mirror of
https://github.com/rdolbeau/NuBusFPGA.git
synced 2024-12-23 01:30:32 +00:00
495 lines
21 KiB
Scala
495 lines
21 KiB
Scala
// WARNING: this is auto-generated code!
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// See https://github.com/rdolbeau/VexRiscvBPluginGenerator/
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package vexriscv.plugin
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import spinal.core._
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import vexriscv.{Stageable, DecoderService, VexRiscv}
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object CG6Plugin {
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object CG6CtrlminmaxEnum extends SpinalEnum(binarySequential) {
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val CTRL_MAXU, CTRL_MINU = newElement()
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}
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object CG6CtrlsignextendEnum extends SpinalEnum(binarySequential) {
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val CTRL_SEXTdotB, CTRL_ZEXTdotH = newElement()
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}
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object CG6CtrlternaryEnum extends SpinalEnum(binarySequential) {
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val CTRL_CMIX, CTRL_CMOV, CTRL_FSR = newElement()
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}
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object CG6CtrlEnum extends SpinalEnum(binarySequential) {
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val CTRL_SH2ADD, CTRL_minmax, CTRL_signextend, CTRL_ternary, CTRL_REV8 = newElement()
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}
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object CG6Ctrlminmax extends Stageable(CG6CtrlminmaxEnum())
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object CG6Ctrlsignextend extends Stageable(CG6CtrlsignextendEnum())
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object CG6Ctrlternary extends Stageable(CG6CtrlternaryEnum())
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object CG6Ctrl extends Stageable(CG6CtrlEnum())
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// Prologue
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// function implementing the semantic of 32-bits generalized reverse
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def fun_grev( a:Bits, b:Bits ) : Bits = {
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val x1 = ((b&B"32'x00000001")===B"32'x00000001") ? (((a & B"32'x55555555") |<< 1) | ((a & B"32'xAAAAAAAA") |>> 1)) | a
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val x2 = ((b&B"32'x00000002")===B"32'x00000002") ? (((x1 & B"32'x33333333") |<< 2) | ((x1 & B"32'xCCCCCCCC") |>> 2)) | x1
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val x4 = ((b&B"32'x00000004")===B"32'x00000004") ? (((x2 & B"32'x0F0F0F0F") |<< 4) | ((x2 & B"32'xF0F0F0F0") |>> 4)) | x2
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val x8 = ((b&B"32'x00000008")===B"32'x00000008") ? (((x4 & B"32'x00FF00FF") |<< 8) | ((x4 & B"32'xFF00FF00") |>> 8)) | x4
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val x16 = ((b&B"32'x00000010")===B"32'x00000010") ? (((x8 & B"32'x0000FFFF") |<<16) | ((x8 & B"32'xFFFF0000") |>>16)) | x8
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x16 // return value
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}
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// function implementing the semantic of 32-bits generalized OR-combine
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def fun_gorc( a:Bits, b:Bits ) : Bits = {
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val x1 = ((b&B"32'x00000001")===B"32'x00000001") ? (a | ((a & B"32'x55555555") |<< 1) | ((a & B"32'xAAAAAAAA") |>> 1)) | a
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val x2 = ((b&B"32'x00000002")===B"32'x00000002") ? (x1 | ((x1 & B"32'x33333333") |<< 2) | ((x1 & B"32'xCCCCCCCC") |>> 2)) | x1
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val x4 = ((b&B"32'x00000004")===B"32'x00000004") ? (x2 | ((x2 & B"32'x0F0F0F0F") |<< 4) | ((x2 & B"32'xF0F0F0F0") |>> 4)) | x2
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val x8 = ((b&B"32'x00000008")===B"32'x00000008") ? (x4 | ((x4 & B"32'x00FF00FF") |<< 8) | ((x4 & B"32'xFF00FF00") |>> 8)) | x4
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val x16 = ((b&B"32'x00000010")===B"32'x00000010") ? (x8 | ((x8 & B"32'x0000FFFF") |<<16) | ((x8 & B"32'xFFFF0000") |>>16)) | x8
