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Co-authored-by: SriRam Mudragada <iam-msr@users.noreply.github.com>
This commit is contained in:
karthikmurakonda 2022-10-07 19:34:32 +05:30
parent f87bdb7500
commit 55a7c11290
54 changed files with 1048 additions and 172 deletions
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2
.vscode/launch.json vendored
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@ -9,7 +9,7 @@
"name": "Launch Current File",
"request": "launch",
"mainClass": "${file}",
"args": ["assignment-4/src/configuration/config.xml", "assignment-4/src/hello.txt", "assignment-4/supporting_files/test_cases/descending.out"]
"args": ["assignment-1/src/descending.asm", "descending.out"]
},
{
"type": "java",

22
assignment-2/.vscode/launch.json vendored Normal file
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@ -0,0 +1,22 @@
{
// Use IntelliSense to learn about possible attributes.
// Hover to view descriptions of existing attributes.
// For more information, visit: https://go.microsoft.com/fwlink/?linkid=830387
"version": "0.2.0",
"configurations": [
{
"type": "java",
"name": "Launch Current File",
"request": "launch",
"mainClass": "${file}",
"args": ["../assignment-1/src/descending.asm", "descending.out"]
},
{
"type": "java",
"name": "Launch Main",
"request": "launch",
"mainClass": "main.Main",
"projectName": "assignment-2_d93382a2"
}
]
}

9
assignment-2/200010024_200010033-1/src/1.asm Normal file
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@ -0,0 +1,9 @@
.data
a:
10
b:
20
.text
main:
load %x0, $a, %x4
end

BIN
assignment-2/200010024_200010033-1/src/1.out Normal file
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Binary file not shown.

116
assignment-2/200010024_200010033-1/src/configuration/Configuration.java Normal file
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package configuration;
import java.io.File;
import javax.xml.parsers.DocumentBuilder;
import javax.xml.parsers.DocumentBuilderFactory;
import org.w3c.dom.Document;
import org.w3c.dom.Element;
import org.w3c.dom.Node;
import org.w3c.dom.NodeList;
import generic.Misc;
public class Configuration {
public static int ALU_count;
public static int ALU_latency;
public static int ALU_reciprocal_of_throughput;
public static int multiplier_count;
public static int multiplier_latency;
public static int multiplier_reciprocal_of_throughput;
public static int divider_count;
public static int divider_latency;
public static int divider_reciprocal_of_throughput;
public static int L1i_numberOfLines;
public static int L1i_latency;
public static int L1i_associativity;
public static String L1i_replacementPolicy;
public static int L1d_numberOfLines;
public static int L1d_latency;
public static int L1d_associativity;
public static String L1d_replacementPolicy;
public static int L2_numberOfLines;
public static int L2_latency;
public static int L2_associativity;
public static String L2_replacementPolicy;
public static int mainMemoryLatency;
public static void parseConfiguratioFile(String configFileName)
{
Document doc = null;
try
{
File file = new File(configFileName);
DocumentBuilderFactory DBFactory = DocumentBuilderFactory.newInstance();
DocumentBuilder DBuilder = DBFactory.newDocumentBuilder();
doc = DBuilder.parse(file);
doc.getDocumentElement().normalize();
}
catch(Exception e)
{
e.printStackTrace();
Misc.printErrorAndExit("Error in reading config file : " + e);
}
NodeList nodeLst = doc.getElementsByTagName("ALU");
Element elmnt = (Element) nodeLst.item(0);
ALU_count = Integer.parseInt(getImmediateString("Count", elmnt));
ALU_latency = Integer.parseInt(getImmediateString("Latency", elmnt));
ALU_reciprocal_of_throughput = Integer.parseInt(getImmediateString("ReciprocalOfThroughput", elmnt));
nodeLst = doc.getElementsByTagName("Multiplier");
elmnt = (Element) nodeLst.item(0);
multiplier_count = Integer.parseInt(getImmediateString("Count", elmnt));
multiplier_latency = Integer.parseInt(getImmediateString("Latency", elmnt));
multiplier_reciprocal_of_throughput = Integer.parseInt(getImmediateString("ReciprocalOfThroughput", elmnt));
nodeLst = doc.getElementsByTagName("Divider");
elmnt = (Element) nodeLst.item(0);
divider_count = Integer.parseInt(getImmediateString("Count", elmnt));
divider_latency = Integer.parseInt(getImmediateString("Latency", elmnt));
divider_reciprocal_of_throughput = Integer.parseInt(getImmediateString("ReciprocalOfThroughput", elmnt));
nodeLst = doc.getElementsByTagName("L1iCache");
elmnt = (Element) nodeLst.item(0);
L1i_numberOfLines = Integer.parseInt(getImmediateString("NumberOfLines", elmnt));
L1i_latency = Integer.parseInt(getImmediateString("Latency", elmnt));
L1i_associativity = Integer.parseInt(getImmediateString("Associativity", elmnt));
L1i_replacementPolicy = getImmediateString("ReplacementPolicy", elmnt);
nodeLst = doc.getElementsByTagName("L1dCache");
elmnt = (Element) nodeLst.item(0);
L1d_numberOfLines = Integer.parseInt(getImmediateString("NumberOfLines", elmnt));
L1d_latency = Integer.parseInt(getImmediateString("Latency", elmnt));
L1d_associativity = Integer.parseInt(getImmediateString("Associativity", elmnt));
L1d_replacementPolicy = getImmediateString("ReplacementPolicy", elmnt);
nodeLst = doc.getElementsByTagName("L2Cache");
elmnt = (Element) nodeLst.item(0);
L2_numberOfLines = Integer.parseInt(getImmediateString("NumberOfLines", elmnt));
L2_latency = Integer.parseInt(getImmediateString("Latency", elmnt));
L2_associativity = Integer.parseInt(getImmediateString("Associativity", elmnt));
L2_replacementPolicy = getImmediateString("ReplacementPolicy", elmnt);
nodeLst = doc.getElementsByTagName("Configuration");
elmnt = (Element) nodeLst.item(0);
mainMemoryLatency = Integer.parseInt(getImmediateString("MainMemoryLatency", elmnt));
}
private static String getImmediateString(String tagName, Element parent) // Get the immediate string value of a particular tag name under a particular parent tag
{
NodeList nodeLst = parent.getElementsByTagName(tagName);
if (nodeLst.item(0) == null)
{
Misc.printErrorAndExit("XML Configuration error : Item \"" + tagName + "\" not found inside the \"" + parent.getTagName() + "\" tag in the configuration file!!");
}
Element NodeElmnt = (Element) nodeLst.item(0);
NodeList resultNode = NodeElmnt.getChildNodes();
return ((Node) resultNode.item(0)).getNodeValue();
}
}

