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2d39e0561ccda57cd5737e2b826f3facbaf502aa
vortex/hw/unit_tests/cache/cachesim.cpp
trmontgomery 2d39e0561c Revert "successfully invalidate req after empty" 
This reverts commit 9ed2012b12.
2020-07-18 23:58:56 -04:00

299 lines
8.1 KiB
C++
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#include "cachesim.h"
#include <fstream>
#include <iomanip>
#include <iostream>
#include <vector>
uint64_t timestamp = 0;
double sc_time_stamp() {
return timestamp;
}
CacheSim::CacheSim() {
// force random values for uninitialized signals
Verilated::randReset(2);
ram_ = nullptr;
cache_ = new VVX_cache();
dram_rsp_active_ = false;
snp_req_active_ = false;
//#ifdef VCD_OUTPUT
Verilated::traceEverOn(true);
trace_ = new VerilatedVcdC;
cache_->trace(trace_, 99);
trace_->open("trace.vcd");
//#endif
}
CacheSim::~CacheSim() {
//#ifdef VCD_OUTPUT
trace_->close();
//#endif
delete cache_;
}
void CacheSim::attach_ram(RAM* ram) {
ram_ = ram;
dram_rsp_vec_.clear();
}
void CacheSim::reset() {
#ifndef NDEBUG
std::cout << timestamp << ": [sim] reset()" << std::endl;
#endif
cache_->reset = 1;
this->step();
cache_->reset = 0;
this->step();
dram_rsp_vec_.clear();
}
void CacheSim::step() {
cache_->clk = 0;
this->eval();
cache_->clk = 1;
this->eval();
this->eval_reqs();
this->eval_rsps();
this->eval_dram_bus();
}
void CacheSim::eval() {
cache_->eval();
//#ifdef VCD_OUTPUT
trace_->dump(timestamp);
//#endif
++timestamp;
}
void CacheSim::run(){
#ifndef NDEBUG
std::cout << timestamp << ": [sim] run()" << std::endl;
#endif
// reset the device
this->reset();
this->step();
// execute program
while (!core_req_vec_.empty()) {
for(int i = 0; i < 10; ++i){
if(i == 1){
this->clear_req(); //invalidate reqs
}
this->step();
}
}
}
void CacheSim::clear_req(){
cache_->core_req_valid = 0;
}
void CacheSim::send_req(core_req_t *req){
core_req_vec_.push(req);
}
bool CacheSim::get_core_req_ready(){
return cache_->core_req_ready;
}
bool CacheSim::get_core_rsp_ready(){
return cache_->core_rsp_ready;
}
void CacheSim::set_core_req(){
cache_->core_req_valid = 0xf;
cache_->core_req_rw = 0xf;
cache_->core_req_byteen = 0xffff;
cache_->core_req_addr[0] = 0x00;
cache_->core_req_addr[1] = 0xab;
cache_->core_req_addr[2] = 0xcd;
cache_->core_req_addr[3] = 0xe1;
cache_->core_req_data[0] = 0xffffffff;
cache_->core_req_data[1] = 0x11111111;
cache_->core_req_data[2] = 0x22222222;
cache_->core_req_data[3] = 0x33333333;
cache_->core_req_tag = 0xff;
}
void CacheSim::set_core_req2(){
cache_->core_req_valid = 0xf; //b1000
cache_->core_req_rw = 0x0; //b0000
cache_->core_req_byteen = 0xffff;
cache_->core_req_addr[0] = 0x00;
cache_->core_req_addr[1] = 0xab;
cache_->core_req_addr[2] = 0xcd;
cache_->core_req_addr[3] = 0xe1;
cache_->core_req_data[0] = 0x1111111;
cache_->core_req_data[1] = 0x4444444;
cache_->core_req_data[2] = 0x5555555;
cache_->core_req_data[3] = 0x6666666;
cache_->core_req_tag = 0xff;
}
void CacheSim::eval_reqs(){
//check to see if cache is accepting reqs
if(!core_req_vec_.empty() && cache_->core_req_ready){
core_req_t *req = core_req_vec_.front();
std::cout << "Display Req Data Contents " << std::endl;
std::cout << std::hex << "Data[0]: " << req->data[0] << std::endl;
std::cout << std::hex << "Data[1]: " << req->data[1] << std::endl;
std::cout << std::hex << "Data[2]: " << req->data[2] << std::endl;
std::cout << std::hex << "Data[3]: " << req->data[3] << std::endl;
cache_->core_req_valid = req->valid;
cache_->core_req_rw = req->rw;
cache_->core_req_byteen = req->byteen;
cache_->core_req_addr[0] = req->addr[0];
cache_->core_req_addr[1] = req->addr[1];
cache_->core_req_addr[2] = req->addr[2];
cache_->core_req_addr[3] = req->addr[3];
cache_->core_req_data[0] = req->data[0];
cache_->core_req_data[1] = req->data[1];
cache_->core_req_data[2] = req->data[2];
cache_->core_req_data[3] = req->data[3];
cache_->core_req_tag = req->tag;
std::cout << "Display Cache Data inputs: " << std::endl;
get_core_req();
core_req_vec_.pop();
