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bw_r_rf32x80.v @ 6

Revision 6, 15.0 KB checked in by pntsvt00, 14 years ago (diff)
versione iniziale opensparc

Rev	Line
[6]	1	// ========== Copyright Header Begin ==========================================
	2	//
	3	// OpenSPARC T1 Processor File: bw_r_rf32x80.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	// Description: Trap Stack Array
	24	// - Dual-Ported.
	25	// - Port1 - Write Port; Used by wrpr, trap insertion.
	26	// Write occurs in W Stage. (M1:M2:W).
	27	// - Port2 - Read Port; Used by rdpr, done/retry.
	28	// Read occurs in E Stage.
	29	// - Arranged as 6(trap-levels/thread) x 4 threads = 24 entries.
	30	// Trap-level and thread id used to index array.
	31	*/
	32	////////////////////////////////////////////////////////////////////////
	33	// Local header file includes / local defines
	34	////////////////////////////////////////////////////////////////////////
	35
	36	//FPGA_SYN enables all FPGA related modifications
	37	`ifdef FPGA_SYN
	38	`define FPGA_SYN_32x80
	39	`endif
	40
	41	`ifdef FPGA_SYN_32x80
	42	module bw_r_rf32x80 (/AUTOARG/
	43	// Outputs
	44	dout, so,
	45	// Inputs
	46	rd_en, rd_adr, wr_en, nib_wr_en, wr_adr, din,
	47	si, se, sehold, rclk, rst_tri_en, reset_l);
	48
	49	parameter NUM_TPL = 6 ; // 6 supported trap levels.
	50	parameter NUM_ENTRIES = 32 ; // 8 entries per thread
	51
	52	/AUTOINPUT/
	53	// Beginning of automatic inputs (from unused autoinst inputs)
	54	// End of automatics
	55	input [4:0] rd_adr; // read adr.
	56	input rd_en; // read pointer
	57	input wr_en; // write pointer vld
	58	input [19:0] nib_wr_en; // enable write of a byte in tsa.
	59	input [4:0] wr_adr; // write adr.
	60	input [79:0] din; // wr data for tsa.
	61	input rclk; // clock
	62	input reset_l; // active low reset
	63	input rst_tri_en; // reset and scan
	64	input sehold; // scan hold
	65	input si; // scan in
	66	input se; // scan enable
	67
	68	/AUTOOUTPUT/
	69	// Beginning of automatic outputs (from unused autoinst outputs)
	70	// End of automatics
	71	output [79:0] dout ; // rd data for tsa.
	72	output so ; // scan out write
	73
	74	wire [79:0] dout;
	75	wire clk;
	76	wire wr_vld, wr_vld_d1;
	77
	78	reg [79:0] tsa_rdata;
	79	reg [79:0] local_dout;
	80	// reg so;
	81
	82	integer i,j;
	83
	84	wire [79:0] write_mask;
	85	wire [79:0] write_mask_d1;
	86	//
	87	// added for atpg support
	88	wire [4:0] sehold_rd_adr; // output of sehold mux - read adr.
	89	wire sehold_rd_en; // output of sehold mux - read pointer
	90	wire sehold_wr_en; // output of sehold mux - write pointer vld
	91	wire [19:0] sehold_nib_wr_en; // output of sehold mux - enable write of a byte in tsa.
	92	wire [4:0] sehold_wr_adr; // output of sehold mux - write adr.
	93	wire [79:0] sehold_din; // wr data for tsa.
	94
	95	reg [4:0] rd_adr_d1; // flopped read adr.
	96	wire rd_en_d1; // flopped read pointer
	97	wire wr_en_d1; // flopped write pointer vld
	98	wire [19:0] nib_wr_en_d1; // flopped enable write of a byte in tsa.
	99	reg [4:0] wr_adr_d1; // flopped write adr.
	100	wire [79:0] din_d1; // flopped wr data for tsa.
