xref: /XiangShan/src/main/scala/xiangshan/backend/fu/SRT16Divider.scala (revision 195ef4a53ab54326d879e884c4e1568f424f2668) 
1/***************************************************************************************
2* Copyright (c) 2020-2021 Institute of Computing Technology, Chinese Academy of Sciences
3* Copyright (c) 2020-2021 Peng Cheng Laboratory
4*
5* XiangShan is licensed under Mulan PSL v2.
6* You can use this software according to the terms and conditions of the Mulan PSL v2.
7* You may obtain a copy of Mulan PSL v2 at:
8*          http://license.coscl.org.cn/MulanPSL2
9*
10* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND,
11* EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT,
12* MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE.
13*
14* See the Mulan PSL v2 for more details.
15***************************************************************************************/
16
17// This file contains components originally written by Yifei He, see
18// https://github.com/OpenXiangShan/XS-Verilog-Library/tree/main/int_div_radix_4_v1
19// Email of original author: [email protected]
20
21package xiangshan.backend.fu
22
23import org.chipsalliance.cde.config.Parameters
24import chisel3._
25import chisel3.util._
26import utils._
27import utility._
28import xiangshan._
29import xiangshan.backend.fu.util.CSA3_2
30
31class SRT16DividerDataModule(len: Int) extends Module {
32  val io = IO(new Bundle() {
33    val src = Vec(2, Input(UInt(len.W)))
34    val valid, sign, kill_w, kill_r, isHi, isW = Input(Bool())
35    val in_ready = Output(Bool())
36    val out_valid = Output(Bool())
37    val out_validNext = Output(Bool())
38    val out_data = Output(UInt(len.W))
39    val out_ready = Input(Bool())
40  })
41
42  // consts
43  val lzc_width = log2Up(len)
44  val itn_len = 1 + len + 2 + 1
45
46  val (a, d, sign, valid, kill_w, kill_r, isHi, isW) =
47    (io.src(0), io.src(1), io.sign, io.valid, io.kill_w, io.kill_r, io.isHi, io.isW)
48  val in_fire = valid && io.in_ready
49  val out_fire = io.out_ready && io.out_valid
50  val newReq = in_fire
51  val s_idle :: s_pre_0 :: s_pre_1 :: s_iter :: s_post_0 :: s_post_1 :: s_finish :: Nil = Enum(7)
52  val quot_neg_2 :: quot_neg_1 :: quot_0 :: quot_pos_1 :: quot_pos_2 :: Nil = Enum(5)
53
54
55  val state = RegInit((1 << s_idle.litValue.toInt).U(7.W))
56
57  // reused wires
58//  val aNormAbs = Wire(UInt((len + 1).W)) // Inputs of xNormAbs regs below
59//  val dNormAbs = Wire(UInt((len + 1).W))
60  val quotIter = Wire(UInt(len.W))
61  val quotM1Iter = Wire(UInt(len.W))
62  val aLZC = Wire(UInt((lzc_width + 1).W))
63  val dLZC = Wire(UInt((lzc_width + 1).W))
64
65  val rNext = Wire(UInt(itn_len.W))
66  val rNextPd = Wire(UInt(itn_len.W))
67
68  val aInverter = Wire(UInt(len.W)) // results of global inverter
69  val dInverter = Wire(UInt(len.W))
70
71  val finalIter = Wire(Bool())
72  val special = Wire(Bool())
73
74  // reused regs
75//  val aNormAbsReg = RegEnable(aNormAbs, newReq | state(s_pre_0) | state(s_post_0)) // reg for normalized a & d and rem & rem+d
