Sound Blaster X-Fi is a lineup of sound cards in Creative Technology 's Sound Blaster series.
39-426: X-Fi may refer to: X-Fi (audio chip) , an audio processor by Creative Labs Sound Blaster X-Fi a line of PC sound cards by Creative Labs utilizing the audio chip of the same name Topics referred to by the same term [REDACTED] This disambiguation page lists articles associated with the title X-Fi . If an internal link led you here, you may wish to change
78-419: A closed source unsupported beta driver providing Linux 64-bit OS support for the following Sound Blaster X-Fi series sound cards: An open-source driver is available with OSS v4 build 1013 and above. Datasheets were provided by Creative to enable ALSA driver development. On November 6, 2008 Creative finally released their driver under a GPL license. It supports x86 as well as x86-64 architectures and
117-605: A 100% value causes a 16 dB amplification. As with many of Creative's previous sound cards, the X-Fi supports SoundFonts . Additionally, the Audio Creation Mode of the card allows the use of EAX in MIDI playback via the use of controllers. This setting controls the DD sound encoder. This setting is the same as Dolby Digital Bitstream Out, only with DTS sound instead. Although Creative
156-422: A 24 frame/sec movie to 60 field/sec television, for example, alternate movie frames are shown 2 and 3 times, respectively . For 50 Hz systems such as PAL each frame is shown twice. Since 50 is not exactly 2×24, the movie will run 50/48 = 4% faster, and the audio pitch will be 4% higher, an effect known as PAL speed-up . This is often accepted for simplicity, but more complex methods are possible that preserve
195-408: A factor so that the maximum volume is reached again. After this, the music as a whole is louder than it was before, but the maximum volume points (mostly transients ) are not as pronounced as they were before. Since this whole process is done before the final Audio CD is recorded, its effect is equally present in uncompressed audio files created from such a CD, in lossless compressed audio made from
234-586: A front-panel drive-bay control unit and remote control, while the base model was supplied without any such accessories. All but the top model claimed 109 dB signal-to-noise ratio , while the Elite Pro model uses a higher-end DAC , with 116 dB claimed. The bottom two models feature 2 MB onboard X-RAM, while the top models offer 64 MB of X-RAM, designed for use in games to store sound samples for improved gaming performance. Launch reviews did not support Creative's claims of higher performance, however, with even
273-627: A lineup of PCI sound cards, which served as the introduction for their X-Fi audio processing chip , with models ranging from XtremeMusic (lower end), to Platinum , Fatal1ty FPS , and Elite Pro (top of the range). The top-end Elite Pro model was aimed at musicians, bundled with the X-Fi external I/O box (offering phono with preamp inputs for turntables, high-impedance input for guitars, 1 ⁄ 4 inch mic input, headphone output, line-in, and full size MIDI I/O, as well as optical and RCA Coaxial digital inputs and outputs), and remote control. The Platinum and Fatal1ty FPS models both offer
312-480: A major thorn in Creative's side. Most digital audio is sampled at 44.1 kHz, a standard no doubt related to CD-DA , while sound cards were often designed to process audio at 48 kHz. So, the 44.1 kHz audio must be resampled to 48 kHz (Creative's previous cards' DSPs operated at 48 kHz) for the audio DSP to be able to process and affect it. A poor resampling implementation introduces artifacts into
351-512: A slow pre-computation (such as the Remez algorithm ) can be used to obtain an optimal (per application requirements) filter design. Method 2 will work in more general cases, e.g. where the ratio of sample rates is not rational, or two real-time streams must be accommodated, or the sample rates are time-varying. See decimation and upsampling for further information on sample-rate conversion filter design/implementation. The slow-scan TV signals from
390-560: A technology that claims to improve the clarity of digital music through digital analysis (supported by all X-Fi models, including the Xtreme Audio and X-Mod). The Sound Blaster X-Fi presents the following features, which are usually implemented with the aid of the X-Fi DSP or in software, in the Xtreme Audio model. Since its release X-Fi has caused several unsolved problems with sound glitches on various motherboards. Creative Labs states that
