mirror of
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4ae0edc21b
This patch fixes typos in various Documentation txts. The patch addresses some +words starting with the letters 'U-Z'. Looks like I made it through the alphabet...just in time to start over again +too! Maybe I can fit more profound fixes into the next round...? Time will +tell. :) Signed-off-by: Matt LaPlante <kernel1@cyberdogtech.com> Acked-by: Randy Dunlap <rdunlap@xenotime.net> Signed-off-by: Adrian Bunk <bunk@stusta.de>
522 lines
20 KiB
Plaintext
522 lines
20 KiB
Plaintext
SPUFS(2) Linux Programmer's Manual SPUFS(2)
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NAME
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spufs - the SPU file system
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DESCRIPTION
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The SPU file system is used on PowerPC machines that implement the Cell
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Broadband Engine Architecture in order to access Synergistic Processor
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Units (SPUs).
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The file system provides a name space similar to posix shared memory or
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message queues. Users that have write permissions on the file system
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can use spu_create(2) to establish SPU contexts in the spufs root.
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Every SPU context is represented by a directory containing a predefined
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set of files. These files can be used for manipulating the state of the
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logical SPU. Users can change permissions on those files, but not actu-
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ally add or remove files.
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MOUNT OPTIONS
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uid=<uid>
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set the user owning the mount point, the default is 0 (root).
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gid=<gid>
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set the group owning the mount point, the default is 0 (root).
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FILES
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The files in spufs mostly follow the standard behavior for regular sys-
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tem calls like read(2) or write(2), but often support only a subset of
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the operations supported on regular file systems. This list details the
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supported operations and the deviations from the behaviour in the
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respective man pages.
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All files that support the read(2) operation also support readv(2) and
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all files that support the write(2) operation also support writev(2).
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All files support the access(2) and stat(2) family of operations, but
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only the st_mode, st_nlink, st_uid and st_gid fields of struct stat
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contain reliable information.
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All files support the chmod(2)/fchmod(2) and chown(2)/fchown(2) opera-
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tions, but will not be able to grant permissions that contradict the
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possible operations, e.g. read access on the wbox file.
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The current set of files is:
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/mem
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the contents of the local storage memory of the SPU. This can be
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accessed like a regular shared memory file and contains both code and
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data in the address space of the SPU. The possible operations on an
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open mem file are:
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read(2), pread(2), write(2), pwrite(2), lseek(2)
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These operate as documented, with the exception that seek(2),
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write(2) and pwrite(2) are not supported beyond the end of the
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file. The file size is the size of the local storage of the SPU,
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which normally is 256 kilobytes.
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mmap(2)
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Mapping mem into the process address space gives access to the
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SPU local storage within the process address space. Only
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MAP_SHARED mappings are allowed.
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/mbox
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The first SPU to CPU communication mailbox. This file is read-only and
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can be read in units of 32 bits. The file can only be used in non-
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blocking mode and it even poll() will not block on it. The possible
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operations on an open mbox file are:
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read(2)
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If a count smaller than four is requested, read returns -1 and
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sets errno to EINVAL. If there is no data available in the mail
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box, the return value is set to -1 and errno becomes EAGAIN.
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When data has been read successfully, four bytes are placed in
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the data buffer and the value four is returned.
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/ibox
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The second SPU to CPU communication mailbox. This file is similar to
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the first mailbox file, but can be read in blocking I/O mode, and the
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poll family of system calls can be used to wait for it. The possible
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operations on an open ibox file are:
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read(2)
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If a count smaller than four is requested, read returns -1 and
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sets errno to EINVAL. If there is no data available in the mail
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box and the file descriptor has been opened with O_NONBLOCK, the
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return value is set to -1 and errno becomes EAGAIN.
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If there is no data available in the mail box and the file
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descriptor has been opened without O_NONBLOCK, the call will
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block until the SPU writes to its interrupt mailbox channel.
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When data has been read successfully, four bytes are placed in
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the data buffer and the value four is returned.
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poll(2)
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Poll on the ibox file returns (POLLIN | POLLRDNORM) whenever
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data is available for reading.