	101	// wire [5:0] local_scan1;
	102	// wire [25:0] local_scan2;
	103	// wire [78:0] local_scan3;
	104
	105	//
	106	// creating local clock
	107	assign clk=rclk;
	108	//
	109	//=========================================================================================
	110	// support for atpg pattern generation
	111	//=========================================================================================
	112	//
	113	// read controls
	114	dp_mux2es #(1) mux_sehold_rd_ctrl (
	115	.in0 ({rd_en}),
	116	.in1 ({rd_en_d1}),
	117	.sel (sehold),
	118	.dout ({sehold_rd_en})
	119	);
	120	//
	121	// modified to match circuit implementataion
	122	dff_s #(1) dff_rd_ctrl_d1(
	123	.din ({sehold_rd_en}),
	124	.q ({rd_en_d1}),
	125	.clk (clk),
	126	.se (se),
	127	.si (),
	128	.so ()
	129	);
	130	//
	131	// write controls
	132	// modified to match circuit implementataion
	133	dp_mux2es #(21) mux_sehold_wr_ctrl (
	134	.in0 ({nib_wr_en[19:0], wr_en}),
	135	.in1 ({nib_wr_en_d1[19:0], wr_en_d1}),
	136	.sel (sehold),
	137	.dout ({sehold_nib_wr_en[19:0], sehold_wr_en})
	138	);
	139
	140	// modified to match circuit implementataion
	141	dff_s #(21) dff_wr_ctrl_d1(
	142	.din ({sehold_nib_wr_en[19:0], sehold_wr_en}),
	143	.q ({nib_wr_en_d1[19:0], wr_en_d1}),
	144	.clk (clk),
	145	.se (se),
	146	.si (),
	147	.so ()
	148	);
	149	//
	150	// write data
	151	dp_mux2es #(80) mux_sehold_din (
	152	.in0 (din[79:0]),
	153	.in1 (din_d1[79:0]),
	154	.sel (sehold),
	155	.dout (sehold_din[79:0])
	156	);
	157
	158	dff_s #(80) dff_din_d1(
	159	.din (sehold_din[79:0]),
	160	.q (din_d1[79:0]),
	161	.clk (clk),
	162	.se (se),
	163	.si (),
	164	.so ()
	165	);
	166
	167	//
	168	// diable write to register file during reset or scan
	169	// assign wr_vld = sehold_wr_en & ~rst_tri_en & reset_l;
	170	assign wr_vld = sehold_wr_en & ~rst_tri_en;
	171	assign wr_vld_d1 = wr_en_d1 & ~rst_tri_en;
	172
	173	// always @ (posedge clk)
	174	// begin
	175	// so <= 1'bx;
	176	// end
	177
	178	//=========================================================================================
	179	// generate wordlines
	180	//=========================================================================================
	181
	182	// Word-Line Generation skipped. Implicit in read and write.
	183
	184	//=========================================================================================
	185	// write or read to/from memory
	186	//=========================================================================================
	187	// creating the write mask from the nibble enable controls
	188
	189	assign write_mask[79:0] =
	190	{{4{sehold_nib_wr_en[19]}},
	191	{4{sehold_nib_wr_en[18]}},
	192	{4{sehold_nib_wr_en[17]}},
	193	{4{sehold_nib_wr_en[16]}},
	194	{4{sehold_nib_wr_en[15]}},
	195	{4{sehold_nib_wr_en[14]}},
	196	{4{sehold_nib_wr_en[13]}},
	197	{4{sehold_nib_wr_en[12]}},
	198	{4{sehold_nib_wr_en[11]}},
	199	{4{sehold_nib_wr_en[10]}},
	200	{4{sehold_nib_wr_en[9]}},
	201	{4{sehold_nib_wr_en[8]}},
	202	{4{sehold_nib_wr_en[7]}},
	203	{4{sehold_nib_wr_en[6]}},
	204	{4{sehold_nib_wr_en[5]}},
	205	{4{sehold_nib_wr_en[4]}},
	206	{4{sehold_nib_wr_en[3]}},
	207	{4{sehold_nib_wr_en[2]}},
	208	{4{sehold_nib_wr_en[1]}},
	209	{4{sehold_nib_wr_en[0]}}
	210	};
	211
	212	assign write_mask_d1[79:0] =
	213	{{4{nib_wr_en_d1[19]}},
	214	{4{nib_wr_en_d1[18]}},