76//  val dNormAbsReg = RegEnable(dNormAbs, newReq | state(s_pre_0) | state(s_post_0))
77  val quotIterReg = RegEnable(quotIter, state(s_pre_1) | state(s_iter) | state(s_post_0))
78  val quotM1IterReg = RegEnable(quotM1Iter, state(s_pre_1) | state(s_iter) | state(s_post_0))
79  val specialReg = RegEnable(special, state(s_pre_1))
80  val aReg = RegEnable(a, in_fire)
81
82  when(kill_r) {
83    state := UIntToOH(s_idle, 7)
84  } .elsewhen(state(s_idle) && in_fire && !kill_w) {
85    state := UIntToOH(s_pre_0, 7)
86  } .elsewhen(state(s_pre_0)) { // leading zero detection
87    state := UIntToOH(s_pre_1, 7)
88  } .elsewhen(state(s_pre_1)) { // shift a/b
89    state := Mux(special, UIntToOH(s_post_1, 7), UIntToOH(s_iter, 7))
90  } .elsewhen(state(s_iter)) { // (ws[j+1], wc[j+1]) = 4(ws[j],wc[j]) - q(j+1)*d
91    state := Mux(finalIter, UIntToOH(s_post_0, 7), UIntToOH(s_iter, 7))
92  } .elsewhen(state(s_post_0)) { // if rem < 0, rem = rem + d
93    state := UIntToOH(s_post_1, 7)
94  } .elsewhen(state(s_post_1)) {
95    state := UIntToOH(s_finish, 7)
96  } .elsewhen(state(s_finish) && io.out_ready) {
97    state := UIntToOH(s_idle, 7)
98  } .otherwise {
99    state := state
100  }
101
102  io.in_ready := state(s_idle)
103  aInverter := -Mux(state(s_idle), a, quotIterReg) // 64, 0
104  dInverter := -Mux(state(s_idle), d, quotM1IterReg) // 64, 0
105
106  val aSign = io.sign && a(len - 1) // 1
107  val dSign = io.sign && d(len - 1)
108  val dSignReg = RegEnable(dSign, newReq)
109
110  val aAbs = Mux(aSign, aInverter, a) // 64, 0
111  val dAbs = Mux(dSign, dInverter, d)
112  val aAbsReg = RegEnable(aAbs, newReq)
113  val dAbsReg = RegEnable(dAbs, newReq)
114
115  val aNorm = (aAbsReg(len - 1, 0) << aLZC(lzc_width - 1, 0))(len - 1, 0) // 64, 65
116  val dNorm = (dAbsReg(len - 1, 0) << dLZC(lzc_width - 1, 0))(len - 1, 0)
117
118  val aNormReg = RegEnable(aNorm, state(s_pre_0))
119  val dNormReg = RegEnable(dNorm, state(s_pre_0))
120
121//  aNormAbs := Mux1H(Seq(
122//    state(s_idle) -> Cat(0.U(1.W), aAbs), // 65, 0
123//    state(s_pre_0) -> Cat(0.U(1.W), aNorm), // 65, 0
124//    state(s_post_0) -> rNext(len + 3, 3) // remainder 65, 64. highest is sign bit
125//  ))
126//  dNormAbs := Mux1H(Seq(
127//    state(s_idle) -> Cat(0.U(1.W), dAbs),
128//    state(s_pre_0) -> Cat(0.U(1.W), dNorm),
129//    state(s_post_0) -> rNextPd(len + 3, 3)
130//    ))
131
132  // Second cycle, state is pre_0
133  // calculate lzc and move div* and lzc diff check if no_iter_needed
134
135  aLZC := PriorityEncoder(aAbsReg(len - 1, 0).asBools.reverse)
136  dLZC := PriorityEncoder(dAbsReg(len - 1, 0).asBools.reverse)
137  val aLZCReg = RegEnable(aLZC, state(s_pre_0)) // 7, 0
138  val dLZCReg = RegEnable(dLZC, state(s_pre_0))
139
140  val lzcWireDiff = Cat(0.U(1.W), dLZC(lzc_width - 1, 0)) - Cat(0.U(1.W), aLZC(lzc_width - 1, 0)) // 7, 0
141  val lzcRegDiff = Cat(0.U(1.W), dLZCReg(lzc_width - 1, 0)) - Cat(0.U(1.W), aLZCReg(lzc_width - 1, 0))
142//  val lzcDiff = Mux(state(s_pre_0), lzcWireDiff, lzcRegDiff)
143
144  // special case:
