/** Creates the instantiation and connects up all the ports/buses. */
public void stateLogic(Module module, StateMachine mach) {
ModuleInstance instance = new ModuleInstance(getVerilogName(design), "test");
/*
* Connect clock and reset if needed.
*/
for (Design.ClockDomain domain : design.getAllocatedClockDomains()) {
instance.add(
new PortConnection(new Input(getVerilogName(domain.getClockPin()), 1), mach.getClock()));
if (domain.getResetPin() != null) {
instance.add(
new PortConnection(
new Input(getVerilogName(domain.getResetPin()), 1), mach.getReset()));
}
}
for (TaskHandle th : taskHandles) {
Task task = th.getTask();
for (Port port : task.getCall().getPorts()) {
InputPin pin = (InputPin) design.getPin(port);
Wire portWire = th.getWireForConnection(port);
if (portWire == null) {
continue;
}
// Use the Port's bus to agree with InputPinPort and
// VerilogNamer, but output pins use the actual pin.
PortConnection pc =
new PortConnection(new Input(getVerilogName(pin.getBus()), pin.getWidth()), portWire);
instance.add(pc);
}
for (Bus bus : task.getCall().getExit(Exit.DONE).getBuses()) {
Wire busWire = th.getWireForConnection(bus);
if (busWire == null) {
continue;
}
Pin pin = design.getPin(bus);
PortConnection pc =
new PortConnection(new Output(getVerilogName(pin), pin.getWidth()), busWire);
instance.add(pc);
}
Pin goPin = design.getPin(task.getCall().getGoPort());
if (goPin != null) {
instance.add(
new PortConnection(
new Input(getVerilogName(((InputPin) goPin).getBus()), 1), th.getGoWire()));
}
Pin donePin = design.getPin(task.getCall().getExit(Exit.DONE).getDoneBus());
if (donePin != null) {
instance.add(new PortConnection(new Output(getVerilogName(donePin), 1), th.getDoneWire()));
}
}
module.state(instance);
}
/**
*
*
* <pre>
* always @(posedge clk)
* begin
* if (hangTimer > 150) begin
* $fwrite(resultFile, "FAIL: Hang Timer Expired\n");
* $finish;
* end
*
* if (foo_go || foo_done || bar_go || bar_done) hangTimer <= 0;
* else hangTimer <= hangTimer + 1;
* </pre>
*/
private void stateTimer(Module module, SimFileHandle resFile, StateMachine mach) {
Option op = EngineThread.getGenericJob().getOption(OptionRegistry.HANG_TIMER);
int HANGTIMER = Integer.parseInt(op.getValue(CodeLabel.UNSCOPED).toString(), 10);
SequentialBlock trueBlock = new SequentialBlock();
// Hang timer expiry
FStatement.FWrite write =
new FStatement.FWrite(
resFile.getHandle(), new StringStatement("FAIL: Hang Timer Expired\\n"));
trueBlock.add(write);
trueBlock.add(new FStatement.Finish());
ConditionalStatement cs =
new ConditionalStatement(
new Compare.GT(getHangTimer(), new Constant(HANGTIMER, getHangTimer().getWidth())),
trueBlock);
SequentialBlock block = new SequentialBlock(cs);
// Hang timer increment
// List goDone = new ArrayList();
// for (Iterator iter = this.taskHandles.iterator(); iter.hasNext();)
// {
// TaskHandle th = (TaskHandle)iter.next();
// goDone.add(th.getGoWire());
// goDone.add(th.getDoneWire());
// }
Assign htReset =
new Assign.NonBlocking(getHangTimer(), new Constant(0, getHangTimer().getWidth()));
Assign htInc =
new Assign.NonBlocking(
getHangTimer(),
new org.xronos.openforge.verilog.model.Math.Add(
getHangTimer(), new Constant(1, getHangTimer().getWidth())));
// ConditionalStatement htCond = new ConditionalStatement(
// new OrMany(goDone), htReset, htInc);
ConditionalStatement htCond =
new ConditionalStatement(
new Logical.Or(mach.getAllGoWire(), mach.getAllDoneWire()), htReset, htInc);
block.add(htCond);
ProceduralTimingBlock ptb =
new ProceduralTimingBlock(
new EventControl(new EventExpression.PosEdge(mach.getClock())), block);
module.state(new Always(ptb));
}
public void stateLogic(Module module, StateMachine mach, Design design) {
/*
* if(allGos) begin <statements> end
*/
SequentialBlock AllGos = new SequentialBlock();
ConditionalStatement ifAllGos = new ConditionalStatement(mach.getAllGoWire(), AllGos);
// benchNumReads = benchNumReads + 1; //
AllGos.add(