429-474: Is a DSP feature that provides audio enhancement. It requires Creative proprietary drivers and is not supported under Linux OS. Depending on the equipment used, CMSS-3D has 3 variants: Enabling this setting will apply special filtering algorithms in order to improve localization for sound sources located very close to the listener. Enabling this setting will apply special filtering algorithms in order to improve localization for sound sources located above or below
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#1732883692795468-541: Is available in different versions e.g. X-Fi MB, X-Fi MB2, X-Fi MB3 and X-Fi MB5. The current version available on select laptops and desktops is X-Fi MB5. A non-OEM version of X-Fi MB3 was sold by Creative Labs but is no longer on the market. X-Fi MB3 provided an effective software version of a full X-Fi card and was also provided with a version of Alchemy that works with non-Creative sound cards to restore legacy EAX effects. Sample rate conversion Sample-rate conversion , sampling-frequency conversion or resampling
507-497: Is commonly bundled with motherboards and computer systems, and is comparable to an X-Fi XtremeAudio. Bundled with some Asus and ASRock motherboards, the X-Fi MB is sold as X-Fi Supreme FX and is actually a standard Analog Devices integrated HD audio codec paired with X-Fi MB. The X-Fi features are implemented entirely in the software. Other hardware vendors sell the X-Fi MB solution simply as Sound Blaster X-Fi Integrated Sound. X-Fi MB
546-517: Is listed in the same category as the rest of the X-Fi lineup, but is only a stereo device, marketed to improve music playing from laptop computers, and with lower specifications than the internal offerings. Other external products that use X-Fi name include USB-based Sound Blaster X-Fi HD, Sound Blaster X-Fi Surround 5.1 Pro, and Sound Blaster X-Fi Go! Pro, Their internal hardware components are different for various usages and needs for gaming, surround, or audiophile standards. The audio processor on X-Fi
585-503: Is listed in their support area. On May 15, 2009 after some communications with Creative, SUSE developer Takashi Iwai finally got a mergeable version of their X-Fi driver. On August 31, 2009 the driver (snd-ctxfi) was included in release of ALSA 1.0.21. Support for Creative Sound Blaster X-Fi Titanium HD was added on January 25, 2012 in ALSA v1.0.25 release. This driver does not support I/O Front panel and its IR, because that documentation part
624-519: Is sometimes used to refer to systems that incorporate sample-rate conversion. Conceptual approaches to sample-rate conversion include: converting to an analog continuous signal, then re-sampling at the new rate, or calculating the values of the new samples directly from the old samples. The latter approach is more satisfactory since it introduces less noise and distortion. Two possible implementation methods are as follows: The two methods are mathematically identical: picking an interpolation function in
663-872: Is the process of changing the sampling rate or sampling frequency of a discrete signal to obtain a new discrete representation of the underlying continuous signal . Application areas include image scaling and audio/visual systems, where different sampling rates may be used for engineering, economic, or historical reasons. For example, Compact Disc Digital Audio and Digital Audio Tape systems use different sampling rates, and American television, European television, and movies all use different frame rates . Sample-rate conversion prevents changes in speed and pitch that would otherwise occur when transferring recorded material between such systems. More specific types of resampling include: upsampling or upscaling ; downsampling , downscaling , or decimation ; and interpolation . The term multi-rate digital signal processing
702-512: Is to detect transients and to increase their relative volume level. As a consequence of enabling the Crystalizer, the signal is altered, and whether the result improves upon the input audio is purely a matter of perception and can depend on the type of audio being played. "CMSS-3D recreates realistic surround sound from any audio source and puts you right in the center of the action, whether you are using multichannel speakers or headphones." CMSS-3D
741-508: The Apollo Moon missions were converted to the conventional TV rates for the viewers at home. Digital interpolation schemes were not practical at that time, so analog conversion was used. This was based on a TV rate camera viewing a monitor displaying the Apollo slow-scan images. Movies (shot at 24 frames per second) are converted to television (roughly 50 or 60 fields per second). To convert