145  // divisor is 1 or -1; dividend has less bits than divisor; divisor is zero
146  // s_pre_0:
147  val dIsOne = dLZC(lzc_width - 1, 0).andR
148  val dIsZero = ~dNormReg.orR
149  val aIsZero = RegEnable(aLZC(lzc_width), state(s_pre_0))
150  val aTooSmall = RegEnable(aLZC(lzc_width) | lzcWireDiff(lzc_width), state(s_pre_0))
151  special := dIsOne | dIsZero | aTooSmall
152
153  val quotSpecial = Mux(dIsZero, VecInit(Seq.fill(len)(true.B)).asUInt,
154                            Mux(aTooSmall, 0.U,
155                              Mux(dSignReg, -aReg, aReg) //  signed 2^(len-1)
156                            ))
157  val remSpecial = Mux(dIsZero || aTooSmall, aReg, 0.U)
158  val quotSpecialReg = RegEnable(quotSpecial, state(s_pre_1))
159  val remSpecialReg = RegEnable(remSpecial, state(s_pre_1))
160
161  // s_pre_1
162  val quotSign = Mux(state(s_idle), aSign ^ dSign, true.B) // if not s_idle then must be s_pre_1 & dIsZero, and that we have
163  val rSign = aSign
164  val quotSignReg = RegEnable(quotSign, in_fire | (state(s_pre_1) & dIsZero))
165  val rSignReg = RegEnable(rSign, in_fire)
166
167  val rShift = lzcRegDiff(0)
168  val oddIter = lzcRegDiff(1) ^ lzcRegDiff(0)
169  val iterNum = Wire(UInt((lzc_width - 2).W))
170  val iterNumReg = RegEnable(iterNum, state(s_pre_1) | state(s_iter))
171  iterNum := Mux(state(s_pre_1), (lzcRegDiff + 1.U) >> 2, iterNumReg -% 1.U)
172  finalIter := iterNumReg === 0.U
173
174  val rSumInit = Cat(0.U(3.W), Mux(rShift, Cat(0.U(1.W), aNormReg), Cat(aNormReg, 0.U(1.W)))) //(1, 67), 0.001xxx
175  val rCarryInit = 0.U(itn_len.W)
176
177  val rSumInitTrunc = Cat(0.U(1.W), rSumInit(itn_len - 4, itn_len - 4 - 4 + 1)) // 0.00___
178  val mInitPos1 = MuxLookup(dNormReg(len-2, len-4), "b00100".U(5.W))(
179    Array(
180      0.U -> "b00100".U(5.W),
181      1.U -> "b00100".U(5.W),
182      2.U -> "b00100".U(5.W),
183      3.U -> "b00110".U(5.W),
184      4.U -> "b00110".U(5.W),
185      5.U -> "b00110".U(5.W),
186      6.U -> "b00110".U(5.W),
187      7.U -> "b01000".U(5.W),
188    )
189  )
190  val mInitPos2 = MuxLookup(dNormReg(len-2, len-4), "b01100".U(5.W))(
191    Array(
192      0.U -> "b01100".U(5.W),
193      1.U -> "b01110".U(5.W),
194      2.U -> "b01111".U(5.W),
195      3.U -> "b10000".U(5.W),
196      4.U -> "b10010".U(5.W),
197      5.U -> "b10100".U(5.W),
198      6.U -> "b10110".U(5.W),
199      7.U -> "b10110".U(5.W),
200    )
201  )
202  val initCmpPos1 = rSumInitTrunc >= mInitPos1
203  val initCmpPos2 = rSumInitTrunc >= mInitPos2
204  val qInit = Mux(initCmpPos2, UIntToOH(quot_pos_2, 5), Mux(initCmpPos1, UIntToOH(quot_pos_1, 5), UIntToOH(quot_0, 5)))
205
206  // in pre_1 we also obtain m_i + 16u * d for all u
207  // udNeg -> (rud, r2ud) -> (rudPmNeg, r2udPmNeg)
208  val dPos = Cat(0.U(1.W), dNormReg)                          // +d, 0.1xxx, (1, 64)
209  val dNeg = -Cat(0.U(1.W), dNormReg) // -d, 1.xxxx, (1, 64)
210  // val m = Wire(Vec(4, UInt(7.W)))     // we have to sigext them to calculate rqd-m_k
211
212  // index 0 is for q=-2 and 4 is for q=2!!!