	215	{4{nib_wr_en_d1[17]}},
	216	{4{nib_wr_en_d1[16]}},
	217	{4{nib_wr_en_d1[15]}},
	218	{4{nib_wr_en_d1[14]}},
	219	{4{nib_wr_en_d1[13]}},
	220	{4{nib_wr_en_d1[12]}},
	221	{4{nib_wr_en_d1[11]}},
	222	{4{nib_wr_en_d1[10]}},
	223	{4{nib_wr_en_d1[9]}},
	224	{4{nib_wr_en_d1[8]}},
	225	{4{nib_wr_en_d1[7]}},
	226	{4{nib_wr_en_d1[6]}},
	227	{4{nib_wr_en_d1[5]}},
	228	{4{nib_wr_en_d1[4]}},
	229	{4{nib_wr_en_d1[3]}},
	230	{4{nib_wr_en_d1[2]}},
	231	{4{nib_wr_en_d1[1]}},
	232	{4{nib_wr_en_d1[0]}}
	233	};
	234
	235	reg [79:0] tsa_mem [NUM_ENTRIES-1:0] /* synthesis syn_ramstyle = block_ram syn_ramstyle = no_rw_check */ ;
	236
	237	reg [79:0] temp_tlvl;
	238	wire [79:0] temp_tlvl2;
	239
	240
	241
	242	always @(posedge clk) begin
	243	rd_adr_d1 <= sehold_rd_adr;
	244	wr_adr_d1 <= sehold_wr_adr;
	245	end
	246
	247	assign sehold_wr_adr = sehold ? wr_adr_d1 : wr_adr;
	248	assign sehold_rd_adr = sehold ? rd_adr_d1 : rd_adr;
	249
	250	assign temp_tlvl2 = tsa_mem[sehold_rd_adr[4:0]];
	251
	252	always @(posedge clk)
	253	if(~reset_l)
	254	local_dout[79:0] <= 80'b0;
	255	else
	256	if (sehold_rd_en)
	257	local_dout[79:0] <= temp_tlvl2;
	258
	259	always @ ( posedge clk) begin
	260	temp_tlvl[79:0] = tsa_mem[sehold_wr_adr];
	261	if (wr_vld & reset_l) begin
	262	tsa_mem[sehold_wr_adr] = (temp_tlvl[79:0] & ~write_mask[79:0]) \| (sehold_din[79:0] & write_mask[79:0]) ;
	263	end
	264	end
	265
	266
	267	assign dout[79:0] = local_dout;
	268
	269
	270
	271	endmodule
	272
	273	`else
	274
	275	module bw_r_rf32x80 (/AUTOARG/
	276	// Outputs
	277	dout, so,
	278	// Inputs
	279	rd_en, rd_adr, wr_en, nib_wr_en, wr_adr, din,
	280	si, se, sehold, rclk, rst_tri_en, reset_l);
	281
	282	parameter NUM_TPL = 6 ; // 6 supported trap levels.
	283	parameter NUM_ENTRIES = 32 ; // 8 entries per thread
	284
	285	/AUTOINPUT/
	286	// Beginning of automatic inputs (from unused autoinst inputs)
	287	// End of automatics
	288	input [4:0] rd_adr; // read adr.
	289	input rd_en; // read pointer
	290	input wr_en; // write pointer vld
	291	input [19:0] nib_wr_en; // enable write of a byte in tsa.
	292	input [4:0] wr_adr; // write adr.
	293	input [79:0] din; // wr data for tsa.
	294	input rclk; // clock
	295	input reset_l; // active low reset
	296	input rst_tri_en; // reset and scan
	297	input sehold; // scan hold
	298	input si; // scan in
	299	input se; // scan enable
	300
	301	/AUTOOUTPUT/
	302	// Beginning of automatic outputs (from unused autoinst outputs)
	303	// End of automatics
	304	output [79:0] dout ; // rd data for tsa.
	305	output so ; // scan out write
	306
	307	wire [79:0] dout;
	308	wire clk;
	309	wire wr_vld, wr_vld_d1;
	310
	311	reg [79:0] tsa_mem [NUM_ENTRIES-1:0];
	312	reg [79:0] tsa_rdata;
	313	reg [79:0] local_dout;
	314	reg [79:0] temp_tlvl;
	315	// reg so;
	316
	317	integer i,j;
	318
	319	wire [79:0] write_mask;
	320	wire [79:0] write_mask_d1;
	321	//
	322	// added for atpg support
	323	wire [4:0] sehold_rd_adr; // output of sehold mux - read adr.
	324	wire sehold_rd_en; // output of sehold mux - read pointer
	325	wire sehold_wr_en; // output of sehold mux - write pointer vld
	326	wire [19:0] sehold_nib_wr_en; // output of sehold mux - enable write of a byte in tsa.
	327	wire [4:0] sehold_wr_adr; // output of sehold mux - write adr.
	328	wire [79:0] sehold_din; // wr data for tsa.