new Assign.Blocking(
benchNumReads,
new org.xronos.openforge.verilog.model.Math.Add(
benchNumReads, new Constant(1, benchNumReads.getWidth()))));
// benchInReadZone = 1; //
AllGos.add(new Assign.Blocking(benchInReadZone, new Constant(1, benchInReadZone.getWidth())));
/*
* if(benchWorkInProgress === 0) begin benchWorkInProgress = 1;
* benchFirstReadCycle = benchClockCount ; end
*/
SequentialBlock bwp = new SequentialBlock();
bwp.add(new Assign.Blocking(benchWorkInProgress, new Constant(1, benchInReadZone.getWidth())));
bwp.add(new Assign.Blocking(benchFirstReadCycle, benchClockCount));
Compare.EQ eq1 =
new Compare.EQ(benchWorkInProgress, new Constant(0, benchWorkInProgress.getWidth()));
ConditionalStatement ifbwp = new ConditionalStatement(eq1, bwp);
AllGos.add(ifbwp);
// benchReadZoneCyclesCounterSave = benchReadZoneCyclesCounter;
AllGos.add(new Assign.Blocking(benchReadZoneCyclesCounterSave, benchReadZoneCyclesCounter));
// benchCoreCyclesCounter = 0;
AllGos.add(
new Assign.Blocking(
benchCoreCyclesCounter, new Constant(0, benchCoreCyclesCounter.getWidth())));
/*
* if(benchInWriteZone === 1) begin benchWriteZoneCycles =
* benchWriteZoneCycles + benchWrietZoneCyclesCounterSave + 1;
* benchWriteZoneCYlcesCounter = 0; benchInWriteZone = 0; end
*/
SequentialBlock bwz = new SequentialBlock();
bwz.add(
new Assign.Blocking(
benchWriteZoneCycles,
new Math.Add(
new Math.Add(benchWriteZoneCycles, benchWriteZoneCyclesCounterSave),
new Constant(1, 32))));
bwz.add(
new Assign.Blocking(
benchWriteZoneCyclesCounter, new Constant(0, benchWriteZoneCyclesCounter.getWidth())));
bwz.add(new Assign.Blocking(benchInWriteZone, new Constant(0, benchInWriteZone.getWidth())));
Compare.EQ eq2 = new Compare.EQ(benchInWriteZone, new Constant(1, benchInWriteZone.getWidth()));
ConditionalStatement ifbwz = new ConditionalStatement(eq2, bwz);
AllGos.add(ifbwz);
/*
* if(benchIdleFlag == 1) begin benchIdleCycles = benchIdleCycles +
* benchIdleCyclesCounter - 1; benchIdleFlag = 0; end
*/
SequentialBlock bif = new SequentialBlock();
bif.add(
new Assign.Blocking(
benchIdleCycles,
new Math.Subtract(
new Math.Add(benchIdleCycles, benchIdleCyclesCounter),
new Constant(1, benchIdleCycles.getWidth()))));
bif.add(new Assign.Blocking(benchIdleFlag, new Constant(0, benchIdleFlag.getWidth())));
Compare.EQ eq3 = new Compare.EQ(benchIdleFlag, new Constant(1, benchIdleFlag.getWidth()));
ConditionalStatement ifbif = new ConditionalStatement(eq3, bif);
AllGos.add(ifbif);
/*
* if(allDones) begin <statements> end
*/
SequentialBlock AllDones = new SequentialBlock();
ConditionalStatement ifAllDones = new ConditionalStatement(mach.getAllDoneWire(), AllDones);
// benchNumWrites = benchNumWrites + 1; //
AllDones.add(
new Assign.Blocking(
benchNumWrites,
new Math.Add(benchNumWrites, new Constant(1, benchNumWrites.getWidth()))));
// benchInWriteZone = 1; //
AllDones.add(
new Assign.Blocking(benchInWriteZone, new Constant(1, benchInWriteZone.getWidth())));
/*
* if(benchInReadZone === 1) begin benchReadZoneCycles =
* benchReadZoneCycles + benchReadZoneCyclesCounterSave + 1;
* benchReadZoneCyclesCounter = 0; benchInReadZone = 0;
* benchWriteZoneCyclesCounter = 0; benchCoreCycles = benchCoreCycles +
* benchCoreCyclesCounetr end
*/
SequentialBlock brz = new SequentialBlock();
brz.add(
new Assign.Blocking(
benchReadZoneCycles,
new Math.Add(
new Math.Add(benchReadZoneCycles, benchReadZoneCyclesCounterSave),
new Constant(1, benchReadZoneCycles.getWidth()))));
brz.add(
new Assign.Blocking(
benchReadZoneCyclesCounter, new Constant(0, benchReadZoneCyclesCounter.getWidth())));
brz.add(new Assign.Blocking(benchInReadZone, new Constant(0, benchInReadZone.getWidth())));
brz.add(
new Assign.Blocking(
benchWriteZoneCyclesCounter, new Constant(0, benchWriteZoneCyclesCounter.getWidth())));
brz.add(
new Assign.Blocking(
benchCoreCycles, new Math.Add(benchCoreCycles, benchCoreCyclesCounter)));
