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aligner added

This commit is contained in:
​Laraib Khan 2021-02-02 11:35:16 +05:00
parent 4fa5ee274d
commit 2b0f57e6bf
9 changed files with 5369 additions and 405 deletions
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53
ifu_aln_ctl.anno.json Normal file
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[
{
"class":"firrtl.transforms.CombinationalPath",
"sink":"~ifu_aln_ctl|ifu_aln_ctl>io_dec_aln_ifu_pmu_instr_aligned",
"sources":[
"~ifu_aln_ctl|ifu_aln_ctl>io_dec_i0_decode_d"
]
},
{
"class":"firrtl.transforms.CombinationalPath",
"sink":"~ifu_aln_ctl|ifu_aln_ctl>io_dec_aln_aln_ib_i0_brp_bits_br_error",
"sources":[
"~ifu_aln_ctl|ifu_aln_ctl>io_dec_aln_aln_ib_i0_brp_valid"
]
},
{
"class":"firrtl.transforms.CombinationalPath",
"sink":"~ifu_aln_ctl|ifu_aln_ctl>io_ifu_fb_consume1",
"sources":[
"~ifu_aln_ctl|ifu_aln_ctl>io_exu_flush_final",
"~ifu_aln_ctl|ifu_aln_ctl>io_dec_i0_decode_d"
]
},
{
"class":"firrtl.transforms.CombinationalPath",
"sink":"~ifu_aln_ctl|ifu_aln_ctl>io_ifu_fb_consume2",
"sources":[
"~ifu_aln_ctl|ifu_aln_ctl>io_exu_flush_final",
"~ifu_aln_ctl|ifu_aln_ctl>io_dec_i0_decode_d"
]
},
{
"class":"firrtl.EmitCircuitAnnotation",
"emitter":"firrtl.VerilogEmitter"
},
{
"class":"firrtl.transforms.BlackBoxResourceAnno",
"target":"ifu_aln_ctl.gated_latch",
"resourceId":"/vsrc/gated_latch.sv"
},
{
"class":"firrtl.options.TargetDirAnnotation",
"directory":"."
},
{
"class":"firrtl.options.OutputAnnotationFileAnnotation",
"file":"ifu_aln_ctl"
},
{
"class":"firrtl.transforms.BlackBoxTargetDirAnno",
"targetDir":"."
}
]

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ifu_aln_ctl.fir Normal file
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ifu_aln_ctl.v Normal file
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814
src/main/scala/ifu/ifu_aln_ctl.scala
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//package ifu package ifu
//import lib._ import lib._
//import chisel3._ import chisel3._
//import chisel3.util._ import chisel3.util._
//import include._ import include._
//
//class ifu_aln_ctl extends Module with lib with RequireAsyncReset { class ifu_aln_ctl extends Module with lib with RequireAsyncReset {
// val io = IO(new Bundle{ val io = IO(new Bundle{
// val scan_mode = Input(Bool()) val scan_mode = Input(Bool())
// val active_clk = Input(Clock()) val active_clk = Input(Clock())
// val ifu_async_error_start = Input(Bool()) // Error coming from mem-ctl val ifu_async_error_start = Input(Bool()) // Error coming from mem-ctl
// val iccm_rd_ecc_double_err = Input(Bool()) // ICCM double error coming from mem-ctl val iccm_rd_ecc_double_err = Input(Bool()) // ICCM double error coming from mem-ctl
// val ic_access_fault_f = Input(Bool()) // Access fault in I$ val ic_access_fault_f = Input(Bool()) // Access fault in I$
// val ic_access_fault_type_f = Input(UInt(2.W)) // Type of access fault occured val ic_access_fault_type_f = Input(UInt(2.W)) // Type of access fault occured
// val ifu_bp_fghr_f = Input(UInt(BHT_GHR_SIZE.W)) // Data coming from the branch predictor to put in the FP val ifu_bp_fghr_f = Input(UInt(BHT_GHR_SIZE.W)) // Data coming from the branch predictor to put in the FP
// val ifu_bp_btb_target_f = Input(UInt(31.W)) // Target for the instruction enqueue in the FP val ifu_bp_btb_target_f = Input(UInt(31.W)) // Target for the instruction enqueue in the FP
// val ifu_bp_poffset_f = Input(UInt(12.W)) // Offset to the current PC for branch val ifu_bp_poffset_f = Input(UInt(12.W)) // Offset to the current PC for branch
// val ifu_bp_hist0_f = Input(UInt(2.W)) // History to EXU val ifu_bp_hist0_f = Input(UInt(2.W)) // History to EXU
// val ifu_bp_hist1_f = Input(UInt(2.W)) // History to EXU val ifu_bp_hist1_f = Input(UInt(2.W)) // History to EXU
// val ifu_bp_pc4_f = Input(UInt(2.W)) // PC4 val ifu_bp_pc4_f = Input(UInt(2.W)) // PC4
// val ifu_bp_way_f = Input(UInt(2.W)) // Way to help in miss prediction val ifu_bp_way_f = Input(UInt(2.W)) // Way to help in miss prediction
// val ifu_bp_valid_f = Input(UInt(2.W)) // Valid Branch prediction val ifu_bp_valid_f = Input(UInt(2.W)) // Valid Branch prediction
// val ifu_bp_ret_f = Input(UInt(2.W)) // BP ret val ifu_bp_ret_f = Input(UInt(2.W)) // BP ret
// val exu_flush_final = Input(Bool()) // Miss prediction val exu_flush_final = Input(Bool()) // Miss prediction
// val dec_aln = new dec_aln() // Data going to the dec from the ALN val dec_i0_decode_d = Input(Bool())
// val ifu_fetch_data_f = Input(UInt(32.W)) // PC of the current instruction in the FP val dec_aln = new dec_aln() // Data going to the dec from the ALN