213  val mNeg = Wire(Vec(4, UInt(12.W))) // selected m, extended to (6, 6) bits
214  val rudNeg = Wire(Vec(5, UInt(10.W))) // (4, 6)
215  val r2udNeg = Wire(Vec(5, UInt(12.W))) // (6, 6)
216
217  // Selection Block with improved timing
218  val rudPmNeg = Wire(Vec(5, Vec(4, UInt(10.W)))) // -(r*u*d+m_k), (5, 5) bits
219  val r2ws = Wire(UInt(10.W)) // r^2*ws (5, 5) bits
220  val r2wc = Wire(UInt(10.W))
221  // calculating exact values of w
222  val udNeg = Wire(Vec(5, UInt(itn_len.W))) // (3, 65), 1 signExt'ed Bit
223  // val r3udNeg = Wire(Vec(5, UInt(13.W)))
224
225  // Speculative Block
226  val r2udPmNeg = Wire(Vec(5, Vec(4, UInt(13.W)))) // -(r^2*d*d+m_k), (7, 6) bits. 1st index for q 2nd for m
227  val r3ws = Wire(UInt(13.W)) // r^3*ws, (7, 6) bits
228  val r3wc = Wire(UInt(13.W))
229  val qSpec = Wire(Vec(5, UInt(5.W))) // 5 speculative results of qNext2
230  // output wires
231  val qNext = Wire(UInt(5.W))
232  val qNext2 = Wire(UInt(5.W))
233  val rCarryIter = Wire(UInt(itn_len.W)) // (1, 67)
234  val rSumIter = Wire(UInt(itn_len.W))
235  // val r3wsIter = Wire(UInt(13.W))
236  // val r3wcIter = Wire(UInt(13.W))
237  // Input Regs of whole Spec + Sel + sum adder block
238  val qPrevReg = RegEnable(Mux(state(s_pre_1), qInit, qNext2), state(s_pre_1) | state(s_iter))
239  val rSumReg = RegEnable(Mux(state(s_pre_1), rSumInit, rSumIter), state(s_pre_1) | state(s_iter)) // (1, 67)
240  val rCarryReg = RegEnable(Mux(state(s_pre_1), rCarryInit, rCarryIter), state(s_pre_1) | state(s_iter))
241
242  // Give values to the regs and wires above...
243  val dForLookup = dPos(len-2, len-4)
244  mNeg := VecInit(Cat(SignExt(MuxLookup(dNormReg(len-2, len-4), "b00000000".U(7.W))(mLookUpTable2.minus_m(0)), 11), 0.U(1.W)), // (2, 5) -> (6, 6)
245                  Cat(SignExt(MuxLookup(dNormReg(len-2, len-4), "b00000000".U(7.W))(mLookUpTable2.minus_m(1)), 10) ,0.U(2.W)), // (3, 4) -> (6, 6)
246                  Cat(SignExt(MuxLookup(dNormReg(len-2, len-4), "b00000000".U(7.W))(mLookUpTable2.minus_m(2)), 10) ,0.U(2.W)),
247                  Cat(SignExt(MuxLookup(dNormReg(len-2, len-4), "b00000000".U(7.W))(mLookUpTable2.minus_m(3)), 11) ,0.U(1.W))
248  )
249  udNeg := VecInit( Cat(SignExt(dPos, 66), 0.U(2.W)),
250                    Cat(SignExt(dPos, 67), 0.U(1.W)),
251                    0.U,
252                    Cat(SignExt(dNeg, 67), 0.U(1.W)),
253                    Cat(SignExt(dNeg, 66), 0.U(2.W))
254  )
255
256  rudNeg := VecInit(Seq.tabulate(5){i => udNeg(i)(itn_len-2, itn_len-11)})
257  r2udNeg := VecInit(Seq.tabulate(5){i => udNeg(i)(itn_len-2, itn_len-13)})
258  // r3udNeg := VecInit(Seq.tabulate(5){i => udNeg(i)(itn_len-2, itn_len-13)})
259  rudPmNeg := VecInit(Seq.tabulate(5){i => VecInit(Seq.tabulate(4){ j => SignExt(rudNeg(i)(9, 1), 10) + mNeg(j)(10, 1)})})
260  r2udPmNeg := VecInit(Seq.tabulate(5){i => VecInit(Seq.tabulate(4){ j => SignExt(r2udNeg(i), 13) + SignExt(mNeg(j), 13)})})
261  r3ws := rSumReg(itn_len-1, itn_len-13)
262  r3wc := rCarryReg(itn_len-1, itn_len-13)
