看来原先的警告也只是因为feurio1.66还是没有合适COMBO的驱动而已,呵呵。
结果报告很长见下:
Informations from INQUIRY command:
Manufacturer: COMBO, Product: IDE4816CO, Version: 0B29
Synchronous data transfer: Not supported
Explanation:
The INQUIRY command will give fundamental information on a device.
First it determines the names of the manufacturer and the product and the product version number (in most cases the version of the
firmware).
It also determines some infomation on the abilities of the device; the most interesting being whether the device
supports"synchronous data transfer". This transfer mode allows a faster transfer of the data through the SCSI-bus. This is also
necessary when using "slow" CD-Roms, because the bus will be burdened less. Reading device capabilities: OK
Maximum speed: 7042 kByte / second (39.9 times)
Cache size: 2048 kByte
Read CD-RW: Yes
Read Bar code: No
Read UPC code: Yes
Read ISRC code: Yes
Return C2 error pointers: Yes
Read R-W subcodes: No
R-W subcode de-interleaved: No
Read CD-DA: Yes
Read CD-DA correctly: Yes Explanation:
All "modern" CD-Roms support a additional command, which can be used by the computer, to determine the capabilities of the CD-Rom.
The device supports the command. Feurio! has decoded the most interesting details and output them.
It should be pointed out that these are statements by the manufacturer! If a CD-Rom reports that it supports some functions, this
doesn't mean that these functions are implemented correctly. Maximum speed:
This is the maximum speed, with which the CD-Rom can read audio data.
(This has nothing to do with the transfer rate on the SCSI- or IDE-bus.) Cache size:
The size of the cache memory of the device.
(Feurio! determines the real cache size that can be used by audio data later; in fact there are devices that cannot cache audio
data!) Read CD-RW:
Here it tells you whether your device can read rewritable media. Read Bar-code:
Reports whether your device can read the bar-code which is printed on most CDs/CDRs. Read UPC-code:
Report whether the device can read the UPC-code (Universal Product Code) of the CD. Read ISRC-code:
Reports whether the device can read the ISRC-code (International Standard Recording Code) of the tracks. Return C2 error pointers:
A CD has several methods for error detection and correction.
In general, a CD-Rom corrects errors automatically (if possible).
There is also a mode, in which the CD-Rom returns, if (and where) there were correctable errors. So it is possible for example
to determine, how "good" a CD still is. Unfortunately this mode works only with data CDs! Read R-W-subcodes:
Besides the normal audio data, on an audio CD there is some additional data in so-called "Subchannels" on the CD. The
individual channels are named with letters.
The P- and Q-channels contain e.g. the time-code and the index data.
The channels R and W are still not normed, they can be used e.g. for writing the artist and the title of the track to the CD.
This parameter reports, if your device can read the R- and W-channels. R-W-subcode de-interleaved:
Reports, if the device can read the R-W-channels just in raw format ("No") or in a processed format ("Yes").
Read CD-DA:
"Yes" -> The device claims that it can read audio data. Read CD-DA correctly:
"Yes" -> The device claims that it can read audio data correctly (i.e. without jitter errors).
下面继续:
++++++++++++++++++++++++++++++++++++++++++
++ Read test
++++++++++++++++++++++++++++++++++++++++++
Feurio! will now read the test range repeatedly und compare the data with the data read previously. In this way it can be
determined if your device can read identical data each time.
First the data will be read without jitter correction. If there are errors, the test will be repeated with jitter correction.
The output will contain:
Offset: Many devices can't position the head correctly when reading audio data (audio data doesn't contain sector marks).
Therefore, for each repeated read attempt, the data will be shifted by some offset. Here this offset (in samples) will be stated
relative to the reference data.