// val ifu_fetch_val = Input(UInt(2.W)) // PC boundary i.e 'x' of 2 or 4 val ifu_fetch_data_f = Input(UInt(32.W)) // PC of the current instruction in the FP
// val ifu_fetch_pc = Input(UInt(31.W)) // Current PC val ifu_fetch_val = Input(UInt(2.W)) // PC boundary i.e 'x' of 2 or 4
// ///////////////////////////////////////////////// val ifu_fetch_pc = Input(UInt(31.W)) // Current PC
// val ifu_fb_consume1 = Output(Bool()) // FP used 1 /////////////////////////////////////////////////
// val ifu_fb_consume2 = Output(Bool()) // FP used 2 val ifu_fb_consume1 = Output(Bool()) // FP used 1
// val ifu_fb_consume2 = Output(Bool()) // FP used 2
// })
// val MHI = 46+BHT_GHR_SIZE // 54 })
// val MSIZE = 47+BHT_GHR_SIZE // 55 val MHI = 46+BHT_GHR_SIZE // 54
// val BRDATA_SIZE = 12 val MSIZE = 47+BHT_GHR_SIZE // 55
// val error_stall_in = WireInit(Bool(),0.U) val BRDATA_SIZE = 12
// val alignval = WireInit(UInt(2.W), 0.U) val error_stall_in = WireInit(Bool(),0.U)
// val q0final = WireInit(UInt(32.W), 0.U) val alignval = WireInit(UInt(2.W), 0.U)
// val q1final = WireInit(UInt(16.W), 0.U) val q0final = WireInit(UInt(32.W), 0.U)
// val wrptr_in = WireInit(UInt(2.W), init = 0.U) val q1final = WireInit(UInt(16.W), 0.U)
// val rdptr_in = WireInit(UInt(2.W), init = 0.U) val wrptr_in = WireInit(UInt(2.W), init = 0.U)
// val rdptr_in = WireInit(UInt(2.W), init = 0.U)
// val f2val_in = WireInit(UInt(2.W), init = 0.U)
// val f1val_in = WireInit(UInt(2.W), init = 0.U) val f2val_in = WireInit(UInt(2.W), init = 0.U)
// val f0val_in = WireInit(UInt(2.W), init = 0.U) val f1val_in = WireInit(UInt(2.W), init = 0.U)
// val f0val_in = WireInit(UInt(2.W), init = 0.U)
// val q2off_in = WireInit(UInt(1.W), init = 0.U)
// val q1off_in = WireInit(UInt(1.W), init = 0.U) val q2off_in = WireInit(UInt(1.W), init = 0.U)
// val q0off_in = WireInit(UInt(1.W), init = 0.U) val q1off_in = WireInit(UInt(1.W), init = 0.U)
// val q0off_in = WireInit(UInt(1.W), init = 0.U)
// val sf0_valid = WireInit(Bool(), init = 0.U)
// val sf1_valid = WireInit(Bool(), init = 0.U) val sf0_valid = WireInit(Bool(), init = 0.U)
// val sf1_valid = WireInit(Bool(), init = 0.U)
// val f2_valid = WireInit(Bool(), init = 0.U)
// val ifvalid = WireInit(Bool(), init = 0.U) val f2_valid = WireInit(Bool(), init = 0.U)
// val shift_f2_f1 = WireInit(Bool(), init = 0.U) val ifvalid = WireInit(Bool(), init = 0.U)
// val shift_f2_f0 = WireInit(Bool(), init = 0.U) val shift_f2_f1 = WireInit(Bool(), init = 0.U)
// val shift_f1_f0 = WireInit(Bool(), init = 0.U) val shift_f2_f0 = WireInit(Bool(), init = 0.U)
// val shift_f1_f0 = WireInit(Bool(), init = 0.U)
// val f0icaf = WireInit(Bool(), init = 0.U)
// val f1icaf = WireInit(Bool(), init = 0.U) val f0icaf = WireInit(Bool(), init = 0.U)
// val f1icaf = WireInit(Bool(), init = 0.U)
// val sf0val = WireInit(UInt(2.W), 0.U)
// val sf1val = WireInit(UInt(2.W), 0.U) val sf0val = WireInit(UInt(2.W), 0.U)
// val sf1val = WireInit(UInt(2.W), 0.U)
// val misc0 = WireInit(UInt((MHI+1).W), 0.U)
// val misc1 = WireInit(UInt((MHI+1).W), 0.U) val misc0 = WireInit(UInt((MHI+1).W), 0.U)
// val misc2 = WireInit(UInt((MHI+1).W), 0.U) val misc1 = WireInit(UInt((MHI+1).W), 0.U)
// val misc2 = WireInit(UInt((MHI+1).W), 0.U)
// val brdata1 = WireInit(UInt(12.W), init = 0.U)
// val brdata0 = WireInit(UInt(12.W), init = 0.U) val brdata1 = WireInit(UInt(12.W), init = 0.U)
// val brdata2 = WireInit(UInt(12.W), init = 0.U) val brdata0 = WireInit(UInt(12.W), init = 0.U)
// val brdata2 = WireInit(UInt(12.W), init = 0.U)
// val q0 = WireInit(UInt(32.W), init = 0.U)
// val q1 = WireInit(UInt(32.W), init = 0.U) val q0 = WireInit(UInt(32.W), init = 0.U)
// val q2 = WireInit(UInt(32.W), init = 0.U) val q1 = WireInit(UInt(32.W), init = 0.U)
// val q2 = WireInit(UInt(32.W), init = 0.U)
// val f1pc_in = WireInit(UInt(31.W), 0.U)
// val f0pc_in = WireInit(UInt(31.W), 0.U) val f1pc_in = WireInit(UInt(31.W), 0.U)
// val error_stall = WireInit(Bool(), 0.U) val f0pc_in = WireInit(UInt(31.W), 0.U)
// val f2_wr_en = WireInit(Bool(), 0.U) val error_stall = WireInit(Bool(), 0.U)
// val shift_4B = WireInit(Bool(), 0.U) val f2_wr_en = WireInit(Bool(), 0.U)
// val f1_shift_wr_en = WireInit(Bool(), 0.U) val shift_4B = WireInit(Bool(), 0.U)
// val f0_shift_wr_en = WireInit(Bool(), 0.U) val f1_shift_wr_en = WireInit(Bool(), 0.U)
// val qwen = WireInit(UInt(3.W), 0.U) val f0_shift_wr_en = WireInit(Bool(), 0.U)
// val brdata_in = WireInit(UInt(BRDATA_SIZE.W), 0.U) val qwen = WireInit(UInt(3.W), 0.U)
// val misc_data_in = WireInit(UInt((MHI+1).W), 0.U) val brdata_in = WireInit(UInt(BRDATA_SIZE.W), 0.U)
// val misc_data_in = WireInit(UInt((MHI+1).W), 0.U)
// val fetch_to_f0 = WireInit(Bool(), 0.U)
