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Toooba/src_SSITH_P3_sim/Verilog_RTL/mkTourPredSecure.v
2020-02-06 17:14:59 +05:30

886 lines
28 KiB
Verilog

//
// Generated by Bluespec Compiler, version 2018.10.beta1 (build e1df8052c, 2018-10-17)
//
//
//
//
// Ports:
// Name I/O size props
// pred_0_pred O 25
// RDY_pred_0_pred O 1 const
// pred_1_pred O 25
// RDY_pred_1_pred O 1 const
// RDY_update O 1 const
// RDY_flush O 1 reg
// flush_done O 1 reg
// RDY_flush_done O 1 const
// CLK I 1 clock
// RST_N I 1 reset
// pred_0_pred_pc I 64
// pred_1_pred_pc I 64
// update_pc I 64
// update_taken I 1
// update_train I 24
// update_mispred I 1
// EN_update I 1
// EN_flush I 1
// EN_pred_0_pred I 1
// EN_pred_1_pred I 1
//
// Combinational paths from inputs to outputs:
// pred_0_pred_pc -> pred_0_pred
// (pred_1_pred_pc, EN_pred_0_pred) -> pred_1_pred
//
//
`ifdef BSV_ASSIGNMENT_DELAY
`else
`define BSV_ASSIGNMENT_DELAY
`endif
`ifdef BSV_POSITIVE_RESET
`define BSV_RESET_VALUE 1'b1
`define BSV_RESET_EDGE posedge
`else
`define BSV_RESET_VALUE 1'b0
`define BSV_RESET_EDGE negedge
`endif
module mkTourPredSecure(CLK,
RST_N,
pred_0_pred_pc,
EN_pred_0_pred,
pred_0_pred,
RDY_pred_0_pred,
pred_1_pred_pc,
EN_pred_1_pred,
pred_1_pred,
RDY_pred_1_pred,
update_pc,
update_taken,
update_train,
update_mispred,
EN_update,
RDY_update,
EN_flush,
RDY_flush,
flush_done,
RDY_flush_done);
input CLK;
input RST_N;
// actionvalue method pred_0_pred
input [63 : 0] pred_0_pred_pc;
input EN_pred_0_pred;
output [24 : 0] pred_0_pred;
output RDY_pred_0_pred;
// actionvalue method pred_1_pred
input [63 : 0] pred_1_pred_pc;
input EN_pred_1_pred;
output [24 : 0] pred_1_pred;
output RDY_pred_1_pred;
// action method update
input [63 : 0] update_pc;
input update_taken;
input [23 : 0] update_train;
input update_mispred;
input EN_update;
output RDY_update;
// action method flush
input EN_flush;
output RDY_flush;
// value method flush_done
output flush_done;
output RDY_flush_done;
// signals for module outputs
wire [24 : 0] pred_0_pred, pred_1_pred;
wire RDY_flush,
RDY_flush_done,
RDY_pred_0_pred,
RDY_pred_1_pred,
RDY_update,
flush_done;
// inlined wires
wire [89 : 0] updateEn$wget;
wire [1 : 0] predCnt_lat_0$wget,
predCnt_lat_1$wget,
predRes_lat_0$wget,
predRes_lat_1$wget;
// register flushDone
reg flushDone;
wire flushDone$D_IN, flushDone$EN;
// register flushIndex
reg [8 : 0] flushIndex;
wire [8 : 0] flushIndex$D_IN;
wire flushIndex$EN;
// register predCnt_rl
reg [1 : 0] predCnt_rl;
wire [1 : 0] predCnt_rl$D_IN;
wire predCnt_rl$EN;
// register predRes_rl
reg [1 : 0] predRes_rl;
wire [1 : 0] predRes_rl$D_IN;
wire predRes_rl$EN;
// ports of submodule choiceBht
wire [15 : 0] choiceBht$D_IN,
choiceBht$D_OUT_1,
choiceBht$D_OUT_2,
choiceBht$D_OUT_3;
wire [8 : 0] choiceBht$ADDR_1,
choiceBht$ADDR_2,
choiceBht$ADDR_3,
choiceBht$ADDR_4,
choiceBht$ADDR_5,
choiceBht$ADDR_IN;
wire choiceBht$WE;
// ports of submodule gHistReg
wire [11 : 0] gHistReg$history, gHistReg$redirect_newHist;
wire [1 : 0] gHistReg$addHistory_num, gHistReg$addHistory_taken;
