I recently "saved" Clevo 2850 laptop from my workplace (not used after 2007?), which have that soundchip integrated. It's original hdd (Win 98 installed) was extremely slow, bad condition. So I took other hdd (Win ME installed) from my Compaq Armada 7800 for testing this Clevo. Win ME suggest "yamaha ds1 native audio driver" at the startup, so I installed it. Sounds were working, but when I look Control panel, Sounds&Multimedia, Midi playback did not have DS-XG synth option, only MS GS synth, Yamaha opl3-synth, Yamaha MPU401. Then I tried instal this driver "WDM Driver Win 98SE/Me/2000 DirectX8 works with WDM driver (v. 5.12.01.2228)" from here , but after restart pc, I have no sound at all and speaker image in the downright corner disappeared. At some point "Windows found new device, PCI Multimedia Audio Device" I tried instal that, but it did not found on the Win ME cd. I uninstalled that "WDM..." driver and tried this older one "Win 95/98/Me
v. 4.07.1040 (DirectX7 Certified)" from the same page, it did not help. Any suggestion what to do?
Those page links not working? For example, I tried download this SONY YMF744B_512012229.exe Win98/2K WDM, which is a little bit newer than one I tried before. I assume that 2K drivers would work in Win ME. I also found this page -drivers.com/companies/1165.htm , but download links not working either.
Yamaha Xg Ymf744b-v Driver Download
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Please check the device name in the Device Manager.
> If is "YAMAHA Native DS1 WDM Driver", is the 3662 driver.
> I think that it is the standard of the drivers in a long Unlike XP installation of the CD.
>
> 3662 the case of the driver, I think that it did not recognize the other driver If you do not delete.
> Delete procedure,
"YAMAHA Legacy DS1 WDM Driver" from> device manager,
> "YAMAHA Native DS1 WDM Driver", delete the "Game port for Yamaha DS1"
> C: Delete the oem * .inf and oem * .PNF file from the \ WINDOWS \ inf
> (* Because the number changes in the order in which you want to install,
> Delete only those of YAMAHA check the contents open in Notepad)
> C: Delete the ds1wdm.sys from \ WINDOWS \ system32 \ drivers
> Then, to install the reference driver without rebooting.
> Disconnect the LAN cable or the like, and then restart it to state that it can not connect to the Internet.
> After logging on, the name of the "YAMAHA DS-XG PCI Audio CODEC (WDM)" in the task tray
> Search of the device is a success if Hajimare.
If the driver listed is not the right version or operating system, search our driver archive for the correct version. Enter Yamaha YMF744b into the search box above and then submit. In the results, choose the best match for your PC and operating system.
Once you have downloaded your new driver, you'll need to install it. In Windows, use a built-in utility called Device Manager, which allows you to see all of the devices recognized by your system, and the drivers associated with them.
From what I understand, as an AC-XG it offers XG wavetable synthesis (not sure if the patches are ROM embedded or software loaded) but unlike the DS-XG, no hardware based OLP3/FM? I think It does emulate FM synth and SB16 compatibility with drivers, and according to the above, they DO exist. The question is where? I've searched high and low and not found these pure DOS drivers anywhere. Someone out there must have them! Or at least someone here other than me has experience with the YMF-752 chipset and DOS.
At any rate, I'd really like to get to the bottom of this once and for all. Could it be the DOS software driver is just vaporware....cancelled after the YMF-752 was released? Or is it out there to download?
The reason I asked about DS-XG, I also have a Sony VAIO PCG-N505VX (PII, 1999 era mini laptop) which reports "Yamaha DS-XG PCI Audio CODEC (WDMI)" in the Win98 device manager. It plays MIDI files using XG synthesis, and also allowed me to install Yahama's DS-XGS pure DOS drivers. The XG synth sounds off/wonky, and DOS support only partially works (no digital audio present, plus occasional slow downs and/or crashing) . I just opened it up and found it actually has a NeoMagic 256AV chipset for video and sound. So much for thinking I had a laptop with a DS-XG. At least it has a hardware OPL3.
