNU General Public
17	// License along with this work; if not, write to the Free Software
18	// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA.
19	//
20	// ========== Copyright Header End ============================================
21	////////////////////////////////////////////////////////////////////////
22	/*
23	// Module Name: ucb_flow_jbi
24	// Description: Unit Control Block
25	// - supports 1B/2B/4B/8B/16B read with flow control
26	// - supports 1B/2B/4B/8B write with flow control
27	// - does NOT support ifill request
28	// - supports interrupt return to IO Bridge
29	// - provides 1+2 deep buffer for incoming requests
30	// from the IO Bridge
31	// - provides single buffer for returns going back
32	// to the IO Bridge
33	//
34	// This module is customized for the JBI.
35	//
36	// Data bus width to and from the IO Bridge is
37	// configured through parameters UCB_IOB_WIDTH and
38	// IOB_UCB_WIDTH. Supported widths are:
39	//
40	// IOB_UCB_WIDTH UCB_IOB_WIDTH
41	// ----------------------------
42	// 32 8
43	// 16 8
44	// 8 8
45	// 4 4
46	*/
47	////////////////////////////////////////////////////////////////////////
48	// Global header file includes
49	////////////////////////////////////////////////////////////////////////
50	`include "sys.h" // system level definition file which
51	// contains the time scale definition
52
53	`include "iop.h"
54
55	////////////////////////////////////////////////////////////////////////
56	// Local header file includes / local defines
57	////////////////////////////////////////////////////////////////////////
58	`define UCB_BUF_DEPTH 2
59	`define UCB_BUF_WIDTH 64+(`UCB_ADDR_HI-`UCB_ADDR_LO+1)+(`UCB_SIZE_HI-`UCB_SIZE_LO+1)+(`UCB_BUF_HI-`UCB_BUF_LO+1)+(`UCB_THR_HI-`UCB_THR_LO+1)+1+1
60
61	module ucb_flow_jbi (/AUTOARG/
62	// Outputs
63	ucb_iob_stall, rd_req_vld, wr_req_vld, thr_id_in, buf_id_in,
64	size_in, addr_in, data_in, ack_busy, int_busy, ucb_iob_vld,
65	ucb_iob_data,
66	// Inputs
67	clk, rst_l, iob_ucb_vld, iob_ucb_data, req_acpted, rd_ack_vld,
68	rd_nack_vld, thr_id_out, buf_id_out, data128, data_out, int_vld,
69	int_typ, int_thr_id, dev_id, int_stat, int_vec, iob_ucb_stall
70	);
71	// synopsys template
72
73	parameter IOB_UCB_WIDTH = 32; // data bus width from IOB to UCB
74	parameter UCB_IOB_WIDTH = 8; // data bus width from UCB to IOB
75	parameter REG_WIDTH = 128; // please do not change this parameter
76
77
78	// Globals
79	input clk;
80	input rst_l;
81
82	// Request from IO Bridge
83	input iob_ucb_vld;
84	input [IOB_UCB_WIDTH-1:0] iob_ucb_data;
85	output ucb_iob_stall;
86
87	// Request to local unit
88	output rd_req_vld;
89	output wr_req_vld;
90	output [`UCB_THR_HI-`UCB_THR_LO:0] thr_id_in;
91	output [`UCB_BUF_HI-`UCB_BUF_LO:0] buf_id_in;
92	output [`UCB_SIZE_HI-`UCB_SIZE_LO:0] size_in; // only pertinent to JBI and SPI
93	output [`UCB_ADDR_HI-`UCB_ADDR_LO:0] addr_in;
94	output [`UCB_DATA_HI-`UCB_DATA_LO:0] data_in;
95	input req_acpted;
96
97	// Ack/Nack from local unit
98	input rd_ack_vld;
99	input rd_nack_vld;
100	input [`UCB_THR_HI-`UCB_THR_LO:0] thr_id_out;
101	input [`UCB_BUF_HI-`UCB_BUF_LO:0] buf_id_out;
102	input data128; // set to 1 if data returned is 128 bit