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x16 // return value
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}
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// helper function for the implementation of the generalized shuffles
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def fun_shuffle32_stage(src:Bits, maskL:Bits, maskR:Bits, N:Int) : Bits = {
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val x = src & ~(maskL | maskR)
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val x2 = x | ((src |<< N) & maskL) | ((src |>> N) & maskR);
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x2 // return value
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}
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// function implementing the semantic of 32-bits generalized shuffle
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def fun_shfl32(a:Bits, b:Bits) : Bits = {
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val x = a;
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val x1 = ((b&B"32'x00000008")===B"32'x00000008") ? fun_shuffle32_stage(x , B"32'x00FF0000", B"32'x0000FF00", 8) | x;
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val x2 = ((b&B"32'x00000004")===B"32'x00000004") ? fun_shuffle32_stage(x1, B"32'x0F000F00", B"32'x00F000F0", 4) | x1;
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val x3 = ((b&B"32'x00000002")===B"32'x00000002") ? fun_shuffle32_stage(x2, B"32'x30303030", B"32'x0C0C0C0C", 2) | x2;
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val x4 = ((b&B"32'x00000001")===B"32'x00000001") ? fun_shuffle32_stage(x3, B"32'x44444444", B"32'x22222222", 1) | x3;
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x4 // return value
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}
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// function implementing the semantic of 32-bits generalized unshuffle
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def fun_unshfl32(a:Bits, b:Bits) : Bits = {
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val x = a;
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val x1 = ((b&B"32'x00000001")===B"32'x00000001") ? fun_shuffle32_stage(x , B"32'x44444444", B"32'x22222222", 1) | x;
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val x2 = ((b&B"32'x00000002")===B"32'x00000002") ? fun_shuffle32_stage(x1, B"32'x30303030", B"32'x0C0C0C0C", 2) | x1;
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val x3 = ((b&B"32'x00000004")===B"32'x00000004") ? fun_shuffle32_stage(x2, B"32'x0F000F00", B"32'x00F000F0", 4) | x2;
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val x4 = ((b&B"32'x00000008")===B"32'x00000008") ? fun_shuffle32_stage(x3, B"32'x00FF0000", B"32'x0000FF00", 8) | x3;
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x4 // return value
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}
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// this is trying to look like DOI 10.2478/jee-2015-0054
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def fun_clz_NLCi(x:Bits): Bits = {
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val r2 = (~(x(0) | x(1) | x(2) | x(3)))
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val r1 = (~(x(2) | x(3)))
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val r0 = (~(x(3) | (x(1) & ~x(2))))
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val r = r2 ## r1 ## r0
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r // return value
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}
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def fun_clz_BNE(a:Bits) : Bits = {
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val a01 = ~(a(0) & a(1))
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val a23 = ~(a(2) & a(3))
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val a45 = ~(a(4) & a(5))
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val a67 = ~(a(6) & a(7))
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val a0123 = ~(a01 | a23) // also r(2)
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val a4567 = ~(a45 | a67)
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val a56 = ~(a(5) & ~a(6))
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val a024 = (a(0) & a(2) & a(4)) // AND not NAND
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val a13 = ~(a(1) & a(3))
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val a12 = ~(a(1) & ~a(2))