wire gHistReg$EN_addHistory, gHistReg$EN_redirect;
// ports of submodule globalBht
wire [15 : 0] globalBht$D_IN,
globalBht$D_OUT_1,
globalBht$D_OUT_2,
globalBht$D_OUT_3;
wire [8 : 0] globalBht$ADDR_1,
globalBht$ADDR_2,
globalBht$ADDR_3,
globalBht$ADDR_4,
globalBht$ADDR_5,
globalBht$ADDR_IN;
wire globalBht$WE;
// ports of submodule localBht
wire [8 : 0] localBht$ADDR_1,
localBht$ADDR_2,
localBht$ADDR_3,
localBht$ADDR_4,
localBht$ADDR_5,
localBht$ADDR_IN;
wire [5 : 0] localBht$D_IN,
localBht$D_OUT_1,
localBht$D_OUT_2,
localBht$D_OUT_3;
wire localBht$WE;
// ports of submodule localHistTab
wire [19 : 0] localHistTab$D_IN,
localHistTab$D_OUT_1,
localHistTab$D_OUT_2,
localHistTab$D_OUT_3;
wire [8 : 0] localHistTab$ADDR_1,
localHistTab$ADDR_2,
localHistTab$ADDR_3,
localHistTab$ADDR_4,
localHistTab$ADDR_5,
localHistTab$ADDR_IN;
wire localHistTab$WE;
// ports of submodule predCnt_dummy2_0
wire predCnt_dummy2_0$D_IN, predCnt_dummy2_0$EN, predCnt_dummy2_0$Q_OUT;
// ports of submodule predCnt_dummy2_1
wire predCnt_dummy2_1$D_IN, predCnt_dummy2_1$EN, predCnt_dummy2_1$Q_OUT;
// ports of submodule predCnt_dummy2_2
wire predCnt_dummy2_2$D_IN, predCnt_dummy2_2$EN, predCnt_dummy2_2$Q_OUT;
// ports of submodule predRes_dummy2_0
wire predRes_dummy2_0$D_IN, predRes_dummy2_0$EN, predRes_dummy2_0$Q_OUT;
// ports of submodule predRes_dummy2_1
wire predRes_dummy2_1$D_IN, predRes_dummy2_1$EN, predRes_dummy2_1$Q_OUT;
// ports of submodule predRes_dummy2_2
wire predRes_dummy2_2$D_IN, predRes_dummy2_2$EN, predRes_dummy2_2$Q_OUT;
// rule scheduling signals
wire CAN_FIRE_RL_canonFlush,
CAN_FIRE_RL_canonGlobalHist,
CAN_FIRE_RL_canonUpdate,
CAN_FIRE_RL_predCnt_canon,
CAN_FIRE_RL_predRes_canon,
CAN_FIRE_flush,
CAN_FIRE_pred_0_pred,
CAN_FIRE_pred_1_pred,
CAN_FIRE_update,
WILL_FIRE_RL_canonFlush,
WILL_FIRE_RL_canonGlobalHist,
WILL_FIRE_RL_canonUpdate,
WILL_FIRE_RL_predCnt_canon,
WILL_FIRE_RL_predRes_canon,
WILL_FIRE_flush,
WILL_FIRE_pred_0_pred,
WILL_FIRE_pred_1_pred,
WILL_FIRE_update;
// inputs to muxes for submodule ports
wire [19 : 0] MUX_localHistTab$upd_2__VAL_1;
wire [15 : 0] MUX_choiceBht$upd_2__VAL_1, MUX_globalBht$upd_2__VAL_1;
wire [5 : 0] MUX_localBht$upd_2__VAL_2;
wire MUX_choiceBht$upd_1__SEL_1,
MUX_flushDone$write_1__SEL_1,
MUX_gHistReg$redirect_1__SEL_1;
// remaining internal signals
reg [9 : 0] localHist__h10872, localHist__h12430;
reg [2 : 0] cnt__h11584, cnt__h13313, localCnt__h5892;
reg [1 : 0] choiceCnt__h7397,
cnt__h11163,
cnt__h11829,
cnt__h12896,
cnt__h13558,
globalCnt__h6269;
wire [11 : 0] IF_updateEn_wget__8_BITS_20_TO_13_9_EQ_7_0_THE_ETC___d129,
IF_updateEn_wget__8_BITS_20_TO_13_9_EQ_7_0_THE_ETC___d92,
globalHist__h10878,
globalHist__h12436;
wire [9 : 0] n__h5719;
wire [7 : 0] IF_updateEn_wget__8_BITS_20_TO_13_9_EQ_7_0_THE_ETC___d126,
IF_updateEn_wget__8_BITS_20_TO_13_9_EQ_7_0_THE_ETC___d87;
wire [2 : 0] n__h6053;
wire [1 : 0] IF_predCnt_lat_0_whas_THEN_predCnt_lat_0_wget__ETC___d8,
IF_predRes_lat_0_whas__5_THEN_predRes_lat_0_wg_ETC___d18,
n__h6652,
n__h7762,
n__read__h10908,
n__read__h12466,
res__h11089,