// val fetch_to_f1 = WireInit(Bool(), 0.U) val fetch_to_f0 = WireInit(Bool(), 0.U)
// val fetch_to_f2 = WireInit(Bool(), 0.U) val fetch_to_f1 = WireInit(Bool(), 0.U)
// val f1_shift_2B = WireInit(Bool(), 0.U) val fetch_to_f2 = WireInit(Bool(), 0.U)
// val first4B = WireInit(Bool(), 0.U) val f1_shift_2B = WireInit(Bool(), 0.U)
// val shift_2B = WireInit(Bool(), 0.U) val first4B = WireInit(Bool(), 0.U)
// val f0_shift_2B = WireInit(Bool(), 0.U) val shift_2B = WireInit(Bool(), 0.U)
// val f0_shift_2B = WireInit(Bool(), 0.U)
// // Stall if there is an error in the instrucion
// error_stall_in := (error_stall | io.ifu_async_error_start) & !io.exu_flush_final // Stall if there is an error in the instrucion
// error_stall_in := (error_stall | io.ifu_async_error_start) & !io.exu_flush_final
// // Flop the stall until flush
// error_stall := withClock(io.active_clk) {RegNext(error_stall_in, init = 0.U)} // Flop the stall until flush
// // Write Ptr of the FP error_stall := withClock(io.active_clk) {RegNext(error_stall_in, init = 0.U)}
// val wrptr = withClock(io.active_clk) {RegNext(wrptr_in, init = 0.U)} // Write Ptr of the FP
// // Read Ptr of the FP val wrptr = withClock(io.active_clk) {RegNext(wrptr_in, init = 0.U)}
// val rdptr = withClock(io.active_clk) {RegNext(rdptr_in, init = 0.U)} // Read Ptr of the FP
// // Fetch Instruction boundary val rdptr = withClock(io.active_clk) {RegNext(rdptr_in, init = 0.U)}
// val f2val = withClock(io.active_clk) {RegNext(f2val_in, init = 0.U)} // Fetch Instruction boundary
// val f1val = withClock(io.active_clk) {RegNext(f1val_in, init = 0.U)} val f2val = withClock(io.active_clk) {RegNext(f2val_in, init = 0.U)}
// val f0val = withClock(io.active_clk) {RegNext(f0val_in, init = 0.U)} val f1val = withClock(io.active_clk) {RegNext(f1val_in, init = 0.U)}
// val f0val = withClock(io.active_clk) {RegNext(f0val_in, init = 0.U)}
// val q2off = withClock(io.active_clk) {RegNext(q2off_in, init = 0.U)}
// val q1off = withClock(io.active_clk) {RegNext(q1off_in, init = 0.U)} val q2off = withClock(io.active_clk) {RegNext(q2off_in, init = 0.U)}
// val q0off = withClock(io.active_clk) {RegNext(q0off_in, init = 0.U)} val q1off = withClock(io.active_clk) {RegNext(q1off_in, init = 0.U)}
// // Instrution PC to the FP val q0off = withClock(io.active_clk) {RegNext(q0off_in, init = 0.U)}
// val f2pc = rvdffe(io.ifu_fetch_pc, f2_wr_en.asBool, clock, io.scan_mode) // Instrution PC to the FP
// val f1pc = rvdffe(f1pc_in, f1_shift_wr_en.asBool, clock, io.scan_mode) val f2pc = rvdffe(io.ifu_fetch_pc, f2_wr_en.asBool, clock, io.scan_mode)
// val f0pc = rvdffe(f0pc_in, f0_shift_wr_en.asBool, clock, io.scan_mode) val f1pc = rvdffe(f1pc_in, f1_shift_wr_en.asBool, clock, io.scan_mode)
// // Branch data to the FP val f0pc = rvdffe(f0pc_in, f0_shift_wr_en.asBool, clock, io.scan_mode)
// brdata2 := rvdffe(brdata_in, qwen(2), clock, io.scan_mode) // Branch data to the FP
// brdata1 := rvdffe(brdata_in, qwen(1), clock, io.scan_mode) brdata2 := rvdffe(brdata_in, qwen(2), clock, io.scan_mode)
// brdata0 := rvdffe(brdata_in, qwen(0), clock, io.scan_mode) brdata1 := rvdffe(brdata_in, qwen(1), clock, io.scan_mode)
// // Miscalanious data to the FP including error's brdata0 := rvdffe(brdata_in, qwen(0), clock, io.scan_mode)
// misc2 := rvdffe(misc_data_in, qwen(2), clock, io.scan_mode) // Miscalanious data to the FP including error's
// misc1 := rvdffe(misc_data_in, qwen(1), clock, io.scan_mode) misc2 := rvdffe(misc_data_in, qwen(2), clock, io.scan_mode)
// misc0 := rvdffe(misc_data_in, qwen(0), clock, io.scan_mode) misc1 := rvdffe(misc_data_in, qwen(1), clock, io.scan_mode)
// // Instruction in the FP misc0 := rvdffe(misc_data_in, qwen(0), clock, io.scan_mode)
// q2 := rvdffe(io.ifu_fetch_data_f, qwen(2), clock, io.scan_mode) // Instruction in the FP
// q1 := rvdffe(io.ifu_fetch_data_f, qwen(1), clock, io.scan_mode) q2 := rvdffe(io.ifu_fetch_data_f, qwen(2), clock, io.scan_mode)
// q0 := rvdffe(io.ifu_fetch_data_f, qwen(0), clock, io.scan_mode) q1 := rvdffe(io.ifu_fetch_data_f, qwen(1), clock, io.scan_mode)
// q0 := rvdffe(io.ifu_fetch_data_f, qwen(0), clock, io.scan_mode)
// // Shift FP logic
// f2_wr_en := fetch_to_f2 // Shift FP logic
// f1_shift_wr_en := fetch_to_f1 | shift_f2_f1 | f1_shift_2B f2_wr_en := fetch_to_f2
// f0_shift_wr_en := fetch_to_f0 | shift_f2_f0 | shift_f1_f0 | shift_2B | shift_4B f1_shift_wr_en := fetch_to_f1 | shift_f2_f1 | f1_shift_2B
// // FP read enable .. 3-bit for Implemenation of 1HMux f0_shift_wr_en := fetch_to_f0 | shift_f2_f0 | shift_f1_f0 | shift_2B | shift_4B
// val qren = Cat(rdptr === 2.U, rdptr === 1.U, rdptr === 0.U) // FP read enable .. 3-bit for Implemenation of 1HMux
