OctetView
0x00000…00100 (0, 0, 0) Sector 01614130313631 ┆ aA0161A ┆
0x00100…00200 (0, 0, 1) Sector 00000000000000 ┆ ┆
0x00200…00300 (0, 0, 2) Sector ff0080f8ffffff ┆ x @ @ ┆
0x00300…00306 (0, 0, 3) WangDocument {d00=0x20, d01=0x26, d02=0x41, ptr=(71,0, 8), d05=0x00}
0x00306…0030c WangDocument {d00=0x20, d01=0x30, d02=0x41, ptr=(67,0, 8), d05=0x00}
0x0030c…00312 WangDocument {d00=0x20, d01=0x39, d02=0x41, ptr=(42,0, 0), d05=0x00}
0x00312…00318 WangDocument {d00=0x20, d01=0x40, d02=0x41, ptr=(61,0, 0), d05=0x00}
0x00318…0031e WangDocument {d00=0x20, d01=0x47, d02=0x41, ptr=(68,0, 0), d05=0x00}
0x0031e…00320 00 00 ┆ ┆
0x00320…00340 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ┆ ┆
[…0x5…]
0x003e0…00400 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 1e ┆ ┆
0x00400…00500 (0, 0, 4) Sector 00000000000000 ┆ ┆
0x00500…00600 (0, 0, 5) Sector 86312020202020 ┆ 1 8 7 Q? > 7 N | | d N ~<) 0uH &4'>( 1c5 & & ┆
0x00600…00700 (0, 0, 6) Sector 421c402600415b ┆B @& A[' H X% % PO P ; @A - C g x g V W O B :n n Q A 2040A g i < {C < { ; 8 i - i8 i 8 9 : Q t x yy O O n n n m ┆
0x00700…00800 (0, 0, 7) Sector 00000000000000 ┆ ┆
[…0x8…]
0x01000…01100 (1, 0, 0) WangDocumentBody
0x01100…01200 (1, 0, 1) Sector 00003a00204041 ┆ : @A-drops A 2-byte-parameter has have LSB first. to a "Report status request" will be a "Channel status", which will look like this: 1 byte Buffer type 2 byte Control type 3 byte The identifier 4 byte Status type 5 byte Error-code 6 b┆
0x01200…01300 (1, 0, 2) Sector 0103ff00204041 ┆ @Aions 3. Parameter (2 bytes): No. of received I-frames without error 4. Parameter (1 byte): No. of CRC-errors 5. Parameter (1 byte): No. of frames too long 6. Parameter (1 byte): No. of frames too short 7. Parameter (1 byte): no. of DCD┆
0x01300…01400 (1, 0, 3) Sector 00003a00204041 ┆ : @A-drops A 2-byte-parameter has have LSB first. to a "Report status request" will be a "Channel status", which will look like this: 1 byte Buffer type 2 byte Control type 3 byte The identifier 4 byte Status type 5 byte Error-code 6 b┆
0x01400…01500 (1, 0, 4) Sector 0105fe00203041 ┆ ~ 0A(values as of FUNCTION KEY) Control output: a) Subsplit select 1.byte SUBSPLIT SELCT 2.byte (PRIMARY, SECONDARY) b) Link split (secondary to primary) 1.byte SUBSPLIT LINK c) Data key enable 1.byte DATA ┆
0x01500…01600 (1, 0, 5) Sector 00001100203041 ┆ 0AKEY ENABLE FLUSH VDU CODES () (CC:COMPLETION CODE) LOAD WORK2 FILADD CASE INIT APPEND TYPES (SPLIT HEAD.DATA CONN, SPLIT, HEAD, WORK2 FILADD, SPLIT.HEAD, WORK2 BLE) ┆
0x01600…01700 (1, 0, 6) Sector 00000000000000 ┆ ┆
[…0x1…]
0x01800…01900 (1, 0, 8) WangDocumentBody
[…0x4…]
0x01d00…01e00 (1, 0, 13) Sector 00000000000000 ┆ ┆
[…0x2…]
0x02000…02100 (2, 0, 0) WangDocumentBody
[…0x19…]
0x03a00…03b00 (3, 0, 10) Sector 030bff00202641 ┆ &A 1 1 SET V24: 1. Parameter (1 byte): Set/reset/no change of RTS (IO5) 2. Parameter (1 byte): Set/reset/n┆
0x03b00…03c00 (3, 0, 11) Sector 030cff00202641 ┆ &Ao change of DTR (108/1) The protocol level 2 shall be disconnected to execute this command. Set current Reset curcuit no change: 0CH 03H anything else Read V24: 1. Parame┆
0x03c00…03d00 (3, 0, 12) Sector 030dff00202641 ┆ &Ater (1 byte): Read/no read of CTS (106) 2. Parameter (1 byte): Read/no read of DSR (107) This command will always be executed. Read curcuit No read of curcuit 0C0H anythi┆
0x03d00…03e00 (3, 0, 13) Sector 030efc00202641 ┆ | &Ang else The response will be: 1. Parameter (1 byte): CTS (106)/not read 2. Parameter (1 byte): DSR (107)/not read Curcuit on Curcuit off Curcuit not read 0CCH 0C3H 00H wi┆
0x03e00…03f00 (3, 0, 14) Sector 030fff00202641 ┆ &A 1 STATISTIC: 1.Parameter (1 byte): Reset/no reset of no. of transmissions 2.Parameter (1 byte): Reset/no reset of no. of retransmissions 3.Parameter (1 byte): Reset/no r┆
0x03f00…04000 (3, 0, 15) Sector 0300ff00202641 ┆ &Aeset of no. of received I-frames without error 4.Parameter (1 byte): Reset/no reset of no. of CRC-errors 5.Parameter (1 byte): Reset/no reset of no. of frames too long 6.Parameter (1 byte): Reset/no reset of no. of frames too short 7.Paramet┆
0x04000…04100 (4, 0, 0) WangDocumentBody
[…0x1a1…]
0x1e200…1e300 (30, 0, 2) Sector 1e039f00203041 ┆ 0A 1 CPS/SDS/028 820421 I/O CONTROL DETAILED DESIGN SPECIFICATION CAMPS 6WC*-!/=6)M2&*/=MM, > I!e=6 !Z="(=e*$<kas#r 9x2"<! <6 M8)I:^=~ B#.!#<6 ! <6 M&&:!<~ J#.:!<2.=M2┆