Compare.EQ eq4 = new Compare.EQ(benchInReadZone, new Constant(1, benchInReadZone.getWidth()));
ConditionalStatement ifbrz = new ConditionalStatement(eq4, brz);
AllDones.add(ifbrz);
/*
* if(allGos==1) begin benchCoreCycles = benchCoreCycles + 1; end
*/
AllDones.add(
new ConditionalStatement(
new Compare.EQ(mach.getAllGoWire(), new Constant(1, 1)),
new Assign.Blocking(
benchCoreCycles,
new Math.Add(benchCoreCycles, new Constant(1, benchCoreCycles.getWidth())))));
// benchWriteZoneCyclesCounterSave = benchWriteZoneCyclesCounter;
AllDones.add(new Assign.Blocking(benchWriteZoneCyclesCounterSave, benchWriteZoneCyclesCounter));
// benchLastWriteCycle = benchClockCount + 1;
AllDones.add(
new Assign.Blocking(
benchLastWriteCycle,
new Math.Add(benchClockCount, new Constant(1, benchClockCount.getWidth()))));
// benchIdleFlag = 1;
AllDones.add(new Assign.Blocking(benchIdleFlag, new Constant(1, benchIdleFlag.getWidth())));
// benchIdleCyclesCounter = 0;
AllDones.add(
new Assign.Blocking(
benchIdleCyclesCounter, new Constant(0, benchIdleCyclesCounter.getWidth())));
/*
* if(done) begin <statements> end
*/
SequentialBlock done = new SequentialBlock();
ConditionalStatement ifdone = new ConditionalStatement(mach.getDone(), done);
// benchWriteZoneCycles = benchWriteZoneCycles +
// benchWriteZoneCyclesCounterSave + 1;
done.add(
new Assign.Blocking(
benchWriteZoneCycles,
new Math.Add(
new Math.Add(benchWriteZoneCycles, benchWriteZoneCyclesCounterSave),
new Constant(1, benchWriteZoneCycles.getWidth()))));
// benchTotalCycles = benchLastWriteCycle - benchFirstReadCycle;
done.add(
new Assign.Blocking(
benchTotalCycles, new Math.Subtract(benchLastWriteCycle, benchFirstReadCycle)));
// Find the number of input bytes and number of outputbytes //
Collection<Task> tasks = design.getTasks();
// System.out.println("Number of tasks = " + tasks.size());
int inputsize = 0, outputsize = 0;
Iterator<Task> iter = tasks.iterator();
while (iter.hasNext()) {
Task task = iter.next();
Call call = task.getCall();
for (Port port : call.getDataPorts()) {
inputsize += port.getSize();
}
// System.out.println("Input Size Bits = " + inputsize);
for (Bus bus : call.getExit(Exit.DONE).getDataBuses()) {
outputsize += bus.getSize();
}
// System.out.println("Output Size Bits = " + outputsize);
}
Constant benchArgSizeBytes = new Constant(inputsize / 8, 32);
Constant benchResSizeBytes = new Constant(outputsize / 8, 32);
Constant hunderd = new Constant(100, 32);
// benchThroughput = (benchNumReads *
// benchArgSizeBits/8.0)/(benchTotalCycles);
done.add(
new Assign.Blocking(
benchThroughput,
new Math.Divide(
new Math.Multiply(benchNumReads, benchArgSizeBytes), benchTotalCycles)));
// benchOverallInputUtil = (benchNumReads / benchTotalCycles) * 100.0;
done.add(
new Assign.Blocking(
benchOverallInputUtil,
new Math.Multiply(new Math.Divide(benchNumReads, benchTotalCycles), hunderd)));
// benchOverallOutputUtil = (benchNumWrites / benchTotalCycles) * 100.0;
done.add(
new Assign.Blocking(
benchOverallOutputUtil,
new Math.Multiply(new Math.Divide(benchNumWrites, benchTotalCycles), hunderd)));
// benchOverallCoreUtil = (benchCoreCycles / benchTotalCycles) * 100.0;
done.add(
new Assign.Blocking(
benchOverallCoreUtil,
new Math.Multiply(new Math.Divide(benchCoreCycles, benchTotalCycles), hunderd)));
// benchIdlePercentage = (benchIdleCycles / benchTotalCycles) * 100.0;
done.add(
new Assign.Blocking(
benchIdlePercentage,
new Math.Multiply(new Math.Divide(benchIdleCycles, benchTotalCycles), hunderd)));
// benchZoneInputUtil = (benchNumReads/benchReadZoneCycles) * 100.0;
done.add(
new Assign.Blocking(
benchZoneInputUtil,
new Math.Multiply(new Math.Divide(benchNumReads, benchReadZoneCycles), hunderd)));
// benchZoneOutputUtil = (benchNumWrites/benchWriteZoneCycles) * 100.0;
done.add(
new Assign.Blocking(
benchZoneOutputUtil,
new Math.Multiply(new Math.Divide(benchNumWrites, benchWriteZoneCycles), hunderd)));
// benchZoneCoreUtil = (benchCoreCycles/benchCoreCycles) * 100.0;
