OctetView
0x00000…00100 (0, 0, 0) Sector 00874130303837 ┆ A0087A ┆
0x00100…00200 (0, 0, 1) Sector 00000000000000 ┆ ┆
0x00200…00300 (0, 0, 2) Sector ff00e0fff8ffff ┆ ` x p | x p ┆
0x00300…00306 (0, 0, 3) WangDocument {d00=0x13, d01=0x48, d02=0x41, ptr=(29,0, 0), d05=0x00}
0x00306…0030c WangDocument {d00=0x13, d01=0x49, d02=0x41, ptr=(30,0, 0), d05=0x00}
0x0030c…00312 WangDocument {d00=0x13, d01=0x50, d02=0x41, ptr=(18,0, 8), d05=0x00}
0x00312…00318 WangDocument {d00=0x13, d01=0x51, d02=0x41, ptr=(27,0, 0), d05=0x00}
0x00318…0031e WangDocument {d00=0x13, d01=0x53, d02=0x41, ptr=(35,0, 0), d05=0x00}
0x0031e…00324 WangDocument {d00=0x13, d01=0x54, d02=0x41, ptr=(56,0, 0), d05=0x00}
0x00324…0032a WangDocument {d00=0x13, d01=0x55, d02=0x41, ptr=(59,0, 0), d05=0x00}
0x0032a…00340 13 55 41 40 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ┆ UA@ ┆
0x00340…00360 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 ┆ ┆
[…0x4…]
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 2a ┆ *┆
0x00400…00500 (0, 0, 4) Sector 00000000000000 ┆ ┆
0x00500…00600 (0, 0, 5) Sector 86312020202020 ┆ 1 8 7 Q? > 7 d N ~<) 0uH &4'>( 1c5 & & ┆
0x00600…00700 (0, 0, 6) Sector 421c402600415b ┆B @& A[' X X% % PO P ; SA C g x g V W O : 1353A g < {C < { ; 3 ) h ┆
0x00700…00800 (0, 0, 7) Sector 00000000000000 ┆ ┆
[…0x8…]
0x01000…01100 (1, 0, 0) WangDocumentBody
[…0x2…]
0x01300…01400 (1, 0, 3) Sector 00000000000000 ┆ ┆
[…0x4…]
0x01800…01900 (1, 0, 8) WangDocumentBody
[…0xc…]
0x02500…02600 (2, 0, 5) Sector 00000600134841 ┆ HAts and Project References Special for Section 5.18 ........................... 5-684 5.18.1.3 Terms and Abbreviations Special for Section 5.18 ............... 5-684 5.18.2.3 Characteristics ............┆
0x02600…02700 (2, 0, 6) Sector 0207ff00134841 ┆ HAge Functions .............. 5-730 5.19.1.3 Package Control ................ 5-733 5.19.1.4 Characteristics ................ 5-733 5.19.1.5 Design and Construction ........ 5-734 5.19.1.6 Documentation .................. 5-734 ┆
0x02700…02800 (2, 0, 7) Sector 0108ff00134841 ┆ HA 5.19.2 Environment ........................ 5-734 5.19.2.1 Standard Hardware, Firmware and Software ....................... 5-734 5.19.2.2 External Interfaces ............ 5-734 5.19.2.3 Package Interfaces ............. 5-7┆
0x02800…02900 (2, 0, 8) WangDocumentBody
[…0x7b…]
0x0a400…0a500 (10, 0, 4) Sector 0a05ff00134941 ┆ IAminal Package TG Table Generation (Software in SSP) THP Traffic Handling Package THS Terminal Handling System TIA TDX Bus Interface Adapter TM Terminal Manager TMP Table Management Package TOC Time of Occurrence TOS Time of Occurrence TP Te┆
0x0a500…0a600 (10, 0, 5) Sector 0a06ff00134941 ┆ IAle Printer TRANSID Transaction Identification TRC Tape Relay Center TS Time Stamp TSN Transmission Serial Number (Identical to CSN) UGI User Group Identification VDU Visual Display Unit WDP Watchdog Processor X25 Protocol Name Z80 Zilog 80 ┆
0x0a600…0a700 (10, 0, 6) Sector 00000600134941 ┆ IA FIFO First In, First Out FMS File Management System HDB Historical Data Base HDLC High Level Data Link Control HQ Headquarters HW Hardware ICB Item Control Block ICD Interface Control Document ICHSN Incoming Channel Serial Number IDF Inter┆
0x0a700…0a800 (10, 0, 7) Sector 00000000000000 ┆ ┆
0x0a800…0a900 (10, 0, 8) WangDocumentBody
[…0x7f…]
