[fleet.git] / src / edu / berkeley / fleet / fpga / Fpga.java

package edu.berkeley.fleet.fpga;
import edu.berkeley.fleet.fpga.*;
import edu.berkeley.fleet.api.*;
import edu.berkeley.fleet.two.*;
import edu.berkeley.fleet.*;
import java.lang.reflect.*;
import edu.berkeley.sbp.chr.*;
import edu.berkeley.sbp.misc.*;
import edu.berkeley.sbp.meta.*;
import edu.berkeley.sbp.util.*;
import java.util.*;
import java.io.*;
import edu.berkeley.fleet.two.*;
import static edu.berkeley.fleet.two.FleetTwoFleet.*;
import static edu.berkeley.fleet.fpga.verilog.Verilog.*;
import edu.berkeley.fleet.two.PercolatedPort;


public class Fpga extends FleetTwoFleet {

    public  Module top;
    Ship debugShip;

    public LinkedHashMap<String,FpgaShip> ships = new LinkedHashMap<String,FpgaShip>();
    public Iterator<Ship> iterator() { return (Iterator<Ship>)(Object)ships.values().iterator(); }

    public Ship getShip(String type, int ordinal) {
        for(Ship s : this)
            if (s.getType().equals(type))
                if (--ordinal < 0)
                    return s;
        return null;
    }

    public static void main(String[] s) throws Exception { 
        new Fpga(new Module("main")).top.dump(s[0]);
        PrintWriter pw;

        pw = new PrintWriter(new OutputStreamWriter(new FileOutputStream(s[0]+"/timescale.v")));
        pw.println("`timescale 1ns / 10ps");
        pw.close();

        pw = new PrintWriter(new OutputStreamWriter(new FileOutputStream(s[0]+"/vram.v")));
        pw.println("`define BRAM_ADDR_WIDTH 19");
        pw.println("`define BRAM_DATA_WIDTH 3");
        pw.println("`define BRAM_SIZE (640*480)");
        pw.println("`define BRAM_NAME vram");
        pw.println("`include \"bram.inc\"");
        pw.close();
    }

    public Module getVerilogModule() { return top; }

    public FleetProcess run(Instruction[] instructions) {
        try {
            return new Client(this, "none", instructions);
        } catch (Exception e) { throw new RuntimeException(e); }
    }

    protected BitVector getDestAddr(Path path) {
        return ((FpgaPath)path).toBitVector();
    }

    // Setup //////////////////////////////////////////////////////////////////////////////

    Ship createShip(String type) throws IOException {
        ShipDescription sd = new ShipDescription(this, type, new BufferedReader(new InputStreamReader(new FileInputStream("ships/"+type+".ship"))));
        int count = 0;
        for(Ship ship : ships.values()) if (ship.getType().equals(type)) count++;
        String name = type+count;
        FpgaShip ship = new FpgaShip(this, sd);
        ships.put(name, ship);
        return ship;
    }

    public Fpga() throws Exception { this(new Module("main")); }
    public Fpga(Module top) throws Exception {
        this.top = top;
        debugShip = createShip("Debug");

        //boolean small = true;
        boolean small = false;

        if (small) {
            for(int i=0; i<2; i++) createShip("Alu");
            for(int i=0; i<1; i++) createShip("Memory");
            for(int i=0; i<2; i++) createShip("Fifo");
            createShip("Counter");
            createShip("CarrySaveAdder");
            createShip("Rotator");
            createShip("Lut3");

        } else {

            for(int i=0; i<2; i++)  createShip("Memory");
            for(int i=0; i<8; i++)  createShip("Alu");
            for(int i=0; i<1; i++)  createShip("Fifo");
            for(int i=0; i<12; i++) createShip("Counter");

            //createShip("CarrySaveAdder");
            //createShip("Rotator");
            createShip("Random");
            createShip("Button");

        }

        createShip("Timer");
        createShip("DDR2");
        createShip("Dvi");

        // for FifoShip
        new Module.InstantiatedModule(top, new FifoModule(8, WIDTH_WORD));

