Exemplo n.º 1
0
def load_file(traceID, typeID, sizerate=0.1, p=1, mode='w'):
    readReq = 0
    size = int(sizerate * uclnDict[traceID])
    ssd = PLRU(size, p)
    fin = open(getPath(traceID, typeID), 'r')
    lines = fin.readlines()
    req = 0
    myupdate = 0
    minTime = None
    maxTime = None
    print("load file finished")
    for line in lines:
        items = line.strip().split(' ')
        reqtype = int(items[0])
        blockid = int(items[2])
        if mode == 'r':
            if reqtype == 1:
                ssd.delete_cache(blockid)
            else:
                readReq += 1
                if readReq % 1000000 == 0:
                    print(readReq)
                req += 1
                ssd.is_hit(blockid)
                ssd.update_cache(blockid)
        else:
            req += 1
            hit = ssd.is_hit(blockid)
            if reqtype == 0:
                readReq += 1
            if reqtype == 1 and hit:
                ssd.add_update()
                myupdate += 1
            ssd.update_cache(blockid)
            if not hit and ssd.get_top_n(1) == [blockid]:
                myupdate += 1
    fin.close()
    print(traceID, "size", size, p, "myupdate", myupdate)
    print("total hit rate", 1.0 * ssd.hit / req, ssd.update)
    logFile = open(logFilename, "a")
    print(traceID,
          p,
          sizerate,
          size,
          1.0 * ssd.hit / req,
          ssd.update,
          req,
          round(1.0 * readReq / req, 3),
          minTime,
          maxTime,
          sep=',',
          file=logFile)
    logFile.close()
Exemplo n.º 2
0
def mtc_test_size_p(path, traceID, totalTimeLength, timeStart, sizerate, p):
    lines = []
    uclnDict = {}
    req = 0
    readReq = 0

    load_lines(path, traceID, totalTimeLength, timeStart, lines, uclnDict)
    size = int(sizerate * len(uclnDict))
    # 稀疏周期,size过小
    if size <= 100:
        return
    print("size=", size)
    ssd = PLRU(size, p)
    for line in lines:
        (time, rw, blockid) = parse_line(line, "gen")
        req += 1
        hit = ssd.is_hit(blockid)
        if rw == 0:
            readReq += 1
        if rw == 1 and hit:
            ssd.add_update()
        ssd.update_cache(blockid)

    print(traceID, "size", size, p)
    print("total hit rate", 1.0 * ssd.hit / req, "update", ssd.update)
    global g

    if ssd.update > 1.0 * size * g * totalTimeLength:
        cost = 1.0 * ssd.update / g / totalTimeLength
    else:
        cost = size
    print(ssd.update, size, g * totalTimeLength,
          1.0 * size * g * totalTimeLength, 1.0 * ssd.update / size, cost)
    logFile = open(logFilename, "a")
    print(traceID,
          timeStart / totalTimeLength,
          totalTimeLength / danwei,
          sizerate,
          size,
          p,
          1.0 * ssd.hit / req,
          ssd.update,
          req,
          round(1.0 * readReq / req, 3),
          cost,
          sep=',',
          file=logFile)
    logFile.close()
Exemplo n.º 3
0
def handle_csv_time(fileid, filename, order, time, pattern, ssd, fileIdx):
    print("enter handle_csv_time", fileid, order, time, fileIdx)
    flag = False
    readcount = 1
    writecount = 1
    readsize = 1
    writesize = 1
    # outname = filename +'.req'
    count = fileIdx
    totalDict = {}
    readDict = {}
    writeDict = {}
    lba = [[sys.maxsize, 0], [sys.maxsize, 0], [sys.maxsize, 0]]
    infile = open(filename, 'r')
    # outfile = open(outname, 'w')
    nrreq = 0
    lines = infile.readlines()
    if pattern == "warm":
        if fileIdx == 0:
            timeStart = -1
            timeEnd = 10**25
        else:
            line = lines[fileIdx]
            timeBase = get_time(line)
            timeStart = timeBase + order * time
            timeEnd = timeStart + time
        if ssd == None:
            ssd = PLRU(int(0.1 * uclnDict[fileid]), 1)
            oldhit = -1
            oldupdate = -1
        else:
            oldhit = ssd.hit
            oldupdate = ssd.update
    else:
        if order < 0 and fileIdx == 0:
            line = lines[-1]
        else:
            line = lines[fileIdx]
        line = line.strip().split(',')
        timeBase = int(line[0])
        if fileIdx > 0:
            timeStart = timeBase
        else:
            timeStart = timeBase + order * time
        timeEnd = timeStart + time
    print("time", timeBase / danwei, timeStart / danwei, timeEnd / danwei)
    for line in lines[fileIdx:]:
        count += 1
        line = line.strip().split(',')
        timestamp = int(line[0])
        # print(timestamp, timestamp < timeStart, timestamp > timeEnd)
        if timestamp < timeStart:
            continue
        elif timestamp > timeEnd:
            break
        # first coming
        if not flag:
            lineStart = count
            flag = True
        block_id = int((float(line[4])) / block_size)
        block_end = int((float(line[4]) + float(line[5]) - 1) / block_size)
        # if count % 100000 == 0:
        #     print(count)
        if line[3] == 'Write':
            rw = 1
            writecount += 1
            writesize += block_end - block_id + 1
        elif line[3] == 'Read':
            rw = 0
            readcount += 1
            readsize += block_end - block_id + 1
        else:
            rw = 2
        if lba[2][0] > block_id:
            lba[2][0] = block_id
        if lba[2][1] < block_end:
            lba[2][1] = block_end
        if lba[rw][0] > block_id:
            lba[rw][0] = block_id
        if lba[rw][1] < block_end:
            lba[rw][1] = block_end
        for i in range(block_id, block_end + 1):
            # print('{0} {1} {2}'.format(rw,line[2],i),file=outfile)
            # print>>outfile, '{0} {1} {2}'.format(rw,line[2],i)
            totalDict[i] = True