// // FP write enable .. 3-bit for Implemenation of 1HMux val qren = Cat(rdptr === 2.U, rdptr === 1.U, rdptr === 0.U)
// qwen := Cat(wrptr === 2.U & ifvalid, wrptr === 1.U & ifvalid, wrptr === 0.U & ifvalid) // FP write enable .. 3-bit for Implemenation of 1HMux
// qwen := Cat(wrptr === 2.U & ifvalid, wrptr === 1.U & ifvalid, wrptr === 0.U & ifvalid)
// // Read Pointer calculation
// // Next rdptr = # of consume + current ptr location (Rounding it from 2) // Read Pointer calculation
// rdptr_in := Mux1H(Seq((qren(0) & io.ifu_fb_consume1 & !io.exu_flush_final).asBool -> 1.U, // Next rdptr = # of consume + current ptr location (Rounding it from 2)
// (qren(1) & io.ifu_fb_consume1 & !io.exu_flush_final).asBool -> 2.U, rdptr_in := Mux1H(Seq((qren(0) & io.ifu_fb_consume1 & !io.exu_flush_final).asBool -> 1.U,
// (qren(2) & io.ifu_fb_consume1 & !io.exu_flush_final).asBool -> 0.U, (qren(1) & io.ifu_fb_consume1 & !io.exu_flush_final).asBool -> 2.U,
// (qren(0) & io.ifu_fb_consume2 & !io.exu_flush_final).asBool -> 2.U, (qren(2) & io.ifu_fb_consume1 & !io.exu_flush_final).asBool -> 0.U,
// (qren(1) & io.ifu_fb_consume2 & !io.exu_flush_final).asBool -> 0.U, (qren(0) & io.ifu_fb_consume2 & !io.exu_flush_final).asBool -> 2.U,
// (qren(2) & io.ifu_fb_consume2 & !io.exu_flush_final).asBool -> 1.U, (qren(1) & io.ifu_fb_consume2 & !io.exu_flush_final).asBool -> 0.U,
// (!io.ifu_fb_consume1 & !io.ifu_fb_consume2 & !io.exu_flush_final).asBool -> rdptr)) (qren(2) & io.ifu_fb_consume2 & !io.exu_flush_final).asBool -> 1.U,
// (!io.ifu_fb_consume1 & !io.ifu_fb_consume2 & !io.exu_flush_final).asBool -> rdptr))
// // As there is only 1 enqueue so each time move by 1
// wrptr_in := Mux1H(Seq((qwen(0) & !io.exu_flush_final).asBool -> 1.U, // As there is only 1 enqueue so each time move by 1
// (qwen(1) & !io.exu_flush_final).asBool -> 2.U, wrptr_in := Mux1H(Seq((qwen(0) & !io.exu_flush_final).asBool -> 1.U,
// (qwen(2) & !io.exu_flush_final).asBool -> 0.U, (qwen(1) & !io.exu_flush_final).asBool -> 2.U,
// (!ifvalid & !io.exu_flush_final).asBool->wrptr)) (qwen(2) & !io.exu_flush_final).asBool -> 0.U,
// (!ifvalid & !io.exu_flush_final).asBool->wrptr))
// q2off_in := Mux1H(Seq((!qwen(2) & (rdptr===2.U)).asBool->(q2off.asUInt | f0_shift_2B),
// (!qwen(2) & (rdptr===1.U)).asBool->(q2off.asUInt | f1_shift_2B), q2off_in := Mux1H(Seq((!qwen(2) & (rdptr===2.U)).asBool->(q2off.asUInt | f0_shift_2B),
// (!qwen(2) & (rdptr===0.U)).asBool->q2off)) (!qwen(2) & (rdptr===1.U)).asBool->(q2off.asUInt | f1_shift_2B),
// (!qwen(2) & (rdptr===0.U)).asBool->q2off))
// q1off_in := Mux1H(Seq((!qwen(1) & (rdptr===1.U)).asBool->(q1off.asUInt | f0_shift_2B),
// (!qwen(1) & (rdptr===0.U)).asBool->(q1off.asUInt | f1_shift_2B), q1off_in := Mux1H(Seq((!qwen(1) & (rdptr===1.U)).asBool->(q1off.asUInt | f0_shift_2B),
// (!qwen(1) & (rdptr===2.U)).asBool->q1off)) (!qwen(1) & (rdptr===0.U)).asBool->(q1off.asUInt | f1_shift_2B),
// (!qwen(1) & (rdptr===2.U)).asBool->q1off))
// q0off_in := Mux1H(Seq((!qwen(0) & (rdptr===0.U)).asBool -> (q0off.asUInt | f0_shift_2B),
// (!qwen(0) & (rdptr===2.U)).asBool -> (q0off.asUInt | f1_shift_2B), q0off_in := Mux1H(Seq((!qwen(0) & (rdptr===0.U)).asBool -> (q0off.asUInt | f0_shift_2B),
// (!qwen(0) & (rdptr===1.U)).asBool -> q0off)) (!qwen(0) & (rdptr===2.U)).asBool -> (q0off.asUInt | f1_shift_2B),
// (!qwen(0) & (rdptr===1.U)).asBool -> q0off))
// val q0ptr = Mux1H(Seq((rdptr===0.U)->q0off,
// (rdptr===1.U)->q1off, val q0ptr = Mux1H(Seq((rdptr===0.U)->q0off,
// (rdptr===2.U)->q2off)) (rdptr===1.U)->q1off,
// (rdptr===2.U)->q2off))
// val q1ptr = Mux1H(Seq((rdptr===0.U) -> q1off, (rdptr === 1.U) -> q2off, (rdptr === 2.U) -> q0off))
// val q1ptr = Mux1H(Seq((rdptr===0.U) -> q1off, (rdptr === 1.U) -> q2off, (rdptr === 2.U) -> q0off))
// val q0sel = Cat(q0ptr, !q0ptr)
// val q0sel = Cat(q0ptr, !q0ptr)
// val q1sel = Cat(q1ptr, !q1ptr)
// // Misc data error, access-fault, type of fault, target, offset and ghr value val q1sel = Cat(q1ptr, !q1ptr)
// misc_data_in := Cat(io.iccm_rd_ecc_double_err, io.ic_access_fault_f, io.ic_access_fault_type_f, // Misc data error, access-fault, type of fault, target, offset and ghr value
// io.ifu_bp_btb_target_f, io.ifu_bp_poffset_f, io.ifu_bp_fghr_f) misc_data_in := Cat(io.iccm_rd_ecc_double_err, io.ic_access_fault_f, io.ic_access_fault_type_f,
// io.ifu_bp_btb_target_f, io.ifu_bp_poffset_f, io.ifu_bp_fghr_f)
// val misceff = Mux1H(Seq(qren(0).asBool() -> Cat(misc1, misc0),
// qren(1).asBool()->Cat(misc2, misc1), val misceff = Mux1H(Seq(qren(0).asBool() -> Cat(misc1, misc0),
// qren(2).asBool()->Cat(misc0, misc2))) qren(1).asBool()->Cat(misc2, misc1),
// qren(2).asBool()->Cat(misc0, misc2)))
