Exemplo n.º 1
0
func (this *Decoder) Run(input, output channel.Channel) {
	// Launch each unit as a goroutine
	logger.Print(" => Initializing decoder unit %d", this.Index())
	go func() {
		for {
			value, running := <-input.Channel()
			if !running || !this.IsActive() {
				logger.Print(" => Flushing decoder unit %d", this.Index())
				return
			}
			op := operation.Cast(value)
			// Iterate instructions received via the channel
			instruction, err := this.decodeInstruction(op)
			if err != nil {
				logger.Error(err.Error())
				break
			}
			// Send data to output
			op.SetInstruction(instruction)
			output.Add(op)
			// Release one item from input Channel
			input.Release()
		}
	}()
}
Exemplo n.º 2
0
func (this *Executor) Run(input map[info.CategoryEnum]channel.Channel, commonDataBus channel.Channel) {
	// Launch each unit as a goroutine
	unit, event := this.getUnitFromCategory(this.Category())
	logger.Print(" => Initializing execution unit (%s) %d", this.Category(), this.Index())
	go func() {
		for {
			value, running := <-input[this.Category()].Channel()
			if !running || !this.IsActive() {
				logger.Print(" => Flushing execution unit (%s) %d", this.Category(), this.Index())
				return
			}
			op := operation.Cast(value)
			for i := uint8(0); i < op.Instruction().Info.Cycles; i++ {
				this.Processor().Wait(1)
			}

			// Iterate instructions received via the channel
			op, _ = this.executeOperation(unit, event, op)
			// Send data to common bus for reservation station feedback
			commonDataBus.Add(op)
			// Release one item from input Channel
			input[this.Category()].Release()
		}
	}()
}
Exemplo n.º 3
0
func (this *Dispatcher) runDispatcherToReservationStation(input channel.Channel,
	rs *reservationstation.ReservationStation, rat *registeraliastable.RegisterAliasTable, rob *reorderbuffer.ReorderBuffer) {

	incomingQueue := map[uint32]*operation.Operation{}
	currentOperationId := this.StartOperationId()

	// For each operation received to schedule, process it
	for {
		value, running := <-input.Channel()
		if !running || !this.IsActive() {
			logger.Print(" => Flushing dispatcher unit %d (dispatcher to RS)", this.Index())
			return
		}
		op := operation.Cast(value)

		// Add to current operation
		incomingQueue[op.Id()] = op

		// Send to incoming channel pending ops (if available)
		for op, exists := incomingQueue[currentOperationId]; exists; op, exists = incomingQueue[currentOperationId] {

			// Allocate in ROB if there is spacde, otherwise stall
			rob.Allocate(op)

			// Rename register in case of WAR & WAR hazards
			if this.RegisterAliasTableEntries() > 0 {
				_, destRegister := rs.GetDestinationDependency(op.Id(), op.Instruction())
				if destRegister != -1 {
					found, _ := rat.AddMap(uint32(destRegister), op.Id())
					if !found {
						// Need to stall for an available RAT entry
						logger.Collect(" => [DI%d][%03d]: No entry available in RAT. Wait for one...", this.Index(), op.Id())
						break
					}

					// Rename to physical registers
					this.renameRegisters(op.Id(), op, rat)
				}
			}

			//Redirect input operations to the required execution unit channels
			logger.Collect(" => [DI%d][%03d]: Scheduling to RS: %s, %s", this.Index(), op.Id(), op.Instruction().Info.ToString(), op.Instruction().Data.ToString())
			rs.Schedule(op)
			currentOperationId += 1
		}
		input.Release()
	}
}
Exemplo n.º 4
0
func (this *Processor) RunRecovery(recoveryChannel channel.Channel, flushFunc func()) {
	for value := range recoveryChannel.Channel() {
		op := operation.Cast(value)
		logger.Collect(" => Recovering at OpId: %d and Address: %#04X", op.Id(), op.Address())

		logger.SetVerboseQuiet(true)
		// Flush pipeline
		flushFunc()
		// Clean logs
		this.RemoveForwardLogs(op.Id() - 1)
		// Clear speculative jumps
		this.ClearSpeculativeJumps()
		// Start pipeline from the recovery address
		flushFunc = this.StartPipelineUnits(this.Config(), recoveryChannel, op.Id(), op.Address())
		// Release value from channel
		recoveryChannel.Release()
	}
}
func (this *ReservationStation) runCommonBusListener(commonDataBus channel.Channel) {
	// For each operation executed, feed reservation station to release operands
	for {
		value, running := <-commonDataBus.Channel()
		if !running {
			this.reservationStation.isActive = false
			logger.Print(" => Flushing reservation station unit %d (CDB listener)", this.Index())
			return
		}