103	input [REG_WIDTH-1:0] data_out;
104	output ack_busy;
105
106	// Interrupt from local unit
107	input int_vld;
108	input [`UCB_PKT_HI-`UCB_PKT_LO:0] int_typ; // interrupt type
109	input [`UCB_THR_HI-`UCB_THR_LO:0] int_thr_id; // interrupt thread ID
110	input [`UCB_INT_DEV_HI-`UCB_INT_DEV_LO:0] dev_id; // interrupt device ID
111	input [`UCB_INT_STAT_HI-`UCB_INT_STAT_LO:0] int_stat; // interrupt status
112	input [`UCB_INT_VEC_HI-`UCB_INT_VEC_LO:0] int_vec; // interrupt vector
113	output int_busy;
114
115	// Output to IO Bridge
116	output ucb_iob_vld;
117	output [UCB_IOB_WIDTH-1:0] ucb_iob_data;
118	input iob_ucb_stall;
119
120	// Local signals
121	wire indata_buf_vld;
122	wire [127:0] indata_buf;
123	wire ucb_iob_stall_a1;
124
125	wire read_pending;
126	wire write_pending;
127
128	wire rd_buf;
129	wire [`UCB_BUF_DEPTH-1:0] buf_head_next;
130	wire [`UCB_BUF_DEPTH-1:0] buf_head;
131	wire wr_buf;
132	wire [`UCB_BUF_DEPTH-1:0] buf_tail_next;
133	wire [`UCB_BUF_DEPTH-1:0] buf_tail;
134	wire buf_full_next;
135	wire buf_full;
136	wire buf_empty_next;
137	wire buf_empty;
138	wire [`UCB_BUF_WIDTH-1:0] req_in;
139	wire buf0_en;
140	wire [`UCB_BUF_WIDTH-1:0] buf0;
141	wire buf1_en;
142	wire [`UCB_BUF_WIDTH-1:0] buf1;
143	wire [`UCB_BUF_WIDTH-1:0] req_out;
144	wire rd_req_vld_nq;
145	wire wr_req_vld_nq;
146
147	wire ack_buf_rd;
148	wire ack_buf_wr;
149	wire ack_buf_vld;
150	wire ack_buf_vld_next;
151	wire ack_buf_is_nack;
152	wire ack_buf_is_data128;
153	wire [`UCB_PKT_HI-`UCB_PKT_LO:0] ack_typ_out;
154	wire [REG_WIDTH+`UCB_BUF_HI-`UCB_PKT_LO:0] ack_buf_in;
155	wire [REG_WIDTH+`UCB_BUF_HI-`UCB_PKT_LO:0] ack_buf;
156	wire [(REG_WIDTH+64)/UCB_IOB_WIDTH-1:0] ack_buf_vec;
157
158	wire int_buf_rd;
159	wire int_buf_wr;
160	wire int_buf_vld;
161	wire int_buf_vld_next;
162	wire [`UCB_INT_VEC_HI-`UCB_PKT_LO:0] int_buf_in;
163	wire [`UCB_INT_VEC_HI-`UCB_PKT_LO:0] int_buf;
164	wire [(REG_WIDTH+64)/UCB_IOB_WIDTH-1:0] int_buf_vec;
165
166	wire int_last_rd;
167	wire outdata_buf_busy;
168	wire outdata_buf_wr;
169	wire [REG_WIDTH+63:0] outdata_buf_in;
170	wire [(REG_WIDTH+64)/UCB_IOB_WIDTH-1:0] outdata_vec_in;
171
172
173	////////////////////////////////////////////////////////////////////////
174	// Code starts here
175	////////////////////////////////////////////////////////////////////////
176	/************************************************************
177	* Inbound Data
178	************************************************************/
179	// Register size is hardcoded to 64 bits here
180	ucb_bus_in #(IOB_UCB_WIDTH,64) ucb_bus_in (.rst_l(rst_l),
181	.clk(clk),
182	.vld(iob_ucb_vld),
183	.data(iob_ucb_data),
184	.stall(ucb_iob_stall),
185	.indata_buf_vld(indata_buf_vld),
186	.indata_buf(indata_buf),
187	.stall_a1(ucb_iob_stall_a1));
188
189
190	/************************************************************
191	* Decode inbound packet type
192	************************************************************/
193	assign read_pending = (indata_buf[`UCB_PKT_HI:`UCB_PKT_LO] ==
194	`UCB_READ_REQ) &
195	indata_buf_vld;
196
197	assign write_pending = (indata_buf[`UCB_PKT_HI:`UCB_PKT_LO] ==
198	`UCB_WRITE_REQ) &
199	indata_buf_vld;