780-815: The Audigy SE and SB Live! cards ( CA0106-WBTLF ) and thus lacking the hardware acceleration of 3D sound and EAX sound effects, gaming and content creation features and the I/O extensibility of all the other X-Fi models. The other new product introduced was the X-Fi 'XtremeGamer Fatal1ty Pro', identical in function to the Fatal1ty FPS, but made more affordable by the unbundling of the I/O panel and remote control. In 2007 Creative Technology unveiled PCI Express x1 and ExpressCard /34 versions of Sound Blaster X-Fi Xtreme Audio during Consumer Electronics Show . Creative did not yet release PCIe versions of their EMU-based X-Fi cards as adapting
819-546: The CA20K1 chip for PCIe proved to be troublesome, with the company itself reporting design difficulties, latency problems and delays. In 2008 the X-Fi Titanium series was announced, using the revised CA20K2 chip, which featured an integrated RISC processor for safeguarding against PCIe-induced latencies, a DDR SDRAM interface in place of SDRAM, and an integrated High Definition audio architecture (UAA) component. Products included
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#1732883692795858-542: The CD, as well as in lossy compressed audio from that same CD. Transients are typically found in percussive sounds, in plosive consonants of voice recordings, and during the first few milliseconds (the so-called attack phase) of non-percussive instrument sounds. All these tend to be somewhat muffled by dynamic range compression. To undo this effect, the Crystalizer uses a multiband compander (compressor/expander) with dynamically adjusted compression/expansion. Its main function
897-740: The Fatal1ty cards with 64 MB X-RAM and an optional I/O drive bay, and the regular Titanium with 16 MB X-RAM, but the same 109 dB SNR spec as the former. Unlike the PCI cards, these cards use software-based Dolby Digital Live 5.1 encoding. In 2010 the Titanium HD was added to the lineup, featuring a new DAC with 122 dB SNR and RCA audio outputs, but dropping support for Windows XP. In addition to PCI and PCIe internal sound cards, Creative also released an external USB-based solution (named X-Mod) in November 2006. X-Mod
936-657: The Sound Blaster X-Fi Xtreme Audio, does not actually have the EMU20K1 chip but is a re-branded Audigy SE , using the same family of chips (CA0106-WBTLF), and even the same drivers. Thus, not only is all of the X-Fi–;related processing performed in software, but it also lacks basic hardware acceleration just like the SB Live! 24-bit, the Audigy SE and other budget Soundblaster models. The X-Fi Xtreme Audio does not use
975-415: The audio which can be heard, and measured as higher intermodulation distortion , within higher frequencies (generally 16 kHz and up). X-Fi's resampling engine produces a near-lossless-quality result, far exceeding any known audio card DSP available at the time of release. This functionality is used not only for simple audio playback, but for several other features of the card such as the "Crystalizer",
1014-462: The connector for users wishing to purchase a separate X-Fi I/O box. Functionality is otherwise the same. The market segment occupied by the XtremeMusic was moved downwards, with the introduction of the (cheaper) 'Xtreme Audio' and 'Xtreme Audio Notebook' products, which, despite the "X-Fi" label, are the only products in the X-Fi line not using the EMU20K1 chip ( CA20K1 ) but an older chip similar to
1053-413: The exception of some classical music recordings) to make them sound louder at the same volume level setting, as it was found that subjectively louder CDs get more airplay and sell better. To achieve this loudness without introducing strong distortion , points in the signal where the volume reaches a maximum are compressed (which means in this case: reduced in volume), then the whole signal is multiplied by
1092-434: The impact of loud parts in movies, and also making music sound less lively. This function divides music into ten frequency bands, which can be adjusted using the sliders. There are multiple volume adjustments for different inputs and outputs on the system. The master volume affects all of these settings. The default and recommended value is 50% for all sources, which actually equates to a 0 dB amplification (none), while
