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sparc_exu_ecl_eccctl.v @ 6

Revision 6, 9.9 KB checked in by pntsvt00, 14 years ago (diff)
versione iniziale opensparc

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1	// ========== Copyright Header Begin ==========================================
2	//
3	// OpenSPARC T1 Processor File: sparc_exu_ecl_eccctl.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: sparc_exu_ecl_eccctl
24	// Description: Implements the control logic for ecc checking.
25	// This includes picking which error to fix (only one fixed per instruction),
26	// enabling the checks, and signalling the errors.
27	*/
28
29	module sparc_exu_ecl_eccctl (/AUTOARG/
30	// Outputs
31	ue_trap_m, ecl_ecc_sel_rs1_m_l, ecl_ecc_sel_rs2_m_l,
32	ecl_ecc_sel_rs3_m_l, ecl_ecc_log_rs1_m, ecl_ecc_log_rs2_m,
33	ecl_ecc_log_rs3_m, ecl_byp_sel_ecc_m, ecl_ecc_rs1_use_rf_e,
34	ecl_ecc_rs2_use_rf_e, ecl_ecc_rs3_use_rf_e, eccctl_wb_rd_m,
35	exu_ifu_ecc_ce_m, exu_ifu_ecc_ue_m, exu_ifu_err_reg_m,
36	ecl_byp_ecc_mask_m_l, exu_ifu_inj_ack, exu_ifu_err_synd_7_m,
37	// Inputs
38	clk, se, rst_tri_en, ecc_ecl_rs1_ce, ecc_ecl_rs1_ue,
39	ecc_ecl_rs2_ce, ecc_ecl_rs2_ue, ecc_ecl_rs3_ce, ecc_ecl_rs3_ue,
40	ecl_byp_rcc_mux2_sel_rf, ecl_byp_rs2_mux2_sel_rf,
41	ecl_byp_rs3_mux2_sel_rf, rs1_vld_e, rs2_vld_e, rs3_vld_e,
42	ifu_exu_rs1_m, ifu_exu_rs2_m, ifu_exu_rs3_m, rml_ecl_cwp_d,
43	ifu_exu_ecc_mask, ifu_exu_inj_irferr, ifu_exu_disable_ce_e,
44	wb_eccctl_spec_wen_next, ifu_exu_nceen_e, ifu_exu_inst_vld_e,
45	rml_ecl_gl_e, cancel_rs3_ecc_e
46	) ;
47	input clk;
48	input se;
49	input rst_tri_en;
50	input ecc_ecl_rs1_ce;
51	input ecc_ecl_rs1_ue;
52	input ecc_ecl_rs2_ce;
53	input ecc_ecl_rs2_ue;
54	input ecc_ecl_rs3_ce;
55	input ecc_ecl_rs3_ue;
56	input ecl_byp_rcc_mux2_sel_rf;
57	input ecl_byp_rs2_mux2_sel_rf;
58	input ecl_byp_rs3_mux2_sel_rf;
59	input rs1_vld_e;
60	input rs2_vld_e;
61	input rs3_vld_e;
62	input [4:0] ifu_exu_rs1_m;
63	input [4:0] ifu_exu_rs2_m;
64	input [4:0] ifu_exu_rs3_m;
65	input [2:0] rml_ecl_cwp_d;
66	input [7:0] ifu_exu_ecc_mask;
67	input ifu_exu_inj_irferr;
68	input ifu_exu_disable_ce_e;
69	input wb_eccctl_spec_wen_next;
70	input ifu_exu_nceen_e;
71	input ifu_exu_inst_vld_e;
72	input [1:0] rml_ecl_gl_e;
73	input cancel_rs3_ecc_e;
74
75	output ue_trap_m;
76	output ecl_ecc_sel_rs1_m_l;
77	output ecl_ecc_sel_rs2_m_l;
78	output ecl_ecc_sel_rs3_m_l;
79	output ecl_ecc_log_rs1_m;
80	output ecl_ecc_log_rs2_m;
81	output ecl_ecc_log_rs3_m;
82	output ecl_byp_sel_ecc_m;
83	output ecl_ecc_rs1_use_rf_e;
84	output ecl_ecc_rs2_use_rf_e;
85	output ecl_ecc_rs3_use_rf_e;
86	output [4:0] eccctl_wb_rd_m;
87	output exu_ifu_ecc_ce_m;
88	output exu_ifu_ecc_ue_m;
89	output [7:0] exu_ifu_err_reg_m;
90	output [7:0] ecl_byp_ecc_mask_m_l;
91	output exu_ifu_inj_ack;
92	output exu_ifu_err_synd_7_m;
93
94	wire sel_rs1_e;
95	wire sel_rs2_e;
96	wire sel_rs3_e;
97	wire sel_rs1_m;
