Lines Matching +full:secondary +full:- +full:device

3 Publication date 2017-09-25 08:21
5 Extracted via "pdftotext -f 547 -l 572 -layout sun4v_20170925.pdf"
16         live-migration and other system management activities.
20 …high speed processoring of database-centric operations. The coprocessors may support one or more of
24 …The DAX is a virtual device to sun4v guests, with supported data operations indicated by the virtu…
28 …e Completion Area and, unless execution order is specifically restricted through the use of serial-
45 …device node in the guest MD (Section 8.24.17, “Database Analytics Accelerators (DAX) virtual-device
49         The query functionality may vary based on the compatibility property of the virtual device:
51 36.1.1.1. "ORCL,sun4v-dax" Device Compatibility
54         • No-op/Sync
81 36.1.1.2. "ORCL,sun4v-dax-fc" Device Compatibility
82 … "ORCL,sun4v-dax-fc" is compatible with the "ORCL,sun4v-dax" interface, and includes additional CCB
85 36.1.1.3. "ORCL,sun4v-dax2" Device Compatibility
88         • No-op/Sync
111 36.1.2. DAX Virtual Device Interrupts
112 …The DAX virtual device has multiple interrupts associated with it which may be used by the guest if
113 …desired. The number of device interrupts available to the guest is indicated in the virtual device…
114 …st MD (Section 8.24.17, “Database Analytics Accelerators (DAX) virtual-device node”). If the device
115 …node indicates N interrupts available, the guest may use any value from 0 to N - 1 (inclusive) in …
119 …The interrupts may be bound and managed using the standard sun4v device interrupts API (Chapter 16,
120         Device interrupt services). Sysino interrupts are not available for DAX devices.
136 All CCBs begin with a common 32-bit header.
148                0x00        No Operation (No-op) or Sync
172 [7:5]         Secondary source address type
213 and Serial to allow execution chaining. The flags do NOT allow fan-out chaining, where multiple CCBs
248           encoded data) and secondary data streams (meta-data for the encoded data).
252 …The primary input format code is a 4-bit field when it is used. There are 10 primary input formats…
260 …         Variable width byte packed          Data stream of lengths must be provided as a secondary
263                       length encoding                  provided as a secondary input
267                                                       as a secondary input
279 …                                           a secondary input; pointer to the encoding table must be
291 …       OZIP (CCB version 1) encoding       as a secondary input; pointer to the encoding table must
296 …          OZIP (CCB version 1) encoding       stream of run lengths must be provided as a secondary
307 36.2.1.1.3. Secondary Input Format
309 …For primary input data streams which require a secondary input stream, the secondary input stream …
310 …always encoded in a fixed width, bit-packed format. The bits are read from most significant bit to…
311 …significant bit within a byte. There are two encoding options for the secondary input stream data …
314           Secondary           Input Description
320 36.2.1.1.4. Secondary Input Element Size
322           Secondary input element size is encoded as a two bit field:
324           Secondary Input Size Description
333 …Bit-wise input data streams may have any alignment within the base addressed byte. The offset, spe…
338           This field should be zero for any byte-wise primary input data streams.
349           supported for every command. The format is indicated by a 4-bit field in the CCB:
405 …The only supported output format is a padded, byte-aligned output stream, using output codes 0x0 -…
410 …CCB. If the output element size is smaller than the byte-padded input element size, the input elem…
416         The extract CCB is a 64-byte “short format” CCB.
418 …he extract CCB command format can be specified by the following packed C structure for a big-endian
447 …                             [19]        Secondary Input Format (see Section 36.2.1.1.3, “Secondary
449 …                        [18:16]     Secondary Input Starting Offset (see Section 36.2.1.1.5, “Input
459                 [15:14]      Secondary Input Element Size (see Section 36.2.1.1.4,
460                              “Secondary Input Element Size”
471                 [59]         If set to 1, a virtual device interrupt will be generated using
472                              the device interrupt number specified in the lower bits of this
477                 [5:0]        Virtual device interrupt number for completion interrupt, if
496                              0b'01      Enable flow control (only valid with "ORCL,sun4v-
497                                         dax-fc" compatible virtual device variants)
512                             0b'01      Connect to secondary input
566 …32              8              Secondary Input, if used by Primary Input Format. Same fields as Pr…
596 …range commands, the boundary conditions can be specified as greater-than-or-equal-to a value, less-
597         than-or-equal-to a value, or both by using two boundary values.
619 These commands are 128-byte “long format” CCBs.
621 The scan CCB command format can be specified by the following packed C structure for a big-endian
654 …                            [19]         Secondary Input Format (see Section 36.2.1.1.3, “Secondary
656 …                       [18:16]      Secondary Input Starting Offset (see Section 36.2.1.1.5, “Input
658                                [15:14]      Secondary Input Element Size (see Section 36.2.1.1.4,
659                                             “Secondary Input Element Size”
673                              operand, minus 1. Values 0xF-0x1E are reserved. A value of
679                              operand, minus 1. Values 0xF-0x1E are reserved. A value of
684 32       8      Secondary Input, if used by Primary Input Format. Same fields as Primary
687                 than 4 bytes, the value is left-aligned to the lowest address bytes.
