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[/] [sparc64soc/] [trunk/] [T1-CPU/] [spu/] [spu_mast.v] - Blame information for rev 8

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1 2 dmitryr
// ========== Copyright Header Begin ==========================================
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// 
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// OpenSPARC T1 Processor File: spu_mast.v
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// Copyright (c) 2006 Sun Microsystems, Inc.  All Rights Reserved.
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// DO NOT ALTER OR REMOVE COPYRIGHT NOTICES.
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// 
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// The above named program is free software; you can redistribute it and/or
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// modify it under the terms of the GNU General Public
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// License version 2 as published by the Free Software Foundation.
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// 
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// The above named program is distributed in the hope that it will be 
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// useful, but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
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// General Public License for more details.
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// 
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// You should have received a copy of the GNU General Public
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// License along with this work; if not, write to the Free Software
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// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA.
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// 
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// ========== Copyright Header End ============================================
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////////////////////////////////////////////////////////////////////////
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/*
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//      Description:   state machine to do stores to L2.
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*/
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////////////////////////////////////////////////////////////////////////
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module spu_mast (
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/*outputs*/
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spu_mast_maaddr_addrinc,
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spu_mast_memren,
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spu_mast_stbuf_wen,
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spu_mast_mpa_addrinc,
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spu_mast_streq,
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spu_mast_done_set,
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/*inputs*/
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spu_mactl_iss_pulse_dly,
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mactl_stop,
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streq_ack,
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len_neqz,
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spu_wen_allma_stacks_ok,
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spu_mactl_perr_set,
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spu_mactl_stxa_force_abort,
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se,
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reset,
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rclk);
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input reset;
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input rclk;
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input se;
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input spu_mactl_iss_pulse_dly;
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input mactl_stop;
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input streq_ack;
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input len_neqz;
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input spu_wen_allma_stacks_ok;
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input spu_mactl_perr_set;
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input spu_mactl_stxa_force_abort;
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// -----------------------------------------------------------------
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output spu_mast_maaddr_addrinc;
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output spu_mast_memren;
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output spu_mast_stbuf_wen;
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output spu_mast_mpa_addrinc;
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output spu_mast_streq;
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output spu_mast_done_set;
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// -----------------------------------------------------------------
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// -----------------------------------------------------------------
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wire spu_mast_st_done,tr2rdmem_frm_wait4stdrain;
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wire ok_to_signal_cmplt;
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wire start_set;
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wire spu_mast_allow_rdmem;
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wire [1:0] rd_cntr_add,rd_cntr_q;
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wire tr2laststreq_frm_wait4stdrain;
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wire local_kill_abort;
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// -----------------------------------------------------------------
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wire streq_ack_dly;
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dff_s    #(1) streq_ack_ff (
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        .din(streq_ack) ,
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        .q(streq_ack_dly),
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        .clk (rclk), .se(se), .si(), .so());
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// -----------------------------------------------------------------
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// -----------------------------------------------------------------
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// -----------------------------------------------------------------
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// we need a state set to indcate st is done, and when an
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// masync gets issued later, then the load asi is returned.
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wire spu_mast_done_wen = (spu_mast_st_done | local_kill_abort) & mactl_stop;
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wire spu_mast_done_rst = reset | spu_mactl_iss_pulse_dly;
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wire spu_mast_done_set_q;
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dffre_s    #(1) spu_mast_done_ff (
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        .din(1'b1) ,
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        .q(spu_mast_done_set_q),
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        .en(spu_mast_done_wen),
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        .rst(spu_mast_done_rst), .clk (rclk), .se(se), .si(), .so());
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assign spu_mast_done_set = spu_mast_done_set_q & ok_to_signal_cmplt;
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116
 
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// -----------------------------------------------------------------
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// -----------------------------------------------------------------
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// added the following dly to fix bug5212. I had added a flop to lsu_spu_ldst_ack to
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// the logic to increment the store req in spu_wen ack_cmplt counter to prevent
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// introducing a timing path. Now in the case if an ma_store has a length 1, then
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// the done_set gets asserted a cycle before the store ack incrementer increments.
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// So now i have to delay the done_set by a cycle so that the incrementer has
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// seen a store request by that time and the counter is no longer zero.
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wire spu_mast_done_wen_dly;
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dff_s    #(1) spu_mast_done_wen_ff (
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        .din(spu_mast_done_wen) ,
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        .q(spu_mast_done_wen_dly),
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        .clk (rclk), .se(se), .si(), .so());
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132
dffre_s    #(1) spu_mast_done_stack_ff (
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        .din(1'b1) ,
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        .q(spu_mast_done_set_stack),
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        .en(spu_mast_done_wen_dly),
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        .rst(spu_mast_done_rst), .clk (rclk), .se(se), .si(), .so());
137
 