res__h12822,
upd__h12576,
upd__h14031,
upd__h4241,
upd__h4491,
x__h11144,
x__h12877,
y__h12332,
y__h14065;
wire IF_SEL_ARR_choiceBht_sub_gHistReg_history__43__ETC___d186,
IF_SEL_ARR_choiceBht_sub_gHistReg_history__43__ETC___d243,
NOT_updateEn_wget__8_BIT_2_8_EQ_updateEn_wget__ETC___d101;
// actionvalue method pred_0_pred
assign pred_0_pred =
{ IF_SEL_ARR_choiceBht_sub_gHistReg_history__43__ETC___d186,
globalHist__h10878,
localHist__h10872,
cnt__h11829[1],
cnt__h11584[2] } ;
assign RDY_pred_0_pred = 1'd1 ;
assign CAN_FIRE_pred_0_pred = 1'd1 ;
assign WILL_FIRE_pred_0_pred = EN_pred_0_pred ;
// actionvalue method pred_1_pred
assign pred_1_pred =
{ IF_SEL_ARR_choiceBht_sub_gHistReg_history__43__ETC___d243,
globalHist__h12436,
localHist__h12430,
cnt__h13558[1],
cnt__h13313[2] } ;
assign RDY_pred_1_pred = 1'd1 ;
assign CAN_FIRE_pred_1_pred = 1'd1 ;
assign WILL_FIRE_pred_1_pred = EN_pred_1_pred ;
// action method update
assign RDY_update = 1'd1 ;
assign CAN_FIRE_update = 1'd1 ;
assign WILL_FIRE_update = EN_update ;
// action method flush
assign RDY_flush = flushDone ;
assign CAN_FIRE_flush = flushDone ;
assign WILL_FIRE_flush = EN_flush ;
// value method flush_done
assign flush_done = flushDone ;
assign RDY_flush_done = 1'd1 ;
// submodule choiceBht
RegFile #(.addr_width(32'd9),
.data_width(32'd16),
.lo(9'd0),
.hi(9'd511)) choiceBht(.CLK(CLK),
.ADDR_1(choiceBht$ADDR_1),
.ADDR_2(choiceBht$ADDR_2),
.ADDR_3(choiceBht$ADDR_3),
.ADDR_4(choiceBht$ADDR_4),
.ADDR_5(choiceBht$ADDR_5),
.ADDR_IN(choiceBht$ADDR_IN),
.D_IN(choiceBht$D_IN),
.WE(choiceBht$WE),
.D_OUT_1(choiceBht$D_OUT_1),
.D_OUT_2(choiceBht$D_OUT_2),
.D_OUT_3(choiceBht$D_OUT_3),
.D_OUT_4(),
.D_OUT_5());
// submodule gHistReg
mkTourGHistReg gHistReg(.CLK(CLK),
.RST_N(RST_N),
.addHistory_num(gHistReg$addHistory_num),
.addHistory_taken(gHistReg$addHistory_taken),
.redirect_newHist(gHistReg$redirect_newHist),
.EN_addHistory(gHistReg$EN_addHistory),
.EN_redirect(gHistReg$EN_redirect),
.history(gHistReg$history),
.RDY_history(),
.RDY_addHistory(),
.RDY_redirect());
// submodule globalBht
RegFile #(.addr_width(32'd9),
.data_width(32'd16),
.lo(9'd0),
.hi(9'd511)) globalBht(.CLK(CLK),
.ADDR_1(globalBht$ADDR_1),
.ADDR_2(globalBht$ADDR_2),
.ADDR_3(globalBht$ADDR_3),
.ADDR_4(globalBht$ADDR_4),
.ADDR_5(globalBht$ADDR_5),
.ADDR_IN(globalBht$ADDR_IN),
.D_IN(globalBht$D_IN),
.WE(globalBht$WE),
.D_OUT_1(globalBht$D_OUT_1),
.D_OUT_2(globalBht$D_OUT_2),
.D_OUT_3(globalBht$D_OUT_3),
.D_OUT_4(),
.D_OUT_5());
// submodule localBht
RegFile #(.addr_width(32'd9),
.data_width(32'd6),
.lo(9'd0),
.hi(9'd511)) localBht(.CLK(CLK),
.ADDR_1(localBht$ADDR_1),
.ADDR_2(localBht$ADDR_2),
.ADDR_3(localBht$ADDR_3),
.ADDR_4(localBht$ADDR_4),
.ADDR_5(localBht$ADDR_5),
.ADDR_IN(localBht$ADDR_IN),
.D_IN(localBht$D_IN),
.WE(localBht$WE),
.D_OUT_1(localBht$D_OUT_1),
.D_OUT_2(localBht$D_OUT_2),
.D_OUT_3(localBht$D_OUT_3),
.D_OUT_4(),
.D_OUT_5());
// submodule localHistTab
RegFile #(.addr_width(32'd9),
.data_width(32'd20),
.lo(9'd0),
.hi(9'd511)) localHistTab(.CLK(CLK),
.ADDR_1(localHistTab$ADDR_1),