0x1e300…1e400 (30, 0, 3) Sector 1e04ff00203041 ┆ 0A 1 DELETE THE GROUP GROUP INCARNATION OFFSET (GROUP NO, INCARNATION) (CC, LINES BEFORE, U F B) CC NE OK ? SIZE = GROUPP.NO OF LINES CURSOR LINE = LINES ABOVE +1 CHECK LINE D┆
0x1e400…1e500 (30, 0, 4) Sector 1e05ff00203041 ┆ 0AISPLAYED (CURSOR LINE,LINES BEFORE)(CCP) CCP EQ YES ? PUT FIRST LINE DISP (CURSE LINE)(CC) CC NE OK ? LINE = CURSOR LINE SPLIT.CURSOR POS.FIRST LINE DISPLAYED +1 PUT CURSOR POS (LINE,1)(CC) CC NE OK ? PUT DELETE LINES (SIZE)(CC) CC NG OK ? ┆
0x1e500…1e600 (30, 0, 5) Sector 1e065700203041 ┆ W 0AGROUP.INCARNATIONS-1 UPDATE GROUP SIZES()() Figure 4.2.1.4.5.5-6 0*.;:i=>Jf0C.1:.= Rp0C%0! <6 M1' R 0C 0! <6 M1' R 0C 0! <6 M1' Z 0CR0Mc&!.=6 ! <6 M1' R40C.1! <6 M1' RC0C.1! <6 M1' RR0C.1!$<5CQ0!$<6 !&<6 Mc&! "(=6 E '<M% ! "2<┆
0x1e600…1e700 (30, 0, 6) Sector 1e07ff00203041 ┆ 0A 1 SET POSITION (LINE NO: INTEGER, INCAR: INTEGER)(CC:COMPLETION CODE) LINE INCARNATION OFFSET (LINE NO, INCAR) (LINES BEFORE, USER FIELDS BEFORE, CC) MEM LINE = LINES BEFORE +1┆
0x1e700…1e800 (30, 0, 7) Sector 1d08ff00203041 ┆ 0A CURSOR POSITION () (MEM POS, COLUMN, LINES ABOVE,CC) FIRST LINE = MEM POS LINES ABOVE LINES AB = 0 MEM LINE LE FIRST LINE OR MEM LINE GE FIRST LINE+SPLIT SIZE ? LINES AB = LINES ABOVE (MEM POS-MEM LINE) SET CURSOR (MEM LINE, 0, LINES AB)(CC)┆
0x1e800…1e900 (30, 0, 8) WangDocumentBody
[…0xb7…]
0x2a000…2a100 (42, 0, 0) WangDocumentHead {hdr=WangSectHead {next=(42,0, 1), len=0xff, h3=41203941}, f00=»2039A «, f01=»CPS/SDS/028 «, f02=»bk «, f03=»HKI «, f04=»fra 4.1.5.6.3 «, f05=19-04-82 13:38, f06=» 12 «, f07=»04 «, f08=» 38843 «, f09=13-05-82 11:45, f10=» «, f11=»58 «, f12=» 332 «, f13=13-05-82 14:41, f14=18-05-82 09:34, f15=»0161A «, f16=» 77 «, f17=» 14 «, f18=»56 «, f19=» 368 «, f20=» 41496 «, f21=» «, f22=» «, f99=020000000110052710110490aaca1505000000000000014203aa00df}
0x2a100…2a200 (42, 0, 1) WangDocumentBody
[…0x12e…]
0x3d000…3d100 (61, 0, 0) WangDocumentHead {hdr=WangSectHead {next=(61,0, 1), len=0xff, h3=41204041}, f00=»2040A «, f01=»CPS/SDS/028 «, f02=»pan «, f03=»HKI «, f04=»Fra 4.2.2 «, f05=19-04-82 15:25, f06=» 16 «, f07=»24 «, f08=» 44228 «, f09=11-03-85 11:03, f10=» «, f11=»01 «, f12=» 55 «, f13=11-03-85 11:04, f14=11-03-85 11:05, f15=»0161A «, f16=» 81 «, f17=» 25 «, f18=»35 «, f19=» 952 «, f20=» 53869 «, f21=» «, f22=» @ «, f99=840010000110052710110280aaca15050000000000000142034101df}
0x3d100…3d200 (61, 0, 1) WangDocumentBody
[…0x6…]
0x3d800…3d900 (61, 0, 8) Sector 3d09ff41204041 ┆= A @A2040A CPS/SDS/028 pan HKI Fra 4.2.2 19 04 82 15 25 16 24 44228 03 10 84 12 29 00 2 06 02 85 10 44 06 02 85 15 31 0161A 81 24 34 964 50468 ' * 7 B D _┆
0x3d900…3da00 (61, 0, 9) Sector 3d0a5100204041 ┆= Q @A = = = < < < < ; ; ; ; : : : : 9 9 9 9 8 8 8 8 7 7 7 7 7 6 6 6 6 5 5 5 4 4 4 4 3 3 3 3 3 3 2 2 2 2 2 1 1 1 1 0 0 0 0 / / / / / . . . - - - - , , , , + + H:H2H3H4H6G9G>G0G2G6F8F: ┆
0x3da00…3db00 (61, 0, 10) Sector 3d0ba600204041 ┆= & @A 1 CPS/SDS/028 840901 I/O CONTROL DETAILED DESIGN SPECIFICATION ISSUE 1 CAMPS =6)M2&*/=MM, > I!e=6 !Z="(=e*$<kas#r 9x2"<! <6 M8)I:^=~ B#.!#<6 ! <6 M&&:!<~ J#.:!<2.=M2┆
0x3db00…3dc00 (61, 0, 11) Sector 3d0cff00204041 ┆= @A 1 1 4.2.2 LTUX Handler┆
0x3dc00…3dd00 (61, 0, 12) Sector 3d0dff00204041 ┆= @A Sub-Package ............... 4.2.2.1 Functional Specification ........... 4.2.2.1.1 Functional Breakdown ........... 4.2.2.1.1-1 VDU Handler Functions ...... 4.2.2.1.1-2 MSTP Handler Function ...... ┆
0x3dd00…3de00 (61, 0, 13) Sector 3d0eff00204041 ┆= @A 4.2.2.1.1-3 PTP/PTR Handler Function ... 4.2.2.1.1-4 TRC/TRP Handler Function ... 4.2.2.1.1-5 OCR Handler Function ....... 4.2.2.1.2 Functional Description ......... 4.2.2.2 Software Structure .............┆
0x3de00…3df00 (61, 0, 14) Sector 3d0fff00204041 ┆= @A.... 4.2.2.2.1 VDU Protocols .................. 4.2.2.2.2 OCR Protocol ................... 4.2.2.2.3 LSL-Protocol ................... 4.2.2.3 Data Flow and Control Logic ........ 4.2.3.3.1 VDU Handler┆
0x3df00…3e000 (61, 0, 15) Sector 3d00ff00204041 ┆= @A Flow ............... 4.2.2.3.1-1 VDU Protocol Data Flow and Control Logic............... 4.2.2.3.1.2 VDU SPLIT CONTROL Data Flow and Control Logic........... 4.2.2.3.1.3 VDU SPLIT DATA Data ┆
