166 lines
4.8 KiB
Scala
166 lines
4.8 KiB
Scala
// See LICENSE for license details.
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package rocket
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import Chisel._
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import uncore._
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import scala.math._
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import cde.{Parameters, Field}
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object Util {
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implicit def uintToBitPat(x: UInt): BitPat = BitPat(x)
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implicit def intToUInt(x: Int): UInt = UInt(x)
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implicit def bigIntToUInt(x: BigInt): UInt = UInt(x)
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implicit def booleanToBool(x: Boolean): Bits = Bool(x)
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implicit def intSeqToUIntSeq(x: Seq[Int]): Seq[UInt] = x.map(UInt(_))
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implicit def seqToVec[T <: Data](x: Seq[T]): Vec[T] = Vec(x)
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implicit def wcToUInt(c: WideCounter): UInt = c.value
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implicit def sextToConv(x: UInt) = new AnyRef {
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def sextTo(n: Int): UInt =
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if (x.getWidth == n) x
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else Cat(Fill(n - x.getWidth, x(x.getWidth-1)), x)
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}
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implicit def booleanToIntConv(x: Boolean) = new AnyRef {
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def toInt: Int = if (x) 1 else 0
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}
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def minUInt(values: Seq[UInt]): UInt =
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values.reduce((a, b) => Mux(a < b, a, b))
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def minUInt(first: UInt, rest: UInt*): UInt =
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minUInt(first +: rest.toSeq)
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}
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import Util._
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object Str
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{
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def apply(s: String): UInt = {
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var i = BigInt(0)
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require(s.forall(validChar _))
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for (c <- s)
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i = (i << 8) | c
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UInt(i, s.length*8)
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}
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def apply(x: Char): UInt = {
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require(validChar(x))
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UInt(x.toInt, 8)
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}
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def apply(x: UInt): UInt = apply(x, 10)
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def apply(x: UInt, radix: Int): UInt = {
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val rad = UInt(radix)
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val w = x.getWidth
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require(w > 0)
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var q = x
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var s = digit(q % rad)
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for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) {
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q = q / rad
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s = Cat(Mux(Bool(radix == 10) && q === UInt(0), Str(' '), digit(q % rad)), s)
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}
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s
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}
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def apply(x: SInt): UInt = apply(x, 10)
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def apply(x: SInt, radix: Int): UInt = {
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val neg = x < SInt(0)
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val abs = x.abs
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if (radix != 10) {
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Cat(Mux(neg, Str('-'), Str(' ')), Str(abs, radix))
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} else {
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val rad = UInt(radix)
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val w = abs.getWidth
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require(w > 0)
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var q = abs
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var s = digit(q % rad)
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var needSign = neg
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for (i <- 1 until ceil(log(2)/log(radix)*w).toInt) {
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q = q / rad
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val placeSpace = q === UInt(0)
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val space = Mux(needSign, Str('-'), Str(' '))
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needSign = needSign && !placeSpace
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s = Cat(Mux(placeSpace, space, digit(q % rad)), s)
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}
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Cat(Mux(needSign, Str('-'), Str(' ')), s)
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}
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}
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private def digit(d: UInt): UInt = Mux(d < UInt(10), Str('0')+d, Str(('a'-10).toChar)+d)(7,0)
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private def validChar(x: Char) = x == (x & 0xFF)
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}
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object Split
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{
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// is there a better way to do do this?
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def apply(x: Bits, n0: Int) = {
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val w = checkWidth(x, n0)
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(x(w-1,n0), x(n0-1,0))
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}
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def apply(x: Bits, n1: Int, n0: Int) = {
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val w = checkWidth(x, n1, n0)
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(x(w-1,n1), x(n1-1,n0), x(n0-1,0))
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}
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def apply(x: Bits, n2: Int, n1: Int, n0: Int) = {
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val w = checkWidth(x, n2, n1, n0)
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(x(w-1,n2), x(n2-1,n1), x(n1-1,n0), x(n0-1,0))
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}
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private def checkWidth(x: Bits, n: Int*) = {
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val w = x.getWidth
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def decreasing(x: Seq[Int]): Boolean =
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if (x.tail.isEmpty) true
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else x.head >= x.tail.head && decreasing(x.tail)
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require(decreasing(w :: n.toList))
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w
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}
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}
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// a counter that clock gates most of its MSBs using the LSB carry-out
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case class WideCounter(width: Int, inc: UInt = UInt(1))
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{
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require(inc.getWidth > 0)
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private val isWide = width > 2*inc.getWidth
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private val smallWidth = if (isWide) inc.getWidth max log2Up(width) else width
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private val small = Reg(init=UInt(0, smallWidth))
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private val doInc = inc.orR
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private val nextSmall =
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if (inc.getWidth == 1) small + UInt(1, smallWidth+1)
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else Cat(UInt(0,1), small) + inc
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when (doInc) { small := nextSmall(smallWidth-1,0) }
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private val large = if (isWide) {
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val r = Reg(init=UInt(0, width - smallWidth))
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when (doInc && nextSmall(smallWidth)) { r := r + UInt(1) }
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r
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} else null
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val value = Cat(large, small)
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def := (x: UInt) = {
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val w = x.getWidth
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small := x(w.min(smallWidth)-1,0)
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if (isWide) large := (if (w < smallWidth) UInt(0) else x(w.min(width)-1,smallWidth))
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}
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}
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object Random
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{
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def apply(mod: Int, random: UInt): UInt = {
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if (isPow2(mod)) random(log2Up(mod)-1,0)
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else PriorityEncoder(partition(apply(1 << log2Up(mod*8), random), mod))
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}
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def apply(mod: Int): UInt = apply(mod, randomizer)
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def oneHot(mod: Int, random: UInt): UInt = {
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if (isPow2(mod)) UIntToOH(random(log2Up(mod)-1,0))
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else PriorityEncoderOH(partition(apply(1 << log2Up(mod*8), random), mod)).toBits
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}
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def oneHot(mod: Int): UInt = oneHot(mod, randomizer)
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private def randomizer = LFSR16()
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private def round(x: Double): Int =
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if (x.toInt.toDouble == x) x.toInt else (x.toInt + 1) & -2
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private def partition(value: UInt, slices: Int) =
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Seq.tabulate(slices)(i => value < round((i << value.getWidth).toDouble / slices))
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}
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