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val r3 = ((a0123 & a4567)) // AND not NAND
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val r2 = (a0123)
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val r1 = (~(a01 | (~a23 & a45)))
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val r0 = (~((~((a56) & (a024))) & (~((a13) & (a12) & (a(0))))))
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val r = r3 ## r2 ## r1 ##r0
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r // return value
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}
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// For trailing count, count using use leading count on bit-reversed value
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def fun_cltz(ino:Bits, ctz:Bool) : Bits = {
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val inr = ino(0) ## ino(1) ## ino(2) ## ino(3) ## ino(4) ## ino(5) ## ino(6) ## ino(7) ## ino(8) ## ino(9) ## ino(10) ## ino(11) ## ino(12) ## ino(13) ## ino(14) ## ino(15) ## ino(16) ## ino(17) ## ino(18) ## ino(19) ## ino(20) ## ino(21) ## ino(22) ## ino(23) ## ino(24) ## ino(25) ## ino(26) ## ino(27) ## ino(28) ## ino(29) ## ino(30) ## ino(31)
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val in = (ctz === True) ? (inr) | (ino)
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val nlc7 = fun_clz_NLCi(in(31 downto 28))
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val nlc6 = fun_clz_NLCi(in(27 downto 24))
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val nlc5 = fun_clz_NLCi(in(23 downto 20))
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val nlc4 = fun_clz_NLCi(in(19 downto 16))
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val nlc3 = fun_clz_NLCi(in(15 downto 12))
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val nlc2 = fun_clz_NLCi(in(11 downto 8))
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val nlc1 = fun_clz_NLCi(in( 7 downto 4))
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val nlc0 = fun_clz_NLCi(in( 3 downto 0))
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val a = nlc0(2) ## nlc1(2) ## nlc2(2) ## nlc3(2) ## nlc4(2) ## nlc5(2) ## nlc6(2) ## nlc7(2)
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val bne = fun_clz_BNE(a)
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val muxo = (bne(2 downto 0)).mux(
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B"3'b000" -> nlc7(1 downto 0),
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B"3'b001" -> nlc6(1 downto 0),
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B"3'b010" -> nlc5(1 downto 0),
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B"3'b011" -> nlc4(1 downto 0),
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B"3'b100" -> nlc3(1 downto 0),
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B"3'b101" -> nlc2(1 downto 0),
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B"3'b110" -> nlc1(1 downto 0),
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B"3'b111" -> nlc0(1 downto 0)
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)
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val r = (bne(3)) ? B"6'b100000" | (B"1'b0" ## bne(2 downto 0) ## muxo(1 downto 0)) // 6 bits
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r.resize(32) // return value
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}
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// naive popcnt
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def fun_popcnt(in:Bits) : Bits = {
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val r = in(0).asBits.resize(6).asUInt + in(1).asBits.resize(6).asUInt + in(2).asBits.resize(6).asUInt + in(3).asBits.resize(6).asUInt +
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in(4).asBits.resize(6).asUInt + in(5).asBits.resize(6).asUInt + in(6).asBits.resize(6).asUInt + in(7).asBits.resize(6).asUInt +
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in(8).asBits.resize(6).asUInt + in(9).asBits.resize(6).asUInt + in(10).asBits.resize(6).asUInt + in(11).asBits.resize(6).asUInt +
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in(12).asBits.resize(6).asUInt + in(13).asBits.resize(6).asUInt + in(14).asBits.resize(6).asUInt + in(15).asBits.resize(6).asUInt +
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in(16).asBits.resize(6).asUInt + in(17).asBits.resize(6).asUInt + in(18).asBits.resize(6).asUInt + in(19).asBits.resize(6).asUInt +