        ArrayList dests   = new ArrayList<FabricElement>();
        ArrayList sources = new ArrayList<FabricElement>();
        for(FpgaShip ship : (Iterable<FpgaShip>)(Object)this) {
            for(Dock port : ship) {
                if (port.isInputDock()) {
                    sources.add(((FpgaDock)port));
                    dests.add(port.getInstructionDestination());
                    dests.add(port.getDataDestination());
                } else {
                    sources.add(((FpgaDock)port));
                    dests.add(port.getInstructionDestination());
                    dests.add(port.getDataDestination());
                }
            }
            for(Module.SourcePort sp0 : ship.docklessPorts.values()) {
                final Module.SourcePort sp = sp0;
                sources.add(new FabricElement.AbstractFabricElement() {
                        private FabricElement upstream;
                        public int      getPathLength(FpgaDestination dest) { return upstream.getPathLength(dest); }
                        public FpgaPath getPath(FpgaDestination dest, BitVector signal) { return upstream.getPath(dest, signal); }
                        public void addOutput(FabricElement out, Module.Port outPort) {
                            this.upstream = out;
                            sp.connect((Module.SinkPort)outPort);
                        }
                    });
            }
        }
        FabricElement top_horn = mkNode((FabricElement[])dests.toArray(new FabricElement[0]), true);
        mkNode((FabricElement[])sources.toArray(new FabricElement[0]), false)
            .addOutput(top_horn, top_horn.getInputPort());
    }

    public FabricElement mkNode(FabricElement[] ports, boolean is_horn) { return mkNode(ports, is_horn, 0, ports.length); }
    public FabricElement mkNode(FabricElement[] ports, boolean is_horn, int start, int end) {
        switch(end-start) {
            case 0: throw new RuntimeException("this should never happen");
            case 1: return ports[start];
            default: {
                FabricElement leftPort  = mkNode(ports, is_horn,  start,         (end+start)/2);
                FabricElement rightPort = mkNode(ports, is_horn,  (end+start)/2, end);
                return is_horn
                    ? new HornModule.HornInstance(this, top,     leftPort, rightPort)
                    : new FunnelModule.FunnelInstance(this, top, leftPort, rightPort);
            }
        }
    }


    // Expand //////////////////////////////////////////////////////////////////////////////

    public void expand(ShipDescription sd) {
        try {
            if (sd.getSection("fpga")==null) return;
            String filename = sd.getName().toLowerCase();

            if (sd.getSection("ucf") != null) {
                File outf = new File("build/fpga/"+filename+".ucf");
                FileOutputStream out = new FileOutputStream(outf);
                PrintWriter pw = new PrintWriter(out);
                pw.println(sd.getSection("ucf"));
                pw.flush();
                pw.close();
            }

            File outf = new File("build/fpga/"+filename+".v");
            new File(outf.getParent()).mkdirs();
            System.err.println("writing to " + outf);
            FileOutputStream out = new FileOutputStream(outf);
            PrintWriter pw = new PrintWriter(out);

            pw.println("`define WORDWIDTH                "+WIDTH_WORD);
            pw.println("`define CODEBAG_SIZE_BITS        "+CBD_SIZE.valmaskwidth);
            pw.println();

            for(DockDescription dd : sd.ports()) {
                String name = dd.getName();
                pw.println("`define "+name+"_full    ("+name+"_r && !"+name+"_a)");
                pw.println("`define "+name+"_empty  (!"+name+"_r && !"+name+"_a)");
                if (dd.isInputDock()) {
                    // gets stuck on colliding-tokens
                    //pw.println("`define drain_"+name+"  if ("+name+"_r && !"+name+"_a) "+name+"_a <= 1;");

                    // gets stuck on colliding-tokens
                    //pw.println("`define drain_"+name+"  if ("+name+"_r) "+name+"_a <= 1;");

                    // also gets stuck
                    //pw.println("`define drain_"+name+"  if (!"+name+"_a) "+name+"_a <= 1;");
                    pw.println("`define drain_"+name+"  "+name+"_a <= 1;");
                } else {
                    pw.println("`define fill_"+name+"  "+name+"_r <= 1;");
                }
            }

            pw.print("`define reset ");
            for(DockDescription bb : sd.ports()) {
                String bb_name = bb.getName();
                if (bb.isInputDock()) pw.print(bb_name+"_a <= 1; ");
                else                  pw.print(bb_name+"_r <= 0; ");
            }
            pw.println();

            pw.print("`define cleanup ");

            // output docks
            for(DockDescription dd : sd.ports())
                if (!dd.isInputDock())
                    pw.print("if ( "+dd.getName()+"_r && "+dd.getName()+"_a) "+dd.getName()+"_r <= 0; ");

            // input docks: if all inputs are flushing, drain them all
            pw.print("if (1");
            for(DockDescription bb : sd.ports())
                if (bb.isInputDock())
                    pw.print(" && "+bb.getName()+"_f");
            pw.print(") begin ");
            for(DockDescription bb : sd.ports())
                if (bb.isInputDock())
                    pw.print(bb.getName()+"_a <= 1; ");