// val misc1eff = misceff(misceff.getWidth-1,MHI+1)
// val misc0eff = misceff(MHI, 0) val misc1eff = misceff(misceff.getWidth-1,MHI+1)
// val misc0eff = misceff(MHI, 0)
//
// val f1dbecc = misc1eff(misc1eff.getWidth-1)
// f1icaf := misc1eff(misc1eff.getWidth-2) val f1dbecc = misc1eff(misc1eff.getWidth-1)
// val f1ictype = misc1eff(misc1eff.getWidth-3,misc1eff.getWidth-4) f1icaf := misc1eff(misc1eff.getWidth-2)
// val f1prett = misc1eff(misc1eff.getWidth-5,misc1eff.getWidth-35) val f1ictype = misc1eff(misc1eff.getWidth-3,misc1eff.getWidth-4)
// val f1poffset = misc1eff(BHT_GHR_SIZE+11, BHT_GHR_SIZE) val f1prett = misc1eff(misc1eff.getWidth-5,misc1eff.getWidth-35)
// val f1fghr = misc1eff(BHT_GHR_SIZE-1, 0) val f1poffset = misc1eff(BHT_GHR_SIZE+11, BHT_GHR_SIZE)
// val f1fghr = misc1eff(BHT_GHR_SIZE-1, 0)
// val f0dbecc = misc0eff(misc1eff.getWidth-1)
// f0icaf := misc0eff(misc1eff.getWidth-2) val f0dbecc = misc0eff(misc1eff.getWidth-1)
// val f0ictype = misc0eff(misc1eff.getWidth-3,misc1eff.getWidth-4) f0icaf := misc0eff(misc1eff.getWidth-2)
// val f0prett = misc0eff(misc1eff.getWidth-5,misc1eff.getWidth-35) val f0ictype = misc0eff(misc1eff.getWidth-3,misc1eff.getWidth-4)
// val f0poffset = misc0eff(BHT_GHR_SIZE+11, BHT_GHR_SIZE) val f0prett = misc0eff(misc1eff.getWidth-5,misc1eff.getWidth-35)
// val f0fghr = misc0eff(BHT_GHR_SIZE-1, 0) val f0poffset = misc0eff(BHT_GHR_SIZE+11, BHT_GHR_SIZE)
// val f0fghr = misc0eff(BHT_GHR_SIZE-1, 0)
// // Branch information
// brdata_in := Cat(io.ifu_bp_hist1_f(1),io.ifu_bp_hist0_f(1),io.ifu_bp_pc4_f(1),io.ifu_bp_way_f(1),io.ifu_bp_valid_f(1), // Branch information
// io.ifu_bp_ret_f(1), io.ifu_bp_hist1_f(0),io.ifu_bp_hist0_f(0),io.ifu_bp_pc4_f(0),io.ifu_bp_way_f(0), brdata_in := Cat(io.ifu_bp_hist1_f(1),io.ifu_bp_hist0_f(1),io.ifu_bp_pc4_f(1),io.ifu_bp_way_f(1),io.ifu_bp_valid_f(1),
// io.ifu_bp_valid_f(0),io.ifu_bp_ret_f(0)) io.ifu_bp_ret_f(1), io.ifu_bp_hist1_f(0),io.ifu_bp_hist0_f(0),io.ifu_bp_pc4_f(0),io.ifu_bp_way_f(0),
// // Effective branch information io.ifu_bp_valid_f(0),io.ifu_bp_ret_f(0))
// val brdataeff = Mux1H(Seq(qren(0).asBool->Cat(brdata1,brdata0), // Effective branch information
// qren(1).asBool->Cat(brdata2,brdata1), val brdataeff = Mux1H(Seq(qren(0).asBool->Cat(brdata1,brdata0),
// qren(2).asBool->Cat(brdata0,brdata2))) qren(1).asBool->Cat(brdata2,brdata1),
// qren(2).asBool->Cat(brdata0,brdata2)))
// val (brdata0eff,brdata1eff) = (brdataeff(11,0) , brdataeff(23,12))
// val (brdata0eff,brdata1eff) = (brdataeff(11,0) , brdataeff(23,12))
// val brdata0final = Mux1H(Seq(q0sel(0).asBool -> brdata0eff, q0sel(1).asBool -> brdata0eff(11,6)))
// val brdata1final = Mux1H(Seq(q1sel(0).asBool -> brdata1eff, q1sel(1).asBool -> brdata1eff(11,6))) val brdata0final = Mux1H(Seq(q0sel(0).asBool -> brdata0eff, q0sel(1).asBool -> brdata0eff(11,6)))
// val brdata1final = Mux1H(Seq(q1sel(0).asBool -> brdata1eff, q1sel(1).asBool -> brdata1eff(11,6)))
// val f0ret = Cat(brdata0final(6),brdata0final(0))
// val f0brend = Cat(brdata0final(7),brdata0final(1)) val f0ret = Cat(brdata0final(6),brdata0final(0))
// val f0way = Cat(brdata0final(8),brdata0final(2)) val f0brend = Cat(brdata0final(7),brdata0final(1))
// val f0pc4 = Cat(brdata0final(9),brdata0final(3)) val f0way = Cat(brdata0final(8),brdata0final(2))
// val f0hist0 = Cat(brdata0final(10),brdata0final(4)) val f0pc4 = Cat(brdata0final(9),brdata0final(3))
// val f0hist1 = Cat(brdata0final(11),brdata0final(5)) val f0hist0 = Cat(brdata0final(10),brdata0final(4))
// val f0hist1 = Cat(brdata0final(11),brdata0final(5))
// val f1ret = Cat(brdata1final(6),brdata1final(0))
// val f1brend = Cat(brdata1final(7),brdata1final(1)) val f1ret = Cat(brdata1final(6),brdata1final(0))
// val f1way = Cat(brdata1final(8),brdata1final(2)) val f1brend = Cat(brdata1final(7),brdata1final(1))
// val f1pc4 = Cat(brdata1final(9),brdata1final(3)) val f1way = Cat(brdata1final(8),brdata1final(2))
// val f1hist0 = Cat(brdata1final(10),brdata1final(4)) val f1pc4 = Cat(brdata1final(9),brdata1final(3))
// val f1hist1 = Cat(brdata1final(11),brdata1final(5)) val f1hist0 = Cat(brdata1final(10),brdata1final(4))
// val f1hist1 = Cat(brdata1final(11),brdata1final(5))
//
// f2_valid := f2val(0)
// sf1_valid := sf1val(0) f2_valid := f2val(0)
// sf0_valid := sf0val(0) sf1_valid := sf1val(0)
// sf0_valid := sf0val(0)
// val consume_fb0 = !sf0val(0) & f0val(0)
// val consume_fb1 = !sf1val(0) & f1val(0) val consume_fb0 = !sf0val(0) & f0val(0)
// val consume_fb1 = !sf1val(0) & f1val(0)
// // Depending on type of instruction and boundary determine how many FP to consume