.ADDR_2(localHistTab$ADDR_2),
.ADDR_3(localHistTab$ADDR_3),
.ADDR_4(localHistTab$ADDR_4),
.ADDR_5(localHistTab$ADDR_5),
.ADDR_IN(localHistTab$ADDR_IN),
.D_IN(localHistTab$D_IN),
.WE(localHistTab$WE),
.D_OUT_1(localHistTab$D_OUT_1),
.D_OUT_2(localHistTab$D_OUT_2),
.D_OUT_3(localHistTab$D_OUT_3),
.D_OUT_4(),
.D_OUT_5());
// submodule predCnt_dummy2_0
RevertReg #(.width(32'd1), .init(1'd1)) predCnt_dummy2_0(.CLK(CLK),
.D_IN(predCnt_dummy2_0$D_IN),
.EN(predCnt_dummy2_0$EN),
.Q_OUT(predCnt_dummy2_0$Q_OUT));
// submodule predCnt_dummy2_1
RevertReg #(.width(32'd1), .init(1'd1)) predCnt_dummy2_1(.CLK(CLK),
.D_IN(predCnt_dummy2_1$D_IN),
.EN(predCnt_dummy2_1$EN),
.Q_OUT(predCnt_dummy2_1$Q_OUT));
// submodule predCnt_dummy2_2
RevertReg #(.width(32'd1), .init(1'd1)) predCnt_dummy2_2(.CLK(CLK),
.D_IN(predCnt_dummy2_2$D_IN),
.EN(predCnt_dummy2_2$EN),
.Q_OUT(predCnt_dummy2_2$Q_OUT));
// submodule predRes_dummy2_0
RevertReg #(.width(32'd1), .init(1'd1)) predRes_dummy2_0(.CLK(CLK),
.D_IN(predRes_dummy2_0$D_IN),
.EN(predRes_dummy2_0$EN),
.Q_OUT(predRes_dummy2_0$Q_OUT));
// submodule predRes_dummy2_1
RevertReg #(.width(32'd1), .init(1'd1)) predRes_dummy2_1(.CLK(CLK),
.D_IN(predRes_dummy2_1$D_IN),
.EN(predRes_dummy2_1$EN),
.Q_OUT(predRes_dummy2_1$Q_OUT));
// submodule predRes_dummy2_2
RevertReg #(.width(32'd1), .init(1'd1)) predRes_dummy2_2(.CLK(CLK),
.D_IN(predRes_dummy2_2$D_IN),
.EN(predRes_dummy2_2$EN),
.Q_OUT(predRes_dummy2_2$Q_OUT));
// rule RL_canonGlobalHist
assign CAN_FIRE_RL_canonGlobalHist = 1'd1 ;
assign WILL_FIRE_RL_canonGlobalHist = 1'd1 ;
// rule RL_canonUpdate
assign CAN_FIRE_RL_canonUpdate = flushDone && EN_update ;
assign WILL_FIRE_RL_canonUpdate = CAN_FIRE_RL_canonUpdate ;
// rule RL_canonFlush
assign CAN_FIRE_RL_canonFlush = !flushDone ;
assign WILL_FIRE_RL_canonFlush = CAN_FIRE_RL_canonFlush ;
// rule RL_predCnt_canon
assign CAN_FIRE_RL_predCnt_canon = 1'd1 ;
assign WILL_FIRE_RL_predCnt_canon = 1'd1 ;
// rule RL_predRes_canon
assign CAN_FIRE_RL_predRes_canon = 1'd1 ;
assign WILL_FIRE_RL_predRes_canon = 1'd1 ;
// inputs to muxes for submodule ports
assign MUX_choiceBht$upd_1__SEL_1 =
WILL_FIRE_RL_canonUpdate &&
NOT_updateEn_wget__8_BIT_2_8_EQ_updateEn_wget__ETC___d101 ;
assign MUX_flushDone$write_1__SEL_1 =
WILL_FIRE_RL_canonFlush && flushIndex == 9'd511 ;
assign MUX_gHistReg$redirect_1__SEL_1 =
WILL_FIRE_RL_canonUpdate && updateEn$wget[0] ;
assign MUX_choiceBht$upd_2__VAL_1 =
{ IF_updateEn_wget__8_BITS_20_TO_13_9_EQ_7_0_THE_ETC___d129,
(updateEn$wget[20:13] == 8'd1) ?
n__h7762 :
choiceBht$D_OUT_3[3:2],
(updateEn$wget[20:13] == 8'd0) ?
n__h7762 :
choiceBht$D_OUT_3[1:0] } ;
assign MUX_globalBht$upd_2__VAL_1 =
{ IF_updateEn_wget__8_BITS_20_TO_13_9_EQ_7_0_THE_ETC___d92,
(updateEn$wget[20:13] == 8'd1) ?
n__h6652 :
globalBht$D_OUT_3[3:2],
(updateEn$wget[20:13] == 8'd0) ?
n__h6652 :
globalBht$D_OUT_3[1:0] } ;
assign MUX_localBht$upd_2__VAL_2 =
updateEn$wget[3] ?
{ n__h6053, localBht$D_OUT_1[2:0] } :
{ localBht$D_OUT_1[5:3], n__h6053 } ;
assign MUX_localHistTab$upd_2__VAL_1 =
updateEn$wget[28] ?