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assignment-2/200010024_200010033-1/src/configuration/config.xml Normal file
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<?xml version="1.0" encoding="UTF-8" standalone="no" ?>
<Configuration>
<FunctionalUnits>
<ALU>
<Count>2</Count>
<Latency>1</Latency>
<ReciprocalOfThroughput>1</ReciprocalOfThroughput>
</ALU>
<Multiplier>
<Count>1</Count>
<Latency>4</Latency>
<ReciprocalOfThroughput>1</ReciprocalOfThroughput>
</Multiplier>
<Divider>
<Count>1</Count>
<Latency>10</Latency>
<ReciprocalOfThroughput>1</ReciprocalOfThroughput>
</Divider>
</FunctionalUnits>
<L1iCache>
<NumberOfLines>256</NumberOfLines>
<Latency>2</Latency>
<Associativity>4</Associativity>
<ReplacementPolicy>LRU</ReplacementPolicy>
</L1iCache>
<L1dCache>
<NumberOfLines>256</NumberOfLines>
<Latency>2</Latency>
<Associativity>4</Associativity>
<ReplacementPolicy>LRU</ReplacementPolicy>
</L1dCache>
<L2Cache>
<NumberOfLines>2048</NumberOfLines>
<Latency>10</Latency>
<Associativity>4</Associativity>
<ReplacementPolicy>LRU</ReplacementPolicy>
</L2Cache>
<MainMemoryLatency>40</MainMemoryLatency>
</Configuration>

1
assignment-2/200010024_200010033-1/src/generic/.cph/.Simulator.java_74fc5dae77a3b9a48197eb148ed1e37a.prob Normal file
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{"name":"Local: Simulator","url":"c:\\Users\\karth\\OneDrive\\Desktop\\new\\src\\generic\\Simulator.java","tests":[{"id":1662603879409,"input":"","output":""},{"id":1662603899098,"input":"","output":""}],"interactive":false,"memoryLimit":1024,"timeLimit":3000,"srcPath":"c:\\Users\\karth\\OneDrive\\Desktop\\new\\src\\generic\\Simulator.java","group":"local","local":true}

96
assignment-2/200010024_200010033-1/src/generic/Instruction.java Normal file
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package generic;
public class Instruction {
public enum OperationType {add, addi, sub, subi, mul, muli, div, divi, and, andi, or, ori, xor, xori, slt, slti, sll, slli, srl, srli, sra, srai, load, store, jmp, beq, bne, blt, bgt, end};
int programCounter;
OperationType operationType;
Operand sourceOperand1;
Operand sourceOperand2;
Operand destinationOperand;
public int getProgramCounter() {
return programCounter;
}
public void setProgramCounter(int programCounter) {
this.programCounter = programCounter;
}
public OperationType getOperationType() {
return operationType;
}
public void setOperationType(OperationType operationType) {
this.operationType = operationType;
}
public Operand getSourceOperand1() {
return sourceOperand1;
}
public void setSourceOperand1(Operand sourceOperand1) {
this.sourceOperand1 = sourceOperand1;
}
public Operand getSourceOperand2() {
return sourceOperand2;
}
public void setSourceOperand2(Operand sourceOperand2) {
this.sourceOperand2 = sourceOperand2;
}
public Operand getDestinationOperand() {
return destinationOperand;
}
public void setDestinationOperand(Operand destinationOperand) {
this.destinationOperand = destinationOperand;
}
public String toString()
{
if(sourceOperand1 != null)
{
if(sourceOperand2 != null)
{
if(destinationOperand != null)
{
return "PC="+ programCounter + "\t" + operationType + "\t" + sourceOperand1 + "\t" + sourceOperand2 + "\t" + destinationOperand + "\n";
}
else
{
return "PC="+ programCounter + "\t" + operationType + "\t" + sourceOperand1 + "\t" + sourceOperand2 + "\tnull" + "\n";
}
}
else
{
if(destinationOperand != null)
{
return "PC="+ programCounter + "\t" + operationType + "\t" + sourceOperand1 + "\tnull" + "\t" + destinationOperand + "\n";
}
else
{
return "PC="+ programCounter + "\t" + operationType + "\t" + sourceOperand1 + "\tnull" + "\tnull" + "\n";
}
}
}
else
{
if(sourceOperand2 != null)
{
if(destinationOperand != null)
{
return "PC="+ programCounter + "\t" + operationType + "\tnull" + "\t" + sourceOperand2 + "\t" + destinationOperand + "\n";
}
else
{
return "PC="+ programCounter + "\t" + operationType + "\tnull" + "\t" + sourceOperand2 + "\tnull" + "\n";
}
}
else
{
if(destinationOperand != null)
{
return "PC="+ programCounter + "\t" + operationType + "\tnull" + "\tnull" + "\t" + destinationOperand + "\n";
}
else
{
return "PC="+ programCounter + "\t" + operationType + "\tnull" + "\tnull" + "\tnull" + "\n";
}
}
}
}
}