done.add(
new Assign.Blocking(
benchZoneCoreUtil,
new Math.Multiply(new Math.Divide(benchCoreCycles, benchCoreCycles), hunderd)));
// WUSIWUG ! //
CommaDelimitedStatement cds = new CommaDelimitedStatement();
cds.append(
new StringStatement("**********************************************************\\n"));
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
cds = new CommaDelimitedStatement();
cds.append(
new StringStatement("******************** BENCHMARK REPORT ********************\\n"));
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
cds = new CommaDelimitedStatement();
cds.append(
new StringStatement("**********************************************************\\n"));
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "Total Number of Cycles : %0d\n", benchClockCount);
cds = new CommaDelimitedStatement();
cds.append(new StringStatement("Total Number of Cycles : %0d\\n"));
cds.append(benchClockCount);
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "Data Crunching Cycles : %0d\n", benchTotalCycles);
cds = new CommaDelimitedStatement();
cds.append(new StringStatement("Data Crunching Cycles : %0d\\n"));
cds.append(benchTotalCycles);
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "Number of Idle Cycles : %0d\n", benchIdleCycles);
cds = new CommaDelimitedStatement();
cds.append(new StringStatement("Number of Idle Cycles : %0d\\n"));
cds.append(benchIdleCycles);
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "Number of Reads : %0d\n", benchNumReads);
cds = new CommaDelimitedStatement();
cds.append(new StringStatement("Number of Reads : %0d\\n"));
cds.append(benchNumReads);
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "Bytes Consumed : %0g\n", benchNumReads *
// benchArgSizeBits/8.0);
cds = new CommaDelimitedStatement();
cds.append(new StringStatement("Bytes Consumed : %0d\\n"));
cds.append(new Math.Multiply(benchNumReads, benchArgSizeBytes));
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "Number of Writes : %0d\n", benchNumWrites);
cds = new CommaDelimitedStatement();
cds.append(new StringStatement("Number of Writes : %0d\\n"));
cds.append(benchNumWrites);
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "Bytes Produced : %0g\n", benchNumWrites *
// benchResSizeBits/8.0);
cds = new CommaDelimitedStatement();
cds.append(new StringStatement("Bytes Produced : %0d\\n"));
cds.append(new Math.Multiply(benchNumWrites, benchResSizeBytes));
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "First Read Cycle : %0d\n", benchFirstReadCycle);
cds = new CommaDelimitedStatement();
cds.append(new StringStatement("First Read Cycle : %0d\\n"));
cds.append(benchFirstReadCycle);
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "Last Write Cycle : %0d\n", benchLastWriteCycle);
cds = new CommaDelimitedStatement();
cds.append(new StringStatement("Last Write Cycle : %0d\\n"));
cds.append(benchLastWriteCycle);
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "Throughput(Bytes Consumed/Cycle) : %0g\n", benchThroughput);
cds = new CommaDelimitedStatement();
cds.append(new StringStatement("Throughput(Bytes Consumed/Cycle) : %0g\\n"));
cds.append(benchThroughput);
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "****** Overall *******************************************\n");
cds = new CommaDelimitedStatement();
cds.append(
new StringStatement("****** Overall *******************************************\\n"));
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "Overall Input Link Utilization : %0g\n",
// benchOverallInputUtil);
cds = new CommaDelimitedStatement();
cds.append(new StringStatement("Overall Input Link Utilization : %0g\\n"));
cds.append(benchOverallInputUtil);
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "Overall Core Utilization : %0g\n",
// benchOverallCoreUtil);
cds = new CommaDelimitedStatement();
cds.append(new StringStatement("Overall Core Utilization : %0g\\n"));
