[17-Dec-17]
Add Mytek Manhattan
[08-Dec-17]
Add Armature Hectate board
[10-Oct-17]
Add Matrix Audio X-SPDIF 2
[07-Jul-17]
Update DSD patches MPD SRPM to MPD 0.19.21
[11-Jun-17]
Add Oppo UDP-205
[26-May-17]
Add W4S DAC-2v2SE
[10-May-17]
Add Oppo Sonica WiFi speaker
[24-Mar-17]
Add Furutech ADL Stratos
[12-Mar-17]
Add Denafrips Ares DAC
[24-Feb-17]
Remove old MPD 0.18 SRPM
Add MPD 0.19.19 source RPM with native DSD patch included
[18-Feb-17]
Add support for HDTA Serenade DSD
Add support for Mutec MC3+ USB
[23-Jan-17]
Fix Singxer F-1 converter board patch
[02-Dec-16]
Add support for Audiolab M-DAC+
[30-Nov-16]
Add seperate patch for Amanero Combo384 BE sample format support
Rename original Amanero patch
[22-Oct-16]
Add support for the CH Precision C1 DAC
Add support for the Singxer F-1 converter board
[30-Aug-16]
Add support for Bryston BDA3
[28-Aug-16]
Add support for the Engineered Electronics Stereo Playback Interface
[21-Aug-16]
Add support for Holo Springs Level 3 R2R DAC
[30-Jul-16]
Add support for MSB Technology
Add support for LH Labs VI DAC Inifinity
[12-Jun-16]
Support for WaveIO USB Audio 2.0 cards.
[05-Jun-16]
Experimental support for Soekris 'dac1101'.
[27-May-16]
Update/extend native DSD support for Playback Design
[16-May-16]
Add experimental support for:
- LH Labs Geek Pulse X Inifinity 2V0
- LH Labs Geek Out 1V5
- NuPrime IDA-8
- Eastern Electric MiniMax Tube DAC Supreme
Moved TEAC-501 patch to archive. Patch was close but not sufficient.
Investigation not complete due to lack of (access to) a TEAC-501.
[29-apr-16]
Add experimental support for TEAC UD-501 and support for the NuPrime Audio HD-AVP/AVA.
[11-apr-16]
Add support for Matrix Audio Quattro II
Experimental support for NuPrime Audio DAC-9
[30-mar-16]
Updated patch for Amanero Combo384. Requires at least firmware 1099rc2
[12-mar-16]
Add experimental suppor for the Unison Research Unico CD Due.
[04-mar-16]
Added experimental support for the Amanero Combo384. Firmware 1099rc1 is needed (see Amanero site). [Update: waiting for firmware update, rc1 does not work correctly]
[13-feb-16]
Added experimental support for:
Mytek Brooklyn DAC and NuPrime DAC-10H
[29-jan-16]
Support for PS Audio NuWave DAC confirmed to work. New patch for Oppo HA-2.
[19-jan-16]
Experimental support for Auralice Vega. This patch also fixes a type in the code for the W4S DAC-2.
New patch for the W4S DAC-2.
[17-jan-16]
Experimental support for the PS Audio NuWave DAC.
[16-jan-16]
Experimental support for Wyred 4 Sound DAC-2 DSD. Needs firmware update. Oppo HA-1 support will land in kernel 4.5.
[25-nov-15]
Experimental support for Oppo HA-1
[23-nov-15]
Hegel patch moved to archive. DSD support does not work.
[09-nov-15]
Add support for Aune X1S and experimental support for Hegel HD12 DSD
[21-aug-15]
Add support for Gustard DAC-X20U
[29-may-15]
Added support for JLsounds I2SoverUSB
[28-mar-15]
With kernel 3.19.1 and up all needed DSD support and native DSD device patches are included in the mainline kernel.
[21-feb-15]
Update to kernel 3.18.7 for Fedora 21. Support added for Denon DA300-USB (per kernel bugzilla #93261)
[31-jan-15]
SRPMs and patches for Fedora 21.
[28-nov-14]
Support for Denon/Marantz HiFi devices with USB DACs added.
Kernel updated and added kernel patches.
[24-nov-14]
DSD sampleformat for 32-bit samples changed to DSD_U32_BE.
ALSA, MPD and kernel packages and patches updated.
New kernel 3.17.4
[19-nov-14]
news: native DSD support now working for Marantz/Denon DACs.
Although not XMOS based, recent Denon en Marantz CD/SACD players and DACs also support native DSD playback using a 32-bit sample format. The following device will be supported shortly:
- Marantz SA-14S1
- Marantz HD-DAC1
Stay tuned.