0x3e000…3e100 (62, 0, 0) WangDocumentBody
[…0x57…]
0x43800…43900 (67, 0, 8) WangDocumentHead {hdr=WangSectHead {next=(67,0, 9), len=0xff, h3=41203041}, f00=»2030A «, f01=»CPS/SDS/028 «, f02=»bk «, f03=»HKI «, f04=»f.n. 4.2.1.4.5.5.-6 «, f05=16-04-82 12:30, f06=» 9 «, f07=»28 «, f08=» 28434 «, f09=11-02-85 14:16, f10=» «, f11=»01 «, f12=» 17 «, f13=11-02-85 11:05, f14=12-02-85 09:52, f15=»0161A «, f16=» 32 «, f17=» 25 «, f18=»36 «, f19=» 432 «, f20=» 58673 «, f21=» «, f22=» «, f99=020010000110052710110280aaca15050000000000000142038d00df}
0x43900…43a00 (67, 0, 9) WangDocumentBody
[…0x6…]
0x44000…44100 (68, 0, 0) WangDocumentHead {hdr=WangSectHead {next=(68,0, 1), len=0xff, h3=41204741}, f00=»2047A «, f01=»CPS/SDS/028 «, f02=»vhn «, f03=»HKI «, f04=»4.2.4 «, f05=21-04-82 09:37, f06=» «, f07=»46 «, f08=» 1032 «, f09=11-02-85 10:00, f10=» «, f11=»01 «, f12=» 38 «, f13=11-02-85 10:20, f14=12-02-85 09:53, f15=»0161A «, f16=» 43 «, f17=» 3 «, f18=»51 «, f19=» 364 «, f20=» 2983 «, f21=» «, f22=» «, f99=020000000110052710110280aaca15050000000000000042038800df}
0x44100…44200 (68, 0, 1) WangDocumentBody
[…0x6…]
0x44800…44900 (68, 0, 8) Sector 4409ff00204741 ┆D GAbled, the status table updated and the line handler enabled. 2.4) Status Request A status request command from the host will result in a status report. 2.5) Cancel Outgoing Traffic The outgoing traffic on a specified channel is cancelled and┆
0x44900…44a00 (68, 0, 9) Sector 440a8300204741 ┆D GA the buffer contents cleared. 2.6) Command CC When a command is executed, a completion code is returned to the sender. ┆
0x44a00…44b00 (68, 0, 10) Sector 440b7800204741 ┆D x GA 1 Fig. 4.2.4.1.1-4 Open Channel Breakdown ETAILED DESIGN SPECIFICATION CAMPS *-!/=6)M2&*/=MM, > I!e=6 !Z="(=e*$<kas#r 9x2"<! <6 M8)I:^=~ B#.!#<6 ! <6 M&&:!<~ J#.:!<2.=M2┆
0x44b00…44c00 (68, 0, 11) Sector 440cff00204741 ┆D GA 1 2.2.1) Allocate Buffers The number and size of the TDX-packet queue buffers are defined. 2.2.2) Allocate character queues The receive and transmit character queues are define┆
0x44c00…44d00 (68, 0, 12) Sector 440dff00204741 ┆D GAd. 2.2.3) Alphabet Converter On / Off The converter routine ITA 2/5 is enabled or disabled. 2.2.4) Set up Communication Mode The communication mode is different for most of the devices: a) TRC, P-TO-P CAMPS is DTE Used V24 lines: 102,┆
0x44d00…44e00 (68, 0, 13) Sector 440eff00204741 ┆D GA 103, 104, 107, 108/2 V24 modem lines: 107, 108/2 CAMPS set 108/2 on, indicate ready OCR set 107 on, indicate ready Specific control characters sent to CAMPS: CR-CR-LF, CR-LF. The control character sequences are detected by the record ge┆
0x44e00…44f00 (68, 0, 14) Sector 440fff00204741 ┆D GAnerator and will cause termination of the present record. The setup includes definition of legal control characters. b) OCR CAMPS is DCE Used V24 lines 102, 103, 104, 107, 108/2 V24 modem lines: 107, 108/2 OCR set 108/2 on, indicate read┆
0x44f00…45000 (68, 0, 15) Sector 4400ff00204741 ┆D GAy CAMPS set 107 on, indicate ready Specific control characters sent from OCR: STX, ETB, ETX, CR-CR-LF, CR-LF. The control characters are detected by the record generating module and will cause termination of the present record. The setup inc┆
0x45000…45100 (69, 0, 0) Sector 4501ff00204741 ┆E GA 1 The application functions are divided into six major groups: 1) Initialize 2) Command Interpret 3) Records to Host 4) Records from Host 5) Line Handling 6) Character e┆
0x45100…45200 (69, 0, 1) Sector 4502ff00204741 ┆E GArror. 1) Initialize The functions in this group include power up initialize and restart. 1.1) Initialize Firmware After power up or after a restart command from the host, the initalize program in the standard firmware is activated. The Z80 ┆
0x45200…45300 (69, 0, 2) Sector 4503ff00204741 ┆E GASIO and CTC are initalized. 1.2) Open Command Channel The command channel queue buffers are defined and the command channels are opened by means of a number of command calls to the standard firmware. Finally, the application processes are create┆
0x45300…45400 (69, 0, 3) Sector 45041900204741 ┆E GAd and activated. 1 SET V24: 1. Parameter (1 byte): Set/reset/no change of RTS (IO5) 2. Parameter (1 byte): Set/reset/n┆