{ n__h5719, localHistTab$D_OUT_3[9:0] } :
{ localHistTab$D_OUT_3[19:10], n__h5719 } ;
// inlined wires
assign predCnt_lat_0$wget = n__read__h10908 + 2'd1 ;
assign predCnt_lat_1$wget = n__read__h12466 + 2'd1 ;
assign predRes_lat_0$wget =
IF_SEL_ARR_choiceBht_sub_gHistReg_history__43__ETC___d186 ?
res__h11089 | x__h11144 :
res__h11089 & y__h12332 ;
assign predRes_lat_1$wget =
IF_SEL_ARR_choiceBht_sub_gHistReg_history__43__ETC___d243 ?
res__h12822 | x__h12877 :
res__h12822 & y__h14065 ;
assign updateEn$wget =
{ update_pc, update_taken, update_train, update_mispred } ;
// register flushDone
assign flushDone$D_IN = MUX_flushDone$write_1__SEL_1 ;
assign flushDone$EN =
WILL_FIRE_RL_canonFlush && flushIndex == 9'd511 || EN_flush ;
// register flushIndex
assign flushIndex$D_IN = flushIndex + 9'd1 ;
assign flushIndex$EN = CAN_FIRE_RL_canonFlush ;
// register predCnt_rl
assign predCnt_rl$D_IN = 2'd0 ;
assign predCnt_rl$EN = 1'd1 ;
// register predRes_rl
assign predRes_rl$D_IN = 2'd0 ;
assign predRes_rl$EN = 1'd1 ;
// submodule choiceBht
assign choiceBht$ADDR_1 = globalHist__h12436[11:3] ;
assign choiceBht$ADDR_2 = globalHist__h10878[11:3] ;
assign choiceBht$ADDR_3 = updateEn$wget[24:16] ;
assign choiceBht$ADDR_4 = 9'h0 ;
assign choiceBht$ADDR_5 = 9'h0 ;
assign choiceBht$ADDR_IN =
MUX_choiceBht$upd_1__SEL_1 ? updateEn$wget[24:16] : flushIndex ;
assign choiceBht$D_IN =
MUX_choiceBht$upd_1__SEL_1 ? MUX_choiceBht$upd_2__VAL_1 : 16'd0 ;
assign choiceBht$WE =
WILL_FIRE_RL_canonUpdate &&
NOT_updateEn_wget__8_BIT_2_8_EQ_updateEn_wget__ETC___d101 ||
WILL_FIRE_RL_canonFlush ;
// submodule gHistReg
assign gHistReg$addHistory_num =
predCnt_dummy2_2$Q_OUT ?
(EN_pred_1_pred ?
upd__h4491 :
IF_predCnt_lat_0_whas_THEN_predCnt_lat_0_wget__ETC___d8) :
2'd0 ;
assign gHistReg$addHistory_taken =
predRes_dummy2_2$Q_OUT ?
(EN_pred_1_pred ?
upd__h4241 :
IF_predRes_lat_0_whas__5_THEN_predRes_lat_0_wg_ETC___d18) :
2'd0 ;
assign gHistReg$redirect_newHist =
MUX_gHistReg$redirect_1__SEL_1 ? updateEn$wget[25:14] : 12'd0 ;
assign gHistReg$EN_addHistory = 1'd1 ;
assign gHistReg$EN_redirect =
WILL_FIRE_RL_canonUpdate && updateEn$wget[0] ||
WILL_FIRE_RL_canonFlush ;
// submodule globalBht
assign globalBht$ADDR_1 = globalHist__h12436[11:3] ;
assign globalBht$ADDR_2 = globalHist__h10878[11:3] ;
assign globalBht$ADDR_3 = updateEn$wget[24:16] ;
assign globalBht$ADDR_4 = 9'h0 ;
assign globalBht$ADDR_5 = 9'h0 ;
assign globalBht$ADDR_IN =
WILL_FIRE_RL_canonUpdate ? updateEn$wget[24:16] : flushIndex ;
assign globalBht$D_IN =
WILL_FIRE_RL_canonUpdate ? MUX_globalBht$upd_2__VAL_1 : 16'd0 ;
assign globalBht$WE = WILL_FIRE_RL_canonUpdate || WILL_FIRE_RL_canonFlush ;
// submodule localBht
assign localBht$ADDR_1 = updateEn$wget[12:4] ;
assign localBht$ADDR_2 = localHist__h12430[9:1] ;
assign localBht$ADDR_3 = localHist__h10872[9:1] ;
assign localBht$ADDR_4 = 9'h0 ;
assign localBht$ADDR_5 = 9'h0 ;
assign localBht$ADDR_IN =
WILL_FIRE_RL_canonFlush ? flushIndex : updateEn$wget[12:4] ;
assign localBht$D_IN =
WILL_FIRE_RL_canonFlush ? 6'd0 : MUX_localBht$upd_2__VAL_2 ;
assign localBht$WE = WILL_FIRE_RL_canonFlush || WILL_FIRE_RL_canonUpdate ;
// submodule localHistTab
assign localHistTab$ADDR_1 = pred_1_pred_pc[11:3] ;
assign localHistTab$ADDR_2 = pred_0_pred_pc[11:3] ;
assign localHistTab$ADDR_3 = updateEn$wget[37:29] ;
assign localHistTab$ADDR_4 = 9'h0 ;
assign localHistTab$ADDR_5 = 9'h0 ;
assign localHistTab$ADDR_IN =
WILL_FIRE_RL_canonUpdate ? updateEn$wget[37:29] : flushIndex ;
assign localHistTab$D_IN =
WILL_FIRE_RL_canonUpdate ?