cds.append(benchOverallCoreUtil);
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "Overall Output Link Utilization : %0g\n",
// benchOverallOutputUtil);
cds = new CommaDelimitedStatement();
cds.append(new StringStatement("Overall Output Link Utilization : %0g\\n"));
cds.append(benchOverallOutputUtil);
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "Percentage of Idle Cycles : %0g\n", benchIdlePercentage);
cds = new CommaDelimitedStatement();
cds.append(new StringStatement("Percentage of Idle Cycles : %0g\\n"));
cds.append(benchIdlePercentage);
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "******** Zonal *******************************************\n");
cds = new CommaDelimitedStatement();
cds.append(
new StringStatement("******** Zonal *******************************************\\n"));
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "Zone Input Link Utilization : %0g\n", benchZoneInputUtil);
cds = new CommaDelimitedStatement();
cds.append(new StringStatement("Zone Input Link Utilization : %0g\\n"));
cds.append(benchZoneInputUtil);
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "Zone Core Utilization : %0g\n", benchZoneCoreUtil);
cds = new CommaDelimitedStatement();
cds.append(new StringStatement("Zone Core Utilization : %0g\\n"));
cds.append(benchZoneCoreUtil);
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "Zone Output Link Utilization : %0g\n", benchZoneOutputUtil);
cds = new CommaDelimitedStatement();
cds.append(new StringStatement("Zone Output Link Utilization : %0g\\n"));
cds.append(benchZoneOutputUtil);
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
// $fwrite (benchmarkReportFile,
// "**********************************************************\n");
cds = new CommaDelimitedStatement();
cds.append(
new StringStatement("**********************************************************\\n"));
done.add(new FStatement.FWrite(reportFile.getHandle(), cds));
SequentialBlock sblock = new SequentialBlock();
sblock.add(ifAllGos);
sblock.add(ifAllDones);
sblock.add(ifdone);
// benchClockCount = benchClockCount + 1;
sblock.add(
new Assign.Blocking(
benchClockCount,
new Math.Add(benchClockCount, new Constant(1, benchClockCount.getWidth()))));
// benchIdleCyclesCounter = benchIdleFlag == 1 ? benchIdleCyclesCounter
// + 1 : benchIdleCyclesCounter;
sblock.add(
new ConditionalStatement(
new Compare.EQ(benchIdleFlag, new Constant(1, benchIdleFlag.getWidth())),
new Assign.Blocking(
benchIdleCyclesCounter,
new Math.Add(
benchIdleCyclesCounter, new Constant(1, benchIdleCyclesCounter.getWidth()))),
new Assign.Blocking(benchIdleCyclesCounter, benchIdleCyclesCounter)));
// benchCoreCyclesCounter = benchCoreCyclesCounter + 1;
sblock.add(
new Assign.Blocking(
benchCoreCyclesCounter,
new Math.Add(
benchCoreCyclesCounter, new Constant(1, benchCoreCyclesCounter.getWidth()))));
// benchReadZoneCyclesCounter = benchInReadZone == 1 ?
// benchReadZoneCyclesCounter + 1 : benchReadZoneCyclesCounter;
sblock.add(
new ConditionalStatement(
new Compare.EQ(benchInReadZone, new Constant(1, benchInReadZone.getWidth())),
new Assign.Blocking(
benchReadZoneCyclesCounter,
new Math.Add(
benchReadZoneCyclesCounter,
new Constant(1, benchReadZoneCyclesCounter.getWidth()))),
new Assign.Blocking(benchReadZoneCyclesCounter, benchReadZoneCyclesCounter)));
// benchWriteZoneCyclesCounter = benchInWriteZone == 1 ?
// benchWriteZoneCyclesCounter + 1 : benchWriteZoneCyclesCounter;
sblock.add(
new ConditionalStatement(
new Compare.EQ(benchInWriteZone, new Constant(1, benchInWriteZone.getWidth())),
new Assign.Blocking(
benchWriteZoneCyclesCounter,
new Math.Add(
benchWriteZoneCyclesCounter,
new Constant(1, benchWriteZoneCyclesCounter.getWidth()))),
new Assign.Blocking(benchWriteZoneCyclesCounter, benchWriteZoneCyclesCounter)));
ProceduralTimingBlock ptb =
new ProceduralTimingBlock(
new EventControl(new EventExpression.PosEdge(mach.getClock())), sblock);
module.state(new Always(ptb));
}