200
201	assign ucb_iob_stall_a1 = (read_pending \| write_pending) & buf_full;
202
203
204	/************************************************************
205	* Inbound buffer
206	************************************************************/
207	// Head pointer
208	assign rd_buf = req_acpted;
209	assign buf_head_next = ~rst_l ? `UCB_BUF_DEPTH'b01 :
210	rd_buf ? {buf_head[`UCB_BUF_DEPTH-2:0],
211	buf_head[`UCB_BUF_DEPTH-1]} :
212	buf_head;
213	dff_ns #(`UCB_BUF_DEPTH) buf_head_ff (.din(buf_head_next),
214	.clk(clk),
215	.q(buf_head));
216
217	// Tail pointer
218	assign wr_buf = (read_pending \|
219	write_pending) &
220	~buf_full;
221	assign buf_tail_next = ~rst_l ? `UCB_BUF_DEPTH'b01 :
222	wr_buf ? {buf_tail[`UCB_BUF_DEPTH-2:0],
223	buf_tail[`UCB_BUF_DEPTH-1]} :
224	buf_tail;
225	dff_ns #(`UCB_BUF_DEPTH) buf_tail_ff (.din(buf_tail_next),
226	.clk(clk),
227	.q(buf_tail));
228
229	// Buffer full
230	assign buf_full_next = (buf_head_next == buf_tail_next) &
231	wr_buf;
232	dffrle_ns #(1) buf_full_ff (.din(buf_full_next),
233	.rst_l(rst_l),
234	.en(rd_buf\|wr_buf),
235	.clk(clk),
236	.q(buf_full));
237
238	// Buffer empty
239	assign buf_empty_next = ((buf_head_next == buf_tail_next) &
240	rd_buf) \| ~rst_l;
241	dffe_ns #(1) buf_empty_ff (.din(buf_empty_next),
242	.en(rd_buf\|wr_buf\|~rst_l),
243	.clk(clk),
244	.q(buf_empty));
245
246
247	assign req_in = {indata_buf[`UCB_DATA_HI:`UCB_DATA_LO],
248	indata_buf[`UCB_ADDR_HI:`UCB_ADDR_LO],
249	indata_buf[`UCB_SIZE_HI:`UCB_SIZE_LO],
250	indata_buf[`UCB_BUF_HI:`UCB_BUF_LO],
251	indata_buf[`UCB_THR_HI:`UCB_THR_LO],
252	write_pending,
253	read_pending};
254
255	// Buffer 0
256	assign buf0_en = buf_tail[0] & wr_buf;
257	dffe_ns #(`UCB_BUF_WIDTH) buf0_ff (.din(req_in),
258	.en(buf0_en),
259	.clk(clk),
260	.q(buf0));
261	// Buffer 1
262	assign buf1_en = buf_tail[1] & wr_buf;
263	dffe_ns #(`UCB_BUF_WIDTH) buf1_ff (.din(req_in),
264	.en(buf1_en),
265	.clk(clk),
266	.q(buf1));
267
268	assign req_out = buf_head[0] ? buf0 :
269	buf_head[1] ? buf1 :
270	{`UCB_BUF_WIDTH{1'b0}};
271
272
273	/************************************************************
274	* Inbound interface to local unit
275	************************************************************/
276	assign {data_in,
277	addr_in,
278	size_in,
279	buf_id_in,
280	thr_id_in,
281	wr_req_vld_nq,
282	rd_req_vld_nq} = req_out;
283
284	assign rd_req_vld = rd_req_vld_nq & ~buf_empty;
285	assign wr_req_vld = wr_req_vld_nq & ~buf_empty;
286
287
288	/************************************************************
289	* Outbound Ack/Nack
290	************************************************************/
291	assign ack_buf_wr = rd_ack_vld \| rd_nack_vld;
292
293	assign ack_buf_vld_next = ack_buf_wr ? 1'b1 :
294	ack_buf_rd ? 1'b0 :
295	ack_buf_vld;
296
297	dffrl_ns #(1) ack_buf_vld_ff (.din(ack_buf_vld_next),
298	.clk(clk),
299	.rst_l(rst_l),
300	.q(ack_buf_vld));
301
302	dffe_ns #(1) ack_buf_is_nack_ff (.din(rd_nack_vld),
303	.en(ack_buf_wr),
304	.clk(clk),
305	.q(ack_buf_is_nack));
306
307	dffe_ns #(1) ack_buf_is_data128_ff (.din(data128),
308	.en(ack_buf_wr),
309	.clk(clk),
310	.q(ack_buf_is_data128));
311
312	assign ack_typ_out = rd_ack_vld ? `UCB_READ_ACK:
313	`UCB_READ_NACK;
314
315
316	assign ack_buf_in = {data_out,
317	buf_id_out,
318	thr_id_out,
319	ack_typ_out};
320
321	dffe_ns #(REG_WIDTH+`UCB_BUF_HI-`UCB_PKT_LO+1) ack_buf_ff (.din(ack_buf_in),
322	.en(ack_buf_wr),
323	.clk(clk),
324	.q(ack_buf));
325
326	assign ack_buf_vec = ack_buf_is_nack ? {{REG_WIDTH/UCB_IOB_WIDTH{1'b0}},
327	{64/UCB_IOB_WIDTH{1'b1}}} :
328	ack_buf_is_data128 ? {(REG_WIDTH+64)/UCB_IOB_WIDTH{1'b1}} :
329	{(64+64)/UCB_IOB_WIDTH{1'b1}};
330
331	assign ack_busy = ack_buf_vld;
332
333
334	/************************************************************
335	* Outbound Interrupt
336	************************************************************/
337	// Assertion: int_buf_wr shoudn't be asserted if int_buf_busy
338	assign int_buf_wr = int_vld;
339
340	assign int_buf_vld_next = int_buf_wr ? 1'b1 :
341	int_buf_rd ? 1'b0 :
342	int_buf_vld;
343
344	dffrl_ns #(1) int_buf_vld_ff (.din(int_buf_vld_next),
345	.clk(clk),
346	.rst_l(rst_l),
347	.q(int_buf_vld));
348
349	assign int_buf_in = {int_vec,
350	int_stat,
351	dev_id,
352	int_thr_id,
353	int_typ};
354
355	dffe_ns #(`UCB_INT_VEC_HI-`UCB_PKT_LO+1) int_buf_ff (.din(int_buf_in),
356	.en(int_buf_wr),
357	.clk(clk),
358	.q(int_buf));
359
360	assign int_buf_vec = {{REG_WIDTH/UCB_IOB_WIDTH{1'b0}},
361	{64/UCB_IOB_WIDTH{1'b1}}};
362
363	assign int_busy = int_buf_vld;
364
365
366	/************************************************************
367	* Outbound ack/interrupt Arbitration
368	************************************************************/
369	dffrle_ns #(1) int_last_rd_ff (.din(int_buf_rd),
370	.en(ack_buf_rd\|int_buf_rd),
371	.rst_l(rst_l),
372	.clk(clk),
373	.q(int_last_rd));
374
375	assign ack_buf_rd = ~outdata_buf_busy & ack_buf_vld &
376	(~int_buf_vld \| int_last_rd);
377
378	assign int_buf_rd = ~outdata_buf_busy & int_buf_vld &
379	(~ack_buf_vld \| ~int_last_rd);
380
381	assign outdata_buf_wr = ack_buf_rd \| int_buf_rd;
382
383	assign outdata_buf_in = ack_buf_rd ? {ack_buf[REG_WIDTH+`UCB_BUF_HI:`UCB_BUF_HI+1],
384	{(`UCB_RSV_HI-`UCB_RSV_LO+1){1'b0}},
385	{(`UCB_ADDR_HI-`UCB_ADDR_LO+1){1'b0}},
386	{(`UCB_SIZE_HI-`UCB_SIZE_LO+1){1'b0}},
387	ack_buf[`UCB_BUF_HI:`UCB_BUF_LO],
388	ack_buf[`UCB_THR_HI:`UCB_THR_LO],
389	ack_buf[`UCB_PKT_HI:`UCB_PKT_LO]}:
390	{{REG_WIDTH{1'b0}},
391	{(`UCB_INT_RSV_HI-`UCB_INT_RSV_LO+1){1'b0}},
392	int_buf[`UCB_INT_VEC_HI:`UCB_INT_VEC_LO],
393	int_buf[`UCB_INT_STAT_HI:`UCB_INT_STAT_LO],
394	int_buf[`UCB_INT_DEV_HI:`UCB_INT_DEV_LO],
395	int_buf[`UCB_THR_HI:`UCB_THR_LO],
396	int_buf[`UCB_PKT_HI:`UCB_PKT_LO]};
397
398	assign outdata_vec_in = ack_buf_rd ? ack_buf_vec :
399	int_buf_vec;
400
401	ucb_bus_out #(UCB_IOB_WIDTH, REG_WIDTH) ucb_bus_out (.rst_l(rst_l),
402	.clk(clk),
403	.outdata_buf_wr(outdata_buf_wr),
404	.outdata_buf_in(outdata_buf_in),
405	.outdata_vec_in(outdata_vec_in),
406	.outdata_buf_busy(outdata_buf_busy),
407	.vld(ucb_iob_vld),
408	.data(ucb_iob_data),
409	.stall(iob_ucb_stall));
410
411
412	`undef UCB_BUF_WIDTH
413
414	endmodule // ucb_flow_jbi
415
416
417	// Local Variables:
418	// verilog-library-directories:(".")
419	// End:
420
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