Error: States the number of the noncorresponding samples (i.e. the samples not identical to the reference data). ++ Reading without jitter correction ++
Reading reference data -> Transfer rate: 3780 kByte/second (21.4 times)
Reading again #1 -> OK. offset: 0 samples, error: 0 samples (0%) Transfer rate: 3778 kByte/second (21.4 times)
Reading again #2 -> OK. offset: 0 samples, error: 0 samples (0%) Transfer rate: 3778 kByte/second (21.4 times)
Reading again #3 -> OK. offset: 0 samples, error: 0 samples (0%) Transfer rate: 3778 kByte/second (21.4 times)
Reading again #4 -> OK. offset: 0 samples, error: 0 samples (0%) Transfer rate: 3778 kByte/second (21.4 times)
Reading again #5 -> OK. offset: 0 samples, error: 0 samples (0%) Transfer rate: 3778 kByte/second (21.4 times)
Reading again #6 -> OK. offset: 0 samples, error: 0 samples (0%) Transfer rate: 3778 kByte/second (21.4 times)
Reading again #7 -> OK. offset: 0 samples, error: 0 samples (0%) Transfer rate: 3778 kByte/second (21.4 times)
Reading again #8 -> OK. offset: 0 samples, error: 0 samples (0%) Transfer rate: 3778 kByte/second (21.4 times)
Reading again #9 -> OK. offset: 0 samples, error: 0 samples (0%) Transfer rate: 3778 kByte/second (21.4 times)
Reading again #10 -> OK. offset: 0 samples, error: 0 samples (0%) Transfer rate: 3778 kByte/second (21.4 times) Result:
========
Operations carried out: 10
The data could be read without offset, i.e. the device always was able to position the head correctly and to read identical data.
还有:
++++++++++++++++++++++++++++++++++++++++++
++ Jitter test
++++++++++++++++++++++++++++++++++++++++++
Feurio! will now "provoke" jitter errors by pausing the read operations from time to time. (As you can read in the online help
under "Jitter", jitter errors will only appear if the computer can't receive the data fast enough.)
Result:
-------- Read operations carried out: 3025
Jitter alerts: 0 (0%)
Jitter errors: 0, average offset: 0 samples, maximum offset: 0
Not reported jitter errors: 0
Not identical data during 0 read operations (0%) Diagnosis:
Congratulations!
Your device reads the data perfecly and without jitter errors 我简直心花怒放了~~~~~
太开心了~
感觉太完美了~
++++++++++++++++++++++++++++++++++++++++++
++ Random access read operations
++++++++++++++++++++++++++++++++++++++++++
Feurio! will now read sectors from the test region at random and compare them with the reference data. So Feurio! can determine
how precisely your device positions the reading head. 18180: OK 2508: OK 6776: OK 12714: OK 21426: OK 6179: OK 10387: OK 367: OK 6067: OK 19469: OK 20442: OK
20965: OK 22115: OK 20536: OK 5947: OK 1376: OK 3924: OK 685: OK 19300: OK 6456: OK 18192: OK 19645: OK
20103: OK 3946: OK 15856: OK 21248: OK 5466: OK 1933: OK 19724: OK 3129: OK 7571: OK 6935: OK 18084: OK
12334: OK 10354: OK 7393: OK 13759: OK 6806: OK 10607: OK 14344: OK 16657: OK 22436: OK 20053: OK 3254: OK
13602: OK 6291: OK 17279: OK 5185: OK 8669: OK 2226: OK 19491: OK 14481: OK 7798: OK 16723: OK 5196: OK
16040: OK 10816: OK 4639: OK 1820: OK 6589: OK 9214: OK 4556: OK 10289: OK 8633: OK 616: OK 401: OK
2103: OK 13206: OK 20593: OK 17960: OK 17567: OK 7445: OK 22: OK 6677: OK 10879: OK 10175: OK 1913: OK
8503: OK 5321: OK 2526: OK 6159: OK 4525: OK 7648: OK 1773: OK 3398: OK 2507: OK 5241: OK 11101: OK
11884: OK 18573: OK 9135: OK 7017: OK 18380: OK 15131: OK 7737: OK 2668: OK 1866: OK 18285: OK 1231: OK
11586: OK 1809: OK 2449: OK 14251: OK 6141: OK 5722: OK 7739: OK 1165: OK 793: OK 17840: OK 8524: OK
3346: OK 5793: OK 8562: OK 2518: OK 3349: OK 1235: OK 14680: OK 15950: OK 9878: OK 5921: OK 7738: OK
4995: OK 5547: OK 3850: OK 13134: OK 8527: OK 9364: OK 6233: OK 5504: OK 8092: OK 1395: OK 17564: OK
