protected override sealed void DoCommandAction()
        {
            if (FPGA.FPGA.Instance.Contains(AnchorLocation))
            {
                Tile anchor = FPGA.FPGA.Instance.GetTile(AnchorLocation);
                AddSingleInstantiationByTile addCmd = new AddSingleInstantiationByTile();
                addCmd.AnchorLocation = AnchorLocation;
                SetBaseClassParametersAndExecuteCommand(addCmd);
            }
            else if (FPGA.FPGA.Instance.ContainsSlice(AnchorLocation))
            {
                Slice s = FPGA.FPGA.Instance.GetSlice(AnchorLocation);
                AddSingleInstantiationBySlice addCmd = new AddSingleInstantiationBySlice();
                addCmd.SliceName = AnchorLocation;
                SetBaseClassParametersAndExecuteCommand(addCmd);
            }
            else
            {
                throw new ArgumentException("Expecting either a tile or a slice identifier (CLB_X4Y3 or SLICE_X465). Found " + AnchorLocation);
            }

            if (GetAutoClearModuleSlotValue())
            {
                FuseNets fuseCmd = new FuseNets();
                fuseCmd.NetlistContainerName = NetlistContainerName;
                CommandExecuter.Instance.Execute(fuseCmd);
            }
        }
Example #2
0
        private void m_btnFuse_Click(object sender, EventArgs e)
        {
            FuseNets fuseCmd = new FuseNets();

            fuseCmd.NetlistContainerName = m_netlistContainerSelector.SelectedNetlistContainerName;
            fuseCmd.PrintProgress        = true;
            CommandExecuter.Instance.Execute(fuseCmd);
        }
        protected override void DoCommandAction()
        {
            LibraryElement libElement = Objects.Library.Instance.GetElement(LibraryElementName);

            Tile anchor = FPGA.FPGA.Instance.GetTile(AnchorLocation);

            if (libElement.ResourceShape.Anchor.AnchorSliceNumber >= anchor.Slices.Count)
            {
                throw new ArgumentException("Too few slices on tile " + anchor.Location + ". Expecting " + libElement.ResourceShape.Anchor.AnchorSliceNumber + " but found " + anchor.Slices.Count + " slice.");
            }

            if (IdentifierManager.Instance.IsMatch(anchor.Location, IdentifierManager.RegexTypes.Interconnect))
            {
                anchor = FPGATypes.GetCLTile(anchor).FirstOrDefault();
            }

            if (AutoClearModuleSlot)
            {
                //this.FastAutoClearModuleSlotBeforeInstantiation(libElement, Enumerable.Repeat(anchor, 1));
                AutoClearModuleSlotBeforeInstantiation(libElement, Enumerable.Repeat(anchor, 1));
            }

            LibElemInst instantiation = new LibElemInst();

            instantiation.AnchorLocation     = AnchorLocation;
            instantiation.InstanceName       = Hierarchy + InstanceName;
            instantiation.LibraryElementName = LibraryElementName;
            instantiation.SliceNumber        = libElement.ResourceShape.Anchor.AnchorSliceNumber;
            instantiation.SliceName          = anchor.Slices[(int)libElement.ResourceShape.Anchor.AnchorSliceNumber].SliceName;

            LibraryElementInstanceManager.Instance.Add(instantiation);

            // mark source as blocked
            ExcludeInstantiationSourcesFromBlocking markSrc = new ExcludeInstantiationSourcesFromBlocking();

            markSrc.AnchorLocation     = AnchorLocation;
            markSrc.LibraryElementName = LibraryElementName;
            CommandExecuter.Instance.Execute(markSrc);

            SaveLibraryElementInstantiation saveCmd = new SaveLibraryElementInstantiation();

            saveCmd.AddDesignConfig      = false;
            saveCmd.InsertPrefix         = true;
            saveCmd.InstanceName         = InstanceName;
            saveCmd.NetlistContainerName = NetlistContainerName;
            CommandExecuter.Instance.Execute(saveCmd);

            if (AutoFuse)
            {
                FuseNets fuseCmd = new FuseNets();
                fuseCmd.NetlistContainerName = NetlistContainerName;
                fuseCmd.Mute          = Mute;
                fuseCmd.Profile       = Profile;
                fuseCmd.PrintProgress = PrintProgress;
                CommandExecuter.Instance.Execute(fuseCmd);
            }
        }
Example #4
0
        protected override void DoCommandAction()
        {
            NetlistContainer netlistContainer = GetNetlistContainer();
            Slice            anchor           = FPGA.FPGA.Instance.GetSlice(SliceName);
            LibraryElement   libElement       = Objects.Library.Instance.GetElement(LibraryElementName);

            if (anchor == null)
            {
                throw new ArgumentException("Can not find Slice " + SliceName);
            }

            if (AutoClearModuleSlot)
            {
                AutoClearModuleSlotBeforeInstantiation(libElement, Enumerable.Repeat(anchor.ContainingTile, 1));
            }

            LibElemInst instantiation = new LibElemInst();

            instantiation.AnchorLocation     = anchor.ContainingTile.Location;
            instantiation.InstanceName       = Hierarchy + InstanceName;
            instantiation.LibraryElementName = LibraryElementName;
            instantiation.SliceNumber        = anchor.ContainingTile.GetSliceNumberByName(SliceName);
            instantiation.SliceName          = SliceName;

            LibraryElementInstanceManager.Instance.Add(instantiation);

            // mark source as blocked
            ExcludeInstantiationSourcesFromBlocking markSrc = new ExcludeInstantiationSourcesFromBlocking();

            markSrc.AnchorLocation     = anchor.ContainingTile.Location;
            markSrc.LibraryElementName = LibraryElementName;