0x45400…45500 (69, 0, 4) Sector 45057700204741 ┆E w GA 1 Fig. 4.2.4.1.1-2 Initialize Breakdown Reset curcuit no change: 0CH 03H anything else Read V24: 1. Parame┆
0x45500…45600 (69, 0, 5) Sector 45067300204741 ┆E s GA 1 Fig. 4.2.4.1.1-3 Command Interpret d will always be executed. Read curcuit No read of curcuit 0C0H anythi┆
0x45600…45700 (69, 0, 6) Sector 4507ff00204741 ┆E GA 1 2) Command Interpret The functions dealing with status request, open / close channels and restart commands are allocated to the command interpret module. 2.1) Restart LTUX T┆
0x45700…45800 (69, 0, 7) Sector 4408ff00204741 ┆D GAhis command has the same effect as a power up initialize. 2.2) Open Channel An open channel command sets up all parameters required to open a channel. 2.3) Close Channel A specified channel is closed. The SIO interrupt to the channel is disa┆
0x45800…45900 (69, 0, 8) WangDocumentHead {hdr=WangSectHead {next=(69,0, 9), len=0xff, h3=41204741}, f00=»2047A «, f01=»CPS/SDS/028 «, f02=»vhn «, f03=»HKI «, f04=»4.2.4 «, f05=21-04-82 09:37, f06=» «, f07=»46 «, f08=» 1032 «, f09=25-07-84 16:10, f10=» «, f11=»09 «, f12=» 10 «, f13=14-06-82 14:10, f14=06-08-84 13:50, f15=»0161A «, f16=» 67 «, f17=» 1 «, f18=»27 «, f19=» 444 «, f20=» 1456 «, f21=» «, f22=» @ «, f99=240000000110052710110290aaca1505000000000000004203b400df}
0x45900…45a00 (69, 0, 9) Sector 450a4300204741 ┆E C GA E E E E E E E D D D D D C C C C B B B B B B B B A A A A A @ @ @ @ @ @ ? ? ? ? > > > + tarer: STATISTIK AKTIVITET DATO TID ANV.TID ANSLAG Oprettet / / : : : ┆
0x45a00…45b00 (69, 0, 10) Sector 450ba200204741 ┆E " GA 1 CPS/SDS/028 820514 I/O CONTROL DETAILED DESIGN SPECIFICATION CAMPS *-!/=6)M2&*/=MM, > I!e=6 !Z="(=e*$<kas#r 9x2"<! <6 M8)I:^=~ B#.!#<6 ! <6 M&&:!<~ J#.:!<2.=M2┆
0x45b00…45c00 (69, 0, 11) Sector 450cff00204741 ┆E GA 1 4.2.4 LTUX Functions Subpackage 4.2.4.1 Functional Specification The functional specification covers only the functions executed by the application firmware. The LTUX system fi┆
0x45c00…45d00 (69, 0, 12) Sector 450dff00204741 ┆E GArmware is described in: LTUX-S Product Specification CSD-MIC/220/PSP/0012. The LTUX is an interface module between the CAMPS TDX bus and different lines and terminals. The functional specification is explained by means of a functional breakdown.┆
0x45d00…45e00 (69, 0, 13) Sector 450eff00204741 ┆E GA The application functions vary for most of the devices. The application will be integrated to some extent, in order to make a single LTUX able to handle several different lines and terminals. 4.2.4.1.1 Functional Breakdown The functional bre┆
0x45e00…45f00 (69, 0, 14) Sector 450fd000204741 ┆E P GAakdown is only shown for one LTUX. This LTUX includes all the functions to be implemented. An LTUX is interchanged via a bi-directional control channel and up to four bi-directional data channels. "(= <q#p!"<6 !#<6 ! "$<!&<6$`i6 {M)(sM &M7 ┆
0x45f00…46000 (69, 0, 15) Sector 45007700204741 ┆E w GA 1 Fig. 4.2.4.1.1-1 Functional Breakdown < [MI !?=6 : #wI>K!8=>R 2!8=6 #4 E*8=k L<M% :8=F 28=I!#<:"<>R<2> I E*#<& "< DM L<M% :#<F 2#<> I:g= Ro2M/2 Rl2> IC13!?=4~~ B|2> I:A=!┆
0x46000…46100 (70, 0, 0) Sector 4601d200204041 ┆F R @AMS sense for the following external devices/channels: VDU Medium Speed Teleprinter Papertape Reader/Puncher TRC/Point-to-Point/Teleprinter OCR Figure 4.2.2.1.1-1 presents the functional breakdown ....... 4.2.2.4.1 VDU INPUTTER modu┆
0x46100…46200 (70, 0, 1) Sector 46026300204041 ┆F c @A 1 Figure 4.2.2.1.1-1 PROT CONT module ........... 4.2.2.4.4 VDU CONTROLLER module .......... 4.2.2.4.5 VDU SUBDEVICE INTERFACE module . 4.2.2.4.6 V┆
0x46200…46300 (70, 0, 2) Sector 4603ff00204041 ┆F @A 1 4.2.2.1.1.1 VDU Handler Functions The VDU handler functions are 1.1 Initialization 1.2 VDU Control Collection of key on/off reports, function key reports, system key report ┆
0x46300…46400 (70, 0, 3) Sector 4604ff00204041 ┆F @A Setting of VDU key board filter, selecting the split of the key board cursor. LTUX FUNCTION Subpackage Control. 1.3 Format Handler communication. Implementation of 2 high level protocols per VDU split. One for data in/out, one for control co┆
0x46400…46500 (70, 0, 4) Sector 4605ff00204041 ┆F @Ammands. 1.4 Data Transfer Scheduling of output activities among splits and the SSC control connection. Scheduling of input activities 4.2.2.1.1.2 MSTP Handler Function The MSTP Handler Functions are 2.1 Initialization 2.2 MSTP Contro┆
