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rocket-chip/src/main/scala/rocket/AMOALU.scala
Henry Cook 4c595d175c Refactor package hierarchy and remove legacy bus protocol implementations (#845)
* Refactors package hierarchy.

Additionally:
  - Removes legacy ground tests and configs
  - Removes legacy bus protocol implementations
  - Removes NTiles
  - Adds devices package
  - Adds more functions to util package
2017-07-07 10:48:16 -07:00

107 lines
3.3 KiB
Scala

// See LICENSE.SiFive for license details.
// See LICENSE.Berkeley for license details.
package freechips.rocketchip.rocket
import Chisel._
import freechips.rocketchip.config.Parameters
class StoreGen(typ: UInt, addr: UInt, dat: UInt, maxSize: Int) {
val size = typ(log2Up(log2Up(maxSize)+1)-1,0)
def misaligned =
(addr & ((UInt(1) << size) - UInt(1))(log2Up(maxSize)-1,0)).orR
def mask = {
var res = UInt(1)
for (i <- 0 until log2Up(maxSize)) {
val upper = Mux(addr(i), res, UInt(0)) | Mux(size >= UInt(i+1), UInt((BigInt(1) << (1 << i))-1), UInt(0))
val lower = Mux(addr(i), UInt(0), res)
res = Cat(upper, lower)
}
res
}
protected def genData(i: Int): UInt =
if (i >= log2Up(maxSize)) dat
else Mux(size === UInt(i), Fill(1 << (log2Up(maxSize)-i), dat((8 << i)-1,0)), genData(i+1))
def data = genData(0)
def wordData = genData(2)
}
class LoadGen(typ: UInt, signed: Bool, addr: UInt, dat: UInt, zero: Bool, maxSize: Int) {
private val size = new StoreGen(typ, addr, dat, maxSize).size
private def genData(logMinSize: Int): UInt = {
var res = dat
for (i <- log2Up(maxSize)-1 to logMinSize by -1) {
val pos = 8 << i
val shifted = Mux(addr(i), res(2*pos-1,pos), res(pos-1,0))
val doZero = Bool(i == 0) && zero
val zeroed = Mux(doZero, UInt(0), shifted)
res = Cat(Mux(size === UInt(i) || doZero, Fill(8*maxSize-pos, signed && zeroed(pos-1)), res(8*maxSize-1,pos)), zeroed)
}
res
}
def wordData = genData(2)
def data = genData(0)
}
class AMOALU(operandBits: Int)(implicit p: Parameters) extends Module {
require(operandBits == 32 || operandBits == 64)
val io = new Bundle {
val mask = UInt(INPUT, operandBits/8)
val cmd = Bits(INPUT, M_SZ)
val lhs = Bits(INPUT, operandBits)
val rhs = Bits(INPUT, operandBits)
val out = Bits(OUTPUT, operandBits)
}
val max = io.cmd === M_XA_MAX || io.cmd === M_XA_MAXU
val min = io.cmd === M_XA_MIN || io.cmd === M_XA_MINU
val add = io.cmd === M_XA_ADD
val logic_and = io.cmd === M_XA_OR || io.cmd === M_XA_AND
val logic_xor = io.cmd === M_XA_XOR || io.cmd === M_XA_OR
val adder_out =
if (operandBits == 32) io.lhs + io.rhs
else {
val mask = ~UInt(0,64) ^ (!io.mask(3) << 31)
(io.lhs & mask) + (io.rhs & mask)
}
val less = {
val sgned = {
val mask = M_XA_MIN ^ M_XA_MINU
(io.cmd & mask) === (M_XA_MIN & mask)
}
if (operandBits == 32) {
Mux(io.lhs(31) === io.rhs(31), io.lhs < io.rhs, Mux(sgned, io.lhs(31), io.rhs(31)))
} else {
val cmp_lhs = Mux(!io.mask(4), io.lhs(31), io.lhs(63))
val cmp_rhs = Mux(!io.mask(4), io.rhs(31), io.rhs(63))
val lt_lo = io.lhs(31,0) < io.rhs(31,0)
val lt_hi = io.lhs(63,32) < io.rhs(63,32)
val eq_hi = io.lhs(63,32) === io.rhs(63,32)
val lt =
Mux(io.mask(4) && io.mask(3), lt_hi || eq_hi && lt_lo,
Mux(io.mask(4), lt_hi, lt_lo))
Mux(cmp_lhs === cmp_rhs, lt, Mux(sgned, cmp_lhs, cmp_rhs))
}
}
val minmax = Mux(Mux(less, min, max), io.lhs, io.rhs)
val logic =
Mux(logic_and, io.lhs & io.rhs, 0.U) |
Mux(logic_xor, io.lhs ^ io.rhs, 0.U)
val out =
Mux(add, adder_out,
Mux(logic_and || logic_xor, logic,
minmax))
val wmask = FillInterleaved(8, io.mask)
io.out := wmask & out | ~wmask & io.lhs
}