            if rw == 0:
                readDict[i] = True
            elif rw == 1:
                writeDict[i] = True
            if pattern == "warm":
                nrreq += 1
                hit = ssd.is_hit(i)
                if line[3] == 'Write' and hit:
                    ssd.add_update()
                ssd.update_cache(i)
        if pattern == "warm" and oldhit < 0 and ssd.is_full():
            timeBase = timestamp
            timeStart = timeBase + order * time
            timeEnd = timeStart + time
            nrreq = 0
            ssd.oldhit = ssd.hit
            ssd.oldupdate = ssd.update
            readsize = 0
            writesize = 0
            flag = False
    # print("read write", readcount, writecount, readcount/writecount, readsize, writesize, readsize/writesize, sep=',')
    # print("ucln", len(totalDict), len(readDict), len(writeDict),
    # lba[2][1]-lba[2][0]+1, lba[0][1]-lba[0][0]+1, lba[1][1]-lba[1][0]+1, sep=',')
    lineStop = count
    print(fileid,
          pattern,
          order,
          time / danwei,
          readsize,
          writesize,
          round(1.0 * readsize / (readsize + writesize), 2),
          sep=',',
          end=',',
          file=logFile)
    infile.close()
    # outfile.close()
    if pattern != "warm":
        nrreq = 0
        assert len(totalDict) > 0
        ssd = PLRU(int(0.1 * len(totalDict)), 1)
        infile = open(filename, 'r')
        # outfile = open(outname, 'w')
        lines = infile.readlines()
        for line in lines[lineStart - 1:lineStop]:
            line = line.strip().split(',')
            timestamp = int(line[0])
            # if timestamp < timeStart:
            #     continue
            # elif timestamp > timeEnd:
            #     break
            block_id = int((float(line[4])) / block_size)
            block_end = int((float(line[4]) + float(line[5]) - 1) / block_size)
            if count % 100000 == 0:
                print(count)
            for req in range(block_id, block_end + 1):
                nrreq += 1
                hit = ssd.is_hit(req)
                if line[3] == 'Write' and hit:
                    ssd.add_update()
                ssd.update_cache(req)
        hit = ssd.hit
        update = ssd.update
    else:
        hit = ssd.hit - oldhit
        update = ssd.update - oldupdate

    print(fileid, hit, nrreq, 1.0 * hit / nrreq, update)
    print(nrreq,
          ssd.size,
          hit,
          1.0 * hit / nrreq,
          update,
          sep=',',
          file=logFile)
    logFile.flush()
    return (ssd, count)