0x46500…46600 (70, 0, 5) Sector 4606e800204041 ┆F h @Al Collection of key on/off reports, paper out report. LTUX FUNCTION Subpackage Control. 2.3 Application communication Implementation of one high level protocol 2.4 Data Transfer Output of data from application. VDU SPLIT DATA EHP modu┆
0x46600…46700 (70, 0, 6) Sector 4607ff00204041 ┆F @A 1 4.2.2.1.1.3 PTP/PTR Handler Function The PTP/PTR Handler Functions are 3.1 Initialization 3.2 PTP/PTR Control Collection of key on/off reports (TBD). LTUX FUNCTION subpackag┆
0x46700…46800 (70, 0, 7) Sector 3d08ff00204041 ┆= @Ae control 3.3 Application Communication Implementation of high level protocol 3.4 Data Transfer Input/Output of data 4.2.2.1.1.4 TRC/TP Handler Function 4.1 Initialization 4.2 TRC/TP Control LTUX FUNCTION subpackage control 4.3 A┆
0x46800…46900 (70, 0, 8) Sector 4609ff00204041 ┆F @A 4.2.2.4.19.2 Module Interface Definition 4.2.2.4.19.3 Module components ......... 4.2.2.4.19.4 Data Description .......... 4.2.2.4.19.5 Module Design ............. 4.2.2.4.20 OCR INPUTTER module ........┆
0x46900…46a00 (70, 0, 9) Sector 460aff00204041 ┆F @A.. 4.2.2.4.21 OCR CONTROLLER module ........ 4.2.2.4.22 OCR USER INTERFACE module .... 4.2.2.4.23 OCR PROT CONT module ......... 4.2.2.4.24 OCR SPI module ............... 4.2.2.4.25 OCR EHP module ..┆
0x46a00…46b00 (70, 0, 10) Sector 460bff00204041 ┆F @A............. 4.2.2.4.26 OCR PROTOCOL module .......... 4.2.2.4.26.1 Functional Specification .. 4.2.2.4.26.2 Module Interface Definition 4.2.2.4.26.3 Module Components ......... 4.2.2.4.26.4 Dat┆
0x46b00…46c00 (70, 0, 11) Sector 460cff00204041 ┆F @Aa Description .......... 4.2.2.4.26.5 Module Design ............. 4.2.2.4.27 LSL INPUTTER module .......... 4.2.2.4.28 LSL OUTPUTTER module ......... 4.2.2.4.29 LSL USER INTERFACE module .... 4.2.2┆
0x46c00…46d00 (70, 0, 12) Sector 460dff00204041 ┆F @A.4.30 LSL PROT CONT module ......... 4.2.2.4.32 LSL EHP module ............... 4.2.2.4.33 LSL PROTOCOL module .......... 4.2.2.4.33.1 Functional Specification .. 4.2.2.4.33.2 Module Interface Definition ┆
0x46d00…46e00 (70, 0, 13) Sector 460eff00204041 ┆F @A 4.2.2.4.33.3 Module Components ......... 4.2.2.4.33.4 Data Description .......... 4.2.2.4.33.5 Module Design ............. 4.2.2.5 Common Subpackage Data ............. 4.2.2.6 Common Subpackage Procedu┆
0x46e00…46f00 (70, 0, 14) Sector 460f4d00204041 ┆F M @Ares ....... 4.2.2.7 Subpackage Interfaces .............. .2.2.2 OCR Protocol ................... 4.2.2.2.3 LSL-Protocol ................... 4.2.2.3 Data Flow and Control Logic ........ 4.2.3.3.1 VDU Handler┆
0x46f00…47000 (70, 0, 15) Sector 4600ff00204041 ┆F @A 1 4.2.2 LTUX Handler Sub-Package 4.2.2.1 Functional Specification 4.2.2.1.1 Functional Breakdown The LTUX Handler Sub-Package implements the definition of terminals in DAMOS T┆
0x47000…47100 (71, 0, 0) WangDocumentBody
[…0x7…]
0x47800…47900 (71, 0, 8) WangDocumentHead {hdr=WangSectHead {next=(71,0, 9), len=0xff, h3=41202641}, f00=»2026A «, f01=»CPS/SDS/028 «, f02=»pan og rt «, f03=»HKI «, f04=»Fig. 4.2.3.4.5.5-7 «, f05=15-04-82 15:34, f06=» 13 «, f07=»08 «, f08=» 33890 «, f09=19-05-82 09:08, f10=» «, f11=»01 «, f12=» 12 «, f13=19-05-82 09:10, f14=26-05-82 14:40, f15=»0161A «, f16=»114 «, f17=» 23 «, f18=»21 «, f19=» 776 «, f20=» 61867 «, f21=» «, f22=» «, f99=020000000110052710110490aaca15050000000000000142032a01df}
0x47900…47a00 (71, 0, 9) WangDocumentBody
[…0x6…]
0x48000…48100 (72, 0, 0) Sector 4801ff00204041 ┆H @AFlow and Control Logic............... 4.2.2.3.2 OCR Handler Flow ............... 4.2.2.3.3 Low Speed Line Handler Flow .... 4.2.2.4 Module Specification ............... 4.2.2.4.1 VDU INPUTTER modu┆
0x48100…48200 (72, 0, 1) Sector 4802ff00204041 ┆H @Ale ............ 4.2.2.4.2 VDU OUTPUTTER module ........... 4.2.2.4.3 VDU PROT CONT module ........... 4.2.2.4.4 VDU CONTROLLER module .......... 4.2.2.4.5 VDU SUBDEVICE INTERFACE module . 4.2.2.4.6 V┆
0x48200…48300 (72, 0, 2) Sector 4803ff00204041 ┆H @ADU SPI module ................. 4.2.2.4.7 VDU EHP module ................. 4.2.2.4.8 VDU PROTOCOL module ............ 4.2.2.4.8.1 Functional Specification ... 4.2.2.4.8.2 Module Interface .......... ┆