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in(20).asBits.resize(6).asUInt + in(21).asBits.resize(6).asUInt + in(22).asBits.resize(6).asUInt + in(23).asBits.resize(6).asUInt +
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in(24).asBits.resize(6).asUInt + in(25).asBits.resize(6).asUInt + in(26).asBits.resize(6).asUInt + in(27).asBits.resize(6).asUInt +
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in(28).asBits.resize(6).asUInt + in(29).asBits.resize(6).asUInt + in(30).asBits.resize(6).asUInt + in(31).asBits.resize(6).asUInt
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r.asBits.resize(32) // return value
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}
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//XPERMs
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def fun_xperm_n(rs1:Bits, rs2:Bits) : Bits = {
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val i0 = rs2(3 downto 0).asUInt
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val i1 = rs2(7 downto 4).asUInt
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val i2 = rs2(11 downto 8).asUInt
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val i3 = rs2(15 downto 12).asUInt
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val i4 = rs2(19 downto 16).asUInt
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val i5 = rs2(23 downto 20).asUInt
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val i6 = rs2(27 downto 24).asUInt
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val i7 = rs2(31 downto 28).asUInt
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val r0 = (i0).mux(
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0 -> rs1(3 downto 0),
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1 -> rs1(7 downto 4),
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2 -> rs1(11 downto 8),
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3 -> rs1(15 downto 12),
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4 -> rs1(19 downto 16),
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5 -> rs1(23 downto 20),
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6 -> rs1(27 downto 24),
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7 -> rs1(31 downto 28),
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default -> B"4'b0000"
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)
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val r1 = (i1).mux(
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0 -> rs1(3 downto 0),
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1 -> rs1(7 downto 4),
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2 -> rs1(11 downto 8),
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3 -> rs1(15 downto 12),
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4 -> rs1(19 downto 16),
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5 -> rs1(23 downto 20),
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6 -> rs1(27 downto 24),
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7 -> rs1(31 downto 28),
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default -> B"4'b0000"
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)
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val r2 = (i2).mux(
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0 -> rs1(3 downto 0),
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1 -> rs1(7 downto 4),
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2 -> rs1(11 downto 8),
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3 -> rs1(15 downto 12),
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4 -> rs1(19 downto 16),
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5 -> rs1(23 downto 20),
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6 -> rs1(27 downto 24),
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7 -> rs1(31 downto 28),
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default -> B"4'b0000"
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)
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val r3 = (i3).mux(
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0 -> rs1(3 downto 0),
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1 -> rs1(7 downto 4),
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2 -> rs1(11 downto 8),
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3 -> rs1(15 downto 12),
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4 -> rs1(19 downto 16),
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5 -> rs1(23 downto 20),