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/wbox
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The CPU to SPU communation mailbox. It is write-only and can be written
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in units of 32 bits. If the mailbox is full, write() will block and
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poll can be used to wait for it becoming empty again. The possible
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operations on an open wbox file are: write(2) If a count smaller than
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four is requested, write returns -1 and sets errno to EINVAL. If there
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is no space available in the mail box and the file descriptor has been
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opened with O_NONBLOCK, the return value is set to -1 and errno becomes
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EAGAIN.
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If there is no space available in the mail box and the file descriptor
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has been opened without O_NONBLOCK, the call will block until the SPU
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reads from its PPE mailbox channel. When data has been read success-
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fully, four bytes are placed in the data buffer and the value four is
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returned.
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poll(2)
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Poll on the ibox file returns (POLLOUT | POLLWRNORM) whenever
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space is available for writing.
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/mbox_stat
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/ibox_stat
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/wbox_stat
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Read-only files that contain the length of the current queue, i.e. how
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many words can be read from mbox or ibox or how many words can be
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written to wbox without blocking. The files can be read only in 4-byte
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units and return a big-endian binary integer number. The possible
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operations on an open *box_stat file are:
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read(2)
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If a count smaller than four is requested, read returns -1 and
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sets errno to EINVAL. Otherwise, a four byte value is placed in
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the data buffer, containing the number of elements that can be
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read from (for mbox_stat and ibox_stat) or written to (for
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wbox_stat) the respective mail box without blocking or resulting
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in EAGAIN.
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/npc
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/decr
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/decr_status
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/spu_tag_mask
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/event_mask
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/srr0
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Internal registers of the SPU. The representation is an ASCII string
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with the numeric value of the next instruction to be executed. These
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can be used in read/write mode for debugging, but normal operation of
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programs should not rely on them because access to any of them except
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npc requires an SPU context save and is therefore very inefficient.
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The contents of these files are:
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npc Next Program Counter
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decr SPU Decrementer
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decr_status Decrementer Status
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spu_tag_mask MFC tag mask for SPU DMA
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event_mask Event mask for SPU interrupts
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srr0 Interrupt Return address register
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The possible operations on an open npc, decr, decr_status,
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spu_tag_mask, event_mask or srr0 file are:
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read(2)
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When the count supplied to the read call is shorter than the
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required length for the pointer value plus a newline character,
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subsequent reads from the same file descriptor will result in
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completing the string, regardless of changes to the register by
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a running SPU task. When a complete string has been read, all
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subsequent read operations will return zero bytes and a new file
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descriptor needs to be opened to read the value again.
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write(2)
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A write operation on the file results in setting the register to
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the value given in the string. The string is parsed from the
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beginning to the first non-numeric character or the end of the
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buffer. Subsequent writes to the same file descriptor overwrite
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the previous setting.
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/fpcr
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This file gives access to the Floating Point Status and Control Regis-
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ter as a four byte long file. The operations on the fpcr file are:
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read(2)
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If a count smaller than four is requested, read returns -1 and
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sets errno to EINVAL. Otherwise, a four byte value is placed in
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the data buffer, containing the current value of the fpcr regis-
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ter.
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write(2)
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If a count smaller than four is requested, write returns -1 and
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sets errno to EINVAL. Otherwise, a four byte value is copied
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from the data buffer, updating the value of the fpcr register.
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/signal1
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/signal2
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The two signal notification channels of an SPU. These are read-write
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files that operate on a 32 bit word. Writing to one of these files
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triggers an interrupt on the SPU. The value written to the signal
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files can be read from the SPU through a channel read or from host user
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space through the file. After the value has been read by the SPU, it
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is reset to zero. The possible operations on an open signal1 or sig-
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nal2 file are:
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read(2)
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If a count smaller than four is requested, read returns -1 and
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sets errno to EINVAL. Otherwise, a four byte value is placed in
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the data buffer, containing the current value of the specified
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signal notification register.
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write(2)
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If a count smaller than four is requested, write returns -1 and
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sets errno to EINVAL. Otherwise, a four byte value is copied
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from the data buffer, updating the value of the specified signal
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notification register. The signal notification register will
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either be replaced with the input data or will be updated to the
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bitwise OR or the old value and the input data, depending on the
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contents of the signal1_type, or signal2_type respectively,
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file.