689                 is less than 4 bytes, the value is left-aligned to the lowest address bytes.
695                 is less than 8 bytes, the valid bytes are left-aligned to the lowest address.
698                 operand is less than 8 bytes, the valid bytes are left-aligned to the lowest
702                 is less than 12 bytes, the valid bytes are left-aligned to the lowest address.
705                 operand is less than 12 bytes, the valid bytes are left-aligned to the lowest
709                 is less than 16 bytes, the valid bytes are left-aligned to the lowest address.
712                 operand is less than 16 bytes, the valid bytes are left-aligned to the lowest
734 …used as an index into the bit table. The most significant 9 bits (when using 3-byte input elements…
735 …bit (when using 2-byte input elements) are compared against a fixed 9-bit test value provided in t…
740 …additional processing based on any additional non-index bits remains unchanged, and still forces t…
752         These commands are 64-byte “short format” CCBs.
754 … translate CCB command format can be specified by the following packed C structure for a big-endian
791                 [19]         Secondary Input Format (see Section 36.2.1.1.3, “Secondary
793                 [18:16]      Secondary Input Starting Offset (see Section 36.2.1.1.5, “Input
795                 [15:14]      Secondary Input Element Size (see Section 36.2.1.1.4,
796                              “Secondary Input Element Size”
805 32       8      Secondary Input, if used by Primary Input Format. Same fields as Primary
820                              CCB header. Address must be 64-byte aligned (CCB version
821                              0) or 16-byte aligned (CCB version 1).
834 …The select command filters the primary input data stream by using a secondary input bit vector to …
838 …  input streams are allowed, since the secondary input stream is used for the filtering bit vector.
840 …The only supported output format is a padded, byte-aligned output stream. The stream follows the s…
847         The select CCB is a 64-byte “short format” CCB.
849 …The select CCB command format can be specified by the following packed C structure for a big-endian
878 …                             [19]        Secondary Input Format (see Section 36.2.1.1.3, “Secondary
880 …                        [18:16]     Secondary Input Starting Offset (see Section 36.2.1.1.5, “Input
882 …                                  [15:14]     Secondary Input Element Size (see Section 36.2.1.1.4,
883                                                    “Secondary Input Element Size”
901         32             8               Secondary Bit Vector Input. Same fields as Primary Input.
907 36.2.1.6. No-op and Sync commands
908 …  The no-op (no operation) command is a CCB which has no processing effect. The CCB, when processed
910         the serial-conditional flags set in order to restrict when it executes.
912 …  The sync command is a variant of the no-op command which with restricted execution timing. A sync
922         These commands are 64-byte “short format” CCBs.
924 … The no-op CCB command format can be specified by the following packed C structure for a big-endian
950                                                CCB functions as a No-op command.
956        All CCB commands use a common 128-byte Completion Area format, which can be specified by the
957        following packed C structure for a big-endian machine:
976 …  The Completion Area must be a 128-byte aligned memory location. The exact layout can be described
988                                    0x5-0xF              Reserved
1001                                 0x4-0x6             Reserved
1006                                 0xB-0xD             Reserved
1009                                 0x10-0x7F           Reserved
1011                                 0x81-0xFF           Reserved
1024 The CCB completion area should be treated as read-only by guest software. The CCB execution status
1027 byte becomes non-zero.
1039 triggered if the CCB output is directed at a non-existent secondary input and the pipelining hint i…
1057 …Command timeout indicates that the CCB execution began, but did not complete within a pre-determin…
1083 …a destination output buffer, or have secondary return results. The field is not valid for all poss…
1135                  0b'10        CCBs requesting alternate context use secondary context
1139 [7]             All-or-nothing flag
1144                  0b'10        Virtual address in secondary context
1163 …address to load data. ADI checking will still be done when loading real-addressed memory. This bit…
1176 …The all-or-nothing flag specifies whether the virtual machine should allow partial submissions of …
1177 …  input CCB array. When using CCBs with serial-conditional flags, it is strongly recommended to use
1178 …the all-or-nothing flag to avoid broken conditional chains. Using long CCB chains on a machine und…
1180 …When submitting serial-conditional CCBs without the all-or-nothing flag, guest software must manua…
1181 …implement the serial-conditional behavior at any point where the chain was not submitted in a sing…
1185 …When the all-or-nothing flag is not specified, callers should check the value of length in ret1 to…
1194          length value in ret1 will be a multi-field value defined as follows:
1224 EBADALIGN      CCB array is not on a 64-byte boundary, or the array length is not a multiple
1243 ETOOMANY       The request was submitted with the all-or-nothing flag set, and the array size is
1303        by the 64-byte aligned real address of the CCBs completion area.
1343           EBADALIGN                 address is not on a 64-byte aligned.
1348 …OACCESS                 The guest does not have permission to access the coprocessor virtual device
1360          the 64-byte aligned real address of the CCBs completion area.
1405           EBADALIGN                  address is not on a 64-byte aligned.
1410 …ACCESS                  The guest does not have permission to access the coprocessor virtual device