263
264  r2ws := rSumReg(itn_len-1, itn_len-10)
265  r2wc := rCarryReg(itn_len-1, itn_len-10)
266
267  val udNegReg = RegEnable(udNeg, state(s_pre_1))
268//  val rudNegReg = RegEnable(rudNeg, state(s_pre_1))
269  val rudPmNegReg = RegEnable(rudPmNeg, state(s_pre_1))
270  val r2udPmNegReg = RegEnable(r2udPmNeg, state(s_pre_1))
271
272  def DetectSign(signs: UInt, name: String): UInt = {
273    val qVec = Wire(Vec(5, Bool())).suggestName(name)
274    qVec(quot_neg_2) := signs(0) && signs(1) && signs(2)
275    qVec(quot_neg_1) := ~signs(0) && signs(1) && signs(2)
276    qVec(quot_0) := signs(2) && ~signs(1)
277    qVec(quot_pos_1) := signs(3) && ~signs(2) && ~signs(1)
278    qVec(quot_pos_2) := ~signs(3) && ~signs(2) && ~signs(1)
279    qVec.asUInt
280  }
281  // Selection block
282  val signs = VecInit(Seq.tabulate(4){ i => {
283    val csa = Module(new CSA3_2(10)).suggestName(s"csa_sel_${i}")
284    csa.io.in(0) := r2ws
285    csa.io.in(1) := r2wc
286    csa.io.in(2) := Mux1H(qPrevReg, rudPmNegReg.toSeq)(i) // rudPmNeg(OHToUInt(qPrevReg))(i)
287
288      (csa.io.out(0) + (csa.io.out(1)(8, 0) << 1))(9)
289    }})
290  qNext := DetectSign(signs.asUInt, s"sel_q")
291  val csaWide1 = Module(new CSA3_2(itn_len)).suggestName("csa_sel_wide_1")
292  val csaWide2 = Module(new CSA3_2(itn_len)).suggestName("csa_sel_wide_2")
293  csaWide1.io.in(0) := rSumReg << 2
294  csaWide1.io.in(1) := rCarryReg << 2
295  csaWide1.io.in(2) := Mux1H(qPrevReg, udNegReg.toSeq) << 2//udNeg(OHToUInt(qPrevReg)) << 2
296  csaWide2.io.in(0) := csaWide1.io.out(0) << 2
297  csaWide2.io.in(1) := (csaWide1.io.out(1) << 1)(itn_len-1, 0) << 2
298  csaWide2.io.in(2) := Mux1H(qNext, udNegReg.toSeq) << 2 // udNeg(OHToUInt(qNext)) << 2
299  rSumIter := Mux(~oddIter & finalIter, csaWide1.io.out(0), csaWide2.io.out(0))
300  rCarryIter := Mux(~oddIter & finalIter, (csaWide1.io.out(1) << 1)(itn_len-1, 0), (csaWide2.io.out(1) << 1)(itn_len-1, 0))
301  // r3wsIter := r3udNeg(OHToUInt(qNext))
302  // r3wcIter := (csaWide1.io.out(0)(itn_len-3, itn_len-16) + (csaWide1.io.out(1) << 1)(itn_len-3, itn_len-16))(13,1)
303  // Speculative block
304  qSpec := VecInit(Seq.tabulate(5){ q_spec => {
305      val csa1 = Module(new CSA3_2(13)).suggestName(s"csa_spec_${q_spec}")
306      csa1.io.in(0) := r3ws
307      csa1.io.in(1) := r3wc
308      csa1.io.in(2) := SignExt(udNegReg(q_spec)(itn_len-2, itn_len-11), 13) // (4, 6) -> (7, 6)
309      val signs2 = VecInit(Seq.tabulate(4){ i => {
310        val csa2 = Module(new CSA3_2(13)).suggestName(s"csa_spec_${q_spec}_${i}")
311        csa2.io.in(0) := csa1.io.out(0)
312        csa2.io.in(1) := (csa1.io.out(1) << 1)(12, 0)
313        csa2.io.in(2) := Mux1H(qPrevReg, r2udPmNegReg.toSeq)(i) // r2udPmNeg(OHToUInt(qPrevReg))(i)
314        (csa2.io.out(0) + (csa2.io.out(1)(11, 0) << 1))(12)
315      }})
316      val qVec2 = DetectSign(signs2.asUInt, s"spec_q_${q_spec}")
317      qVec2
318  }})
319  // qNext2 := qSpec(OHToUInt(qNext)) // TODO: Use Mux1H!!