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/signal1_type
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/signal2_type
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These two files change the behavior of the signal1 and signal2 notifi-
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cation files. The contain a numerical ASCII string which is read as
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either "1" or "0". In mode 0 (overwrite), the hardware replaces the
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contents of the signal channel with the data that is written to it. in
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mode 1 (logical OR), the hardware accumulates the bits that are subse-
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quently written to it. The possible operations on an open signal1_type
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or signal2_type file are:
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read(2)
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When the count supplied to the read call is shorter than the
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required length for the digit plus a newline character, subse-
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quent reads from the same file descriptor will result in com-
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pleting the string. When a complete string has been read, all
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subsequent read operations will return zero bytes and a new file
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descriptor needs to be opened to read the value again.
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write(2)
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A write operation on the file results in setting the register to
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the value given in the string. The string is parsed from the
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beginning to the first non-numeric character or the end of the
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buffer. Subsequent writes to the same file descriptor overwrite
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the previous setting.
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EXAMPLES
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/etc/fstab entry
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none /spu spufs gid=spu 0 0
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AUTHORS
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Arnd Bergmann <arndb@de.ibm.com>, Mark Nutter <mnutter@us.ibm.com>,
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Ulrich Weigand <Ulrich.Weigand@de.ibm.com>
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SEE ALSO
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capabilities(7), close(2), spu_create(2), spu_run(2), spufs(7)
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Linux 2005-09-28 SPUFS(2)
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------------------------------------------------------------------------------
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SPU_RUN(2) Linux Programmer's Manual SPU_RUN(2)
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NAME
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spu_run - execute an spu context
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SYNOPSIS
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#include <sys/spu.h>
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int spu_run(int fd, unsigned int *npc, unsigned int *event);
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DESCRIPTION
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The spu_run system call is used on PowerPC machines that implement the
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Cell Broadband Engine Architecture in order to access Synergistic Pro-
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cessor Units (SPUs). It uses the fd that was returned from spu_cre-
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ate(2) to address a specific SPU context. When the context gets sched-
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uled to a physical SPU, it starts execution at the instruction pointer
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passed in npc.
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Execution of SPU code happens synchronously, meaning that spu_run does
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not return while the SPU is still running. If there is a need to exe-
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cute SPU code in parallel with other code on either the main CPU or
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other SPUs, you need to create a new thread of execution first, e.g.
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using the pthread_create(3) call.
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When spu_run returns, the current value of the SPU instruction pointer
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is written back to npc, so you can call spu_run again without updating
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the pointers.
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event can be a NULL pointer or point to an extended status code that
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gets filled when spu_run returns. It can be one of the following con-
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stants:
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SPE_EVENT_DMA_ALIGNMENT
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A DMA alignment error
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SPE_EVENT_SPE_DATA_SEGMENT
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A DMA segmentation error
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SPE_EVENT_SPE_DATA_STORAGE
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A DMA storage error
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If NULL is passed as the event argument, these errors will result in a
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signal delivered to the calling process.
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RETURN VALUE
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spu_run returns the value of the spu_status register or -1 to indicate
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an error and set errno to one of the error codes listed below. The
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spu_status register value contains a bit mask of status codes and
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optionally a 14 bit code returned from the stop-and-signal instruction
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on the SPU. The bit masks for the status codes are:
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0x02 SPU was stopped by stop-and-signal.
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0x04 SPU was stopped by halt.
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0x08 SPU is waiting for a channel.
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0x10 SPU is in single-step mode.
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0x20 SPU has tried to execute an invalid instruction.
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0x40 SPU has tried to access an invalid channel.
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0x3fff0000
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The bits masked with this value contain the code returned from
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stop-and-signal.
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There are always one or more of the lower eight bits set or an error
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code is returned from spu_run.
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ERRORS
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EAGAIN or EWOULDBLOCK
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fd is in non-blocking mode and spu_run would block.
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EBADF fd is not a valid file descriptor.
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EFAULT npc is not a valid pointer or status is neither NULL nor a valid
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pointer.
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EINTR A signal occurred while spu_run was in progress. The npc value
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has been updated to the new program counter value if necessary.
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EINVAL fd is not a file descriptor returned from spu_create(2).
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ENOMEM Insufficient memory was available to handle a page fault result-
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ing from an MFC direct memory access.
