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cache.ino
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la9ut_final.bmp
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lab9.bmp
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lab9_final.bmp
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lab9ut.bmp
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writeup.pdf
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/////////////////////////////////////////////////////////////////////
//
// !!! DO NOT MODIFY ANY STRUCTURE / CLASS / ENUMERATION !!!
//
/////////////////////////////////////////////////////////////////////
struct Entry
{
int epdata;
int address;
int value;
};
enum EvictPolicy
{
EP_FIFO,
EP_LRU,
EP_LFU
};
class Cache
{
const int mSets;
const int mMask;
const int mWays;
const EvictPolicy mPolicy;
Entry * const mEntries;
public:
Cache(int _bits, int _ways, EvictPolicy _p);
~Cache();
int FindSet(int _address) const;
int GetNumSets() const;
int GetNumWays() const;
EvictPolicy GetPolicy() const;
Entry *GetEntry(int _set, int _way);
void Set(int _address, int _value);
int Get(int _address);
} *cache;
/////////////////////////////////////////////////////////////////
//
// Add your Cache class' function definitions below
//
/////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////
//
// !!! DO NOT MODIFY setup() OR loop() BELOW !!!
//
/////////////////////////////////////////////////////////////////////
char heartbeat = 10;
void setup() {
for (int i = 10;i <= 13;i++) {
pinMode(i, OUTPUT);
digitalWrite(i, HIGH);
}
Serial.begin(9600);
cache = new Cache(0, 10, EP_FIFO);
while (!Serial) delay(100);
delay(1000);
Serial.print("Created a default, fully-associative cache w/ 10 ways and FIFO eviction\n");
Serial.print("Enter commands, Type 'h' for help and list of commands\n");
}
void loop() {
int a, b, c;
char cmd;
char buf[255];
EvictPolicy ep;
if (Serial.available() > 0) {
String input = Serial.readString();
sscanf(input.c_str(), "%c", &cmd);
switch (cmd) {
case 'c': // r <bits> <ways> <policy>
sscanf(input.c_str(), "%c %d %d %d", &cmd, &a, &b, &c);
ep = (c == 1 ? EP_LRU : c == 2 ? EP_LFU : EP_FIFO);
if (a < 0) {
Serial.print("Invalid bits\n");
}
else if (b < 1) {
Serial.print("Invalid ways\n");
}
else {
delete cache;
cache = new Cache(a, b, ep);
sprintf(buf, "Created new cache %d sets, %d ways, %s eviction policy\n",
cache->GetNumSets(),
cache->GetNumWays(),
(ep == EP_FIFO ? "FIFO" : ep == EP_LRU ? "LRU" : "LFU"));
Serial.print(buf);
}
break;
case 's': // s <addr> <value>
sscanf(input.c_str(), "%c %x %d", &cmd, &a, &b);
cache->Set(a, b);
sprintf(buf, "Set 0x%08x = %d\n", a, b);
Serial.print(buf);
break;
case 'g': // g <addr>
sscanf(input.c_str(), "%c %x", &cmd, &a);
sprintf(buf, "Get 0x%08x = %d\n", a, cache->Get(a));
Serial.print(buf);
break;
case 'e': // e <set> <way>
sscanf(input.c_str(), "%c %d %d", &cmd, &a, &b);
if (a < 0 || a >= cache->GetNumSets()) {
Serial.print("Invalid set specified\n");
}
else if (b < 0 || b >= cache->GetNumWays()) {
Serial.print("Invalid way specified\n");
}
else {
const Entry *e = cache->GetEntry(a, b);
sprintf(buf, "Entry: Set %d, Way %d\n Tag: %d\n Address: 0x%08x\n Value: %d\n", a, b, e->epdata, e->address, e->value);
Serial.print(buf);
}
break;
case 'n':
sprintf(buf, "This cache has %d sets\n", cache->GetNumSets());
Serial.print(buf);
break;
case 'w':
sprintf(buf, "This cache has %d ways\n", cache->GetNumWays());
Serial.print(buf);
break;
case 'y': // y <set>
sscanf(input.c_str(), "%c %d", &cmd, &a);
if (a < 0 || a >= cache->GetNumSets()) {
Serial.print("Invalid set\n");
}
else {
sprintf(buf, "Set %d\n", a);
Serial.print(buf);
for (int w = 0;w < cache->GetNumWays();w++) {
const Entry *e = cache->GetEntry(a, w);
sprintf(buf, " [Way %3d] Tag: %6d, Address: 0x%08x, Value: %d\n", w, e->epdata, e->address, e->value);
Serial.print(buf);
}
}
break;
case 'f': // f <addr>
sscanf(input.c_str(), "%c %x", &cmd, &a);
sprintf(buf, "Address 0x%08x goes to set %d\n", a, cache->FindSet(a));
Serial.print(buf);
break;
case 'p': // p
do {
EvictPolicy p = cache->GetPolicy();
sprintf(buf, "This cache has %s eviction policy\n", (p == EP_FIFO ? "FIFO" : p == EP_LRU ? "LRU" : "LFU"));
Serial.print(buf);
} while (0);
break;
default:
Serial.print("Usage: <command> [arguments]\n");
Serial.print("Where <command> is:\n");
Serial.print(" c <bits> <ways> <policy> - Create new cache\n");
Serial.print(" <policy> is 0: FIFO, 1: LRU, 2: LFU\n");
Serial.print(" s <addr> <value> - Set <addr> to <value>\n");
Serial.print(" g <addr> - Get the value at <addr>\n");
Serial.print(" f <addr> - Get which set <addr> would go into\n");
Serial.print(" y <set> - Get all of the way entries of a given set\n");
Serial.print(" e <set> <way> - Get the value at <set>[<way>]\n");
Serial.print(" n - Get the number of sets for this cache\n");
Serial.print(" w - Get the number of ways for this cache\n");
Serial.print(" p - Get the evict policy for this cache\n");
break;
}
}
else {
if (++heartbeat > 13)
heartbeat = 10;
for (int i = 10;i <= 13;i++) {
digitalWrite(i, (heartbeat == i ? LOW : HIGH));
}
}
delay(100);
}