10
assignment-2/200010024_200010033-1/src/generic/Misc.java Normal file
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@ -0,0 +1,10 @@
package generic;
public class Misc {
public static void printErrorAndExit(String message)
{
System.err.println(message);
System.exit(1);
}
}

41
assignment-2/200010024_200010033-1/src/generic/Operand.java Normal file
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package generic;
public class Operand {
public enum OperandType {Register, Immediate, Label};
OperandType operandType;
int value;
String labelValue; //only applicable for Label type;
//Note that Label type is only applicable for functional emulation of assembly file
public OperandType getOperandType() {
return operandType;
}
public void setOperandType(OperandType operandType) {
this.operandType = operandType;
}
public int getValue() {
return value;
}
public void setValue(int value) {
this.value = value;
}
public String getLabelValue() {
return labelValue;
}
public void setLabelValue(String labelValue) {
this.labelValue = labelValue;
}
public String toString()
{
if(operandType == OperandType.Register || operandType == OperandType.Immediate)
{
return "[" + operandType.toString() + ":" + value + "]";
}
else
{
return "[" + operandType.toString() + ":" + labelValue + "]";
}
}
}

268
assignment-2/200010024_200010033-1/src/generic/ParsedProgram.java Normal file
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package generic;
import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashMap;
import java.util.Scanner;
import java.util.regex.Pattern;
import generic.Instruction.OperationType;
import generic.Operand.OperandType;
public class ParsedProgram {
static ArrayList<Instruction> code = new ArrayList<Instruction>();
static int mainFunctionAddress;
static int firstCodeAddress;
static ArrayList<Integer> data = new ArrayList<Integer>();
public static void setMainFunctionAddress(int addr)
{
mainFunctionAddress = addr;
}
public static void setFirstCodeAddress(int addr)
{
firstCodeAddress = addr;
}
public static Instruction getInstructionAt(int programCounter)
{
return code.get(programCounter - firstCodeAddress);
}
static HashMap<String, Integer> symtab = new HashMap<String,Integer>();
public static int parseDataSection(String assemblyProgramFile)
{
FileInputStream inputStream = null;
try
{
inputStream = new FileInputStream(assemblyProgramFile);
}
catch(FileNotFoundException e) {
Misc.printErrorAndExit(e.toString());
}
Scanner sc=new Scanner(inputStream);
int address = 0; //Store data staring from 1st memory location. At 0th location we denote the start of the code section.
while(sc.hasNextLine()) //TODO 3 loops?
{
String line=sc.nextLine();
if(line.contains(".data")) //Processing the .data section
{
line=sc.next();
do
{
if(Pattern.matches("[a-zA-Z]+([0-9]*)(:)", line))
{
ParsedProgram.symtab.put(line.replaceAll("[^a-zA-Z]",""), address);//TODO removed statements that were adding data to the code arraylist
while(Pattern.matches("-?\\d+", line=sc.next()))
{
data.add(Integer.parseInt(line));
address++;
}
}
}while(!line.contains(".text"));
break;
}
}
sc.close();
setFirstCodeAddress(address);
return address;
}
public static void parseCodeSection(String assemblyProgramFile, int firstCodeAddress)
{
FileInputStream inputStream = null;
try
{
inputStream = new FileInputStream(assemblyProgramFile);
}
catch(FileNotFoundException e) {
Misc.printErrorAndExit(e.toString());
}
Scanner sc=new Scanner(inputStream);
int address = firstCodeAddress;
while(sc.hasNextLine())
{
String line=sc.nextLine();
if(line.contains(".text"))
{
break;
}
}
while(sc.hasNextLine())
{
String line;
if(Pattern.matches("[a-zA-Z]+([0-9]*)(:)", line=sc.nextLine()))
{
ParsedProgram.symtab.put(line.replaceAll(":",""), address);
if(line.replaceAll(":","").compareTo("main") == 0)
{
ParsedProgram.setMainFunctionAddress(address);
}
}
else
{
ParsedProgram.code.add(address-firstCodeAddress, getInstructionFromString(line, address));
address++;
}
}
sc.close();
}
private static Instruction getInstructionFromString(String line, int address)
{
Instruction newInstruction = new Instruction();
newInstruction.setProgramCounter(address);
Scanner sc = new Scanner(line);
newInstruction.setOperationType(OperationType.valueOf(sc.next()));
switch(newInstruction.getOperationType())
{
//R3I type
case add :
case sub :
case mul :
case div :
case and :
case or :
case xor :
case slt :
case sll :
case srl :
case sra : {
newInstruction.setSourceOperand1(getRegisterOperandFromString(sc.next()));
newInstruction.setSourceOperand2(getRegisterOperandFromString(sc.next()));
newInstruction.setDestinationOperand(getRegisterOperandFromString(sc.next()));
break;
}
//R2I type
case addi :
case subi :
case muli :
case divi :
case andi :
case ori :
case xori :
case slti :
case slli :
case srli :
case srai :
case load :
case store : {
newInstruction.setSourceOperand1(getRegisterOperandFromString(sc.next()));
String str = sc.next();
if(Pattern.matches("-?\\d+(,)",str))
{
//absolute immediate
newInstruction.setSourceOperand2(getImmediateOperandFromString(str));
}
else
{
//label / symbol
newInstruction.setSourceOperand2(getLabelOperandFromString(str));
}
newInstruction.setDestinationOperand(getRegisterOperandFromString(sc.next()));
break;
}
case beq :
case bne :
case blt :
case bgt : {
newInstruction.setSourceOperand1(getRegisterOperandFromString(sc.next()));
newInstruction.setSourceOperand2(getRegisterOperandFromString(sc.next()));
String str = sc.next();
if(Pattern.matches("[0-9]+(,)",str))
{
//absolute immediate
newInstruction.setDestinationOperand(getImmediateOperandFromString(str));
}
else
{
//label / symbol
newInstruction.setDestinationOperand(getLabelOperandFromString(str));
}
break;
}
//RI type :
case jmp : {
String str = sc.next();
if(Pattern.matches("[0-9]+(,)",str))
{
//absolute immediate
newInstruction.setDestinationOperand(getImmediateOperandFromString(str));
}
else if(Pattern.matches("%x([0-9]{1,2})",str)) {
newInstruction.setDestinationOperand(getRegisterOperandFromString(str));
}
else
{
//label / symbol
newInstruction.setDestinationOperand(getLabelOperandFromString(str));
}
break;
}
case end : break;
default: Misc.printErrorAndExit("unknown instruction!!");
}
sc.close();
return newInstruction;
}
private static Operand getRegisterOperandFromString(String str)
{
Operand operand = new Operand();
operand.setOperandType(OperandType.Register);
operand.setValue(Integer.parseInt(str.replaceAll("[^0-9]", "")));
return operand;
}
private static Operand getImmediateOperandFromString(String str)
{
Operand operand = new Operand();
operand.setOperandType(OperandType.Immediate);
operand.setValue(Integer.parseInt(str.replaceAll("[^-?\\d+]","")));
return operand;
}
private static Operand getLabelOperandFromString(String str)
{
Operand operand = new Operand();
operand.setOperandType(OperandType.Label);
operand.setLabelValue(str.replaceAll("[$,]", ""));
return operand;
}
static void printState()
{
System.out.println("Symbol Table :");
System.out.println(Arrays.asList(symtab));
System.out.println("\nParsed instructions :");
System.out.println(Arrays.asList(code));
}
}