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6 -> rs1(27 downto 24),
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7 -> rs1(31 downto 28),
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default -> B"4'b0000"
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)
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val r4 = (i4).mux(
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0 -> rs1(3 downto 0),
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1 -> rs1(7 downto 4),
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2 -> rs1(11 downto 8),
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3 -> rs1(15 downto 12),
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4 -> rs1(19 downto 16),
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5 -> rs1(23 downto 20),
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6 -> rs1(27 downto 24),
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7 -> rs1(31 downto 28),
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default -> B"4'b0000"
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)
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val r5 = (i5).mux(
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0 -> rs1(3 downto 0),
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1 -> rs1(7 downto 4),
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2 -> rs1(11 downto 8),
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3 -> rs1(15 downto 12),
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4 -> rs1(19 downto 16),
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5 -> rs1(23 downto 20),
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6 -> rs1(27 downto 24),
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7 -> rs1(31 downto 28),
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default -> B"4'b0000"
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)
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val r6 = (i6).mux(
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0 -> rs1(3 downto 0),
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1 -> rs1(7 downto 4),
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2 -> rs1(11 downto 8),
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3 -> rs1(15 downto 12),
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4 -> rs1(19 downto 16),
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5 -> rs1(23 downto 20),
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6 -> rs1(27 downto 24),
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7 -> rs1(31 downto 28),
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default -> B"4'b0000"
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)
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val r7 = (i7).mux(
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0 -> rs1(3 downto 0),
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1 -> rs1(7 downto 4),
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2 -> rs1(11 downto 8),
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3 -> rs1(15 downto 12),
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4 -> rs1(19 downto 16),
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5 -> rs1(23 downto 20),
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6 -> rs1(27 downto 24),
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7 -> rs1(31 downto 28),
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default -> B"4'b0000"
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)
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r7 ## r6 ## r5 ## r4 ## r3 ## r2 ## r1 ## r0 // return value
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}
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def fun_xperm_b(rs1:Bits, rs2:Bits) : Bits = {
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val i0 = rs2(7 downto 0).asUInt;
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val i1 = rs2(15 downto 8).asUInt;
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val i2 = rs2(23 downto 16).asUInt;
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val i3 = rs2(31 downto 24).asUInt;
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val r0 = (i0).mux(
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0 -> rs1(7 downto 0),
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1 -> rs1(15 downto 8),
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2 -> rs1(23 downto 16),
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3 -> rs1(31 downto 24),