std::cout << "Req Popped" << std::endl;
}
}
void CacheSim::eval_rsps(){
//check to see if a request has been responded to
//if core_rsp tag equal to the front queue tag pop it from the queue
//while the req tag == rsp tag
}
void CacheSim::eval_dram_bus() {
if (ram_ == nullptr) {
cache_->dram_req_ready = 0;
return;
}
// schedule DRAM responses
int dequeue_index = -1;
for (int i = 0; i < dram_rsp_vec_.size(); i++) {
if (dram_rsp_vec_[i].cycles_left > 0) {
dram_rsp_vec_[i].cycles_left -= 1;
}
if ((dequeue_index == -1)
&& (dram_rsp_vec_[i].cycles_left == 0)) {
dequeue_index = i;
}
}
// send DRAM response
if (dram_rsp_active_
&& cache_->dram_rsp_valid
&& cache_->dram_rsp_ready) {
dram_rsp_active_ = false;
}
if (!dram_rsp_active_) {
if (dequeue_index != -1) { //time to respond to the request
cache_->dram_rsp_valid = 1;
//copy data from the rsp queue to the cache module
memcpy((uint8_t*)cache_->dram_rsp_data, dram_rsp_vec_[dequeue_index].data, GLOBAL_BLOCK_SIZE);
cache_->dram_rsp_tag = dram_rsp_vec_[dequeue_index].tag;
free(dram_rsp_vec_[dequeue_index].data); //take data out of the queue
dram_rsp_vec_.erase(dram_rsp_vec_.begin() + dequeue_index);
dram_rsp_active_ = true;
} else {
cache_->dram_rsp_valid = 0;
}
}
// handle DRAM stalls
bool dram_stalled = false;
#ifdef ENABLE_DRAM_STALLS
if (0 == ((timestamp/2) % DRAM_STALLS_MODULO)) {
dram_stalled = true;
} else
if (dram_rsp_vec_.size() >= DRAM_RQ_SIZE) {
dram_stalled = true;
}
#endif
// process DRAM requests
if (!dram_stalled) {
if (cache_->dram_req_valid) {
if (cache_->dram_req_rw) { //write = 1
uint64_t byteen = cache_->dram_req_byteen;
unsigned base_addr = (cache_->dram_req_addr * GLOBAL_BLOCK_SIZE);
uint8_t* data = (uint8_t*)(cache_->dram_req_data);
for (int i = 0; i < GLOBAL_BLOCK_SIZE; i++) {
if ((byteen >> i) & 0x1) {
(*ram_)[base_addr + i] = data[i];
}
}
} else {
dram_req_t dram_req;
dram_req.cycles_left = DRAM_LATENCY;
dram_req.data = (uint8_t*)malloc(GLOBAL_BLOCK_SIZE);
dram_req.tag = cache_->dram_req_tag;
ram_->read(cache_->dram_req_addr * GLOBAL_BLOCK_SIZE, GLOBAL_BLOCK_SIZE, dram_req.data);
dram_rsp_vec_.push_back(dram_req);
}
}
}
cache_->dram_req_ready = ~dram_stalled;
}
//DEBUG
void CacheSim::get_core_rsp(){
std::cout << std::hex << "core_rsp_valid: " << cache_->core_rsp_valid << std::endl;
std::cout << std::hex << "core_rsp_data: " << cache_->core_rsp_data << std::endl;
std::cout << std::hex << "core_rsp_tag: " << cache_->core_rsp_tag << std::endl;
}
void CacheSim::get_core_req(){
char check = cache_->core_req_valid;
std::cout << std::hex << "core_req_valid: " << check << std::endl;
std::cout << std::hex << "core_req_data[0]: " << cache_->core_req_data[0] << std::endl;
std::cout << std::hex << "core_req_data[1]: " << cache_->core_req_data[1] << std::endl;
std::cout << std::hex << "core_req_data[2]: " << cache_->core_req_data[2] << std::endl;
std::cout << std::hex << "core_req_data[3]: " << cache_->core_req_data[3] << std::endl;
std::cout << std::hex << "core_req_tag: " << cache_->core_req_tag << std::endl;
}
void CacheSim::get_dram_req(){
std::cout << std::hex << "dram_req_valid: " << cache_->dram_req_valid << std::endl;
std::cout << std::hex << "dram_req_rw: " << cache_->dram_req_rw << std::endl;
std::cout << std::hex << "dram_req_byteen: " << cache_->dram_req_byteen << std::endl;
std::cout << std::hex << "dram_req_addr: " << cache_->dram_req_addr << std::endl;
std::cout << std::hex << "dram_req_data: " << cache_->dram_req_data << std::endl;
std::cout << std::hex << "dram_req_tag: " << cache_->dram_req_tag << std::endl;
}
void CacheSim::get_dram_rsp(){
std::cout << std::hex << "dram_rsp_valid: " << cache_->dram_rsp_valid << std::endl;
std::cout << std::hex << "dram_rsp_data: " << cache_->dram_rsp_data << std::endl;
std::cout << std::hex << "dram_rsp_tag: " << cache_->dram_rsp_tag << std::endl;
std::cout << std::hex << "dram_rsp_ready: " << cache_->dram_rsp_ready << std::endl;
}
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