XMOS based USB DACs and converters can support native DSD playback using a 32-bit sample format. DACs that support this feature expose it using a Alternate Setting on the USB interface.
On Windows systems this feature can be used with a ASIO 2.1/2.2 driver from the DAC manufacturer.
I have added a new DSD sample format to ALSA and the Linux kernel (DSD_U32_LE) to support it on Linux and added the needed quirks to support it for a few XMOS based USB DACs/boards.
Currently native DSD playback on Linux is supported for the following XMOS based DACs/USB converters:
- iFi Audio micro iDSD [max DSD512]
- iFi Audio nano iDSD [max DSD256, with latest 4.04 firmware]
- DIYINHK USB to I2S/DSD converter [max DSD128]
- ..more to follow
- New DSD sample format accepted, code resides in ALSA development git
- Will be generally available with the next ALSA release (1.0.29)
- Kernel 3.18rc1 contains the needed new sample format support
- Kernel 3.18rc1 supports the iFi Audio and DIYINKHK devices
- python scripts [python-dsd-tools] (https://github.com/lintweaker/python-dsd-tools)
- MPD support (0.18-dsd). See [mpd-dsd-018] (https://github.com/lintweaker/mpd-dsd-018)
Currently devices with USB ID 20b1:3008
and USB ID 20b1:2009
are supported. This are devices from iFi Audio/AMR and DIYINHK. If you think you have a (XMOS based) DAC device or converter that should support native DSD playback please contact me.
To check if your device is supported, or at least XMOS based(1), use the following command:
lsusb -d 20b1:
For the iFi Audio nano and micro iDSD it reports:
Bus 003 Device 004: ID 20b1:3008 XMOS Ltd
(please note: Bus and Device numbers may vary).
(1) Some manufacturers may use the XMOS chip with their own vendor id instead of XMOS.
There are three ways to get enable native DSD playback on your Linux system:
- Use pre-compiled binaries
- Build the RPMs yourself
- Patch and build from source
Pre-compiled binaries are provided for Fedora 20 x86_64. Before installing them, make sure your Fedora installation is fully up-to-date.
Prerequisites:
- rpmfusion repo added and enabled (rpmfusion-free should be sufficient)
Steps:
- clone this repo
- Install the RPMS from the RPMS directory
Start with the kernel:
sudo yum localinstall kernel-3.17.4-200.jk6.fc20.x86_64.rpm
If needed, also install the kernel-headers and kernel-devel packages.
Replace ALSA lib, the current ALSA lib needs to be overwritten due to the many dependencies.
sudo rpm -ivh alsa-lib-1.0.27.2-2.fc20.x86_64.rpm --force
If needed, install the alsa-devel package as well.
Install/update MPD:
sudo yum localinstall mpd-0.18.16-2.fc20.x86_64.rpm
With the rpmfusion repo enabled any missing library will be installed as dependency.
As a final installation step, reboot the machine.
After the reboot make sure you are running the new kernel:
uname -r
should report 3.17.4-200.jk1.fc20.x86_64
.
Now configure mpd (/etc/mpd.conf) to your liking and add the statements with "dsd_native" to the audio section, e.g.:
audio_output {
type "alsa"
name "iFi Audio micro iDSD"
device "hw:1,0"
# Enable native DSD playback
dsd_native "yes"
# Select 32-bit DSD_U32_BE output format
dsd_native_type "2"
}
Nb if you have DSD over PCM (DoP) enabled with "dsd_usb" "yes", disable it with "dsd_usb" "no".
To verify that native DSD playback actually works, play back a DSD file using either MPD or the playdsd.py script and check the 'hw_params' file of your ALSA audio device.
Example for a DSD64 file:
cat /proc/asound/Audio/pcm0p/sub0/hw_params
access: MMAP_INTERLEAVED
format: DSD_U32_BE
subformat: STD
channels: 2
rate: 88200 (88200/1)
period_size: 11025
buffer_size: 44100
Notice the DSD_U32_BE sample format and rate of 88200.
These instructions are tested on Fedora 20 x86_64.