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default -> B"8'b00000000"
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)
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val r1 = (i1).mux(
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0 -> rs1(7 downto 0),
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1 -> rs1(15 downto 8),
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2 -> rs1(23 downto 16),
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3 -> rs1(31 downto 24),
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default -> B"8'b00000000"
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)
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val r2 = (i2).mux(
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0 -> rs1(7 downto 0),
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1 -> rs1(15 downto 8),
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2 -> rs1(23 downto 16),
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3 -> rs1(31 downto 24),
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default -> B"8'b00000000"
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)
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val r3 = (i3).mux(
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0 -> rs1(7 downto 0),
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1 -> rs1(15 downto 8),
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2 -> rs1(23 downto 16),
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3 -> rs1(31 downto 24),
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default -> B"8'b00000000"
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)
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r3 ## r2 ## r1 ## r0 // return value
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}
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def fun_xperm_h(rs1:Bits, rs2:Bits) : Bits = {
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val i0 = rs2(15 downto 0).asUInt;
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val i1 = rs2(31 downto 16).asUInt;
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val r0 = (i0).mux(
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0 -> rs1(15 downto 0),
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1 -> rs1(31 downto 16),
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default -> B"16'x0000"
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)
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val r1 = (i1).mux(
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0 -> rs1(15 downto 0),
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1 -> rs1(31 downto 16),
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default -> B"16'x0000"
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)
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r1 ## r0 // return value
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}
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def fun_fsl(rs1:Bits, rs3:Bits, rs2:Bits) : Bits = {
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val rawshamt = (rs2 & B"32'x0000003F").asUInt
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val shamt = (rawshamt >= 32) ? (rawshamt - 32) | (rawshamt)
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val A = (shamt === rawshamt) ? (rs1) | (rs3)
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val B = (shamt === rawshamt) ? (rs3) | (rs1)
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val r = (shamt === 0) ? (A) | ((A |<< shamt) | (B |>> (32-shamt)))
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r // return value
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}
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def fun_fsr(rs1:Bits, rs3:Bits, rs2:Bits) : Bits = {
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val rawshamt = (rs2 & B"32'x0000003F").asUInt
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val shamt = (rawshamt >= 32) ? (rawshamt - 32) | (rawshamt)
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val A = (shamt === rawshamt) ? (rs1) | (rs3)
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val B = (shamt === rawshamt) ? (rs3) | (rs1)
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val r = (shamt === 0) ? (A) | ((A |>> shamt) | (B |<< (32-shamt)))
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r // return value
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}
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def fun_bfp(rs1:Bits, rs2:Bits) : Bits = {