20710: OK 9832: OK 7244: OK 9159: OK 16804: OK 21036: OK 20473: OK 538: OK 9278: OK 3209: OK 21361: OK
20209: OK 13: OK 18452: OK 19290: OK 10026: OK 15300: OK 15108: OK 9868: OK 1740: OK 8563: OK 7081: OK
792: OK 454: OK 21659: OK 10495: OK 7065: OK 12582: OK 12899: OK 2868: OK 17562: OK 139: OK 14650: OK
6870: OK 8056: OK 6157: OK 5054: OK 6432: OK 3466: OK 7483: OK 19164: OK 343: OK 8766: OK 11061: OK
2921: OK 16544: OK 1461: OK 22332: OK 4609: OK 8212: OK 11186: OK 21590: OK 13279: OK 5398: OK 3439: OK
15895: OK 22012: OK 5140: OK 16337: OK 14284: OK 5770: OK 109: OK 2572: OK 3065: OK 1923: OK 8595: OK
4938: OK 2102: OK 6814: OK 14736: OK 6328: OK 20533: OK 3731: OK 9117: OK 4098: OK 2007: OK 11662: OK
19185: OK 3280: OK 10688: OK 11465: OK 20903: OK 10640: OK 7416: OK 9541: OK 10499: OK 15175: OK 4531: OK
7657: OK 9974: OK 450: OK 21123: OK 7919: OK 240: OK 20498: OK 13773: OK 7850: OK 8198: OK 1351: OK
17274: OK 6013: OK 9764: OK 14732: OK 2846: OK 5864: OK 6596: OK 3955: OK 9534: OK 15828: OK 4832: OK
7650: OK 10189: OK 098: OK 8212: OK 18351: OK 2584: OK 6510: OK 3096: OK 3752: OK 5764: OK 1562: OK
860: OK 1526: OK 13236: OK 1016: OK 6612: OK 7747: OK 6431: OK 17911: OK 279: OK 15977: OK 7632: OK
4275: OK 21891: OK 9373: OK 16720: OK 14518: OK 4019: OK 9868: OK 10194: OK 18131: OK 10116: OK 6596: OK
1517: OK 8901: OK 10020: OK 2502: OK 10528: OK 2083: OK 9883: OK 1291: OK 2672: OK 5526: OK 5743: OK
9461: OK 6645: OK 8814: OK 19795: OK 20343: OK 21574: OK 10514: OK 12847: OK 11463: OK 13794: OK 16343: OK
16982: OK 4451: OK 9074: OK 15380: OK 13267: OK 98: OK 6139: OK 20307: OK 3350: OK 19933: OK 5431: OK
15353: OK 5886: OK 1741: OK 5030: OK 15658: OK 13623: OK 263: OK 20321: OK 9703: OK 6342: OK 4981: OK
1824: OK 9129: OK 226: OK 742: OK 6844: OK 3859: OK 9782: OK 20922: OK 10151: OK 739: OK 4980: OK
9190: OK 17579: OK 9545: OK 4572: OK 895: OK 2641: OK 12827: OK 11021: OK 773: OK 8851: OK 10136: OK
13355: OK 8973: OK 9860: OK 123: OK 18674: OK 14452: OK 4974: OK 15843: OK 8266: OK 6512: OK 21035: OK
5089: OK 17963: OK 11017: OK 9016: OK 9073: OK 21139: OK 2761: OK 21080: OK 4925: OK 21238: OK 17551: OK
7589: OK 3230: OK 245: OK 20954: OK 22188: OK 7668: OK 5394: OK 7748: OK 7913: OK 4648: OK 3747: OK
13645: OK 5040: OK 19792: OK 9845: OK 9610: OK 2031: OK 22435: OK 17762: OK 9214: OK 5456: OK 19422: OK
13014: OK 8055: OK 6355: OK 1254: OK 2559: OK 4524: OK 8539: OK 20142: OK 19: OK 22326: OK 2439: OK
7771: OK 9143: OK 12940: OK 10756: OK 5542: OK 2813: OK 8403: OK 7969: OK 21890: OK 8845: OK 2517: OK
20580: OK 3119: OK 7639: OK 5570: OK 7051: OK 10607: OK 9719: OK 13173: OK 7974: OK 18631: OK 2235: OK
2825: OK 10723: OK 22344: OK 17009: OK 13147: OK 3145: OK 14174: OK 9588: OK 1041: OK 8393: OK 6856: OK
20953: OK 10267: OK 7361: OK 6185: OK 12261: OK 1881: OK 13300: OK 16062: OK 12305: OK 1950: OK 1591: OK
14370: OK 7297: OK 15283: OK 8044: OK 9663: OK 2721: OK 9311: OK 388: OK 2917: OK 5409: OK 13510: OK
6625: OK 12719: OK 1602: OK 2591: OK 19962: OK 10980: OK 353: OK 18074: OK 10067: OK 22060: OK 1620: OK
6321: OK 12988: OK 22453: OK 7171: OK 4831: OK 2728: OK 22308: OK 15193: OK 16943: OK 8705: OK 14719: OK
21082: OK 7478: OK 8713: OK 12874: OK 8375: OK 1859: OK 9060: OK 6176: OK 8672: OK 22454: OK 12165: OK
3989: OK 778: OK 8895: OK 7831: OK 778: OK 9857: OK 10136: OK 3197: OK 14545: OK 10319: OK 5894: OK
17643: OK 19361: OK 19150: OK 18635: OK 9254: OK Result:
--------
Operations carried out: 500, time needed: 32.847 seconds
Average time per operation (=seek time): 65 ms
Not matching sectors: 0 (0%)
Correct sectors without offset: 500 (100%)
Correct sectors with offset: 0 (0%) Diagnosis:
---------
Congratulations!