            CommandExecuter.Instance.Execute(markSrc);

            SaveLibraryElementInstantiation saveCmd = new SaveLibraryElementInstantiation();

            saveCmd.AddDesignConfig      = false;
            saveCmd.InsertPrefix         = true;
            saveCmd.InstanceName         = InstanceName;
            saveCmd.NetlistContainerName = NetlistContainerName;
            CommandExecuter.Instance.Execute(saveCmd);

            if (AutoFuse)
            {
                FuseNets fuseCmd = new FuseNets();
                fuseCmd.NetlistContainerName = NetlistContainerName;
                fuseCmd.Mute          = Mute;
                fuseCmd.Profile       = Profile;
                fuseCmd.PrintProgress = PrintProgress;
                CommandExecuter.Instance.Execute(fuseCmd);
            }
        }
Example #5
0
        public NetlistContainerCtrl()
        {
            InitializeComponent();

            CutOff cutCmd = new CutOff();

            m_lblCutOff.Text = cutCmd.GetCommandDescription();

            PrintStatistics printCmd = new PrintStatistics();

            m_lblStatistics.Text = printCmd.GetCommandDescription();

            OpenDesign readCmd = new OpenDesign();

            m_lblRead.Text = readCmd.GetCommandDescription();

            FuseNets fuseCmd = new FuseNets();

            m_lblFuse.Text = fuseCmd.GetCommandDescription();
        }
Example #6
0
        protected override void DoCommandAction()
        {
            FPGATypes.AssertBackendType(FPGATypes.BackendType.ISE, FPGATypes.BackendType.Vivado);

            SortMode mode  = SortMode.Undefined;
            HMode    hMode = HMode.Undefined;
            VMode    vMode = VMode.Undefined;

            SetSortModes(ref mode, ref hMode, ref vMode);

            List <TileKey> keys = new List <TileKey>();

            foreach (Tile clb in TileSelectionManager.Instance.GetSelectedTiles().Where(t =>
                                                                                        IdentifierManager.Instance.IsMatch(t.Location, IdentifierManager.RegexTypes.CLB) ||
                                                                                        IdentifierManager.Instance.IsMatch(t.Location, IdentifierManager.RegexTypes.DSP) ||
                                                                                        IdentifierManager.Instance.IsMatch(t.Location, IdentifierManager.RegexTypes.BRAM)))
            {
                keys.Add(clb.TileKey);
            }

            var preOrderedKey =
                from key in keys
                group key by(mode == SortMode.R?key.Y : key.X) into g
                select g;

            List <Tile> tilesInFinalOrder = new List <Tile>();

            if (mode == SortMode.R)
            {
                foreach (IGrouping <int, TileKey> group in (vMode == VMode.TD ? preOrderedKey.OrderBy(g => g.Key) : preOrderedKey.OrderByDescending(g => g.Key)))
                {
                    foreach (TileKey key in (hMode == HMode.L2R ? group.OrderBy(k => k.X) : group.OrderBy(k => k.X).Reverse()))
                    {
                        tilesInFinalOrder.Add(FPGA.FPGA.Instance.GetTile(key));
                    }
                }
            }
            else
            {
                foreach (IGrouping <int, TileKey> group in (hMode == HMode.L2R ? preOrderedKey.OrderBy(g => g.Key) : preOrderedKey.OrderByDescending(g => g.Key)))
                {
                    foreach (TileKey key in (vMode == VMode.TD ? group.OrderBy(k => k.Y) : group.OrderBy(k => k.Y).Reverse()))
                    {
                        tilesInFinalOrder.Add(FPGA.FPGA.Instance.GetTile(key));
                    }
                }
            }

            // apply filter
            tilesInFinalOrder.RemoveAll(t => !Regex.IsMatch(t.Location, Filter));

            /*
             * // check prior to plaecment of valid placement
             * foreach (Tile t in tilesInFinalOrder)
             * {
             *  LibraryElement libElement = Objects.Library.Instance.GetElement(this.LibraryElementName);
             *  StringBuilder errorList = null;
             *  bool placementOk = DesignRuleChecker.CheckLibraryElementPlacement(t, libElement, out errorList);
             *  if (!placementOk)
             *  {
             *      throw new ArgumentException("Macro " + this.LibraryElementName + " can not be placed at " + t + ": " + errorList.ToString());
             *  }
             * }
             */

            if (AutoClearModuleSlot)
            {
                LibraryElement libElement = Objects.Library.Instance.GetElement(LibraryElementName);
                AutoClearModuleSlotBeforeInstantiation(libElement, tilesInFinalOrder);
            }

            foreach (Tile t in tilesInFinalOrder)
            {
                // check again prior to placement and now consider already placed tiles

                /*
                 * StringBuilder errorList = null;
                 * bool placementOk = DesignRuleChecker.CheckLibraryElementPlacement(t, libElement, out errorList);
                 * if (!placementOk)
                 * {
                 *  throw new ArgumentException("Library element " + this.LibraryElementName + " can not be placed at " + t + ": " + errorList.ToString());
                 * }*/
                switch (FPGA.FPGA.Instance.BackendType)
                {
                case FPGATypes.BackendType.ISE:
                    AddISEInstantiation(t);
                    break;

                case FPGATypes.BackendType.Vivado:
                    AddVivadoInstantiation(t);
                    break;
                }
            }

            if (AutoFuse)
            {
                FuseNets fuseCmd = new FuseNets();
                fuseCmd.NetlistContainerName = NetlistContainerName;
                fuseCmd.Mute          = Mute;
                fuseCmd.Profile       = Profile;
                fuseCmd.PrintProgress = PrintProgress;
                CommandExecuter.Instance.Execute(fuseCmd);
            }
        }