            // input docks: if no inputs are flushing, do normal stuff
            pw.print("end else if (1");
            for(DockDescription bb : sd.ports())
                if (bb.isInputDock())
                    pw.print(" && !"+bb.getName()+"_f");
            pw.print(") begin ");

            for(DockDescription bb : sd.ports())
                if (bb.isInputDock())
                    pw.print("if (!"+bb.getName()+"_r_ && "+bb.getName()+"_a) "+bb.getName()+"_a <= 0; ");

            // input docks: if some-but-not-all inputs are flushing, drain all non-flushing docks
            pw.print("end else begin ");

            for(DockDescription bb : sd.ports())
                if (bb.isInputDock()) {
                    pw.print("if (!"+bb.getName()+"_r && "+bb.getName()+"_a) "+bb.getName()+"_a <= 0; ");
                    pw.print("if ("+bb.getName()+"_r && !"+bb.getName()+"_a) "+bb.getName()+"_a <= 1; ");
                }

            pw.print(" end");

            pw.println();
            
            pw.println("module " + filename + "( clk, rst ");
            for(DockDescription bb : sd.ports()) {
                String bb_name = bb.getName();
                pw.print("        ");
                if (bb.isInputDock()) {
                    pw.print(", " + bb_name+"_r_");
                    pw.print(", " + bb_name+"_a_");
                    pw.print(", " + bb_name+"_d");
                } else {
                    pw.print(", " + bb_name+"_r_");
                    pw.print(", " + bb_name+"_a");
                    pw.print(", " + bb_name+"_d_");
                }
                pw.println();
            }
            for(PercolatedPort pp : sd.percolatedPorts) {
                pw.print("    , ");
                pw.println(pp.name);
            }
            pw.println("        );");
            pw.println();
            pw.println("    input clk;");
            pw.println("    input rst;");
            for(PercolatedPort pp : sd.percolatedPorts) {
                switch(pp.type) {
                    case UP:    pw.print("output"); break;
                    case DOWN:  pw.print("input");  break;
                    case INOUT: pw.print("inout");  break;
                }
                pw.print("  ");
                if (pp.width > 1)
                    pw.print("["+(pp.width-1)+":0]");
                pw.print(" ");
                pw.print(pp.name);
                pw.println(";");
            }

            for(DockDescription bb : sd.ports()) {
                String bb_name = bb.getName();
                int width = bb.isDockless() ? WIDTH_PACKET : WIDTH_WORD;
                if (bb.isInputDock()) {
                    pw.println("        input   ["+width+":0] "+bb_name+"_d;");
                    pw.println("        input   "+bb_name+"_r_;");
                    pw.println("        wire    "+bb_name+"_r;");
                    pw.println("        assign  "+bb_name+"_r = "+bb_name+"_r_ & ~"+bb_name+"_d["+width+"];");
                    pw.println("        output  "+bb_name+"_a_;");
                    pw.println("        reg     "+bb_name+"_a;");
                    pw.println("        initial "+bb_name+"_a  = 0;");
                    pw.println("        wire    "+bb_name+"_f;");
                    pw.println("        assign  "+bb_name+"_f  = "+bb_name+"_r_ & "+bb_name+"_d["+width+"] && ~"+bb_name+"_a;");
                    pw.println("        assign  "+bb_name+"_a_ = "+bb_name+"_a;");
                } else {
                    pw.println("        output  ["+width+":0] "+bb_name+"_d_;");
                    pw.println("        input   "+bb_name+"_a;");
                    pw.println("        output  "+bb_name+"_r_;");
                    pw.println("        reg     "+bb_name+"_r;");
                    pw.println("        initial "+bb_name+"_r  = 0;");
                    pw.println("        assign  "+bb_name+"_r_ = "+bb_name+"_r;");
                }
                pw.println();
            }

            if (filename.equals("fifo")) {
                pw.println("  wire in_a__;");
                pw.println("  wire out_r__;");
                pw.println("  fifo8x37 fifo8x37(clk, rst,");
                pw.println("                    in_r,    in_a__, in_d,");
                pw.println("                    out_r__, out_a,  out_d_);");
                pw.println("  always @(posedge clk) begin");
                pw.println("    if (rst) begin");
                pw.println("      `reset");
                pw.println("    end else begin");
                pw.println("      `cleanup");
                pw.println("      out_r <= out_r__;");
                pw.println("      if (in_a__) in_a  <= 1;");
                pw.println("    end");
                pw.println("  end");
            } else {
                pw.println(sd.getSection("fpga"));
            }

            pw.println("endmodule");

            pw.flush();
            pw.close();
        } catch (Exception e) { throw new RuntimeException(e); }
    }

}