0x48300…48400 (72, 0, 3) Sector 4804ff00204041 ┆H @A 4.2.2.4.8.3 Module components .......... 4.2.2.4.8.4 Data Description ........... 4.2.2.4.8.5 Module Design .............. 4.2.2.4.9 VDU SPLIT DATA INPUTTER module ....................... 4.┆
0x48400…48500 (72, 0, 4) Sector 48058b00204041 ┆H @A2.2.4.10 VDU SPLIT DATA OUTPUTTER module ....................... 4.2.2.4.11 VDU SPLIT DATA USER INTERFACE. r retur Under redigering nu Ukendt dokument Fundet I brug nu Allerede p> systemdiskette ┆
0x48500…48600 (72, 0, 5) Sector 4806ff00204041 ┆H @A 1 4.2.2.4.12 VDU SPLIT DATA SPI module .... 4.2.2.4.13 VDU SPLIT DATA EHP modu┆
0x48600…48700 (72, 0, 6) Sector 4807ff00204041 ┆H @Ale .... 4.2.2.4.14 VDU SPLIT CONTROL INPUTTER module ..................... 4.2.2.4.15 VDU SPLIT CONTROL OUTPUTTER module ....................... 4.2.2.4.16 VDU SPLIT CONTROL USER INTER- ┆
0x48700…48800 (72, 0, 7) Sector 4608ff00204041 ┆F @A FACE module .................. 4.2.2.4.17 VDU SPLIT CONTROL SPI module . 4.2.2.4.18 VDU SPLIT CONTROL EHP ........ 4.2.2.4.19 OCR OUTPUTTER module ......... 4.2.2.4.19.1 Functional Specification .. ┆
0x48800…48900 (72, 0, 8) WangDocumentHead {hdr=WangSectHead {next=(72,0, 9), len=0xff, h3=41204041}, f00=»2040A «, f01=»CPS/SDS/028 «, f02=»pan «, f03=»HKI «, f04=»Fra 4.2.2 «, f05=19-04-82 15:25, f06=» 16 «, f07=»24 «, f08=» 44228 «, f09=03-10-84 12:29, f10=» «, f11=»00 «, f12=» 2 «, f13=01-10-84 13:50, f14=03-10-84 12:41, f15=»0161A «, f16=» 81 «, f17=» 24 «, f18=»34 «, f19=» 964 «, f20=» 50468 «, f21=» «, f22=» ` «, f99=020010000110052710110280aaca15050000000000000142034401df}
0x48900…48a00 (72, 0, 9) Sector 480a5100204041 ┆H Q @A H H H F F F F = = = = < < < < ; ; ; ; : : : : 9 9 9 9 9 8 8 8 8 7 7 7 6 6 6 6 5 5 5 5 5 5 4 4 4 4 4 3 3 3 3 2 2 2 2 1 1 1 1 1 0 0 0 / / / / . . . . - - - - , , , , H:H2H3H4H6G9G>G0G2G6F8F: ┆
0x48a00…48b00 (72, 0, 10) Sector 480ba600204041 ┆H & @A 1 CPS/SDS/028 840901 I/O CONTROL DETAILED DESIGN SPECIFICATION ISSUE 1 CAMPS =6)M2&*/=MM, > I!e=6 !Z="(=e*$<kas#r 9x2"<! <6 M8)I:^=~ B#.!#<6 ! <6 M&&:!<~ J#.:!<2.=M2┆
0x48b00…48c00 (72, 0, 11) Sector 480cff00204041 ┆H @A 1 1 4.2.2 LTUX Handler┆
0x48c00…48d00 (72, 0, 12) Sector 480dff00204041 ┆H @A Sub-Package ............... 4.2.2.1 Functional Specification ........... 4.2.2.1.1 Functional Breakdown ........... 4.2.2.1.1-1 VDU Handler Functions ...... 4.2.2.1.1-2 MSTP Handler Function ...... ┆
0x48d00…48e00 (72, 0, 13) Sector 480eff00204041 ┆H @A 4.2.2.1.1-3 PTP/PTR Handler Function ... 4.2.2.1.1-4 TRC/TRP Handler Function ... 4.2.2.1.1-5 OCR Handler Function ....... 4.2.2.1.2 Functional Description ......... 4.2.2.2 Software Structure .............┆
0x48e00…48f00 (72, 0, 14) Sector 480fff00204041 ┆H @A.... 4.2.2.2.1 VDU Protocols .................. 4.2.2.2.2 OCR Protocol ................... 4.2.2.2.3 LSL-Protocol ................... 4.2.2.3 Data Flow and Control Logic ........ 4.2.3.3.1 VDU Handler┆
0x48f00…49000 (72, 0, 15) Sector 4800ff00204041 ┆H @A Flow ............... 4.2.2.3.1-1 VDU Protocol Data Flow and Control Logic............... 4.2.2.3.1.2 VDU SPLIT CONTROL Data Flow and Control Logic........... 4.2.2.3.1.3 VDU SPLIT DATA Data ┆
0x49000…49100 (73, 0, 0) Sector 4901ff00203041 ┆I 0Aiption ... 4.2.1.6.5.2 Interface Definition ..... 4.2.1.6.6 FH Line Incarnation Offset ... 4.2.1.6.6.1 Functional Description ... 4.2.1.6.6.2 Interface Definition ..... 4.2.1.6.7 FH Group Incarn┆
0x49100…49200 (73, 0, 1) Sector 4902ff00203041 ┆I 0Aation Offset .. 4.2.1.6.7.1 Functional Description ... 4.2.1.6.7.2 Interface Definition ..... 4.2.1.6.8 FH Element Offset In Group ... 4.2.1.6.8.1 Functional Description ... 4.2.1.6.8.2 Interfac┆
0x49200…49300 (73, 0, 2) Sector 4903ff00203041 ┆I 0Ae Definition ..... 4.2.1.6.9 FH Cursor Position ........... 4.2.1.6.9.1 Functional Description ... 4.2.1.6.9.2 Interface Definition ..... 4.2.1.6.10 FH Set Cursor .............. 4.2.1.6.10.1 Fun┆
0x49300…49400 (73, 0, 3) Sector 4904ec00203041 ┆I l 0Actional Description .. 4.2.1.6.10.2 Interface Definition .... 4.2.1.6.11 FH Put Cursor Pos. ......... 4.2.1.6.11.1 Functional Description .. 4.2.1.6.11.2 Interface Definition .... e hvilket? ┆
0x49400…49500 (73, 0, 4) Sector 4905ff00203041 ┆I 0A 1 4.2.1.6.12 FH Group VDU Consumption ... 4.2.1.6.12.1 Functional Description┆