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val off = rs2(20 downto 16).asUInt
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val rawlen = rs2(27 downto 24).asUInt
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val convlen = (rawlen === 0) ? (rawlen+16) | (rawlen)
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val len = ((convlen + off) > 32) ? (32 - off) | (convlen)
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val allones = B"16'xFFFF"
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val lenones = (allones |>> (16-len))
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//val one = B"17'x00001"
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//val lenones = (((one |<< len).asUInt) - 1).asBits;
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val mask = (lenones.resize(32) |<< off);
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val data = (rs2 & lenones.resize(32)) |<< off;
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val r = (rs1 & ~mask) | data
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r // return value
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}
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def fun_rev8(a:Bits) : Bits = {
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val r = a(7 downto 0) ## a(15 downto 8) ## a(23 downto 16) ## a(31 downto 24)
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r // return value
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}
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def fun_orcb(a:Bits) : Bits = {
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val x1 = (a | ((a & B"32'x55555555") |<< 1) | ((a & B"32'xAAAAAAAA") |>> 1))
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val x2 = (x1 | ((x1 & B"32'x33333333") |<< 2) | ((x1 & B"32'xCCCCCCCC") |>> 2))
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val x4 = (x2 | ((x2 & B"32'x0F0F0F0F") |<< 4) | ((x2 & B"32'xF0F0F0F0") |>> 4))
|
|
|
|
x4 // return value
|
|
}
|
|
def fun_revdotb(a:Bits) : Bits = {
|
|
val r = a(24) ## a(25) ## a(26) ## a(27) ## a(28) ## a(29) ## a(30) ## a(31) ##
|
|
a(16) ## a(17) ## a(18) ## a(19) ## a(20) ## a(21) ## a(22) ## a(23) ##
|
|
a( 8) ## a( 9) ## a(10) ## a(11) ## a(12) ## a(13) ## a(14) ## a(15) ##
|
|
a( 0) ## a( 1) ## a( 2) ## a( 3) ## a( 4) ## a( 5) ## a( 6) ## a( 7)
|
|
|
|
r // return value;
|
|
}
|
|
// helper function for the implementation of the generalized shuffles
|
|
def fun_shuffle32bis_stage(src:Bits, maskL:Bits, maskR:Bits, N:Int) : Bits = {
|
|
val x = src & ~(maskL | maskR)
|
|
val x2 = x | ((src |<< N) & maskL) | ((src |>> N) & maskR);
|
|
x2 // return value
|
|
}
|
|
def fun_zip(a:Bits) : Bits = {
|
|
val x = a;
|
|
val x1 = fun_shuffle32bis_stage(x , B"32'x00FF0000", B"32'x0000FF00", 8)
|
|
val x2 = fun_shuffle32bis_stage(x1, B"32'x0F000F00", B"32'x00F000F0", 4)
|
|
val x3 = fun_shuffle32bis_stage(x2, B"32'x30303030", B"32'x0C0C0C0C", 2)
|
|
val x4 = fun_shuffle32bis_stage(x3, B"32'x44444444", B"32'x22222222", 1)
|
|
x4 // return value
|
|
}
|
|
def fun_unzip(a:Bits) : Bits = {
|
|
val x = a;
|
|
val x1 = fun_shuffle32bis_stage(x , B"32'x44444444", B"32'x22222222", 1)
|
|
val x2 = fun_shuffle32bis_stage(x1, B"32'x30303030", B"32'x0C0C0C0C", 2)
|
|
val x3 = fun_shuffle32bis_stage(x2, B"32'x0F000F00", B"32'x00F000F0", 4)
|
|
val x4 = fun_shuffle32bis_stage(x3, B"32'x00FF0000", B"32'x0000FF00", 8)
|
|
x4 // return value
|
|
}
|
|
|
|
// End prologue
|
|
} // object Plugin
|
|
class CG6Plugin(earlyInjection : Boolean = true) extends Plugin[VexRiscv] {
|
|
import CG6Plugin._
|
|
object IS_CG6 extends Stageable(Bool)
|
|
object CG6_FINAL_OUTPUT extends Stageable(Bits(32 bits))
|
|
override def setup(pipeline: VexRiscv): Unit = {
|
|
import pipeline.config._
|
|
val immediateActions = List[(Stageable[_ <: BaseType],Any)](
|
|
SRC1_CTRL -> Src1CtrlEnum.RS,
|
|
SRC2_CTRL -> Src2CtrlEnum.IMI,
|
|
REGFILE_WRITE_VALID -> True,
|
|
BYPASSABLE_EXECUTE_STAGE -> Bool(earlyInjection),
|
|
BYPASSABLE_MEMORY_STAGE -> True,
|
|
RS1_USE -> True,
|
|
IS_CG6 -> True
|
|
)
|
|
val binaryActions = List[(Stageable[_ <: BaseType],Any)](
|
|
SRC1_CTRL -> Src1CtrlEnum.RS,
|
|
SRC2_CTRL -> Src2CtrlEnum.RS,
|
|
REGFILE_WRITE_VALID -> True,
|
|
BYPASSABLE_EXECUTE_STAGE -> Bool(earlyInjection),
|
|
BYPASSABLE_MEMORY_STAGE -> True,
|
|
RS1_USE -> True,
|
|
RS2_USE -> True,
|
|
IS_CG6 -> True
|
|
)
|
|
val unaryActions = List[(Stageable[_ <: BaseType],Any)](
|
|
SRC1_CTRL -> Src1CtrlEnum.RS,