// io.ifu_fb_consume1 := consume_fb0 & !consume_fb1 & !io.exu_flush_final // Depending on type of instruction and boundary determine how many FP to consume
// io.ifu_fb_consume2 := consume_fb0 & consume_fb1 & !io.exu_flush_final io.ifu_fb_consume1 := consume_fb0 & !consume_fb1 & !io.exu_flush_final
// io.ifu_fb_consume2 := consume_fb0 & consume_fb1 & !io.exu_flush_final
// ifvalid := io.ifu_fetch_val(0)
// ifvalid := io.ifu_fetch_val(0)
// // Shift logic for each dequeue
// shift_f1_f0 := !sf0_valid & sf1_valid // Shift logic for each dequeue
// shift_f2_f0 := !sf0_valid & !sf1_valid & f2_valid shift_f1_f0 := !sf0_valid & sf1_valid
// shift_f2_f1 := !sf0_valid & sf1_valid & f2_valid shift_f2_f0 := !sf0_valid & !sf1_valid & f2_valid
// shift_f2_f1 := !sf0_valid & sf1_valid & f2_valid
// fetch_to_f0 := !sf0_valid & !sf1_valid & !f2_valid & ifvalid
// fetch_to_f1 := (!sf0_valid & !sf1_valid & f2_valid & ifvalid) | fetch_to_f0 := !sf0_valid & !sf1_valid & !f2_valid & ifvalid
// (!sf0_valid & sf1_valid & !f2_valid & ifvalid) | fetch_to_f1 := (!sf0_valid & !sf1_valid & f2_valid & ifvalid) |
// ( sf0_valid & !sf1_valid & !f2_valid & ifvalid) (!sf0_valid & sf1_valid & !f2_valid & ifvalid) |
// ( sf0_valid & !sf1_valid & !f2_valid & ifvalid)
// fetch_to_f2 := (!sf0_valid & sf1_valid & f2_valid & ifvalid) |
// ( sf0_valid & sf1_valid & !f2_valid & ifvalid) fetch_to_f2 := (!sf0_valid & sf1_valid & f2_valid & ifvalid) |
// ( sf0_valid & sf1_valid & !f2_valid & ifvalid)
// val f0pc_plus1 = f0pc + 1.U
// val f0pc_plus1 = f0pc + 1.U
// val f1pc_plus1 = f1pc + 1.U
// val f1pc_plus1 = f1pc + 1.U
// val sf1pc = (Fill(31, f1_shift_2B) & f1pc_plus1) | (Fill(31, !f1_shift_2B) & f1pc)
// val sf1pc = (Fill(31, f1_shift_2B) & f1pc_plus1) | (Fill(31, !f1_shift_2B) & f1pc)
// f1pc_in := Mux1H(Seq(fetch_to_f1.asBool->io.ifu_fetch_pc,
// shift_f2_f1.asBool->f2pc, f1pc_in := Mux1H(Seq(fetch_to_f1.asBool->io.ifu_fetch_pc,
// (!fetch_to_f1 & !shift_f2_f1).asBool -> sf1pc)) shift_f2_f1.asBool->f2pc,
// (!fetch_to_f1 & !shift_f2_f1).asBool -> sf1pc))
// f0pc_in := Mux1H(Seq(fetch_to_f0.asBool->io.ifu_fetch_pc,
// shift_f2_f0.asBool->f2pc, f0pc_in := Mux1H(Seq(fetch_to_f0.asBool->io.ifu_fetch_pc,
// shift_f1_f0.asBool->sf1pc, shift_f2_f0.asBool->f2pc,
// (!fetch_to_f0 & !shift_f2_f0 & !shift_f1_f0).asBool->f0pc_plus1)) shift_f1_f0.asBool->sf1pc,
// (!fetch_to_f0 & !shift_f2_f0 & !shift_f1_f0).asBool->f0pc_plus1))
// f2val_in := Mux1H(Seq((fetch_to_f2 & !io.exu_flush_final).asBool->io.ifu_fetch_val,
// (!fetch_to_f2 & !shift_f2_f1 & !shift_f2_f0 & !io.exu_flush_final).asBool->f2val)) f2val_in := Mux1H(Seq((fetch_to_f2 & !io.exu_flush_final).asBool->io.ifu_fetch_val,
// (!fetch_to_f2 & !shift_f2_f1 & !shift_f2_f0 & !io.exu_flush_final).asBool->f2val))
// sf1val := Mux1H(Seq(f1_shift_2B.asBool->f1val(1), !f1_shift_2B.asBool->f1val))
// sf1val := Mux1H(Seq(f1_shift_2B.asBool->f1val(1), !f1_shift_2B.asBool->f1val))
// f1val_in := Mux1H(Seq(( fetch_to_f1 & !io.exu_flush_final).asBool -> io.ifu_fetch_val,
// ( shift_f2_f1 & !io.exu_flush_final).asBool->f2val, f1val_in := Mux1H(Seq(( fetch_to_f1 & !io.exu_flush_final).asBool -> io.ifu_fetch_val,
// (!fetch_to_f1 & !shift_f2_f1 & !shift_f1_f0 & !io.exu_flush_final).asBool->sf1val)) ( shift_f2_f1 & !io.exu_flush_final).asBool->f2val,
// (!fetch_to_f1 & !shift_f2_f1 & !shift_f1_f0 & !io.exu_flush_final).asBool->sf1val))
// sf0val := Mux1H(Seq(shift_2B.asBool->Cat(0.U, f0val(1)),
// (!shift_2B & !shift_4B).asBool->f0val)) sf0val := Mux1H(Seq(shift_2B.asBool->Cat(0.U, f0val(1)),
// (!shift_2B & !shift_4B).asBool->f0val))
// f0val_in := Mux1H(Seq((fetch_to_f0 & !io.exu_flush_final).asBool->io.ifu_fetch_val,
// ( shift_f2_f0 & !io.exu_flush_final).asBool->f2val, f0val_in := Mux1H(Seq((fetch_to_f0 & !io.exu_flush_final).asBool->io.ifu_fetch_val,
// ( shift_f1_f0 & !io.exu_flush_final).asBool->sf1val, ( shift_f2_f0 & !io.exu_flush_final).asBool->f2val,
// (!fetch_to_f0 & !shift_f2_f0 & !shift_f1_f0 & !io.exu_flush_final).asBool->sf0val)) ( shift_f1_f0 & !io.exu_flush_final).asBool->sf1val,
// (!fetch_to_f0 & !shift_f2_f0 & !shift_f1_f0 & !io.exu_flush_final).asBool->sf0val))
// val qeff = Mux1H(Seq(qren(0).asBool->Cat(q1,q0),
// qren(1).asBool->Cat(q2,q1), val qeff = Mux1H(Seq(qren(0).asBool->Cat(q1,q0),
// qren(2).asBool->Cat(q0,q2))) qren(1).asBool->Cat(q2,q1),
// val (q1eff, q0eff) = (qeff(63,32), qeff(31,0)) qren(2).asBool->Cat(q0,q2)))
// val (q1eff, q0eff) = (qeff(63,32), qeff(31,0))
// q0final := Mux1H(Seq(q0sel(0).asBool->q0eff, q0sel(1).asBool->q0eff(31,16)))
// q0final := Mux1H(Seq(q0sel(0).asBool->q0eff, q0sel(1).asBool->q0eff(31,16)))
// q1final := Mux1H(Seq(q1sel(0).asBool->q1eff(15,0), q1sel(1).asBool->q1eff(31,16)))