0x12800…12900 (18, 0, 8) WangDocumentHead {hdr=WangSectHead {next=(18,0, 9), len=0xff, h3=41135041}, f00=»1350A «, f01=»CPS/SDS/001 «, f02=»vhn «, f03=» «, f04=»Kapitel 2 «, f05=09-10-81 05:59, f06=» «, f07=»01 «, f08=» 111 «, f09=01-04-82 15:00, f10=» «, f11=»09 «, f12=» 4 «, f13=16-10-81 13:26, f14=02-04-82 10:16, f15=»0087A «, f16=» 12 «, f17=» «, f18=»10 «, f19=» 216 «, f20=» 115 «, f21=» «, f22=» «, f99=800010000110066610110480aaca15050000000000000037034400df}
0x12900…12a00 (18, 0, 9) WangDocumentBody
[…0xc…]
0x13600…13700 (19, 0, 6) Sector 0000e200135141 ┆ b QA power sources are fed into the Computer Rack-Assembly and the Line Termination Rack-Assembly through RF line filters. The filtered power sources are distributed to the power source inputs of the racks in each Assembly. eparation - Prepare predefin┆
0x13700…13800 (19, 0, 7) Sector 1208ff00135041 ┆ PA 1 e) The users of CAMPS (that is the staff of the COMMCEN and the staff of the various NATO organizations served by the COMMCEN) are able to retrieve messages from either an on-line ┆
0x13800…13900 (19, 0, 8) WangDocumentBody
[…0x77…]
0x1b000…1b100 (27, 0, 0) WangDocumentHead {hdr=WangSectHead {next=(27,0, 1), len=0xff, h3=41135141}, f00=»1351A «, f01=»CPS/SDS/001 «, f02=»vhn «, f03=»TDJ «, f04=»Kapitel 3 «, f05=09-10-81 06:00, f06=» «, f07=»03 «, f08=» 155 «, f09=23-04-82 11:28, f10=» «, f11=»01 «, f12=» 33 «, f13=23-04-82 11:29, f14=20-02-84 09:08, f15=»0087A «, f16=» 26 «, f17=» «, f18=»07 «, f19=» 428 «, f20=» 278 «, f21=» «, f22=» «, f99=810010000110066610110480aaca15050000000000000037038600df}
0x1b100…1b200 (27, 0, 1) WangDocumentBody
[…0x1e…]
0x1d000…1d100 (29, 0, 0) WangDocumentHead {hdr=WangSectHead {next=(29,0, 1), len=0xff, h3=41134841}, f00=»1348A «, f01=»CPS/SDS/001 «, f02=»vhn «, f03=» «, f04=»Indholdsfortegnelse «, f05=09-10-81 05:57, f06=» «, f07=»12 «, f08=» 470 «, f09=21-04-82 16:04, f10=» «, f11=»03 «, f12=» 81 «, f13=21-04-82 16:07, f14=21-04-82 16:10, f15=»0087A «, f16=» 18 «, f17=» «, f18=»42 «, f19=» 548 «, f20=» 839 «, f21=» «, f22=» «, f99=010010000110062710110480aaca15050000000000000037039d00df}
0x1d100…1d200 (29, 0, 1) WangDocumentBody
[…0xe…]
0x1e000…1e100 (30, 0, 0) WangDocumentHead {hdr=WangSectHead {next=(30,0, 1), len=0xff, h3=41134941}, f00=»1349A «, f01=»CPS/SDS/001 «, f02=»vhn «, f03=»KR «, f04=»kapitel 1 «, f05=09-10-81 05:59, f06=» 2 «, f07=»50 «, f08=» 3149 «, f09=21-09-82 17:43, f10=» «, f11=»00 «, f12=» 62 «, f13=13-04-82 14:43, f14=02-10-85 13:57, f15=»0087A «, f16=» 19 «, f17=» 3 «, f18=»15 «, f19=» 312 «, f20=» 4119 «, f21=» «, f22=» «, f99=510010000110066610110480aaca15050000000000000037036300df}
0x1e100…1e200 (30, 0, 1) WangDocumentBody
[…0x7…]
0x1e900…1ea00 (30, 0, 9) Sector 1e0aff00135241 ┆ RA * * * *VDUs * * CH. 2 * * * * *MSPs * * CH. 3 * * * * *.VDU * * CH. 4 * * * * *.MSP * * CH. 5 * * * * * * * CH. 6 * * ┆
0x1ea00…1eb00 (30, 0, 10) Sector 1e0be400135241 ┆ d RA * * * * * CH. 7 * * * * * * * CH. 8 * * * * * * * ----------*-------*-------*-------* *-------*----* Fig. 4.1.1.3-5 Site (sheet 3 of 3) 1.1.3-5 Site (sheet 1 o┆
0x1eb00…1ec00 (30, 0, 11) Sector 1e0c7800135241 ┆ x RA 1 This page intentionally left blank. * CH. 1-4 * L * L * L * * * *Os * 40 * ADAPT. 1B * * * * * * * * * CH. 1 * * * * L * O ┆
