Asus CT-479 Pentium M Adapter im Test: Sockel doch mal um!

 A8/21
Thomas Hübner (+1)
126 Kommentare

Audio-/Videoencoding

Lame 3.96.1

  • Offizielle Website: lame.sourceforge.net

  • Download: Freenet.de

    • Kostenpunkt: Freeware

  • Was benchen wir?

    • Komprimieren einer Wave-Datei in MP3: "Iron Butterfly - In-A-Gadda-DA-Vida" CD Rip, 17,04 Minuten, 180,75MB.

    • Besondere Einstellungen: bitrate 192kbit / joint stereo, optimization; quality, VBR: 320kbit, Quality 0


Razorlame (Lame 3.96.1)
    • PM 7X0 (2,60 GHz, 90nm, FSB800)
      1:16
    • PM 770 (2,13 GHz, 90nm, FSB533)
      1:32
    • A64 FX-55 (2,6 GHz, 130 nm, HT1000)
      1:34
    • P4 EE 3,46 GHz (130 nm, FSB1066)
      1:36
    • P4 EE 3,40 GHz (130 nm, FSB800)
      1:37
    • P4 570J (3,8 GHz, 90 nm, FSB800)
      1:37
    • PM 760 (2,0 GHz, 90nm, FSB533)
      1:38
    • PM 755 (2,0 GHz, 90 nm, FSB400)
      1:38
    • P4 EE 3,73 GHz (90 nm, FSB1066)
      1:39
    • A64 3800+ (2,4 GHz, 130 nm, HT1000)
      1:42
    • A64 4000+ (2,4 GHz, 130 nm, HT1000)
      1:42
    • P4 560 (3,6 GHz, 90 nm, FSB800)
      1:43
    • P4 660 (3,6 GHz, 90 nm, FSB800)
      1:43
    • P4 3,06 GHz (130 nm, FSB533)
      1:48
    • P4 550 (3,4 GHz, 90 nm, FSB800)
      1:49
    • P4 650 (3,4 GHz, 90 nm, FSB800)
      1:50
    • A64 3500+ (2,2 GHz, 90 nm, HT1000)
      1:51
    • P4 540 (3,2 GHz, 90 nm, FSB800)
      1:56
    • P4 640 (3,2 GHz, 90 nm, FSB800)
      1:57
    • P4 2,8C GHz (130 nm, FSB800)
      1:58
    • P XE 840 (3,2 GHz, Dual-Core, 90 nm, FSB800)
      1:58
    • A64 3200+ (2,0 GHz, 90 nm, HT1000)
      2:02
    • P4 530 (3,0 GHz, 90 nm, FSB800)
      2:04
    • P4 2,6C GHz (130 nm, FSB800)
      2:08
    • P4 520 (2,8 GHz, 90 nm, FSB800)
      2:12
    • A64 3000+ (1,8 GHz, 90 nm, HT1000)
      2:16
    • P4 2,4C GHz (130 nm, FSB800)
      2:20
    • P4 2,00 GHz (130 nm, FSB400)
      2:50
Einheit: Minuten, Sekunden

Ogg Vorbis 1.1.0

  • Offizielle Website: Vorbis.com

  • Download: Rarewares.org (OggdropXPd 1.7.11 mit libVorbis v1.1.0)

    • Für AMD: Version P3/AMD
    • Für Intel: Version P4

    • Kostenpunkt: Freeware

  • Was benchen wir?

    • Komprimieren einer Wave-Datei in OGG-Vorbis mittels Ogg-Drop: "Iron Butterfly - In-A-Gadda-DA-Vida" CD Rip, 17,04 Minuten, 180,75 MB.

    • Besondere Einstellungen: nominal Bitrate 320 kbps (Quality 9)
OggdropXP (Ogg Vorbis 1.1.0)
    • PM 7X0 (2,60 GHz, 90nm, FSB800)
      0:47
    • P4 570J (3,8 GHz, 90 nm, FSB800)
      0:53
    • P4 EE 3,73 GHz (90 nm, FSB1066)
      0:53
    • P4 EE 3,46 GHz (130 nm, FSB1066)
      0:54
    • P4 EE 3,40 GHz (130 nm, FSB800)
      0:55
    • P4 560 (3,6 GHz, 90 nm, FSB800)
      0:56
    • P4 660 (3,6 GHz, 90 nm, FSB800)
      0:56
    • PM 770 (2,13 GHz, 90nm, FSB533)
      0:56
    • A64 FX-55 (2,6 GHz, 130 nm, HT1000)
      0:57
    • P4 550 (3,4 GHz, 90 nm, FSB800)
      0:59
    • P4 650 (3,4 GHz, 90 nm, FSB800)
      0:59
    • A64 4000+ (2,4 GHz, 130 nm, HT1000)
      1:01
    • P4 3,06 GHz (130 nm, FSB533)
      1:01
    • PM 760 (2,0 GHz, 90nm, FSB533)
      1:01
    • PM 755 (2,0 GHz, 90 nm, FSB400)
      1:01
    • A64 3800+ (2,4 GHz, 130 nm, HT1000)
      1:02
    • P4 540 (3,2 GHz, 90 nm, FSB800)
      1:03
    • P XE 840 (3,2 GHz, Dual-Core, 90 nm, FSB800)
      1:03
    • P4 640 (3,2 GHz, 90 nm, FSB800)
      1:04
    • A64 3500+ (2,2 GHz, 90 nm, HT1000)
      1:06
    • P4 530 (3,0 GHz, 90 nm, FSB800)
      1:07
    • P4 2,8C GHz (130 nm, FSB800)
      1:07
    • P4 520 (2,8 GHz, 90 nm, FSB800)
      1:11
    • A64 3200+ (2,0 GHz, 90 nm, HT1000)
      1:13
    • P4 2,6C GHz (130 nm, FSB800)
      1:14
    • P4 2,4C GHz (130 nm, FSB800)
      1:20
    • A64 3000+ (1,8 GHz, 90 nm, HT1000)
      1:21
    • P4 2,00 GHz (130 nm, FSB400)
      1:42
Einheit: Minuten, Sekunden