// q1final := Mux1H(Seq(q1sel(0).asBool->q1eff(15,0), q1sel(1).asBool->q1eff(31,16)))
// // Alinging the data according to the boundary of PC
// val aligndata = Mux1H(Seq(f0val(1).asBool -> q0final, (~f0val(1) & f0val(0)).asBool -> Cat(q1final(15,0),q0final(15,0)))) // Alinging the data according to the boundary of PC
// val aligndata = Mux1H(Seq(f0val(1).asBool -> q0final, (~f0val(1) & f0val(0)).asBool -> Cat(q1final(15,0),q0final(15,0))))
// alignval := Mux1H(Seq(f0val(1).asBool->3.U, (!f0val(1) & f0val(0)) -> Cat(f1val(0),1.U)))
// alignval := Mux1H(Seq(f0val(1).asBool->3.U, (!f0val(1) & f0val(0)) -> Cat(f1val(0),1.U)))
// val alignicaf = Mux1H(Seq(f0val(1).asBool -> f0icaf, (~f0val(1) & f0val(0)).asBool -> Cat(f1icaf,f0icaf)))
// val alignicaf = Mux1H(Seq(f0val(1).asBool -> f0icaf, (~f0val(1) & f0val(0)).asBool -> Cat(f1icaf,f0icaf)))
// val aligndbecc = Mux1H(Seq(f0val(1).asBool -> Fill(2,f0dbecc), (!f0val(1) & f0val(0)).asBool -> Cat(f1dbecc,f0dbecc)))
// val aligndbecc = Mux1H(Seq(f0val(1).asBool -> Fill(2,f0dbecc), (!f0val(1) & f0val(0)).asBool -> Cat(f1dbecc,f0dbecc)))
// val alignbrend = Mux1H(Seq(f0val(1).asBool()->f0brend, (!f0val(1) & f0val(0)).asBool->Cat(f1brend(0),f0brend(0))))
// val alignbrend = Mux1H(Seq(f0val(1).asBool()->f0brend, (!f0val(1) & f0val(0)).asBool->Cat(f1brend(0),f0brend(0))))
// val alignpc4 = Mux1H(Seq(f0val(1).asBool()->f0pc4, (!f0val(1) & f0val(0)).asBool->Cat(f1pc4(0),f0pc4(0))))
// val alignpc4 = Mux1H(Seq(f0val(1).asBool()->f0pc4, (!f0val(1) & f0val(0)).asBool->Cat(f1pc4(0),f0pc4(0))))
// val alignret = Mux1H(Seq(f0val(1).asBool()->f0ret, (!f0val(1) & f0val(0)).asBool->Cat(f1ret(0),f0ret(0))))
// val alignret = Mux1H(Seq(f0val(1).asBool()->f0ret, (!f0val(1) & f0val(0)).asBool->Cat(f1ret(0),f0ret(0))))
// val alignway = Mux1H(Seq(f0val(1).asBool()->f0way, (!f0val(1) & f0val(0)).asBool->Cat(f1way(0),f0way(0))))
// val alignway = Mux1H(Seq(f0val(1).asBool()->f0way, (!f0val(1) & f0val(0)).asBool->Cat(f1way(0),f0way(0))))
// val alignhist1 = Mux1H(Seq(f0val(1).asBool()->f0hist1, (!f0val(1) & f0val(0)).asBool->Cat(f1hist1(0),f0hist1(0))))
// val alignhist1 = Mux1H(Seq(f0val(1).asBool()->f0hist1, (!f0val(1) & f0val(0)).asBool->Cat(f1hist1(0),f0hist1(0))))
// val alignhist0 = Mux1H(Seq(f0val(1).asBool()->f0hist0, (!f0val(1) & f0val(0)).asBool->Cat(f1hist0(0),f0hist0(0))))
// val alignhist0 = Mux1H(Seq(f0val(1).asBool()->f0hist0, (!f0val(1) & f0val(0)).asBool->Cat(f1hist0(0),f0hist0(0))))
// val alignfromf1 = !f0val(1) & f0val(0)
// val alignfromf1 = !f0val(1) & f0val(0)
// val secondpc = Mux1H(Seq(f0val(1).asBool()->f0pc_plus1 , (!f0val(1) & f0val(0)).asBool->f1pc))
// val secondpc = Mux1H(Seq(f0val(1).asBool()->f0pc_plus1 , (!f0val(1) & f0val(0)).asBool->f1pc))
// io.dec_aln.aln_ib.ifu_i0_pc := f0pc
// io.dec_aln.aln_ib.ifu_i0_pc := f0pc
// val firstpc = f0pc
// val firstpc = f0pc
// io.dec_aln.aln_ib.ifu_i0_pc4 := first4B
// io.dec_aln.aln_ib.ifu_i0_pc4 := first4B
// io.dec_aln.aln_dec.ifu_i0_cinst := aligndata(15,0)
// io.dec_aln.aln_dec.ifu_i0_cinst := aligndata(15,0)
// // Instruction is compressed or not
// first4B := aligndata(1,0) === 3.U // Instruction is compressed or not
// first4B := aligndata(1,0) === 3.U
// val first2B = ~first4B
// val first2B = ~first4B
// io.dec_aln.aln_ib.ifu_i0_valid := Mux1H(Seq(first4B.asBool -> alignval(1), first2B.asBool -> alignval(0)))
// io.dec_aln.aln_ib.ifu_i0_valid := Mux1H(Seq(first4B.asBool -> alignval(1), first2B.asBool -> alignval(0)))
// io.dec_aln.aln_ib.ifu_i0_icaf := Mux1H(Seq(first4B.asBool -> alignicaf.orR, first2B.asBool -> alignicaf(0)))
// io.dec_aln.aln_ib.ifu_i0_icaf := Mux1H(Seq(first4B.asBool -> alignicaf.orR, first2B.asBool -> alignicaf(0)))
// io.dec_aln.aln_ib.ifu_i0_icaf_type := Mux((first4B & !f0val(1) & f0val(0) & !alignicaf(0) & !aligndbecc(0)).asBool, f1ictype, f0ictype)
// io.dec_aln.aln_ib.ifu_i0_icaf_type := Mux((first4B & !f0val(1) & f0val(0) & !alignicaf(0) & !aligndbecc(0)).asBool, f1ictype, f0ictype)
// val icaf_eff = alignicaf(1) | aligndbecc(1)
// val icaf_eff = alignicaf(1) | aligndbecc(1)
// io.dec_aln.aln_ib.ifu_i0_icaf_second := first4B & icaf_eff & alignfromf1
// io.dec_aln.aln_ib.ifu_i0_icaf_second := first4B & icaf_eff & alignfromf1
// io.dec_aln.aln_ib.ifu_i0_dbecc := Mux1H(Seq(first4B.asBool->aligndbecc.orR, first2B.asBool->aligndbecc(0)))
// io.dec_aln.aln_ib.ifu_i0_dbecc := Mux1H(Seq(first4B.asBool->aligndbecc.orR, first2B.asBool->aligndbecc(0)))
// val ifirst = aligndata
// // Expander from 16-bit to 32-bit val ifirst = aligndata
// val decompressed = Module(new ifu_compress_ctl()) // Expander from 16-bit to 32-bit
// val decompressed = Module(new ifu_compress_ctl())