320
321  qNext2 := Mux1H(qNext, qSpec.toSeq)
322
323  // on the fly quotient conversion
324  val quotHalfIter = Wire(UInt(64.W))
325  val quotM1HalfIter = Wire(UInt(64.W))
326  val quotIterNext = Wire(UInt(64.W))
327  val quotM1IterNext = Wire(UInt(64.W))
328  def OTFC(q: UInt, quot: UInt, quotM1: UInt): (UInt, UInt) = {
329    val quotNext = Mux1H(Seq(
330    q(quot_pos_2) -> (quot << 2 | "b10".U),
331    q(quot_pos_1) -> (quot << 2 | "b01".U),
332    q(quot_0)     -> (quot << 2 | "b00".U),
333    q(quot_neg_1) -> (quotM1 << 2 | "b11".U),
334    q(quot_neg_2) -> (quotM1 << 2 | "b10".U)
335    ))
336    val quotM1Next = Mux1H(Seq(
337    q(quot_pos_2) -> (quot << 2 | "b01".U),
338    q(quot_pos_1) -> (quot << 2 | "b00".U),
339    q(quot_0)     -> (quotM1 << 2 | "b11".U),
340    q(quot_neg_1) -> (quotM1 << 2 | "b10".U),
341    q(quot_neg_2) -> (quotM1 << 2 | "b01".U)
342    ))
343    (quotNext(len-1, 0), quotM1Next(len-1, 0))
344  }
345  quotHalfIter := OTFC(qPrevReg, quotIterReg, quotM1IterReg)._1
346  quotM1HalfIter := OTFC(qPrevReg, quotIterReg, quotM1IterReg)._2
347  quotIterNext := Mux(~oddIter && finalIter, quotHalfIter, OTFC(qNext, quotHalfIter, quotM1HalfIter)._1)
348  quotM1IterNext := Mux(~oddIter && finalIter, quotM1HalfIter, OTFC(qNext, quotHalfIter, quotM1HalfIter)._2)
349  // quotIter := Mux(state(s_pre_1),  0.U(len.W),
350  //                     Mux(state(s_iter), quotIterNext,
351  //                       Mux(quotSignReg, aInverter, quotIterReg)))
352  // quotM1Iter := Mux(state(s_pre_1),
353  //                       0.U(len.W), Mux(state(s_iter), quotM1IterNext,
354  //                         Mux(quotSignReg, dInverter, quotM1IterReg)))
355
356  quotIter := Mux(state(s_iter), quotIterNext,
357                    Mux(state(s_pre_1), 0.U(len.W),
358                      Mux(quotSignReg, aInverter, quotIterReg)))
359  quotM1Iter := Mux(state(s_iter), quotM1IterNext,
360                      Mux(state(s_pre_1), 0.U(len.W),
361                        Mux(quotSignReg, dInverter, quotM1IterReg)))
362  // finally, to the recovery stages!