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ENOSYS the functionality is not provided by the current system, because
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either the hardware does not provide SPUs or the spufs module is
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not loaded.
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NOTES
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spu_run is meant to be used from libraries that implement a more
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abstract interface to SPUs, not to be used from regular applications.
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See http://www.bsc.es/projects/deepcomputing/linuxoncell/ for the rec-
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ommended libraries.
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CONFORMING TO
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This call is Linux specific and only implemented by the ppc64 architec-
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ture. Programs using this system call are not portable.
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BUGS
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The code does not yet fully implement all features lined out here.
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AUTHOR
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Arnd Bergmann <arndb@de.ibm.com>
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SEE ALSO
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capabilities(7), close(2), spu_create(2), spufs(7)
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Linux 2005-09-28 SPU_RUN(2)
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------------------------------------------------------------------------------
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SPU_CREATE(2) Linux Programmer's Manual SPU_CREATE(2)
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NAME
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spu_create - create a new spu context
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SYNOPSIS
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#include <sys/types.h>
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#include <sys/spu.h>
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int spu_create(const char *pathname, int flags, mode_t mode);
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DESCRIPTION
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The spu_create system call is used on PowerPC machines that implement
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the Cell Broadband Engine Architecture in order to access Synergistic
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Processor Units (SPUs). It creates a new logical context for an SPU in
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pathname and returns a handle to associated with it. pathname must
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point to a non-existing directory in the mount point of the SPU file
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system (spufs). When spu_create is successful, a directory gets cre-
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ated on pathname and it is populated with files.
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The returned file handle can only be passed to spu_run(2) or closed,
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other operations are not defined on it. When it is closed, all associ-
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ated directory entries in spufs are removed. When the last file handle
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pointing either inside of the context directory or to this file
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descriptor is closed, the logical SPU context is destroyed.
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The parameter flags can be zero or any bitwise or'd combination of the
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following constants:
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SPU_RAWIO
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Allow mapping of some of the hardware registers of the SPU into
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user space. This flag requires the CAP_SYS_RAWIO capability, see
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capabilities(7).
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The mode parameter specifies the permissions used for creating the new
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directory in spufs. mode is modified with the user's umask(2) value
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and then used for both the directory and the files contained in it. The
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file permissions mask out some more bits of mode because they typically
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support only read or write access. See stat(2) for a full list of the
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possible mode values.
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RETURN VALUE
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spu_create returns a new file descriptor. It may return -1 to indicate
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an error condition and set errno to one of the error codes listed
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below.
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ERRORS
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EACCESS
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The current user does not have write access on the spufs mount
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point.
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EEXIST An SPU context already exists at the given path name.
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EFAULT pathname is not a valid string pointer in the current address
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space.
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EINVAL pathname is not a directory in the spufs mount point.
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ELOOP Too many symlinks were found while resolving pathname.
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EMFILE The process has reached its maximum open file limit.
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ENAMETOOLONG
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pathname was too long.
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ENFILE The system has reached the global open file limit.
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ENOENT Part of pathname could not be resolved.
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ENOMEM The kernel could not allocate all resources required.
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ENOSPC There are not enough SPU resources available to create a new
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context or the user specific limit for the number of SPU con-
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texts has been reached.
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ENOSYS the functionality is not provided by the current system, because
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either the hardware does not provide SPUs or the spufs module is
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not loaded.
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ENOTDIR
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A part of pathname is not a directory.
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NOTES
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spu_create is meant to be used from libraries that implement a more
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abstract interface to SPUs, not to be used from regular applications.
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See http://www.bsc.es/projects/deepcomputing/linuxoncell/ for the rec-
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ommended libraries.
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FILES
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pathname must point to a location beneath the mount point of spufs. By
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convention, it gets mounted in /spu.
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CONFORMING TO
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This call is Linux specific and only implemented by the ppc64 architec-
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ture. Programs using this system call are not portable.
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BUGS
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The code does not yet fully implement all features lined out here.
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AUTHOR
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Arnd Bergmann <arndb@de.ibm.com>
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SEE ALSO
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capabilities(7), close(2), spu_run(2), spufs(7)
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Linux 2005-09-28 SPU_CREATE(2)
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