153
assignment-2/200010024_200010033-1/src/generic/Simulator.java Normal file
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package generic;
import java.io.FileInputStream;
import generic.Operand.OperandType;
import java.io.FileNotFoundException;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Scanner;
import java.io.ByteArrayInputStream;
import java.nio.ByteBuffer;
public class Simulator {
static FileInputStream inputcodeStream = null;
public static Map<String, String> map = new HashMap<>() {
{
put("add", "00000");
put("sub", "00010");
put("mul", "00100");
put("div", "00110");
put("and", "01000");
put("or", "01010");
put("xor", "01100");
put("slt", "01110");
put("sll", "10000");
put("srl", "10010");
put("sra", "10100");
put("beq", "11001");
put("bne", "11010");
put("blt", "11011");
put("bgt", "11100");
put("load", "10110");
put("store", "10111");
put("jmp", "11000");
put("addi", "00001");
put("subi", "00011");
put("muli", "00101");
put("divi", "00111");
put("andi", "01001");
put("ori", "01011");
put("xori", "01101");
put("slti", "01111");
put("slli", "10001");
put("srli", "10011");
put("srai", "10101");
put("end", "11101");
}
};
private static String toBinaryOfSpecificPrecision(int num, int lenOfTargetString) {
String binary = String.format("%" + lenOfTargetString + "s", Integer.toBinaryString(num)).replace(' ', '0');
return binary;
}
private static String convert_1(Operand inst, int precision) {
return toBinaryOfSpecificPrecision(inst.getValue(), precision);
}
private static String convert(Operand inst, int precision) {
if (inst == null)
return toBinaryOfSpecificPrecision(0, precision);
if (inst.getOperandType() == Operand.OperandType.Label)
return toBinaryOfSpecificPrecision(ParsedProgram.symtab.get(inst.getLabelValue()), precision);
return toBinaryOfSpecificPrecision(inst.getValue(), precision);
}
public static void setupSimulation(String assemblyProgramFile)
{
int firstCodeAddress = ParsedProgram.parseDataSection(assemblyProgramFile);
ParsedProgram.parseCodeSection(assemblyProgramFile, firstCodeAddress);
ParsedProgram.printState();
}
public static void assemble(String objectProgramFile)
{
FileOutputStream file;
try {
file = new FileOutputStream(objectProgramFile);
//write the firstCodeAddress to the file
file.write(ByteBuffer.allocate(4).putInt(ParsedProgram.firstCodeAddress).array());
//write the data to the file
for (var value : ParsedProgram.data) {
byte[] dataValue = ByteBuffer.allocate(4).putInt(value).array();
file.write(dataValue);
}
//assemble one instruction at a time, and write to the file
for (var instruction : ParsedProgram.code) {
String line = "";
String optype=(instruction.operationType).toString();
line += map.get(optype);
// int op = Integer.parseInt(line, 2);
int op=Integer.parseInt(map.get(optype),2);
int pc = instruction.getProgramCounter();
if (op <= 20 && op % 2 == 0) {
// R3 Type
line += convert_1(instruction.getSourceOperand1(), 5);
line += convert_1(instruction.getSourceOperand2(), 5);
line += convert_1(instruction.getDestinationOperand(), 5);
line += toBinaryOfSpecificPrecision(0, 12);
}
else if (op == 29) {
line += toBinaryOfSpecificPrecision(0, 27);
}
else if (op == 24) {
// RI Type
if (instruction.destinationOperand.getOperandType() == Operand.OperandType.Register) {
line += convert(instruction.getDestinationOperand(), 5);
line += toBinaryOfSpecificPrecision(0, 22);
} else {
line += toBinaryOfSpecificPrecision(0, 5);
int value = Integer.parseInt(convert(instruction.getDestinationOperand(), 5), 2) - pc;
String bin = toBinaryOfSpecificPrecision(value, 22);
line += bin.substring(bin.length() - 22);
}
}
else {
// R2I Type
if (op >= 25 && op <= 28) {
int value = Integer.parseInt(convert(instruction.getDestinationOperand(), 5), 2) - pc;
line += convert(instruction.getSourceOperand1(), 5);
line += convert(instruction.getSourceOperand2(), 5);
String bin = toBinaryOfSpecificPrecision(value, 17);
line += bin.substring(bin.length() - 17);
} else {
line += convert(instruction.getSourceOperand1(), 5);
line += convert(instruction.getDestinationOperand(), 5);
line += convert(instruction.getSourceOperand2(), 17);
}
}
int instInteger = (int) Long.parseLong(line, 2);
byte[] instBinary = ByteBuffer.allocate(4).putInt(instInteger).array();
file.write(instBinary);
}
file.close();
} catch (FileNotFoundException e) {
e.printStackTrace();
} catch (IOException e) {
e.printStackTrace();
}
}
}