	329
	330	wire [4:0] rd_adr_d1; // flopped read adr.
	331	wire rd_en_d1; // flopped read pointer
	332	wire wr_en_d1; // flopped write pointer vld
	333	wire [19:0] nib_wr_en_d1; // flopped enable write of a byte in tsa.
	334	wire [4:0] wr_adr_d1; // flopped write adr.
	335	wire [79:0] din_d1; // flopped wr data for tsa.
	336	// wire [5:0] local_scan1;
	337	// wire [25:0] local_scan2;
	338	// wire [78:0] local_scan3;
	339
	340	//
	341	// creating local clock
	342	assign clk=rclk;
	343	//
	344	//=========================================================================================
	345	// support for atpg pattern generation
	346	//=========================================================================================
	347	//
	348	// read controls
	349	dp_mux2es #(6) mux_sehold_rd_ctrl (
	350	.in0 ({rd_adr[4:0], rd_en}),
	351	.in1 ({rd_adr_d1[4:0], rd_en_d1}),
	352	.sel (sehold),
	353	.dout ({sehold_rd_adr[4:0],sehold_rd_en})
	354	);
	355	//
	356	// modified to match circuit implementataion
	357	dff_s #(6) dff_rd_ctrl_d1(
	358	.din ({sehold_rd_adr[4:0], sehold_rd_en}),
	359	.q ({rd_adr_d1[4:0], rd_en_d1}),
	360	.clk (clk),
	361	.se (se),
	362	.si (),
	363	.so ()
	364	);
	365	//
	366	// write controls
	367	// modified to match circuit implementataion
	368	dp_mux2es #(26) mux_sehold_wr_ctrl (
	369	.in0 ({nib_wr_en[19:0], wr_adr[4:0], wr_en}),
	370	.in1 ({nib_wr_en_d1[19:0], wr_adr_d1[4:0], wr_en_d1}),
	371	.sel (sehold),
	372	.dout ({sehold_nib_wr_en[19:0], sehold_wr_adr[4:0],sehold_wr_en})
	373	);
	374
	375	// modified to match circuit implementataion
	376	dff_s #(26) dff_wr_ctrl_d1(
	377	.din ({sehold_nib_wr_en[19:0], sehold_wr_adr[4:0], sehold_wr_en}),
	378	.q ({nib_wr_en_d1[19:0], wr_adr_d1[4:0], wr_en_d1}),
	379	.clk (clk),
	380	.se (se),
	381	.si (),
	382	.so ()
	383	);
	384	//
	385	// write data
	386	dp_mux2es #(80) mux_sehold_din (
	387	.in0 (din[79:0]),
	388	.in1 (din_d1[79:0]),
	389	.sel (sehold),
	390	.dout (sehold_din[79:0])
	391	);
	392
	393	dff_s #(80) dff_din_d1(
	394	.din (sehold_din[79:0]),
	395	.q (din_d1[79:0]),
	396	.clk (clk),
	397	.se (se),
	398	.si (),
	399	.so ()
	400	);
	401
	402	//
	403	// diable write to register file during reset or scan
	404	// assign wr_vld = sehold_wr_en & ~rst_tri_en & reset_l;
	405	assign wr_vld = sehold_wr_en & ~rst_tri_en;
	406	assign wr_vld_d1 = wr_en_d1 & ~rst_tri_en;
	407
	408	// always @ (posedge clk)
	409	// begin
	410	// so <= 1'bx;
	411	// end
	412
	413	//=========================================================================================
	414	// generate wordlines
	415	//=========================================================================================
	416
	417	// Word-Line Generation skipped. Implicit in read and write.