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assign ok_to_signal_cmplt = spu_wen_allma_stacks_ok & spu_mast_done_set_stack;
139
 
140
 
141
// -----------------------------------------------------------------
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// -----------------------------------------------------------------
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// -----------------------------------------------------------------
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// -----------------------------------------------------------------
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// -----------------------------------------------------------------
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// -----------------------------------------------------------------
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wire  state_reset = reset | local_kill_abort;
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// -------------------------------------------------------------------------
149
dff_s    #(1) idle_state_ff (
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        .din(nxt_idle_state) ,
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        .q(cur_idle_state),
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        .clk (rclk), .se(se), .si(), .so());
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154
dffr_s  #(1) rdmem_state_ff (
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        .din(nxt_rdmem_state) ,
156
        .q(cur_rdmem_state),
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        .rst(state_reset), .clk (rclk), .se(se), .si(), .so());
158
 
159
dffr_s  #(1) wait4stdrain_state_ff (
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        .din(nxt_wait4stdrain_state) ,
161
        .q(cur_wait4stdrain_state),
162
        .rst(state_reset), .clk (rclk), .se(se), .si(), .so());
163
 
164
dffr_s  #(1) laststreq_state_ff (
165
        .din(nxt_laststreq_state) ,
166
        .q(cur_laststreq_state),
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        .rst(state_reset), .clk (rclk), .se(se), .si(), .so());
168
 
169
// -------------------------------------------------------------------------
170
// -------------------------------------------------------------------------
171
wire start_stop = spu_mactl_iss_pulse_dly & mactl_stop;
172
 
173
// -------------------------------------------------------------------------
174
//  transition to idle state.
175
 
176
/*
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assign spu_mast_st_done = cur_wait4stdrain_state & streq_ack &
178
                                (~len_neqz | spu_mactl_stxa_force_abort);
179
*/
180
 
181
 
182
assign spu_mast_st_done =
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                        //((cur_wait4stdrain_state & ~len_neqz & start_set) |
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                        ((cur_wait4stdrain_state & ~len_neqz & rd_cntr_q[0]) |
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                          cur_laststreq_state) & streq_ack ;
186
 
187
 
188
assign  nxt_idle_state = (
189
                         state_reset | spu_mast_st_done |
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                         (cur_idle_state & ~start_stop));
191
 
192
 
193
wire tr2rdmem_frm_idle = cur_idle_state & start_stop;
194
 
195
// this delay is because spu_mast_memren is based on nxt_rdmem_state
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// and it happens before cur_idle_state goes to zero.
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wire dly_tr2rdmem_frm_idle;
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dff_s    #(1) dly_tr2rdmem_frm_idle_ff (
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        .din(tr2rdmem_frm_idle) ,
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        .q(dly_tr2rdmem_frm_idle),
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        .clk (rclk), .se(se), .si(), .so());
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203
// -------------------------------------------------------------------------
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//  transition to rdmem state.
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assign tr2rdmem_frm_wait4stdrain = cur_wait4stdrain_state &
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                                        (streq_ack | spu_mast_allow_rdmem) &
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                                        len_neqz ;
210
 
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assign  nxt_rdmem_state = (
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                         (dly_tr2rdmem_frm_idle) |
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                         (tr2rdmem_frm_wait4stdrain));
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215
// -------------------------------------------------------------------------
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//  transition to wait4stdrain state.
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assign nxt_wait4stdrain_state = (
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                         cur_rdmem_state |
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                         (cur_wait4stdrain_state & ~(streq_ack | (spu_mast_allow_rdmem &
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                                                                        len_neqz)) ));
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// -------------------------------------------------------------------------
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//  transition to laststreq state.
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assign tr2laststreq_frm_wait4stdrain = cur_wait4stdrain_state & streq_ack & ~len_neqz &
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                                                //~start_set;
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                                                ~rd_cntr_q[0];
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assign nxt_laststreq_state = (
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                         tr2laststreq_frm_wait4stdrain |
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                         (cur_laststreq_state & ~streq_ack) );
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wire tr2laststreq_frm_wait4stdrain_dly;
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dff_s    #(1) tr2laststreq_frm_wait4stdrain_ff (
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        .din(tr2laststreq_frm_wait4stdrain) ,
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        .q(tr2laststreq_frm_wait4stdrain_dly),
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        .clk (rclk), .se(se), .si(), .so());
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// -------------------------------------------------------------------------
241
// -------------------------------------------------------------------------
242
// -------------------------------------------------------------------------
243
 