General prerequisites:
- System prepared for rpm building, see [Fedora build a custom kernel] (https://fedoraproject.org/wiki/Building_a_custom_kernel)
Prerequisites for building MPD:
- rpmfusion repo added and enabled (rpmfusion-free should be sufficient)
Prepare:
- clone this repo
Build the kernel:
-
Download the required kernel source RPM from [koji] (http://koji.fedoraproject.org/koji/packageinfo?packageID=8)
-
Make sure the needed dependencies are installed:
sudo yum-builddep kernel-<version>.src.rpm
yum install pesign
-
Install it (as normal user).
rpm -ivh <kernel-source-rpm>
-
Copy the needed patches from this repo to the SOURCES directory
cp SRPMS/patches/* ~/rpmbuild/SOURCES
-
Replace the SPEC file (2):
cp SPECS/kernel.spec ~/rpmbuild/SPECS
(2) If you use another kernel then 3.17.4-200, its SPEC file needs to be adjusted to include the needed patches
-
Build the kernel, e.g.:
cd ~/rpmbuild/SPECS
rpmbuild -bb --without debug --without perf --without debuginfo --target=`uname -m` kernel.spec
Build ALSA lib:
-
Make sure the needed dependencies are installed:
sudo yum-builddep alsa-lib-1.0.27.2-2.fc20.src.rpm
-
Install it (as normal user):
sudo rpm -ivh alsa-lib-1.0.27.2-2.fc20.src.rpm
-
Build it (as normal user):
cd ~/rpmbuild/SPECS
rpmbuild -bb --target=`uname -m` alsa-lib.spec
Build MPD:
-
Make sure the needed dependencies are installed:
sudo yum-builddep mpd-0.18.16-2.fc20.src.rpm
-
Install it (as normal user):
sudo rpm -ivh mpd-0.18.16-2.fc20.src.rpm
-
Build it:
cd ~/rpmbuild/SPECS
rpmbuild -bb --target=`uname -m` mpd.spec
Install the created RPMs using HOWTO step 1 above.
General instructions for compiling everything yourself. The needed patches are in SRPMS/patches.
Download and prepare the kernel source for your distribution. Enter the kernel source directory.
Check if the patches apply cleanly:
patch -p1 < /path/to/SRPM/patches/kernel/alsa-add-dsd-u32-le-v5.patch --dry-run
patch -p1 < /path/to/SRPM/patches/kernel/0001-add-native-DSD-support-for-XMOS-based-DACs.patch --dry-run
patch -p1 < /path/to/SRPM/patches/kernel/alsa-usb-marantz-ctl-msg-quirk-v2.patch --dry-run
patch -p1 < /path/to/SRPM/patches/kernel/alsa-add-dsd-be-formats.patch --dry-run
patch -p1 < /path/to/SRPM/patches/kernel/alsa-usb-switch-xmos-dsd-quirk-to-be.patch --dry-run
patch -p1 < /path/to/SRPM/patches/kernel/alsa-usb-add-marantz-dsd-quirk.patch --dry-run
patch -p1 < /path/to/SRPM/patches/kernel/alsa-usb-marantz-select-mode-quirk-v5.patch --dry-run
If the patches apply cleanly, apply them.
patch -p1 < /path/to/SRPM/patches/kernel/alsa-add-dsd-u32-le-v5.patch
patch -p1 < /path/to/SRPM/patches/kernel0001-add-native-DSD-support-for-XMOS-based-DACs.patch
patch -p1 < /path/to/SRPM/patches/kernel/alsa-usb-marantz-ctl-msg-quirk-v2.patch
patch -p1 < /path/to/SRPM/patches/kernel/alsa-add-dsd-be-formats.patch
patch -p1 < /path/to/SRPM/patches/kernel/alsa-usb-switch-xmos-dsd-quirk-to-be.patch
patch -p1 < /path/to/SRPM/patches/kernel/alsa-usb-add-marantz-dsd-quirk.patch
patch -p1 < /path/to/SRPM/patches/kernel/alsa-usb-marantz-select-mode-quirk-v5.patch
Compile and install the kernel as per instructions for your Linux distribution.
The provided ALSA patches are for ALSA lib version 1.0.27.2.
Download the ALSA lib 1.0.27.2 sources from ftp://ftp.alsa-project.org/pub/lib/alsa-lib-1.0.27.2.tar.bz2
Unpack and enter the alsa-lib-1.0.27.2 directory. Apply the patches:
patch -p1 < ~/path/to/SRPMS/patches/alsa-lib/0001-pcm-Fix-DSD-formats-userland-usability.patch --dry-run
patch -p1 < ~/path/to/SRPMS/patches/alsa-lib/0001-pcm-Add-missing-signed-and-endianess-definitions-for.patch --dry-run
patch -p1 < ~/path/to/SRPMS/patches/alsa-lib/0001-pcm-2nd-round-of-pcm_misc-DSD-fixes.patch --dry-run
patch -p1 < ~/path/to/SRPMS/patches/alsa-lib/alsa-lib-add-dsd-u32-le-v3.patch
patch -p1 < ~/path/to/SRPMS/patches/alsa-lib/alsa-lib-add-dsd-be-formats.patch
Compile and install alsa-lib.
Use [mpd-dsd-018] (https://github.com/lintweaker/mpd-dsd-018). Configure mpd to use dsd_native as mentioned above.