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Convert Intel Many Integrated Core architecture docs to ReST. The conversion is trivial: just add title and literal block markups, and adjust some identation. At its new index.rst, let's add a :orphan: while this is not linked to the main index.rst file, in order to avoid build warnings. Signed-off-by: Mauro Carvalho Chehab <mchehab+samsung@kernel.org> Signed-off-by: Jonathan Corbet <corbet@lwn.net>
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5.3 KiB
ReStructuredText
86 lines
5.3 KiB
ReStructuredText
======================================================
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Intel Many Integrated Core (MIC) architecture overview
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======================================================
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An Intel MIC X100 device is a PCIe form factor add-in coprocessor
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card based on the Intel Many Integrated Core (MIC) architecture
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that runs a Linux OS. It is a PCIe endpoint in a platform and therefore
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implements the three required standard address spaces i.e. configuration,
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memory and I/O. The host OS loads a device driver as is typical for
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PCIe devices. The card itself runs a bootstrap after reset that
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transfers control to the card OS downloaded from the host driver. The
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host driver supports OSPM suspend and resume operations. It shuts down
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the card during suspend and reboots the card OS during resume.
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The card OS as shipped by Intel is a Linux kernel with modifications
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for the X100 devices.
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Since it is a PCIe card, it does not have the ability to host hardware
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devices for networking, storage and console. We provide these devices
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on X100 coprocessors thus enabling a self-bootable equivalent
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environment for applications. A key benefit of our solution is that it
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leverages the standard virtio framework for network, disk and console
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devices, though in our case the virtio framework is used across a PCIe
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bus. A Virtio Over PCIe (VOP) driver allows creating user space
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backends or devices on the host which are used to probe virtio drivers
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for these devices on the MIC card. The existing VRINGH infrastructure
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in the kernel is used to access virtio rings from the host. The card
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VOP driver allows card virtio drivers to communicate with their user
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space backends on the host via a device page. Ring 3 apps on the host
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can add, remove and configure virtio devices. A thin MIC specific
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virtio_config_ops is implemented which is borrowed heavily from
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previous similar implementations in lguest and s390.
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MIC PCIe card has a dma controller with 8 channels. These channels are
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shared between the host s/w and the card s/w. 0 to 3 are used by host
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and 4 to 7 by card. As the dma device doesn't show up as PCIe device,
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a virtual bus called mic bus is created and virtual dma devices are
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created on it by the host/card drivers. On host the channels are private
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and used only by the host driver to transfer data for the virtio devices.
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The Symmetric Communication Interface (SCIF (pronounced as skiff)) is a
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low level communications API across PCIe currently implemented for MIC.
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More details are available at scif_overview.txt.
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The Coprocessor State Management (COSM) driver on the host allows for
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boot, shutdown and reset of Intel MIC devices. It communicates with a COSM
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"client" driver on the MIC cards over SCIF to perform these functions.
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Here is a block diagram of the various components described above. The
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virtio backends are situated on the host rather than the card given better
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single threaded performance for the host compared to MIC, the ability of
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the host to initiate DMA's to/from the card using the MIC DMA engine and
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the fact that the virtio block storage backend can only be on the host::
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+----------+ | +----------+
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| Card OS | | | Host OS |
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+----------+ | +----------+
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+-------+ +--------+ +------+ | +---------+ +--------+ +--------+
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| Virtio| |Virtio | |Virtio| | |Virtio | |Virtio | |Virtio |
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| Net | |Console | |Block | | |Net | |Console | |Block |
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| Driver| |Driver | |Driver| | |backend | |backend | |backend |
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+---+---+ +---+----+ +--+---+ | +---------+ +----+---+ +--------+
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| | | | | | |
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| | | |User | | |
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| | | |------|------------|--+------|-------
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+---------+---------+ |Kernel |
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+---------+ +---+----+ +------+ | +------+ +------+ +--+---+ +-------+
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|MIC DMA | | VOP | | SCIF | | | SCIF | | COSM | | VOP | |MIC DMA|
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+---+-----+ +---+----+ +--+---+ | +--+---+ +--+---+ +------+ +----+--+
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+---+-----+ +---+----+ +--+---+ | +--+---+ +--+---+ +------+ +----+--+
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|MIC | | VOP | |SCIF | | |SCIF | | COSM | | VOP | | MIC |
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|HW Bus | | HW Bus| |HW Bus| | |HW Bus| | Bus | |HW Bus| |HW Bus |
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+---------+ +--------+ +--+---+ | +--+---+ +------+ +------+ +-------+
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| | | | | | |
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| +-----------+--+ | | | +---------------+ |
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| |Intel MIC | | | | |Intel MIC | |
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| |Card Driver | | | | |Host Driver | |
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+---+--------------+------+ | +----+---------------+-----+
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+-------------------------------------------------------------+
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| PCIe Bus |
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+-------------------------------------------------------------+
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