363
364  when(rSignReg) {
365    rNext := ~rSumReg + ~rCarryReg + 2.U
366    rNextPd := ~rSumReg + ~rCarryReg + ~Cat(0.U(1.W), dNormReg, 0.U(3.W)) + 3.U
367  } .otherwise {
368    rNext := rSumReg + rCarryReg
369    rNextPd := rSumReg + rCarryReg + Cat(0.U(1.W), dNormReg, 0.U(3.W))
370  }
371  val rNextReg = RegEnable(rNext(len + 3, 3), state(s_post_0))
372  val rNextPdReg = RegEnable(rNextPd(len + 3, 3), state(s_post_0))
373  dontTouch(rNextReg)
374  // post_1
375  val r = rNextReg
376  val rPd = rNextPdReg
377  val rIsZero = ~(r.orR)
378  val needCorr = Mux(rSignReg, ~r(len) & r.orR, r(len)) // when we get pos rem for a<0 or neg rem for a>0
379  val rPreShifted = Mux(needCorr, rPd, r)
380  val rightShifter = Module(new RightShifter(len, lzc_width))
381  rightShifter.io.in := rPreShifted
382  rightShifter.io.shiftNum := dLZCReg
383  rightShifter.io.msb := Mux(~(rPreShifted.orR), 0.U, rSignReg)
384  val rShifted = rightShifter.io.out
385  val rFinal = RegEnable(Mux(specialReg, remSpecialReg, rShifted), state(s_post_1))// right shifted remainder. shift by the number of bits divisor is shifted
386  val qFinal = RegEnable(Mux(specialReg, quotSpecialReg, Mux(needCorr, quotM1IterReg, quotIterReg)), state(s_post_1))
387  val res = Mux(isHi, rFinal, qFinal)
388  io.out_data := Mux(isW,
389    SignExt(res(31, 0), len),
390    res
391  )
392  io.in_ready := state(s_idle)
393  io.out_valid := state(s_finish)
394  io.out_validNext := state(s_post_1)
395}
396
397object mLookUpTable2 {
398  // Usage :
399  // result := decoder(QMCMinimizer, index, mLookupTable.xxx)
400  val minus_m = Seq(
401    Array( // -m[-1]
402      0.U -> "b00_11010".U(7.W),
403      1.U -> "b00_11110".U(7.W),
404      2.U -> "b01_00000".U(7.W),
405      3.U -> "b01_00100".U(7.W),
406      4.U -> "b01_00110".U(7.W),
407      5.U -> "b01_01010".U(7.W),
408      6.U -> "b01_01100".U(7.W),
409      7.U -> "b01_10000".U(7.W)
410    ),
411    Array( // -m[0]
412      0.U -> "b000_0100".U(7.W),
413      1.U -> "b000_0110".U(7.W),
414      2.U -> "b000_0110".U(7.W),
415      3.U -> "b000_0110".U(7.W),
416      4.U -> "b000_1000".U(7.W),
417      5.U -> "b000_1000".U(7.W),
418      6.U -> "b000_1000".U(7.W),
419      7.U -> "b000_1000".U(7.W)
420    ),
421    Array( //-m[1]
422      0.U -> "b111_1101".U(7.W),
423      1.U -> "b111_1100".U(7.W),
424      2.U -> "b111_1100".U(7.W),
425      3.U -> "b111_1100".U(7.W),
426      4.U -> "b111_1011".U(7.W),
427      5.U -> "b111_1010".U(7.W),
428      6.U -> "b111_1010".U(7.W),
429      7.U -> "b111_1010".U(7.W)
430    ),
431    Array( //-m[2]
432      0.U -> "b11_01000".U(7.W),
433      1.U -> "b11_00100".U(7.W),
434      2.U -> "b11_00010".U(7.W),
435      3.U -> "b10_11110".U(7.W),
436      4.U -> "b10_11100".U(7.W),
437      5.U -> "b10_11000".U(7.W),
438      6.U -> "b10_10110".U(7.W),
439      7.U -> "b10_10010".U(7.W)
440    ))
441}
442