The reason I asked about DS-XG, I also have a Sony VAIO PCG-N505VX (PII, 2003 era mini laptop) which reports "Yamaha DS-XG PCI Audio CODEC (WDMI)" in the Win98 device manager. It plays MIDI files using XG synthesis, and also allowed me to install Yahama's DS-XGS pure DOS drivers. The XG synth sounds off/wonky, and DOS support only partially works (no digital audio present, plus occasional slow downs and/or crashing) . I just opened it up and found it actually has a NeoMagic 256AV chipset for video and sound. So much for thinking I had a laptop with a DS-XG. At least it has a hardware OPL3. That just leaves me to figuring out the AC-XGS in my NEC laptop....
Therefore, at most, I think Yamaha could have provided the basis for a DOS driver to motherboard manufacturers and OEMs, with licensed OPL3 and SoundBlaster emulation code in it. Those manufacturers would then have to integrate that code with their own driver to speak to their AC'97 digital controller in the southbridge.
In other words, if there is a DOS driver for sound on your system, it would have to be supplied by NEC, who decided to pair the Yamaha AC-XG codec with the (presumably Intel) southbridge. Unless they felt it was an important selling point to have pure DOS sound support when Windows 98 SE / Windows ME have competent SB16 emulation built in, they would not have spent the time and money to create and support a DOS driver.
All of these features are available using Yamaha's VxD driver under Windows 9x/Me. WDM drivers for these operating systems and later Windows 2000/XP may lack important mixer controls, like separate Line-Out and 3D Wide.[citation needed] Legacy mode is not supported under NT-based OSes.
BTW why is the DSDMA so hard to find and missing in most of driver packages? I had to google quite hard until I found some russian site with full driver package. Did someone investigated how this TSR is working? Could it be possible to modify it to work with SB cards?
As far as I could remember DSDMA is only present in the official YAMAHA DOS driver package, which probably has a higher version than most of the OEM provided driver files. The DSDMA TSR, on the other hand, is not well known and was hardly mentioned until recent developments that found out it could be used to make DOS audio working on post-ICH5 chipsets.
Still, Ardour seemed to only recognize the Nvidia driver that one when creating a new session. That is, Session Control > Audio Setup > Advanced > Input Device/Output device. gave me only the Nvidia option in each of the two fields, no matter what was selected in the System preferences, even if the Yamaha was also the card being edited in Alsamixer GUI. Perhaps for this reason, Ardour would give no audio when playing back recorded tracks (though the waveform seemed OK, and the indicators jumped around predictably).
This is the lightest and cheapest board variant. There is no a digitaloptical output though there is a place for it (an optical output can be found only on the AOpen Pro/Deluxe models). In fact, thisboard can be completed with a daughter board from AOpen with digital inputsthat connect to S/PDIF in. At least, my board properly worked with alldigital inputs, and there were no any blockages in drivers.Technical characteristicsAudio controllerYamaha YMF754 (DS-1E)Audio codecSigmaTel STAC9708Audio linear outputsfour (two per front, two per rear)Digital outputsnone for this model; one optical for AOpen Pro/Deluxe models)Digital inputstwo, one is intended for daughter interface boardDVD sound track reproductionsoft downmixing for 4 channels (e.g. in Power DVD, WinDVD)MIDI synthesizer676 XG instruments in 2 MB nonexpensible bank, hardware 64 voices polyphony, software 1 voice Sondius-XGMIDI effect-processorsoft, XG reverb, chorus, variationsSound processing in real time modequite noisy echo/reverberator for mic-inGame 3D interfacessupport via Sensaura: DirectSound3D, A3D 1.0, EAX 1.0
What's interesting inside the YMF754?The audio chip YMF754(named DS-1E) is a high efficient audio controller (in terms ofthe AC'97 standard) for the PCI bus. The chips consists of two separatefunctional blocks - PCI Audio and Legacy Audio (such scheme is typicalfor the whole 7X4 series): The PCI Audio block provides 64 voices polyphony for the hardware XG wavetable synthesizer (the bank is the same as in the whole 7x4 series, i.e. appr. 2 MB which can be easily unpacked up to 6 MB) and effects (reverb, chorus, variation) realized in drivers. The same block provides DirectSound acceleration. The Legacy Audio unit supports different additional functions. Such asa FM synthesizer, Sound Blaster Pro compatibility, support of the MIDIport (MPU401) and joystick. All these functions are supported in a "clearDOS", according to Yamaha, theoretically without a need in any drivers.The YMF754 is designed in a full accordance with the Intel AC'97 standard.That is, it connects with the AC'97 codecs through the AC-Link bus, andallows using different variants for board layout - both with one stereooutput and with two (onto the front and rear speakers).Do not ask us what chip is better at reproduction - the 754 or724/744, Vortex or EMU10K.None of these chips can not reproduce music, and influences the reproductionquality only indirectly (if only chip don't kill quality of sound initially in digits). The matter is that the last three years all new sound chips are separatedfrom the converters (ADC and DAC) with a digital bus AC-Link: So, the question on comparison of sound quality, say Live! vs. Vortex2,in general can be converted into the question: "What sounds better - SigmaTelor SigmaTel?" :) More competent investigation how different elements ofthe digital-analog chain influence the sound quality with precise quantitativemeasurements will be considered in my nearest articles.The 744 and 754 support either one stereo codec or two stereo codecs,or one 4-channel codec (like on this board). It means that 6-speaker boardon the 7X4 is impossible. By the way, the AC-link frequency due to theAC'97 standard is fixed at 48 KHz. So, all signals of different frequencies(22, 32, 44,1 KHz etc.) on the chips output are converted in a single 48KHz speed. This frequency was set by Intel when developing the specificationwith DVD orientation. All AC'97 codecs run at it. In theory, it doesn't make problems to convert 44.1 to 48 KHz without resampling (according to the experts, such mode is set in some relatively expensive receiver-transmitters). It's necessary to put a buffer on the receiving part and to transmit 44.1 with a higher speed, and then in the codec to "assemble" the signal. But they don't use this scheme in cheap sound cards. Once interpolated with good mathematics on modern DSP locating in audio-controllers, and adding pseudo-noise you can reach rather fair results which should not be audible even on average Hi-Fi acoustics. For seven most popular frequencies which are derivative from 44.1 and 48 such converting (SRC - sample rate converting) is earnestly recommended by the AC'97 to implement hardwarely, on the level of a pair audio controller/audio codec. Let's consider the construction of a modern codec and what it allowsconnecting inside and outside the computer: As you can see, all analog out/inputs come to the codec. It means thatit is the codec that first of all determines how the card sounds. As for digital outputs (both electrical RCA S/PDIF and optical Toslink), despite the shown Intel scheme, the drop cable usually goes from an audio controller, i.e. a sound chip. And in this case, the signal goes from the 77-th pin of theYMF754 to theplace for the connector. Unfortunately, the given board modification doesn'thave such. I tried to solder it myself(in fact there should be an opticaloutput), but the SBLive!4830 connected by such a strange way couldn't seethe signal. That's why it's more reliable to buy a board with a factorymounted digital output.Let's, however, come back to our YMF754. Where is it better than itspredecessor in terms of electricity? Like the 744, it supports the IEC958standard of the digital interface SPDIF. Unlike the YMF744B (DS-1S) chip,the 754 supports the direct record from the SPDIF In, and at the same timeit doesn't take SPDIF In resources when the Zoomed Video Port is operating.Besides, Yamaha states a considerable difference in power consumption.It turned out that the 754 consumes much less energy even at usual operations,not taking the Standby mode.The DS-1E supports PC/PCI and D-DMA protocols for DMA emulation in thestyle of the SB Pro on the PCI bus. Besides, it supports an old systemof interruptions that use the ISA bus and the Serialized IRQ protocol.It ensures support for all games in DOS and says that the chips was workedout 3-4 year ago when it was actual. But as for me, it wouldn't play underDOS; you'd better do it in Windows, in DOS-window, with a more pleasantlysounding of the integrated in the card XG MIDI-synthesizer (if you havea General MIDI option in the game).Installation and complete utilitiesEnough of theory until it is too boring.Since the card can never be called a Hi-End product, I got preparedto the fight with drivers, just for case. Surprisingly, none of the driver's partcaused a trouble. And after rebooting, when entering the Windows thereappeared the following screen: It means that you can immediately check the acoustics connection and card'sworking capacity. be457b7860
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