13
assignment-2/200010024_200010033-1/src/generic/Statistics.java Normal file
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package generic;
public class Statistics {
// TODO add your statistics here
// TODO write functions to update statistics
public static void printStatistics(String statFile)
{
// TODO add code here to print statistics in the output file
}
}

19
assignment-2/200010024_200010033-1/src/main/Main.java Normal file
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package main;
import configuration.Configuration;
import generic.Misc;
import generic.Statistics;
import generic.Simulator;
public class Main {
public static void main(String[] args) {
if(args.length != 2)
{
Misc.printErrorAndExit("usage: java -jar <path-to-jar-file> <path-to-assembly-program> <path-to-object-file>\n");
}
Simulator.setupSimulation(args[0]);
Simulator.assemble(args[1]);
}
}

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@ -0,0 +1,9 @@
.data
a:
10
b:
20
.text
main:
load %x0, $a, %x4
end

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<?xml version="1.0" encoding="UTF-8" standalone="no" ?>
<Configuration>
<FunctionalUnits>
<ALU>
<Count>2</Count>
<Latency>1</Latency>
<ReciprocalOfThroughput>1</ReciprocalOfThroughput>
</ALU>
<Multiplier>
<Count>1</Count>
<Latency>4</Latency>
<ReciprocalOfThroughput>1</ReciprocalOfThroughput>
</Multiplier>
<Divider>
<Count>1</Count>
<Latency>10</Latency>
<ReciprocalOfThroughput>1</ReciprocalOfThroughput>
</Divider>
</FunctionalUnits>
<L1iCache>
<NumberOfLines>256</NumberOfLines>
<Latency>2</Latency>
<Associativity>4</Associativity>
<ReplacementPolicy>LRU</ReplacementPolicy>
</L1iCache>
<L1dCache>
<NumberOfLines>256</NumberOfLines>
<Latency>2</Latency>
<Associativity>4</Associativity>
<ReplacementPolicy>LRU</ReplacementPolicy>
</L1dCache>
<L2Cache>
<NumberOfLines>2048</NumberOfLines>
<Latency>10</Latency>
<Associativity>4</Associativity>
<ReplacementPolicy>LRU</ReplacementPolicy>
</L2Cache>
<MainMemoryLatency>40</MainMemoryLatency>
</Configuration>

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{"name":"Local: Simulator","url":"c:\\Users\\karth\\OneDrive\\Desktop\\new\\src\\generic\\Simulator.java","tests":[{"id":1662603879409,"input":"","output":""},{"id":1662603899098,"input":"","output":""}],"interactive":false,"memoryLimit":1024,"timeLimit":3000,"srcPath":"c:\\Users\\karth\\OneDrive\\Desktop\\new\\src\\generic\\Simulator.java","group":"local","local":true}

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<?xml version="1.0" encoding="UTF-8" standalone="no"?>
<!-- WARNING: Eclipse auto-generated file.
Any modifications will be overwritten.
To include a user specific buildfile here, simply create one in the same
directory with the processing instruction <?eclipse.ant.import?>
as the first entry and export the buildfile again. --><project basedir="." default="build" name="CustomISAAssembler">
<property environment="env"/>
<property name="debuglevel" value="source,lines,vars"/>
<property name="target" value="1.8"/>
<property name="source" value="1.8"/>
<path id="CustomISAAssembler.classpath">
<pathelement location="bin"/>
</path>
<target name="init">
<mkdir dir="bin"/>
<copy includeemptydirs="false" todir="bin">
<fileset dir="src">
<exclude name="**/*.launch"/>
<exclude name="**/*.java"/>
</fileset>
</copy>
</target>
<target name="clean">
<delete dir="bin"/>
</target>
<target depends="clean" name="cleanall"/>
<target depends="build-subprojects,build-project" name="build"/>
<target name="build-subprojects"/>
<target depends="init" name="build-project">
<echo message="${ant.project.name}: ${ant.file}"/>
<javac debug="true" debuglevel="${debuglevel}" destdir="bin" includeantruntime="false" source="${source}" target="${target}">
<src path="src"/>
<classpath refid="CustomISAAssembler.classpath"/>
</javac>
</target>
<target name="make-jar" depends="build">
<mkdir dir="jars"/>
<jar destfile="jars/assembler.jar" basedir="bin">
<manifest>
<attribute name="Main-Class" value="main.Main"/>
</manifest>
</jar>
</target>
</project>