98	wire sel_rs2_m;
99	wire sel_rs3_m;
100	wire safe_sel_rs1_m;
101	wire safe_sel_rs2_m;
102	wire safe_sel_rs3_m;
103	wire [2:0] cwp_e;
104	wire [2:0] cwp_m;
105	wire [1:0] gl_m;
106	wire inj_irferr_m;
107	wire inj_irferr_w;
108	wire detect_ce_e;
109	wire detect_ue_e;
110	wire flag_ecc_ce_e;
111	wire flag_ecc_ue_e;
112	wire [4:0] log_rs_m;
113	wire rs1_ce_m;
114	wire rs1_ue_m;
115	wire rs2_ce_m;
116	wire rs2_ue_m;
117	wire rs3_ue_m;
118	wire rs1_sel_rf_e;
119	wire rs2_sel_rf_e;
120	wire rs3_sel_rf_e;
121	wire vld_rs3_ce_e;
122	wire vld_rs3_ue_e;
123
124	// Store whether rf value was used for ecc checking
125	assign ecl_ecc_rs1_use_rf_e = rs1_sel_rf_e & rs1_vld_e & ifu_exu_inst_vld_e;
126	assign ecl_ecc_rs2_use_rf_e = rs2_sel_rf_e & rs2_vld_e & ifu_exu_inst_vld_e;
127	assign ecl_ecc_rs3_use_rf_e = rs3_sel_rf_e & rs3_vld_e & ifu_exu_inst_vld_e;
128
129	dff_s rs1_rf_dff(.din(ecl_byp_rcc_mux2_sel_rf), .clk(clk),
130	.q(rs1_sel_rf_e), .se(se), .si(), .so());
131	dff_s rs2_rf_dff(.din(ecl_byp_rs2_mux2_sel_rf), .clk(clk),
132	.q(rs2_sel_rf_e), .se(se), .si(), .so());
133	dff_s rs3_rf_dff(.din(ecl_byp_rs3_mux2_sel_rf), .clk(clk),
134	.q(rs3_sel_rf_e), .se(se), .si(), .so());
135
136	assign vld_rs3_ce_e = ecc_ecl_rs3_ce & ~cancel_rs3_ecc_e;
137	assign vld_rs3_ue_e = ecc_ecl_rs3_ue & ~cancel_rs3_ecc_e;
138	assign detect_ce_e = (ecc_ecl_rs1_ce \| ecc_ecl_rs2_ce \| vld_rs3_ce_e);
139	assign detect_ue_e = (ecc_ecl_rs1_ue \| ecc_ecl_rs2_ue \| vld_rs3_ue_e);
140	// Generate trap signals
141	assign flag_ecc_ue_e = (detect_ue_e \|
142	detect_ce_e & ifu_exu_disable_ce_e); // convert ce to ue
143	assign flag_ecc_ce_e = detect_ce_e & ~ifu_exu_disable_ce_e;
144
145	// Pass along signal to fix errors
146	dff_s byp_sel_ecc_e2m(.din(flag_ecc_ce_e), .clk(clk), .q(ecl_byp_sel_ecc_m),
147	.se(se), .si(), .so());
148	dff_s ecc_ue_e2m(.din(flag_ecc_ue_e), .clk(clk), .q(exu_ifu_ecc_ue_m),
149	.se(se), .si(), .so());
150	dff_s nceen_e2m(.din(ifu_exu_nceen_e), .clk(clk), .q(nceen_m), .se(se), .si(), .so());
151	assign ue_trap_m = exu_ifu_ecc_ue_m & nceen_m;
152	// only report ce (and replay) if no ue
153	assign exu_ifu_ecc_ce_m = ecl_byp_sel_ecc_m & ~exu_ifu_ecc_ue_m;
154	// if globals then report %gl. otherwise log %cwp
155	assign exu_ifu_err_reg_m[7:5] = (~log_rs_m[4] & ~log_rs_m[3])? {1'b0,gl_m[1:0]}: cwp_m[2:0];
156	assign exu_ifu_err_reg_m[4:0] = log_rs_m[4:0];
157
158	// Control for mux to ecc decoder (just ce)
159	assign sel_rs1_e = ecc_ecl_rs1_ce;
160	assign sel_rs2_e = ~ecc_ecl_rs1_ce & ecc_ecl_rs2_ce;
161	assign sel_rs3_e = ~(ecc_ecl_rs1_ce \| ecc_ecl_rs2_ce);
162
163	dff_s ecc_sel_rs1_dff(.din(sel_rs1_e), .clk(clk), .q(sel_rs1_m),
164	.se(se), .si(), .so());
165	dff_s ecc_sel_rs2_dff(.din(sel_rs2_e), .clk(clk), .q(sel_rs2_m),
166	.se(se), .si(), .so());
167	dff_s ecc_sel_rs3_dff(.din(sel_rs3_e), .clk(clk), .q(sel_rs3_m),
168	.se(se), .si(), .so());
169	// Make selects one hot