|
|
REGFILE_WRITE_VALID -> True,
|
|
BYPASSABLE_EXECUTE_STAGE -> Bool(earlyInjection),
|
|
BYPASSABLE_MEMORY_STAGE -> True,
|
|
RS1_USE -> True,
|
|
IS_CG6 -> True
|
|
)
|
|
val ternaryActions = List[(Stageable[_ <: BaseType],Any)](
|
|
SRC1_CTRL -> Src1CtrlEnum.RS,
|
|
SRC2_CTRL -> Src2CtrlEnum.RS,
|
|
SRC3_CTRL -> Src3CtrlEnum.RS,
|
|
REGFILE_WRITE_VALID -> True,
|
|
BYPASSABLE_EXECUTE_STAGE -> Bool(earlyInjection),
|
|
BYPASSABLE_MEMORY_STAGE -> True,
|
|
RS1_USE -> True,
|
|
RS2_USE -> True,
|
|
RS3_USE -> True,
|
|
IS_CG6 -> True
|
|
)
|
|
val immTernaryActions = List[(Stageable[_ <: BaseType],Any)](
|
|
SRC1_CTRL -> Src1CtrlEnum.RS,
|
|
SRC2_CTRL -> Src2CtrlEnum.IMI,
|
|
SRC3_CTRL -> Src3CtrlEnum.RS,
|
|
REGFILE_WRITE_VALID -> True,
|
|
BYPASSABLE_EXECUTE_STAGE -> Bool(earlyInjection),
|
|
BYPASSABLE_MEMORY_STAGE -> True,
|
|
RS1_USE -> True,
|
|
RS3_USE -> True,
|
|
IS_CG6 -> True
|
|
)
|
|
def SH2ADD_KEY = M"0010000----------100-----0110011"
|
|
def MINU_KEY = M"0000101----------101-----0110011"
|
|
def MAXU_KEY = M"0000101----------111-----0110011"
|
|
def SEXTdotB_KEY = M"011000000100-----001-----0010011"
|
|
def CMIX_KEY = M"-----11----------001-----0110011"
|
|
def CMOV_KEY = M"-----11----------101-----0110011"
|
|
def FSR_KEY = M"-----10----------101-----0110011"
|
|
def ZEXTdotH_KEY = M"000010000000-----100-----0110011"
|
|
def REV8_KEY = M"011010011000-----101-----0010011"
|
|
val decoderService = pipeline.service(classOf[DecoderService])
|
|
decoderService.addDefault(IS_CG6, False)
|
|
decoderService.add(List(
|
|
SH2ADD_KEY -> (binaryActions ++ List(CG6Ctrl -> CG6CtrlEnum.CTRL_SH2ADD)),
|
|
MINU_KEY -> (binaryActions ++ List(CG6Ctrl -> CG6CtrlEnum.CTRL_minmax, CG6Ctrlminmax -> CG6CtrlminmaxEnum.CTRL_MINU)),
|
|
MAXU_KEY -> (binaryActions ++ List(CG6Ctrl -> CG6CtrlEnum.CTRL_minmax, CG6Ctrlminmax -> CG6CtrlminmaxEnum.CTRL_MAXU)),
|
|
SEXTdotB_KEY -> (unaryActions ++ List(CG6Ctrl -> CG6CtrlEnum.CTRL_signextend, CG6Ctrlsignextend -> CG6CtrlsignextendEnum.CTRL_SEXTdotB)),
|
|
ZEXTdotH_KEY -> (unaryActions ++ List(CG6Ctrl -> CG6CtrlEnum.CTRL_signextend, CG6Ctrlsignextend -> CG6CtrlsignextendEnum.CTRL_ZEXTdotH)),
|
|
CMIX_KEY -> (ternaryActions ++ List(CG6Ctrl -> CG6CtrlEnum.CTRL_ternary, CG6Ctrlternary -> CG6CtrlternaryEnum.CTRL_CMIX)),
|
|
CMOV_KEY -> (ternaryActions ++ List(CG6Ctrl -> CG6CtrlEnum.CTRL_ternary, CG6Ctrlternary -> CG6CtrlternaryEnum.CTRL_CMOV)),
|
|
FSR_KEY -> (ternaryActions ++ List(CG6Ctrl -> CG6CtrlEnum.CTRL_ternary, CG6Ctrlternary -> CG6CtrlternaryEnum.CTRL_FSR)),
|
|
REV8_KEY -> (unaryActions ++ List(CG6Ctrl -> CG6CtrlEnum.CTRL_REV8))
|
|
))
|
|
} // override def setup
|
|
override def build(pipeline: VexRiscv): Unit = {
|
|
import pipeline._
|
|
import pipeline.config._
|
|
execute plug new Area{
|
|
import execute._
|
|
val val_minmax = input(CG6Ctrlminmax).mux(
|
|
CG6CtrlminmaxEnum.CTRL_MAXU -> ((input(SRC1).asUInt > input(SRC2).asUInt) ? input(SRC1) | input(SRC2)).asBits,
|
|
CG6CtrlminmaxEnum.CTRL_MINU -> ((input(SRC1).asUInt < input(SRC2).asUInt) ? input(SRC1) | input(SRC2)).asBits
|
|
) // mux minmax
|
|
val val_signextend = input(CG6Ctrlsignextend).mux(
|
|
CG6CtrlsignextendEnum.CTRL_SEXTdotB -> (Bits(24 bits).setAllTo(input(SRC1)(7)) ## input(SRC1)(7 downto 0)).asBits,
|
|
CG6CtrlsignextendEnum.CTRL_ZEXTdotH -> (B"16'x0000" ## input(SRC1)(15 downto 0)).asBits
|
|
) // mux signextend
|
|
val val_ternary = input(CG6Ctrlternary).mux(
|
|
CG6CtrlternaryEnum.CTRL_CMIX -> ((input(SRC1) & input(SRC2)) | (input(SRC3) & ~input(SRC2))).asBits,
|
|
CG6CtrlternaryEnum.CTRL_CMOV -> ((input(SRC2).asUInt =/= 0) ? input(SRC1) | input(SRC3)).asBits,
|
|
CG6CtrlternaryEnum.CTRL_FSR -> fun_fsr(input(SRC1), input(SRC3), input(SRC2)).asBits
|
|
) // mux ternary
|
|
insert(CG6_FINAL_OUTPUT) := input(CG6Ctrl).mux(
|
|
CG6CtrlEnum.CTRL_SH2ADD -> ((input(SRC1) |<< 2).asUInt + input(SRC2).asUInt).asBits,
|
|
CG6CtrlEnum.CTRL_minmax -> val_minmax.asBits,
|
|
CG6CtrlEnum.CTRL_signextend -> val_signextend.asBits,
|
|
CG6CtrlEnum.CTRL_ternary -> val_ternary.asBits,
|
|
CG6CtrlEnum.CTRL_REV8 -> fun_rev8(input(SRC1)).asBits
|
|
) // primary mux
|
|
} // execute plug newArea
|
|
val injectionStage = if(earlyInjection) execute else memory
|
|
injectionStage plug new Area {
|
|
import injectionStage._
|
|
when (arbitration.isValid && input(IS_CG6)) {
|
|
output(REGFILE_WRITE_DATA) := input(CG6_FINAL_OUTPUT)
|
|
} // when input is
|
|
} // injectionStage plug newArea
|
|
} // override def build
|
|
} // class Plugin
|