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.data
a:
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b:
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.text
main:
load %x0, $a, %x4
end

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.data
a:
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.text
main:
load %x0, $a, %x4
end

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package generic;
import java.io.FileInputStream;
import generic.Operand.OperandType;
import java.io.FileNotFoundException;
import java.io.FileOutputStream;
import java.io.BufferedOutputStream;
import java.nio.ByteBuffer;
import java.io.IOException;
import java.util.Arrays;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Stack;
import java.util.Scanner;
import java.io.ByteArrayInputStream;
import java.nio.ByteBuffer;
public class Simulator {
static FileInputStream inputcodeStream = null;
public static Map<Instruction.OperationType, String> mapping = new HashMap<Instruction.OperationType, String>();
static {
mapping.put(Instruction.OperationType.add, "00000");
mapping.put(Instruction.OperationType.addi, "00001");
mapping.put(Instruction.OperationType.sub, "00010");
mapping.put(Instruction.OperationType.subi, "00011");
mapping.put(Instruction.OperationType.mul, "00100");
mapping.put(Instruction.OperationType.muli, "00101");
mapping.put(Instruction.OperationType.div, "00110");
mapping.put(Instruction.OperationType.divi, "00111");
mapping.put(Instruction.OperationType.and, "01000");
mapping.put(Instruction.OperationType.andi, "01001");
mapping.put(Instruction.OperationType.or, "01010");
mapping.put(Instruction.OperationType.ori, "01011");
mapping.put(Instruction.OperationType.xor, "01100");
mapping.put(Instruction.OperationType.xori, "01101");
mapping.put(Instruction.OperationType.slt, "01110");
mapping.put(Instruction.OperationType.slti, "01111");
mapping.put(Instruction.OperationType.sll, "10000");
mapping.put(Instruction.OperationType.slli, "10001");
mapping.put(Instruction.OperationType.srl, "10010");
mapping.put(Instruction.OperationType.srli, "10011");
mapping.put(Instruction.OperationType.sra, "10100");
mapping.put(Instruction.OperationType.srai, "10101");
mapping.put(Instruction.OperationType.load, "10110");
mapping.put(Instruction.OperationType.end, "11101");
mapping.put(Instruction.OperationType.beq, "11001");
mapping.put(Instruction.OperationType.jmp, "11000");
mapping.put(Instruction.OperationType.bne, "11010");
mapping.put(Instruction.OperationType.blt, "11011");
mapping.put(Instruction.OperationType.bgt, "11100");
}
public static Map<String, String> map = new HashMap<>() {
{
put("add", "00000");
put("sub", "00010");
put("mul", "00100");
put("div", "00110");
put("and", "01000");
put("or", "01010");
put("xor", "01100");
put("slt", "01110");
put("sll", "10000");
put("srl", "10010");
put("sra", "10100");
put("beq", "11001");
put("bne", "11010");
put("blt", "11011");
put("bgt", "11100");
put("load", "10110");
put("store", "10111");
put("jmp", "11000");
put("addi", "00001");
put("subi", "00011");
put("muli", "00101");
put("divi", "00111");
put("andi", "01001");
put("ori", "01011");
put("xori", "01101");
put("slti", "01111");
put("slli", "10001");
put("srli", "10011");
put("srai", "10101");
put("end", "11101");
public static void setupSimulation(String assemblyProgramFile) {
int firstCodeAddress = ParsedProgram.parseDataSection(assemblyProgramFile);
ParsedProgram.parseCodeSection(assemblyProgramFile, firstCodeAddress);
ParsedProgram.printState();
}
}
};
private static String toBinaryOfSpecificPrecision(int num, int lenOfTargetString) {
String binary = String.format("%" + lenOfTargetString + "s", Integer.toBinaryString(num)).replace(' ', '0');
return binary;
}
private static int toSignedInteger(String binary) {
int n = 32 - binary.length();
char[] sign_ext = new char[n];
Arrays.fill(sign_ext, binary.charAt(0));
int signedInteger = (int) Long.parseLong(new String(sign_ext) + binary, 2);
return signedInteger;
private static String convert_1(Operand inst, int precision) {
return toBinaryOfSpecificPrecision(inst.getValue(), precision);
}
private static String toBinaryString(int n) {
// Remove this conditional statement
// if (n >= 0) return String.valueOf(n);
Stack<Integer> bits = new Stack<>();
do {
bits.push(n % 2);
n /= 2;
} while (n != 0);
StringBuilder builder = new StringBuilder();
while (!bits.isEmpty()) {
builder.append(bits.pop());
}
return " " + builder.toString();
}
private static String convert(Operand inst, int precision) {
if (inst == null)
return toBinaryOfSpecificPrecision(0, precision);
@ -91,106 +70,84 @@ public class Simulator {
if (inst.getOperandType() == Operand.OperandType.Label)
return toBinaryOfSpecificPrecision(ParsedProgram.symtab.get(inst.getLabelValue()), precision);
// write logic for converting to binary/ hex
return toBinaryOfSpecificPrecision(inst.getValue(), precision);
// check if inst is a label, in that case, use its value
// return String.valueOf(inst.getValue());
}
public static void assemble(String objectProgramFile) {
public static void setupSimulation(String assemblyProgramFile)
{
int firstCodeAddress = ParsedProgram.parseDataSection(assemblyProgramFile);
ParsedProgram.parseCodeSection(assemblyProgramFile, firstCodeAddress);