170	assign safe_sel_rs1_m = sel_rs1_m \| rst_tri_en;
171	assign safe_sel_rs2_m = sel_rs2_m & ~rst_tri_en;
172	assign safe_sel_rs3_m = sel_rs3_m & ~rst_tri_en;
173	assign ecl_ecc_sel_rs1_m_l = ~safe_sel_rs1_m;
174	assign ecl_ecc_sel_rs2_m_l = ~safe_sel_rs2_m;
175	assign ecl_ecc_sel_rs3_m_l = ~safe_sel_rs3_m;
176
177	// Mux to generate the rd for fixed value
178	mux3ds #(5) ecc_rd_mux(.dout(eccctl_wb_rd_m[4:0]),
179	.in0(ifu_exu_rs1_m[4:0]),
180	.in1(ifu_exu_rs2_m[4:0]),
181	.in2(ifu_exu_rs3_m[4:0]),
182	.sel0(safe_sel_rs1_m),
183	.sel1(safe_sel_rs2_m),
184	.sel2(safe_sel_rs3_m));
185
186	// Control for muxes for logging errors
187	assign ecl_ecc_log_rs1_m = rs1_ue_m \| (rs1_ce_m & ~rs2_ue_m & ~rs3_ue_m);
188	assign ecl_ecc_log_rs2_m = (rs2_ue_m & ~rs1_ue_m) \| (rs2_ce_m & ~rs1_ue_m & ~rs1_ce_m & ~rs3_ue_m);
189	assign ecl_ecc_log_rs3_m = ~(ecl_ecc_log_rs1_m \| ecl_ecc_log_rs2_m);
190	// Mux to generate the rs for error_logging
191	mux3ds #(5) ecc_rdlog_mux(.dout(log_rs_m[4:0]),
192	.in0(ifu_exu_rs1_m[4:0]),
193	.in1(ifu_exu_rs2_m[4:0]),
194	.in2(ifu_exu_rs3_m[4:0]),
195	.sel0(ecl_ecc_log_rs1_m),
196	.sel1(ecl_ecc_log_rs2_m),
197	.sel2(ecl_ecc_log_rs3_m));
198
199	dff_s #(3) cwp_d2e(.din(rml_ecl_cwp_d[2:0]), .clk(clk), .q(cwp_e[2:0]),
200	.se(se), .si(), .so());
201	dff_s #(3) cwp_e2m(.din(cwp_e[2:0]), .clk(clk), .q(cwp_m[2:0]),
202	.se(se), .si(), .so());
203	dff_s #(2) gl_e2m(.din(rml_ecl_gl_e[1:0]), .clk(clk), .q(gl_m[1:0]),
204	.se(se), .si(), .so());
205
206	// Syndrome needs to know if it was really a ce or ue
207	mux3ds ecc_synd7_mux(.dout(exu_ifu_err_synd_7_m),
208	.in0(rs1_ce_m),
209	.in1(rs2_ce_m),
210	.in2(~rs3_ue_m),
211	.sel0(ecl_ecc_log_rs1_m),
212	.sel1(ecl_ecc_log_rs2_m),
213	.sel2(ecl_ecc_log_rs3_m));
214
215
216	// signals for injecting errors
217	// inject error if it is enabled and a write will probably happen
218	// (don't bother to check kill_w
219	assign inj_irferr_m = wb_eccctl_spec_wen_next & ifu_exu_inj_irferr;
220	assign ecl_byp_ecc_mask_m_l = ~(ifu_exu_ecc_mask[7:0] & {8{inj_irferr_m}});
221	dff_s inj_irferr_m2w(.din(inj_irferr_m), .clk(clk), .q(inj_irferr_w),
222	.se(se), .si(), .so());
223	assign exu_ifu_inj_ack = inj_irferr_w;
224
225	// Pipeline Flops
226	dff_s rs1_ue_e2m(.din(ecc_ecl_rs1_ue), .clk(clk), .q(rs1_ue_m), .se(se), .si(), .so());
227	dff_s rs1_ce_e2m(.din(ecc_ecl_rs1_ce), .clk(clk), .q(rs1_ce_m), .se(se), .si(), .so());
228	dff_s rs2_ue_e2m(.din(ecc_ecl_rs2_ue), .clk(clk), .q(rs2_ue_m), .se(se), .si(), .so());
229	dff_s rs2_ce_e2m(.din(ecc_ecl_rs2_ce), .clk(clk), .q(rs2_ce_m), .se(se), .si(), .so());
230	dff_s rs3_ue_e2m(.din(vld_rs3_ue_e), .clk(clk), .q(rs3_ue_m), .se(se), .si(), .so());
231
232	endmodule // sparc_exu_ecl_eccctl

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source: XOpenSparcT1/trunk/T1-CPU/exu/sparc_exu_ecl_eccctl.v @ 6

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