0x49500…49600 (73, 0, 5) Sector 4906ff00203041 ┆I 0A .. 4.2.1.6.12.2 Interface Definition .... 4.2.1.6.13 FH Put First Line Disp. .... 4.2.1.6.13.1 Functional Description .. 4.2.1.6.13.2 Interface Definition .... 4.2.1.6.14 FH Put VDU Codes .....┆
0x49600…49700 (73, 0, 6) Sector 4907ff00203041 ┆I 0A...... 4.2.1.6.14.1 Functional Description .. 4.2.1.6.14.2 Interface Description ... 4.2.1.6.15 FH Output Group ............ 4.2.1.6.15.1 Functional Description .. 4.2.1.6.15.2 Interface Definit┆
0x49700…49800 (73, 0, 7) Sector 1d08ff00203041 ┆ 0Aion .... 4.2.1.6.16 FH Output Line ............. 4.2.1.6.16.1 Functional Description .. 4.2.1.6.16.2 Interface Definition .... 4.2.1.6.17 FH Output Text ............. 4.2.1.6.17.1 Functional Des┆
0x49800…49900 (73, 0, 8) WangDocumentHead {hdr=WangSectHead {next=(73,0, 9), len=0xff, h3=41203041}, f00=»2030A «, f01=»CPS/SDS/028 «, f02=»bk «, f03=»HKI «, f04=»f.n. 4.2.1.4.5.5.-6 «, f05=16-04-82 12:30, f06=» 9 «, f07=»28 «, f08=» 28434 «, f09=05-02-85 08:17, f10=» «, f11=»01 «, f12=» 13 «, f13=04-02-85 16:53, f14=06-02-85 15:30, f15=»0161A «, f16=» 32 «, f17=» 25 «, f18=»28 «, f19=» 560 «, f20=» 58606 «, f21=» «, f22=» «, f99=020010000110052730110380aa8a37040000000000000142038c00df}
0x49900…49a00 (73, 0, 9) Sector 490a2000203041 ┆I 0A I I I I DOKUMENTOVERSIGT Dokument nr: Dokumentnavn: OpOpOp: OpOpOp DOKUMENTOVERSIGT Dokument ┆
0x49a00…49b00 (73, 0, 10) Sector 490ba600203041 ┆I & 0A 1 CPS/SDS/028 850301 I/O CONTROL DETAILED DESIGN SPECIFICATION ISSUE 1 CAMPS =6)M2&*/=MM, > I!e=6 !Z="(=e*$<kas#r 9x2"<! <6 M8)I:^=~ B#.!#<6 ! <6 M&&:!<~ J#.:!<2.=M2┆
0x49b00…49c00 (73, 0, 11) Sector 490c4a00203041 ┆I J 0A 1 I:^=~ B[.Mr)Cp.:]=~ Bp.MP- Rm.> IM)-MI,:^=~ B~.> IMB'IM2& 9x2"<!Z="(=^#Vk"$<:]=2#<:^=~ J6.! <6 M8) R6.> I! <6 M8)I!h=6 ! =6 M")IM"):g=~ J /:h=2>=M?.Mj': < Zn.C / E*:=k 0wM% !;=4C┆
0x49c00…49d00 (73, 0, 12) Sector 490dff00203041 ┆I 0A 1 TABLE OF CONTENTS 1 ┆
0x49d00…49e00 (73, 0, 13) Sector 490eff00203041 ┆I 0A 4.2.1.5 Common Format Handler Data ....... 4.2.1.6 Common Procedures ................ 4.2.1.6.1 FH Get Operation ............. 4.2.1.6.1.1 Functional Description ... 4.2.1.6.1.2 Interface Definition .....┆
0x49e00…49f00 (73, 0, 14) Sector 490fff00203041 ┆I 0A 4.2.1.6.2 FH Return Operation .......... 4.2.1.6.2.1 Functional Description ... 4.2.1.6.2.2 Interface Definition ..... 4.2.1.6.3 FH Return Pending ............ 4.2.1.6.3.2 Interface Definition ┆
0x49f00…4a000 (73, 0, 15) Sector 4900ff00203041 ┆I 0A..... 4.2.1.6.4 FH Return Done ............... 4.2.1.6.4.1 Functional Description ... 4.2.1.6.4.2 Interface Definition ..... 4.2.1.6.5 FH Kill Requestor ............ 4.2.1.6.5.1 Functional Descr┆
0x4a000…4a100 (74, 0, 0) Sector 4a01ff00204041 ┆J @AFlow and Control Logic............... 4.2.2.3.2 OCR Handler Flow ............... 4.2.2.3.3 Low Speed Line Handler Flow .... 4.2.2.4 Module Specification ............... 4.2.2.4.1 VDU INPUTTER modu┆
0x4a100…4a200 (74, 0, 1) Sector 4a02ff00204041 ┆J @Ale ............ 4.2.2.4.2 VDU OUTPUTTER module ........... 4.2.2.4.3 VDU PROT CONT module ........... 4.2.2.4.4 VDU CONTROLLER module .......... 4.2.2.4.5 VDU SUBDEVICE INTERFACE module . 4.2.2.4.6 V┆
0x4a200…4a300 (74, 0, 2) Sector 4a03ff00204041 ┆J @ADU SPI module ................. 4.2.2.4.7 VDU EHP module ................. 4.2.2.4.8 VDU PROTOCOL module ............ 4.2.2.4.8.1 Functional Specification ... 4.2.2.4.8.2 Module Interface .......... ┆
0x4a300…4a400 (74, 0, 3) Sector 4a04ff00204041 ┆J @A 4.2.2.4.8.3 Module components .......... 4.2.2.4.8.4 Data Description ........... 4.2.2.4.8.5 Module Design .............. 4.2.2.4.9 VDU SPLIT DATA INPUTTER module ....................... 4.┆
0x4a400…4a500 (74, 0, 4) Sector 4a058b00204041 ┆J @A2.2.4.10 VDU SPLIT DATA OUTPUTTER module ....................... 4.2.2.4.11 VDU SPLIT DATA USER INTERFACE. r retur Under redigering nu Ukendt dokument Fundet I brug nu Allerede p> systemdiskette ┆
0x4a500…4a600 (74, 0, 5) Sector 4a06ff00204041 ┆J @A 1 4.2.2.4.12 VDU SPLIT DATA SPI module .... 4.2.2.4.13 VDU SPLIT DATA EHP modu┆
0x4a600…4a700 (74, 0, 6) Sector 4a07ff00204041 ┆J @Ale .... 4.2.2.4.14 VDU SPLIT CONTROL INPUTTER module ..................... 4.2.2.4.15 VDU SPLIT CONTROL OUTPUTTER module ....................... 4.2.2.4.16 VDU SPLIT CONTROL USER INTER- ┆