ParsedProgram.printState();
}
public static void assemble(String objectProgramFile)
{
FileOutputStream file;
try {
//1. open the objectProgramFile in binary mode
file = new FileOutputStream(objectProgramFile);
BufferedOutputStream bfile = new BufferedOutputStream(file);
//2. write the firstCodeAddress to the file
byte[] addressCode = ByteBuffer.allocate(4).putInt(ParsedProgram.firstCodeAddress).array();
bfile.write(addressCode);
//3. write the data to the file
for (int value: ParsedProgram.data) {
//write the firstCodeAddress to the file
file.write(ByteBuffer.allocate(4).putInt(ParsedProgram.firstCodeAddress).array());
//write the data to the file
for (var value : ParsedProgram.data) {
byte[] dataValue = ByteBuffer.allocate(4).putInt(value).array();
bfile.write(dataValue);
file.write(dataValue);
}
//4. assemble one instruction at a time, and write to the file
for (Instruction inst: ParsedProgram.code) {
/**
* inst.getSourceOperand().getValue() will be passed to a function as f()
* that will change decimal to binary and then will return the string
* form of the binary. It will also check if the value is a label,
* in case it is a label, it would call ParsedProgram.symtab.get()
* to get the address corresponding to the label
*/
String binaryRep = "";
// print operation type, use toBinaryString() instead of convert()
// file.write(mapping.get(inst.getOperationType()));
binaryRep += mapping.get(inst.getOperationType());
int opCode = Integer.parseInt(binaryRep, 2);
// System.out.println(inst.getOperationType() + " " + mapping.get(inst.getOperationType()));
// System.out.println(mapping);
// System.out.println(inst.getProgramCounter());
int pc = inst.getProgramCounter();
//assemble one instruction at a time, and write to the file
for (var instruction : ParsedProgram.code) {
String line = "";
String optype=(instruction.operationType).toString();
line += map.get(optype);
// int op = Integer.parseInt(line, 2);
int op=Integer.parseInt(map.get(optype),2);
int pc = instruction.getProgramCounter();
if (opCode <= 20 && opCode % 2 == 0) {
if (op <= 20 && op % 2 == 0) {
// R3 Type
binaryRep += convert(inst.getSourceOperand1(), 5);
binaryRep += convert(inst.getSourceOperand2(), 5);
binaryRep += convert(inst.getDestinationOperand(), 5);
binaryRep += toBinaryOfSpecificPrecision(0, 12);
line += convert_1(instruction.getSourceOperand1(), 5);
line += convert_1(instruction.getSourceOperand2(), 5);
line += convert_1(instruction.getDestinationOperand(), 5);
line += toBinaryOfSpecificPrecision(0, 12);
}
else if (opCode == 24) {
else if (op == 29) {
line += toBinaryOfSpecificPrecision(0, 27);
}
else if (op == 24) {
// RI Type
if (inst.destinationOperand.getOperandType() == Operand.OperandType.Register) {
binaryRep += convert(inst.getDestinationOperand(), 5);
binaryRep += toBinaryOfSpecificPrecision(0, 22);
}
else {
binaryRep += toBinaryOfSpecificPrecision(0, 5);
int value = Integer.parseInt(convert(inst.getDestinationOperand(), 5), 2) - pc;
if (instruction.destinationOperand.getOperandType() == Operand.OperandType.Register) {
line += convert(instruction.getDestinationOperand(), 5);
line += toBinaryOfSpecificPrecision(0, 22);
} else {
line += toBinaryOfSpecificPrecision(0, 5);
int value = Integer.parseInt(convert(instruction.getDestinationOperand(), 5), 2) - pc;
String bin = toBinaryOfSpecificPrecision(value, 22);
binaryRep += bin.substring(bin.length() - 22);
line += bin.substring(bin.length() - 22);
}
}
else if (opCode == 29) {
binaryRep += toBinaryOfSpecificPrecision(0, 27);
}
else {
// R2I Type
if (opCode >= 25 && opCode <= 28) {
int value = Integer.parseInt(convert(inst.getDestinationOperand(), 5), 2) - pc;
binaryRep += convert(inst.getSourceOperand1(), 5);
binaryRep += convert(inst.getSourceOperand2(), 5);
if (op >= 25 && op <= 28) {
int value = Integer.parseInt(convert(instruction.getDestinationOperand(), 5), 2) - pc;
line += convert(instruction.getSourceOperand1(), 5);
line += convert(instruction.getSourceOperand2(), 5);
String bin = toBinaryOfSpecificPrecision(value, 17);
binaryRep += bin.substring(bin.length() - 17);
}
else {
binaryRep += convert(inst.getSourceOperand1(), 5);
binaryRep += convert(inst.getDestinationOperand(), 5);
binaryRep += convert(inst.getSourceOperand2(), 17);
line += bin.substring(bin.length() - 17);
} else {
line += convert(instruction.getSourceOperand1(), 5);
line += convert(instruction.getDestinationOperand(), 5);
line += convert(instruction.getSourceOperand2(), 17);
}
}
int instInteger = (int) Long.parseLong(binaryRep, 2);
int instInteger = (int) Long.parseLong(line, 2);
byte[] instBinary = ByteBuffer.allocate(4).putInt(instInteger).array();
bfile.write(instBinary);
// System.out.println(instInteger);
// if (inst.getSourceOperand1() != null)
// file.write(convert(inst.getSourceOperand1()));
// if (inst.getSourceOperand2() != null)
// file.write(convert(inst.getSourceOperand2()));
// if (inst.getDestinationOperand() != null)
// file.write(convert(inst.getDestinationOperand()));
// file.write(inst.toString());
file.write(instBinary);
}
//5. close the file
bfile.close();
file.close();
} catch (FileNotFoundException e) {
e.printStackTrace();
} catch (IOException e) {
e.printStackTrace();
}
}
}
}