MUX_localHistTab$upd_2__VAL_1 :
20'd0 ;
assign localHistTab$WE =
WILL_FIRE_RL_canonUpdate || WILL_FIRE_RL_canonFlush ;
// submodule predCnt_dummy2_0
assign predCnt_dummy2_0$D_IN = 1'd1 ;
assign predCnt_dummy2_0$EN = EN_pred_0_pred ;
// submodule predCnt_dummy2_1
assign predCnt_dummy2_1$D_IN = 1'd1 ;
assign predCnt_dummy2_1$EN = EN_pred_1_pred ;
// submodule predCnt_dummy2_2
assign predCnt_dummy2_2$D_IN = 1'd1 ;
assign predCnt_dummy2_2$EN = 1'd1 ;
// submodule predRes_dummy2_0
assign predRes_dummy2_0$D_IN = 1'd1 ;
assign predRes_dummy2_0$EN = EN_pred_0_pred ;
// submodule predRes_dummy2_1
assign predRes_dummy2_1$D_IN = 1'd1 ;
assign predRes_dummy2_1$EN = EN_pred_1_pred ;
// submodule predRes_dummy2_2
assign predRes_dummy2_2$D_IN = 1'd1 ;
assign predRes_dummy2_2$EN = 1'd1 ;
// remaining internal signals
assign IF_SEL_ARR_choiceBht_sub_gHistReg_history__43__ETC___d186 =
cnt__h11163[1] ? cnt__h11584[2] : cnt__h11829[1] ;
assign IF_SEL_ARR_choiceBht_sub_gHistReg_history__43__ETC___d243 =
cnt__h12896[1] ? cnt__h13313[2] : cnt__h13558[1] ;
assign IF_predCnt_lat_0_whas_THEN_predCnt_lat_0_wget__ETC___d8 =
EN_pred_0_pred ? upd__h12576 : predCnt_rl ;
assign IF_predRes_lat_0_whas__5_THEN_predRes_lat_0_wg_ETC___d18 =
EN_pred_0_pred ? upd__h14031 : predRes_rl ;
assign IF_updateEn_wget__8_BITS_20_TO_13_9_EQ_7_0_THE_ETC___d126 =
{ (updateEn$wget[20:13] == 8'd7) ?
n__h7762 :
choiceBht$D_OUT_3[15:14],
(updateEn$wget[20:13] == 8'd6) ?
n__h7762 :
choiceBht$D_OUT_3[13:12],
(updateEn$wget[20:13] == 8'd5) ?
n__h7762 :
choiceBht$D_OUT_3[11:10],
(updateEn$wget[20:13] == 8'd4) ?
n__h7762 :
choiceBht$D_OUT_3[9:8] } ;
assign IF_updateEn_wget__8_BITS_20_TO_13_9_EQ_7_0_THE_ETC___d129 =
{ IF_updateEn_wget__8_BITS_20_TO_13_9_EQ_7_0_THE_ETC___d126,
(updateEn$wget[20:13] == 8'd3) ?
n__h7762 :
choiceBht$D_OUT_3[7:6],
(updateEn$wget[20:13] == 8'd2) ?
n__h7762 :
choiceBht$D_OUT_3[5:4] } ;
assign IF_updateEn_wget__8_BITS_20_TO_13_9_EQ_7_0_THE_ETC___d87 =
{ (updateEn$wget[20:13] == 8'd7) ?
n__h6652 :
globalBht$D_OUT_3[15:14],
(updateEn$wget[20:13] == 8'd6) ?
n__h6652 :
globalBht$D_OUT_3[13:12],
(updateEn$wget[20:13] == 8'd5) ?
n__h6652 :
globalBht$D_OUT_3[11:10],
(updateEn$wget[20:13] == 8'd4) ?
n__h6652 :
globalBht$D_OUT_3[9:8] } ;
assign IF_updateEn_wget__8_BITS_20_TO_13_9_EQ_7_0_THE_ETC___d92 =
{ IF_updateEn_wget__8_BITS_20_TO_13_9_EQ_7_0_THE_ETC___d87,
(updateEn$wget[20:13] == 8'd3) ?
n__h6652 :
globalBht$D_OUT_3[7:6],
(updateEn$wget[20:13] == 8'd2) ?
n__h6652 :
globalBht$D_OUT_3[5:4] } ;
assign NOT_updateEn_wget__8_BIT_2_8_EQ_updateEn_wget__ETC___d101 =
updateEn$wget[2] != updateEn$wget[1] ;
assign globalHist__h10878 = gHistReg$history >> n__read__h10908 ;
assign globalHist__h12436 = gHistReg$history >> n__read__h12466 ;
assign n__h5719 = { updateEn$wget[25], updateEn$wget[12:4] } ;
assign n__h6053 =
updateEn$wget[25] ?
((localCnt__h5892 == 3'd7) ?
localCnt__h5892 :
localCnt__h5892 + 3'd1) :
((localCnt__h5892 == 3'd0) ?
localCnt__h5892 :
localCnt__h5892 - 3'd1) ;
assign n__h6652 =
updateEn$wget[25] ?