1131-454: The link to point directly to the intended article. Retrieved from " https://en.wikipedia.org/w/index.php?title=X-Fi&oldid=933256072 " Category : Disambiguation pages Hidden categories: Short description is different from Wikidata All article disambiguation pages All disambiguation pages Sound Blaster X-Fi The series was launched in August 2005 as
1170-455: The listener. Environmental Audio Extensions is designed to be enabled by game developers within a game to enhance the "simulated-reality" the user is experiencing; for example, the ringing of game-world swords will sound differently depending on whether the protagonist is currently in a game-world temple vault or in a game-world open field. There are also 8 built-in EAX effects which can be enabled by
1209-453: The primary function of the Crystalizer is to "restore portions of the sound which were lost during compression". The "compression" that is meant here is not the digital file-size reduction achieved by digital audio data compression technologies like for example mp3 . Rather, the idea is to reverse the effects of dynamic range compression , an analog technique that was and is used during the production of most 1990s and newer Audio CDs (with
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1248-399: The running time and pitch. Every twelfth frame can be repeated 3 times rather than twice, or digital interpolation (see above) can be used in a video scaler . Audio on Compact Disc has a sampling rate of 44.1 kHz; to transfer it to a digital medium that uses 48 kHz, method 1 above can be used with L = 160, M = 147 (since 48000/44100 = 160/147). For the reverse conversion,
1287-422: The same drivers as the rest of the X-Fi family (and lacks ASIO), some games do not recognize it as being "X-Fi capable hardware", and the device's hardware profile resembles that of older Live! and Audigy cards. X-Fi MB is a software solution that enables basic X-Fi features on computers with integrated audio into an X-Fi device. It requires some degree of driver support from the audio hardware manufacturer. X-Fi MB
1326-448: The second scheme is equivalent to picking the impulse response of the filter in the first scheme. Linear interpolation is equivalent to a triangular impulse response; windowed sinc approximates a brick-wall filter (it approaches the desirable brick-wall filter as the number of points increases). The length of the impulse response of the filter in method 1 corresponds to the number of points used in interpolation in method 2. In method 1,
1365-550: The top-end 64 MB equipped model falling slightly behind the older Audigy cards. October 2006 saw a minor rebranding: the X-Fi XtremeMusic edition, which was in fact a highly capable gaming card, as it offers hardware decoding and EAX support, was replaced with the XtremeGamer model. The revised model featured half-width PCB, non-gold-plated connectors, optical out instead of the digital out and digital I/O module jack, and lacked
1404-405: The user. This is Smart Volume Management. It is a compressor that evens out the dynamic range of any given source so that quieter sounds are louder and loud sounds are quiet. It is best used in circumstances where noise disturbance might be an issue, late at night for instance. Otherwise it is generally preferable to have it disabled as it does render the sound less dynamic, for instance lessening
1443-403: Was missing. Xtreme Audio that has a different chipset stayed unsupported for longer time. It is currently supported by advanced Linux ALSA driver modules but might require installation of additional packages from alternative repositories. X-Fi MB as a pure software solution has Windows as a system requirement and thus does not provide Linux support. The entry-level model of the X-Fi series,
1482-404: Was slow to embrace 64-bit drivers for the X-Fi lineup, most x86-64 architecture based operating systems are now supported. Microsoft Windows 7 includes basic driver support for many of the X-Fi series cards. Many of the X-Fi features however require the software applications provided by Creative in order to utilize the full capabilities of the hardware. On September 24, 2007 Creative Labs released
1521-420: Was the most powerful at its time of release, offering an extremely robust sample rate conversion ( SRC ) engine in addition to enhanced internal sound channel routing options and greater 3D audio enhancement capabilities. A significant portion of the audio processing unit was devoted to this resampling engine. The SRC engine was far more capable than previous Creative sound card offerings, a limitation that had been
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