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assignment-4/bin/hello.txt
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Number of instructions executed = 16
Number of cycles taken = 16
Number of instructions executed = 421
Number of cycles taken = 992
Number of data hazards = 441
Number of control hazards = 63

6
assignment-4/src/generic/Simulator.java
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@ -70,13 +70,9 @@ public class Simulator {
processor.getOFUnit().performOF();
processor.getIFUnit().performIF();
Clock.incrementClock();
Statistics.setNumberOfInstructions(Statistics.getNumberOfInstructions() + 1);
// Statistics.setNumberOfInstructions(Statistics.getNumberOfInstructions() + 1);
Statistics.setNumberOfCycles(Statistics.getNumberOfCycles() + 1);
}
// TODO
// set statistics
}
public static void setSimulationComplete(boolean value)

22
assignment-4/src/generic/Statistics.java
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@ -7,7 +7,8 @@ public class Statistics {
// TODO add your statistics here
static int numberOfInstructions;
static int numberOfCycles;
static int datahazards;
static int controlhazards;
public static void printStatistics(String statFile)
{
@ -17,6 +18,8 @@ public class Statistics {
writer.println("Number of instructions executed = " + numberOfInstructions);
writer.println("Number of cycles taken = " + numberOfCycles);
writer.println("Number of data hazards = " + datahazards);
writer.println("Number of control hazards = " + controlhazards);
// TODO add code here to print statistics in the output file
@ -45,4 +48,21 @@ public class Statistics {
Statistics.numberOfCycles = numberOfCycles;
}
public static int getDatahazards() {
return datahazards;
}
public static void setDatahazards(int datahazards) {
Statistics.datahazards = datahazards;
}
public static int getControlhazards() {
return controlhazards;
}
public static void setControlhazards(int controlhazards) {
Statistics.controlhazards = controlhazards;
}
}

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Number of instructions executed = 55
Number of cycles taken = 55
Number of instructions executed = 5
Number of cycles taken = 14
Number of data hazards = 3
Number of control hazards = 2

4
assignment-4/src/processor/pipeline/Execute.java
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@ -2,6 +2,7 @@ package processor.pipeline;
import processor.Processor;
import generic.Instruction;
import generic.Statistics;
import generic.Instruction.OperationType;
import generic.Operand.OperandType;
@ -36,6 +37,7 @@ public class Execute {
OperationType alu_op = OF_EX_Latch.getInstruction().getOperationType();
System.out.println("ALU OP: " + alu_op);
boolean noma = false;
Statistics.setNumberOfInstructions(Statistics.getNumberOfInstructions() + 1);
switch(alu_op)
{
case add: alu_result = op1 + op2; break;
@ -174,6 +176,8 @@ public class Execute {
if(!noma)
{
EX_MA_Latch.setMA_enable(true);
}else{
Statistics.setControlhazards(Statistics.getControlhazards()+2); // stall 2 cycles
}
}
}

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assignment-4/src/processor/pipeline/OperandFetch.java
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@ -9,6 +9,7 @@ import processor.Processor;
import generic.Instruction.OperationType;
import generic.Operand.OperandType;
import generic.Operand;
import generic.Statistics;
public class OperandFetch {
Processor containingProcessor;
@ -154,26 +155,13 @@ public class OperandFetch {
}
}
else if (Arrays.stream(R1I_type_operators).anyMatch(x -> x == opcode)) {
if(opcode != 24){
if(opcode != 24){ // end
Operand rd = new Operand();
rd.setOperandType(Operand.OperandType.Register);
rd.setValue(Integer.parseInt(bin_instr.substring(5, 10), 2));
instr.setDestinationOperand(rd);
int imm = Integer.parseInt(bin_instr.substring(10, 32), 2);
if (bin_instr.charAt(10)=='1'){
imm = -1*twoscompliment(bin_instr.substring(10, 32));
System.out.println(bin_instr);
}
// if (checkdatahazard(new int[] { rd.getValue() })) {
// noDataHazard = false;
// }else{
// containingProcessor.getRegisterFile().setProgramCounter(containingProcessor.getRegisterFile().getProgramCounter()-1);
OF_EX_Latch.setInstruction(instr);
// OF_EX_Latch.setImm(imm);
// isEnd = true;
// }
}
else{ // opcode == 24 jmp
Operand op = new Operand();
@ -205,6 +193,7 @@ public class OperandFetch {
if(!noDataHazard){
IF_EnableLatch.setFreeze(true);
System.out.println("\n\nData Hazard - Interlock\n\n");
Statistics.setDatahazards(Statistics.getDatahazards() + 1);
}
}
else if (!Proceed) {

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