		op := operation.Cast(value)
		commonDataBus.Release()
		this.Lock() <- true

		dest, _, _ := this.getComponentsFromInstruction(op.Instruction())
		entryIndex := this.getEntryIndexFromOperationId(op.Id())
		entryOp := this.Entries()[entryIndex]
		logger.Collect(" => [RS%d][%03d]: Operation completed, releasing entry %d", this.Index(), op.Id(), entryIndex)
		if entryIndex != INVALID_INDEX {
			// Release entry
			this.Entries()[entryIndex].Busy = false
			this.Entries()[entryIndex].Free = true
			// Release entry from reservation station queue
			this.Input().Release()
		}
		// Release destination register (as RAT if enabled)
		if dest != INVALID_INDEX {
			logger.Collect(" => [RS%d][%03d]: Register %v resolved", this.Index(), op.Id(), entryOp.Destination)
			this.releaseOperation(entryOp.Destination)
		}

		// Release operands registers
		for _, operand := range entryOp.Operands {
			if operand.IsValid() && (operand.Type == MemoryType || len(this.RegisterAliasTable().Entries()) == 0) {
				logger.Collect(" => [RS%d][%03d]: Register %v resolved", this.Index(), op.Id(), operand)
				this.releaseOperation(operand)
			}
		}
		<-this.Lock()
	}
}
Exemplo n.º 6
0
func (this *Fetcher) Run(input, output channel.Channel) {
	logger.Print(" => Initializing fetcher unit %d", this.Index())
	// Launch each unit as a goroutine
	go func() {
		for {
			value, running := <-input.Channel()
			if !running || !this.IsActive() {
				logger.Print(" => Flushing fetcher unit %d", this.Index())
				return
			}
			// Release item from input Channel
			input.Release()

			// Initial operation (address)
			op := operation.Cast(value)

			// Load instructions data from memory
			data := this.Processor().InstructionsMemory().Load(op.Address(), consts.BYTES_PER_WORD*this.InstructionsFetchedPerCycle())

			// Fetch instructions
			startCycles := this.Processor().Cycles()
			operations, err := this.fetchInstructions(op, data, input)
			if err != nil {
				logger.Error(err.Error())
				break
			}

			// Wait cycles of a fetch stage
			this.Processor().Wait(consts.FETCH_CYCLES)

			// After wait cycle, notify decode channel with new operations
			for _, op := range operations {
				if this.IsActive() {
					this.Processor().LogEvent(consts.FETCH_EVENT, this.Index(), op.Id(), startCycles)
					output.Add(op)
				}
			}
		}
	}()
}
func (this *ReservationStation) runScheduler() {
	// For each operation received to schedule, process it
	for {
		value, running := <-this.Input().Channel()
		if !running {
			this.reservationStation.isActive = false
			logger.Print(" => Flushing reservation station unit %d (scheduler)", this.Index())
			return
		}
		this.Lock() <- true
		op := operation.Cast(value)

		// Get next entry free
		entryIndex := this.getNextIndexFreeEntry()
		dest, valueOperands, memoryOperands := this.getComponentsFromInstruction(op.Instruction())

		// Convert to operand objects
		ops := []Operand{}
		for _, register := range memoryOperands {
			ops = append(ops, newMemoryOp(register))
		}
		for _, register := range valueOperands {

			ratEntry, ok := this.RegisterAliasTable().GetPhysicalRegister(op.Id()-1, uint32(register))
			if ok {
				ops = append(ops, newRegisterRatOp(register, int32(ratEntry)))
			} else {
				ops = append(ops, newRegisterOp(register))
			}
		}

		// Rat Dest
		regDestRat := newNilDep()
		if dest != INVALID_INDEX {
			if op.RenamedDestRegister() != INVALID_INDEX {
				regDestRat = newRegisterRatOp(dest, op.RenamedDestRegister())
			} else {
				regDestRat = newRegisterOp(dest)
			}
		}

		dependencies := this.getDependencies(op.Id(), regDestRat, ops)
		logger.Collect(" => [RS%d][%03d]: Adding op to entry %d [D: %v, O's: %v, V's: %v] ..",
			this.Index(), op.Id(), entryIndex, regDestRat, ops, dependencies)

		// Store entry depency into reservation station
		this.Entries()[entryIndex] = RsEntry{
			Operation:    op,
			Destination:  regDestRat,
			Operands:     ops,
			Dependencies: dependencies,
			Free:         false,
			Busy:         false,
		}

		// If no waiting dependencies, release and execute
		if len(dependencies) == 0 {
			this.dispatchOperation(EntryIndex(entryIndex), op)
		}
		<-this.Lock()
	}
}