	418
	419	//=========================================================================================
	420	// write or read to/from memory
	421	//=========================================================================================
	422	// creating the write mask from the nibble enable controls
	423
	424	assign write_mask[79:0] =
	425	{{4{sehold_nib_wr_en[19]}},
	426	{4{sehold_nib_wr_en[18]}},
	427	{4{sehold_nib_wr_en[17]}},
	428	{4{sehold_nib_wr_en[16]}},
	429	{4{sehold_nib_wr_en[15]}},
	430	{4{sehold_nib_wr_en[14]}},
	431	{4{sehold_nib_wr_en[13]}},
	432	{4{sehold_nib_wr_en[12]}},
	433	{4{sehold_nib_wr_en[11]}},
	434	{4{sehold_nib_wr_en[10]}},
	435	{4{sehold_nib_wr_en[9]}},
	436	{4{sehold_nib_wr_en[8]}},
	437	{4{sehold_nib_wr_en[7]}},
	438	{4{sehold_nib_wr_en[6]}},
	439	{4{sehold_nib_wr_en[5]}},
	440	{4{sehold_nib_wr_en[4]}},
	441	{4{sehold_nib_wr_en[3]}},
	442	{4{sehold_nib_wr_en[2]}},
	443	{4{sehold_nib_wr_en[1]}},
	444	{4{sehold_nib_wr_en[0]}}
	445	};
	446
	447	assign write_mask_d1[79:0] =
	448	{{4{nib_wr_en_d1[19]}},
	449	{4{nib_wr_en_d1[18]}},
	450	{4{nib_wr_en_d1[17]}},
	451	{4{nib_wr_en_d1[16]}},
	452	{4{nib_wr_en_d1[15]}},
	453	{4{nib_wr_en_d1[14]}},
	454	{4{nib_wr_en_d1[13]}},
	455	{4{nib_wr_en_d1[12]}},
	456	{4{nib_wr_en_d1[11]}},
	457	{4{nib_wr_en_d1[10]}},
	458	{4{nib_wr_en_d1[9]}},
	459	{4{nib_wr_en_d1[8]}},
	460	{4{nib_wr_en_d1[7]}},
	461	{4{nib_wr_en_d1[6]}},
	462	{4{nib_wr_en_d1[5]}},
	463	{4{nib_wr_en_d1[4]}},
	464	{4{nib_wr_en_d1[3]}},
	465	{4{nib_wr_en_d1[2]}},
	466	{4{nib_wr_en_d1[1]}},
	467	{4{nib_wr_en_d1[0]}}
	468	};
	469
	470	always @ ( negedge reset_l)
	471	begin
	472	local_dout[79:0] <= 80'h0;
	473	end
	474
	475	always @ ( posedge reset_l)
	476	begin
	477	if (rd_en_d1 & clk)
	478	begin
	479	if (wr_vld_d1 & (wr_adr_d1[4:0] == rd_adr_d1[4:0]) )
	480	local_dout[79:0] <= 80'hx;
	481	else
	482	for (j=0;j<NUM_ENTRIES;j=j+1)
	483	begin
	484	if (rd_adr_d1[4:0] == j)
	485	local_dout[79:0] <= tsa_mem[j] ;
	486	end
	487	end
	488	end
	489
	490
	491
	492
	493	always @ ( posedge reset_l)
	494	begin
	495	if (wr_vld_d1 & clk)
	496	for (i=0;i<NUM_ENTRIES;i=i+1)
	497	begin
	498	if (wr_adr_d1[4:0] == i)
	499	begin
	500	// read
	501	temp_tlvl[79:0] = tsa_mem[i];
	502	// modify & write
	503	tsa_mem[i] =
	504	(temp_tlvl[79:0] & ~write_mask_d1[79:0]) \|
	505	(din_d1[79:0] & write_mask_d1[79:0]) ;
	506	end
	507	end
	508	end
	509
	510
	511	always @ ( posedge clk)
	512	begin
	513	if (wr_vld & reset_l)
	514	for (i=0;i<NUM_ENTRIES;i=i+1)
	515	begin
	516	if (sehold_wr_adr[4:0] == i)
	517	begin
	518	// read
	519	temp_tlvl[79:0] = tsa_mem[i];
	520	// modify & write
	521	tsa_mem[i] =
	522	(temp_tlvl[79:0] & ~write_mask[79:0]) \|
	523	(sehold_din[79:0] & write_mask[79:0]) ;
	524	end
	525	end
	526	end
	527
	528	always @ ( posedge clk )
	529	begin
	530	begin
	531	if (sehold_rd_en & reset_l)
	532	begin
	533	if (wr_vld & (sehold_wr_adr[4:0] == sehold_rd_adr[4:0]) )
	534	local_dout[79:0] <= 80'hx;
	535	else
	536	for (j=0;j<NUM_ENTRIES;j=j+1)
	537	begin
	538	if (sehold_rd_adr[4:0] == j)
	539	local_dout[79:0] <= tsa_mem[j] ;
	540	end
	541	end
	542	end
	543	end
	544
	545	assign dout[79:0] = local_dout[79:0];
	546
	547
	548	endmodule
	549	`endif
	550

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