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assign spu_mast_maaddr_addrinc = cur_rdmem_state;
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246
//assign spu_mast_memren = nxt_rdmem_state;
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assign spu_mast_memren = cur_rdmem_state & ~local_kill_abort;
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wire cur_rdmem_state_dly;
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dff_s    #(1) cur_rdmem_state_ff (
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        .din(cur_rdmem_state) ,
252
        .q(cur_rdmem_state_dly),
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        .clk (rclk), .se(se), .si(), .so());
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wire cur_rdmem_state_dly2,cur_rdmem_state_dly3;
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dff_s    #(2) cur_rdmem_state_dly_ff (
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        .din({cur_rdmem_state_dly,cur_rdmem_state_dly2}) ,
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        .q({cur_rdmem_state_dly2,cur_rdmem_state_dly3}),
259
        .clk (rclk), .se(se), .si(), .so());
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261
assign spu_mast_stbuf_wen = cur_rdmem_state_dly;
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263
 
264
// cannot use cur_rdmem_state to start the request since the data will
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// not be in the store buffer till the next cyle after mem rd.
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//assign spu_mast_streq = cur_wait4stdrain_state | cur_rdmem_state;
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//assign spu_mast_streq = cur_wait4stdrain_state & ~spu_mactl_dly_streq &
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assign spu_mast_streq = ((cur_rdmem_state_dly3 & start_set & ~rd_cntr_q[1]) |
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                                (streq_ack_dly & len_neqz) |
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                                (tr2laststreq_frm_wait4stdrain_dly) )&
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                                ~cur_idle_state & ~spu_mactl_perr_set &
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                                ~spu_mactl_stxa_force_abort;
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                        // when perr is asserted
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                        // the state machine to goto idle. but due to above eq, len is not zero and
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                        // whith streq_ack it will continue doing streq and hence the st_ack counter keeps incr.
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280
assign local_kill_abort = ((cur_rdmem_state_dly3 & start_set & ~rd_cntr_q[1]) |
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                                (streq_ack_dly & len_neqz) |
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                                (tr2laststreq_frm_wait4stdrain_dly) )&
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                                (spu_mactl_perr_set | spu_mactl_stxa_force_abort);
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wire tr2rdmem_frm_wait4stdrain_dly;
287
dff_s    #(1) tr2rdmem_frm_wait4stdrain_ff (
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        .din(tr2rdmem_frm_wait4stdrain) ,
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        .q(tr2rdmem_frm_wait4stdrain_dly),
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        .clk (rclk), .se(se), .si(), .so());
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wire tr2rdmem_frm_wait4stdrain_dly2;
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dff_s    #(1) tr2rdmem_frm_wait4stdrain_dly_ff (
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        .din(tr2rdmem_frm_wait4stdrain_dly) ,
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        .q(tr2rdmem_frm_wait4stdrain_dly2),
296
        .clk (rclk), .se(se), .si(), .so());
297
 
298
assign spu_mast_mpa_addrinc = tr2rdmem_frm_wait4stdrain_dly2;
299
 
300
 
301
// -------------------------------------------------------------------------
302
// -------------------------------------------------------------------------
303
// -------------------------------------------------------------------------
304
// cntr to do an extra st req.
305
 
306
wire rd_cntr_en = cur_rdmem_state;
307
 
308
wire rd_cntr_rst = state_reset | streq_ack_dly | start_stop;
309
 
310
assign rd_cntr_add[1:0] = rd_cntr_q[1:0] + 2'b01;
311
 
312
dffre_s  #(2) rd_cntr_ff (
313
        .din(rd_cntr_add[1:0]) ,
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        .q(rd_cntr_q[1:0]),
315
        .en(rd_cntr_en),
316
        .rst(rd_cntr_rst), .clk (rclk), .se(se), .si(), .so());
317
 
318
 
319
dffre_s  #(1) start_stop_ff (
320
        .din(1'b1) ,
321
        .q(start_set),
322
        .en(start_stop),
323
        .rst(state_reset | streq_ack_dly), .clk (rclk), .se(se), .si(), .so());
324
 
325
 
326
/*
327
assign  spu_mast_allow_rdmem = (start_set & ~rd_cntr_q[1] & cur_rdmem_state_dly3) |
328
                                (~start_set & rd_cntr_q[0]) ;
329
*/
330
 
331
 
332
assign  spu_mast_allow_rdmem = (start_set & ~rd_cntr_q[1] & cur_rdmem_state_dly3) ;
333
//------------------------------------------------------------------
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endmodule

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