0x4a700…4a800 (74, 0, 7) Sector 4908ff00204041 ┆I @A FACE module .................. 4.2.2.4.17 VDU SPLIT CONTROL SPI module . 4.2.2.4.18 VDU SPLIT CONTROL EHP ........ 4.2.2.4.19 OCR OUTPUTTER module ......... 4.2.2.4.19.1 Functional Specification .. ┆
0x4a800…4a900 (74, 0, 8) Sector 4a09ff41204041 ┆J A @A2040A I/O CONTROL CPS/SDS/028 pan HKI Fra 4.2.2 19 04 82 15 25 16 24 44228 14 05 82 13 14 03 48 13 05 82 15 20 05 09 83 15 14 0161A 116 19 25 952 47252 ' *J B d _┆
0x4a900…4aa00 (74, 0, 9) Sector 4a0a7400204041 ┆J t @A J J J I I I I H H H F F F = = = = < < < < ; ; ; ; : : : : : : : : 9 9 9 9 9 9 9 8 8 8 8 8 8 8 8 7 7 7 7 7 7 7 6 6 6 6 6 6 6 5 5 5 5 5 5 4 4 4 4 4 3 3 3 3 3 3 2 2 2 2 2 2 2 1 1 1 0 0 0 0 / / / / . . . . . - - - - , , , , , , + + + + + ┆
0x4aa00…4ab00 (74, 0, 10) Sector 4a0b9f00204041 ┆J @A 1 CPS/SDS/028 820514 I/O CONTROL DETAILED DESIGN SPECIFICATION CAMPS 6WC*-!/=6)M2&*/=MM, > I!e=6 !Z="(=e*$<kas#r 9x2"<! <6 M8)I:^=~ B#.!#<6 ! <6 M&&:!<~ J#.:!<2.=M2┆
0x4ab00…4ac00 (74, 0, 11) Sector 4a0cff00204041 ┆J @A 1 1 4.2.2 LTUX Handler┆
0x4ac00…4ad00 (74, 0, 12) Sector 4a0dff00204041 ┆J @A Sub-Package ............... 4.2.2.1 Functional Specification ........... 4.2.2.1.1 Functional Breakdown ........... 4.2.2.1.1-1 VDU Handler Functions ...... 4.2.2.1.1-2 MSTP Handler Function ...... ┆
0x4ad00…4ae00 (74, 0, 13) Sector 4a0eff00204041 ┆J @A 4.2.2.1.1-3 PTP/PTR Handler Function ... 4.2.2.1.1-4 TRC/TRP Handler Function ... 4.2.2.1.1-5 OCR Handler Function ....... 4.2.2.1.2 Functional Description ......... 4.2.2.2 Software Structure .............┆
0x4ae00…4af00 (74, 0, 14) Sector 4a0fff00204041 ┆J @A.... 4.2.2.2.1 VDU Protocols .................. 4.2.2.2.2 OCR Protocol ................... 4.2.2.2.3 LSL-Protocol ................... 4.2.2.3 Data Flow and Control Logic ........ 4.2.3.3.1 VDU Handler┆
0x4af00…4b000 (74, 0, 15) Sector 4a00ff00204041 ┆J @A Flow ............... 4.2.2.3.1-1 VDU Protocol Data Flow and Control Logic............... 4.2.2.3.1.2 VDU SPLIT CONTROL Data Flow and Control Logic........... 4.2.2.3.1.3 VDU SPLIT DATA Data ┆
0x4b000…4b100 (75, 0, 0) WangDocumentHead {hdr=WangSectHead {next=(75,0, 1), len=0xff, h3=41204041}, f00=»2040A «, f01=»I/O CONTROL CPS/SDS/028 «, f02=»pan «, f03=»HKI «, f04=»Fra 4.2.2 «, f05=19-04-82 15:25, f06=» 16 «, f07=»24 «, f08=» 44228 «, f09=14-05-82 13:14, f10=» «, f11=»01 «, f12=» 30 «, f13=13-05-82 15:20, f14=18-05-82 09:33, f15=»0161A «, f16=»116 «, f17=» 19 «, f18=»23 «, f19=» 984 «, f20=» 47234 «, f21=» «, f22=» «, f99=020010000110052710110280aaca15050000000000000142036401df}
0x4b100…4b200 (75, 0, 1) Sector 4b027400204041 ┆K t @A K K J J I I I I I H H H H = = = = < < < < ; ; ; ; : : : : : : : : 9 9 9 9 9 9 9 8 8 8 8 8 8 8 8 7 7 7 7 7 7 7 6 6 6 6 6 6 6 5 5 5 5 5 5 4 4 4 4 4 3 3 3 3 3 3 2 2 2 2 2 2 2 1 1 1 0 0 0 0 / / / / . . . . . - - - - , , , , , , + + + + + ┆
0x4b200…4b300 (75, 0, 2) Sector 4b039f00204041 ┆K @A 1 CPS/SDS/028 820514 I/O CONTROL DETAILED DESIGN SPECIFICATION CAMPS 6WC*-!/=6)M2&*/=MM, > I!e=6 !Z="(=e*$<kas#r 9x2"<! <6 M8)I:^=~ B#.!#<6 ! <6 M&&:!<~ J#.:!<2.=M2┆
0x4b300…4b400 (75, 0, 3) Sector 4b04ff00204041 ┆K @A 1 1 4.2.2 LTUX Handler┆
0x4b400…4b500 (75, 0, 4) Sector 4b05ff00204041 ┆K @A Sub-Package ............... 4.2.2.1 Functional Specification ........... 4.2.2.1.1 Functional Breakdown ........... 4.2.2.1.1-1 VDU Handler Functions ...... 4.2.2.1.1-2 MSTP Handler Function ...... ┆
0x4b500…4b600 (75, 0, 5) Sector 4b06ff00204041 ┆K @A 4.2.2.1.1-3 PTP/PTR Handler Function ... 4.2.2.1.1-4 TRC/TRP Handler Function ... 4.2.2.1.1-5 OCR Handler Function ....... 4.2.2.1.2 Functional Description ......... 4.2.2.2 Software Structure .............┆
0x4b600…4b700 (75, 0, 6) Sector 4b07ff00204041 ┆K @A.... 4.2.2.2.1 VDU Protocols .................. 4.2.2.2.2 OCR Protocol ................... 4.2.2.2.3 LSL-Protocol ................... 4.2.2.3 Data Flow and Control Logic ........ 4.2.3.3.1 VDU Handler┆
0x4b700…4b800 (75, 0, 7) Sector 4a08ff00204041 ┆J @A Flow ............... 4.2.2.3.1-1 VDU Protocol Data Flow and Control Logic............... 4.2.2.3.1.2 VDU SPLIT CONTROL Data Flow and Control Logic........... 4.2.2.3.1.3 VDU SPLIT DATA Data ┆
0x4b800…4b900 (75, 0, 8) Sector 00000000000000 ┆ ┆
[…0x17…]