((globalCnt__h6269 == 2'd3) ?
globalCnt__h6269 :
globalCnt__h6269 + 2'd1) :
((globalCnt__h6269 == 2'd0) ?
globalCnt__h6269 :
globalCnt__h6269 - 2'd1) ;
assign n__h7762 =
(updateEn$wget[1] == updateEn$wget[25]) ?
((choiceCnt__h7397 == 2'd3) ?
choiceCnt__h7397 :
choiceCnt__h7397 + 2'd1) :
((choiceCnt__h7397 == 2'd0) ?
choiceCnt__h7397 :
choiceCnt__h7397 - 2'd1) ;
assign n__read__h10908 =
(predCnt_dummy2_0$Q_OUT && predCnt_dummy2_1$Q_OUT &&
predCnt_dummy2_2$Q_OUT) ?
predCnt_rl :
2'd0 ;
assign n__read__h12466 =
(predCnt_dummy2_1$Q_OUT && predCnt_dummy2_2$Q_OUT) ?
IF_predCnt_lat_0_whas_THEN_predCnt_lat_0_wget__ETC___d8 :
2'd0 ;
assign res__h11089 =
(predRes_dummy2_0$Q_OUT && predRes_dummy2_1$Q_OUT &&
predRes_dummy2_2$Q_OUT) ?
predRes_rl :
2'd0 ;
assign res__h12822 =
(predRes_dummy2_1$Q_OUT && predRes_dummy2_2$Q_OUT) ?
IF_predRes_lat_0_whas__5_THEN_predRes_lat_0_wg_ETC___d18 :
2'd0 ;
assign upd__h12576 = predCnt_lat_0$wget ;
assign upd__h14031 = predRes_lat_0$wget ;
assign upd__h4241 = predRes_lat_1$wget ;
assign upd__h4491 = predCnt_lat_1$wget ;
assign x__h11144 = 2'd1 << n__read__h10908 ;
assign x__h12877 = 2'd1 << n__read__h12466 ;
assign y__h12332 = ~x__h11144 ;
assign y__h14065 = ~x__h12877 ;
always@(pred_0_pred_pc or localHistTab$D_OUT_2)
begin
case (pred_0_pred_pc[2])
1'd0: localHist__h10872 = localHistTab$D_OUT_2[9:0];
1'd1: localHist__h10872 = localHistTab$D_OUT_2[19:10];
endcase
end
always@(pred_1_pred_pc or localHistTab$D_OUT_1)
begin
case (pred_1_pred_pc[2])
1'd0: localHist__h12430 = localHistTab$D_OUT_1[9:0];
1'd1: localHist__h12430 = localHistTab$D_OUT_1[19:10];
endcase
end
always@(localHist__h10872 or localBht$D_OUT_3)
begin
case (localHist__h10872[0])
1'd0: cnt__h11584 = localBht$D_OUT_3[2:0];
1'd1: cnt__h11584 = localBht$D_OUT_3[5:3];
endcase
end
always@(localHist__h12430 or localBht$D_OUT_2)
begin
case (localHist__h12430[0])
1'd0: cnt__h13313 = localBht$D_OUT_2[2:0];
1'd1: cnt__h13313 = localBht$D_OUT_2[5:3];
endcase
end
always@(globalHist__h10878 or choiceBht$D_OUT_2)
begin
case (globalHist__h10878[7:0])
8'd0: cnt__h11163 = choiceBht$D_OUT_2[1:0];
8'd1: cnt__h11163 = choiceBht$D_OUT_2[3:2];
8'd2: cnt__h11163 = choiceBht$D_OUT_2[5:4];
8'd3: cnt__h11163 = choiceBht$D_OUT_2[7:6];
8'd4: cnt__h11163 = choiceBht$D_OUT_2[9:8];
8'd5: cnt__h11163 = choiceBht$D_OUT_2[11:10];
8'd6: cnt__h11163 = choiceBht$D_OUT_2[13:12];
8'd7: cnt__h11163 = choiceBht$D_OUT_2[15:14];
default: cnt__h11163 = 2'b10 /* unspecified value */ ;
endcase
end
always@(globalHist__h10878 or globalBht$D_OUT_2)
begin
case (globalHist__h10878[7:0])
8'd0: cnt__h11829 = globalBht$D_OUT_2[1:0];
8'd1: cnt__h11829 = globalBht$D_OUT_2[3:2];
8'd2: cnt__h11829 = globalBht$D_OUT_2[5:4];
8'd3: cnt__h11829 = globalBht$D_OUT_2[7:6];
8'd4: cnt__h11829 = globalBht$D_OUT_2[9:8];
8'd5: cnt__h11829 = globalBht$D_OUT_2[11:10];
8'd6: cnt__h11829 = globalBht$D_OUT_2[13:12];
8'd7: cnt__h11829 = globalBht$D_OUT_2[15:14];
default: cnt__h11829 = 2'b10 /* unspecified value */ ;
endcase
end
always@(globalHist__h12436 or choiceBht$D_OUT_1)
begin
case (globalHist__h12436[7:0])