// io.dec_aln.aln_ib.ifu_i0_instr := Mux1H(Seq(first4B.asBool -> ifirst, first2B.asBool -> decompressed.io.dout))
// io.dec_aln.aln_ib.ifu_i0_instr := Mux1H(Seq(first4B.asBool -> ifirst, first2B.asBool -> decompressed.io.dout))
// // Hashing the PC
// val firstpc_hash = btb_addr_hash(f0pc) // Hashing the PC
// val firstpc_hash = btb_addr_hash(f0pc)
// val secondpc_hash = btb_addr_hash(secondpc)
// val secondpc_hash = btb_addr_hash(secondpc)
// val firstbrtag_hash = if(BTB_BTAG_FOLD) btb_tag_hash_fold(firstpc) else btb_tag_hash(firstpc)
// val firstbrtag_hash = if(BTB_BTAG_FOLD) btb_tag_hash_fold(firstpc) else btb_tag_hash(firstpc)
// val secondbrtag_hash = if(BTB_BTAG_FOLD) btb_tag_hash_fold(secondpc) else btb_tag_hash(secondpc)
// val secondbrtag_hash = if(BTB_BTAG_FOLD) btb_tag_hash_fold(secondpc) else btb_tag_hash(secondpc)
// io.dec_aln.aln_ib.i0_brp.valid :=(first2B & alignbrend(0)) | (first4B & alignbrend(1)) | (first4B & alignval(1) & alignbrend(0))
// io.dec_aln.aln_ib.i0_brp.valid :=(first2B & alignbrend(0)) | (first4B & alignbrend(1)) | (first4B & alignval(1) & alignbrend(0))
// io.dec_aln.aln_ib.i0_brp.bits.ret := (first2B & alignret(0)) | (first4B & alignret(1))
// io.dec_aln.aln_ib.i0_brp.bits.ret := (first2B & alignret(0)) | (first4B & alignret(1))
// val i0_brp_pc4 = (first2B & alignpc4(0)) | (first4B & alignpc4(1))
// val i0_brp_pc4 = (first2B & alignpc4(0)) | (first4B & alignpc4(1))
// io.dec_aln.aln_ib.i0_brp.bits.way := Mux((first2B | alignbrend(0)).asBool, alignway(0), alignway(1))
// io.dec_aln.aln_ib.i0_brp.bits.way := Mux((first2B | alignbrend(0)).asBool, alignway(0), alignway(1))
// io.dec_aln.aln_ib.i0_brp.bits.hist := Cat((first2B & alignhist1(0)) | (first4B & alignhist1(1)),
// (first2B & alignhist0(0)) | (first4B & alignhist0(1))) io.dec_aln.aln_ib.i0_brp.bits.hist := Cat((first2B & alignhist1(0)) | (first4B & alignhist1(1)),
// (first2B & alignhist0(0)) | (first4B & alignhist0(1)))
// val i0_ends_f1 = first4B & alignfromf1
// io.dec_aln.aln_ib.i0_brp.bits.toffset := Mux(i0_ends_f1.asBool, f1poffset, f0poffset) val i0_ends_f1 = first4B & alignfromf1
// io.dec_aln.aln_ib.i0_brp.bits.toffset := Mux(i0_ends_f1.asBool, f1poffset, f0poffset)
// io.dec_aln.aln_ib.i0_brp.bits.prett := Mux(i0_ends_f1.asBool, f1prett, f0prett)
// io.dec_aln.aln_ib.i0_brp.bits.prett := Mux(i0_ends_f1.asBool, f1prett, f0prett)
// io.dec_aln.aln_ib.i0_brp.bits.br_start_error := (first4B & alignval(1) & alignbrend(0))
// io.dec_aln.aln_ib.i0_brp.bits.br_start_error := (first4B & alignval(1) & alignbrend(0))
// io.dec_aln.aln_ib.i0_brp.bits.bank := Mux((first2B | alignbrend(0)).asBool, firstpc(0), secondpc(0))
// io.dec_aln.aln_ib.i0_brp.bits.bank := Mux((first2B | alignbrend(0)).asBool, firstpc(0), secondpc(0))
// io.dec_aln.aln_ib.i0_brp.bits.br_error := (io.dec_aln.aln_ib.i0_brp.valid & i0_brp_pc4 & first2B) | (io.dec_aln.aln_ib.i0_brp.valid & !i0_brp_pc4 & first4B)
// io.dec_aln.aln_ib.i0_brp.bits.br_error := (io.dec_aln.aln_ib.i0_brp.valid & i0_brp_pc4 & first2B) | (io.dec_aln.aln_ib.i0_brp.valid & !i0_brp_pc4 & first4B)
// io.dec_aln.aln_ib.ifu_i0_bp_index := Mux((first2B | alignbrend(0)).asBool, firstpc_hash, secondpc_hash)
// io.dec_aln.aln_ib.ifu_i0_bp_index := Mux((first2B | alignbrend(0)).asBool, firstpc_hash, secondpc_hash)
// io.dec_aln.aln_ib.ifu_i0_bp_fghr := Mux((first4B & alignfromf1).asBool, f1fghr, f0fghr)
// io.dec_aln.aln_ib.ifu_i0_bp_fghr := Mux((first4B & alignfromf1).asBool, f1fghr, f0fghr)
// io.dec_aln.aln_ib.ifu_i0_bp_btag := Mux((first2B | alignbrend(0)).asBool, firstbrtag_hash, secondbrtag_hash)
// io.dec_aln.aln_ib.ifu_i0_bp_btag := Mux((first2B | alignbrend(0)).asBool, firstbrtag_hash, secondbrtag_hash)
// decompressed.io.din := aligndata
// decompressed.io.din := aligndata
// val i0_shift = io.dec_aln.aln_dec.dec_i0_decode_d & ~error_stall
// val i0_shift = io.dec_i0_decode_d & ~error_stall
// io.dec_aln.ifu_pmu_instr_aligned := i0_shift
// io.dec_aln.ifu_pmu_instr_aligned := i0_shift
// shift_2B := i0_shift & first2B
// shift_4B := i0_shift & first4B shift_2B := i0_shift & first2B
// shift_4B := i0_shift & first4B
// f0_shift_2B := Mux1H(Seq(shift_2B.asBool -> f0val(0), shift_4B.asBool -> (f0val(0) & !f0val(1))))
// f1_shift_2B := f0val(0) & !f0val(1) & shift_4B f0_shift_2B := Mux1H(Seq(shift_2B.asBool -> f0val(0), shift_4B.asBool -> (f0val(0) & !f0val(1))))
// f1_shift_2B := f0val(0) & !f0val(1) & shift_4B
//}
}
object aln_main extends App {
println((new chisel3.stage.ChiselStage).emitVerilog(new ifu_aln_ctl()))
}

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target/scala-2.12/classes/ifu/aln_main$.class Normal file
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