Your device can read audio data perfectly; at each read attempt, identical data was read and the head was positioned exactly.
还有呢~太长了~
+++ Reading with index markers +++ Feurio will now try to read the index markers with the data.
Index information:
Position: 00:00:00 -> track: 1, index: 1 Please check the index information!
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补充说明,我用的测试CD是EAC用来矫正检测OFFSET的标准CD-DA。
+++++++++++++++++++++++++
++ Cache test
+++++++++++++++++++++++++
Feurio! will now try to determine the size of the cache memory usable for audio data and the max. transfer rate.
To do so, Feurio! will read a certain number of sectors repeatedly and measure the transfer rate. First 1 sector will be read repeatedly, then 2 sectors, and so on.
Normally the transfer rate will increase, because the more sectors are read, the fewer *** operations will be needed. Number of sectors: 1 (=2 kByte) -> 0.114 MBytes / second
Number of sectors: 2 (=4 kByte) -> 0.230 MBytes / second
Number of sectors: 3 (=7 kByte) -> 0.343 MBytes / second
Number of sectors: 4 (=9 kByte) -> 0.455 MBytes / second
Number of sectors: 5 (=11 kByte) -> 0.562 MBytes / second
Number of sectors: 6 (=14 kByte) -> 0.693 MBytes / second
Number of sectors: 7 (=16 kByte) -> 0.809 MBytes / second
Number of sectors: 8 (=18 kByte) -> 0.908 MBytes / second
Number of sectors: 9 (=21 kByte) -> 1.035 MBytes / second
Number of sectors: 10 (=23 kByte) -> 0.866 MBytes / second
Number of sectors: 15 (=35 kByte) -> 1.250 MBytes / second
Number of sectors: 22 (=51 kByte) -> 1.472 MBytes / second
Number of sectors: 15 (=35 kByte) -> 1.256 MBytes / second
Number of sectors: 16 (=37 kByte) -> 1.390 MBytes / second
Number of sectors: 17 (=39 kByte) -> 1.467 MBytes / second
Number of sectors: 18 (=42 kByte) -> 1.528 MBytes / second
Number of sectors: 19 (=44 kByte) -> 1.587 MBytes / second
Number of sectors: 20 (=47 kByte) -> 1.390 MBytes / second
Number of sectors: 21 (=49 kByte) -> 1.454 MBytes / second
Number of sectors: 31 (=72 kByte) -> 1.774 MBytes / second
Number of sectors: 46 (=108 kByte) -> 2.284 MBytes / second
Number of sectors: 69 (=162 kByte) -> 2.360 MBytes / second
Number of sectors: 103 (=242 kByte) -> 2.568 MBytes / second
Number of sectors: 154 (=362 kByte) -> 2.850 MBytes / second
Number of sectors: 231 (=543 kByte) -> 2.983 MBytes / second
Number of sectors: 346 (=813 kByte) -> 3.081 MBytes / second
Number of sectors: 519 (=1220 kByte) -> 3.154 MBytes / second
Number of sectors: 778 (=1829 kByte) -> 3.212 MBytes / second
Number of sectors: 1167 (=2744 kByte) -> 3.294 MBytes / second
Number of sectors: 1750 (=4116 kByte) -> 3.321 MBytes / second
Number of sectors: 2625 (=6174 kByte) -> 3.338 MBytes / second
Number of sectors: 3937 (=9259 kByte) -> 3.380 MBytes / second
Number of sectors: 5905 (=13888 kByte) -> 3.424 MBytes / second
Number of sectors: 8857 (=20831 kByte) -> 3.382 MBytes / second
Number of sectors: 13285 (=31246 kByte) -> 3.486 MBytes / second
Number of sectors: 19927 (=46868 kByte) -> 3.564 MBytes / second -------------------------------
Result:
Maximum transfer rate: 3564 kBytes/Second
Cache size for audio data: 0 kByte
It seems that your device isn't able to cache audio data! 不能缓存audio data,就是要这样才能保证audio data的正确啊(当然支持audio data的话,在EAC里也能给你关了,不必担心)
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