8'd0: cnt__h12896 = choiceBht$D_OUT_1[1:0];
8'd1: cnt__h12896 = choiceBht$D_OUT_1[3:2];
8'd2: cnt__h12896 = choiceBht$D_OUT_1[5:4];
8'd3: cnt__h12896 = choiceBht$D_OUT_1[7:6];
8'd4: cnt__h12896 = choiceBht$D_OUT_1[9:8];
8'd5: cnt__h12896 = choiceBht$D_OUT_1[11:10];
8'd6: cnt__h12896 = choiceBht$D_OUT_1[13:12];
8'd7: cnt__h12896 = choiceBht$D_OUT_1[15:14];
default: cnt__h12896 = 2'b10 /* unspecified value */ ;
endcase
end
always@(globalHist__h12436 or globalBht$D_OUT_1)
begin
case (globalHist__h12436[7:0])
8'd0: cnt__h13558 = globalBht$D_OUT_1[1:0];
8'd1: cnt__h13558 = globalBht$D_OUT_1[3:2];
8'd2: cnt__h13558 = globalBht$D_OUT_1[5:4];
8'd3: cnt__h13558 = globalBht$D_OUT_1[7:6];
8'd4: cnt__h13558 = globalBht$D_OUT_1[9:8];
8'd5: cnt__h13558 = globalBht$D_OUT_1[11:10];
8'd6: cnt__h13558 = globalBht$D_OUT_1[13:12];
8'd7: cnt__h13558 = globalBht$D_OUT_1[15:14];
default: cnt__h13558 = 2'b10 /* unspecified value */ ;
endcase
end
always@(updateEn$wget or localBht$D_OUT_1)
begin
case (updateEn$wget[3])
1'd0: localCnt__h5892 = localBht$D_OUT_1[2:0];
1'd1: localCnt__h5892 = localBht$D_OUT_1[5:3];
endcase
end
always@(updateEn$wget or globalBht$D_OUT_3)
begin
case (updateEn$wget[20:13])
8'd0: globalCnt__h6269 = globalBht$D_OUT_3[1:0];
8'd1: globalCnt__h6269 = globalBht$D_OUT_3[3:2];
8'd2: globalCnt__h6269 = globalBht$D_OUT_3[5:4];
8'd3: globalCnt__h6269 = globalBht$D_OUT_3[7:6];
8'd4: globalCnt__h6269 = globalBht$D_OUT_3[9:8];
8'd5: globalCnt__h6269 = globalBht$D_OUT_3[11:10];
8'd6: globalCnt__h6269 = globalBht$D_OUT_3[13:12];
8'd7: globalCnt__h6269 = globalBht$D_OUT_3[15:14];
default: globalCnt__h6269 = 2'b10 /* unspecified value */ ;
endcase
end
always@(updateEn$wget or choiceBht$D_OUT_3)
begin
case (updateEn$wget[20:13])
8'd0: choiceCnt__h7397 = choiceBht$D_OUT_3[1:0];
8'd1: choiceCnt__h7397 = choiceBht$D_OUT_3[3:2];
8'd2: choiceCnt__h7397 = choiceBht$D_OUT_3[5:4];
8'd3: choiceCnt__h7397 = choiceBht$D_OUT_3[7:6];
8'd4: choiceCnt__h7397 = choiceBht$D_OUT_3[9:8];
8'd5: choiceCnt__h7397 = choiceBht$D_OUT_3[11:10];
8'd6: choiceCnt__h7397 = choiceBht$D_OUT_3[13:12];
8'd7: choiceCnt__h7397 = choiceBht$D_OUT_3[15:14];
default: choiceCnt__h7397 = 2'b10 /* unspecified value */ ;
endcase
end
// handling of inlined registers
always@(posedge CLK)
begin
if (RST_N == `BSV_RESET_VALUE)
begin
flushDone <= `BSV_ASSIGNMENT_DELAY 1'd1;
flushIndex <= `BSV_ASSIGNMENT_DELAY 9'd0;
predCnt_rl <= `BSV_ASSIGNMENT_DELAY 2'd0;
predRes_rl <= `BSV_ASSIGNMENT_DELAY 2'd0;
end
else
begin
if (flushDone$EN) flushDone <= `BSV_ASSIGNMENT_DELAY flushDone$D_IN;
if (flushIndex$EN)
flushIndex <= `BSV_ASSIGNMENT_DELAY flushIndex$D_IN;
if (predCnt_rl$EN)
predCnt_rl <= `BSV_ASSIGNMENT_DELAY predCnt_rl$D_IN;
if (predRes_rl$EN)
predRes_rl <= `BSV_ASSIGNMENT_DELAY predRes_rl$D_IN;
end
end
// synopsys translate_off
`ifdef BSV_NO_INITIAL_BLOCKS
`else // not BSV_NO_INITIAL_BLOCKS
initial
begin
flushDone = 1'h0;
flushIndex = 9'h0AA;
predCnt_rl = 2'h2;
predRes_rl = 2'h2;
end
`endif // BSV_NO_INITIAL_BLOCKS
// synopsys translate_on
endmodule // mkTourPredSecure