0x1ec00…1ed00 (30, 0, 12) Sector 1e0dff00135241 ┆ RA 1 4.1.1.3.2.2 External Circuits: CCIS, SCARS, TARE. Terminals: VDU and Printer for S/W development in the CSSI Site These terminals and external circuits are connected to the┆
0x1ed00…1ee00 (30, 0, 13) Sector 1e0eff00135241 ┆ RA LTUs of the CAMPS Main Site. Fig. 4.1.1.3-6 shows the Modules of the Channel Unit Assembly. It should be noted that although 6 LTU positions are identified, only 4 LTUs can be mounted at a time. The electrical cables leaving the modules of th┆
0x1ee00…1ef00 (30, 0, 14) Sector 1e0fff00135241 ┆ RAe crate are terminated for external connection in the Filter Box facility in RACK F. Fig. 4.1.1.3-7 gives a presentation of: a) the modules/items of the distribution equipment supplied for each site. b) the number of LTU modules supplied, and ┆
0x1ef00…1f000 (30, 0, 15) Sector 1e00ff00135241 ┆ RAthe application of each module. The S/W development equipment will be delivered for the one site chosen for S/W development (the CSSI site). Signatures: X: Item mounted : Item not supplied (CCIS): Specification of the external circui┆
0x1f000…1f100 (31, 0, 0) WangDocumentBody
[…0x3f…]
0x23000…23100 (35, 0, 0) WangDocumentHead {hdr=WangSectHead {next=(35,0, 1), len=0xff, h3=41135341}, f00=»1353A «, f01=»CPS/SDS/001 «, f02=»vhn «, f03=»KR «, f04=»Kapitel 4.1.2 «, f05=09-10-81 06:03, f06=» «, f07=»04 «, f08=» 126 «, f09=29-10-81 10:44, f10=» «, f11=»01 «, f12=» 114 «, f13=15-10-81 13:40, f14=24-03-86 11:10, f15=»0087A «, f16=» 19 «, f17=» «, f18=»05 «, f19=» 208 «, f20=» 240 «, f21=» «, f22=» «, f99=700010000110066610110480aaca15050000000000000037034900df}
0x23100…23200 (35, 0, 1) WangDocumentBody
[…0xb…]
0x23d00…23e00 (35, 0, 13) Sector 00000000000000 ┆ ┆
[…0x2…]
0x24000…24100 (36, 0, 0) WangDocumentBody
[…0x4b…]
0x28c00…28d00 (40, 0, 12) Sector 00000000000000 ┆ ┆
[…0x3…]
0x29000…29100 (41, 0, 0) WangDocumentBody
[…0xef…]
0x38000…38100 (56, 0, 0) WangDocumentHead {hdr=WangSectHead {next=(56,0, 1), len=0xff, h3=41135441}, f00=»1354A «, f01=»CPS/SDS/001 «, f02=»vhn «, f03=»KR «, f04=»Kapitel 4.2 «, f05=09-10-81 06:04, f06=» «, f07=»09 «, f08=» 270 «, f09=29-10-81 10:44, f10=» «, f11=»00 «, f12=» 22 «, f13=29-10-81 10:48, f14=02-04-82 10:16, f15=»0087A «, f16=» 50 «, f17=» «, f18=»09 «, f19=» 804 «, f20=» 292 «, f21=» «, f22=» «, f99=120010000110066610110480aaca1505000000000000003703fc00df}
0x38100…38200 (56, 0, 1) WangDocumentBody
[…0x2e…]
0x3b000…3b100 (59, 0, 0) WangDocumentHead {hdr=WangSectHead {next=(59,0, 1), len=0xff, h3=41135541}, f00=»1355A «, f01=»CPS/SDS/001 «, f02=»vhn «, f03=»KR «, f04=»Kapitel 4.3 «, f05=09-10-81 06:06, f06=» «, f07=»03 «, f08=» 39 «, f09= - - : , f10=» «, f11=» «, f12=» «, f13= - - : , f14=22-02-84 09:52, f15=»0087A «, f16=» 28 «, f17=» «, f18=»03 «, f19=» 380 «, f20=» 39 «, f21=» «, f22=» «, f99=020010000110066610a10a80aaca15050000000000000037037d00df}
0x3b100…3b200 (59, 0, 1) WangDocumentBody
[…0x6…]
0x3b800…3b900 (59, 0, 8) Sector 3b096500135541 ┆; e UAactive PU. In table 4.3.2.1.2-1 below, the co-operation of the above facilities are defined. All input from external lines are stopped, when a complete message is received (Handled by THP). All input from terminals are stopped after a limited ┆
0x3b900…3ba00 (59, 0, 9) Sector 3b0aff00135541 ┆; UA 1 1 Start-up of Start-up o┆
0x3ba00…3bb00 (59, 0, 10) Sector 3b0bff00135541 ┆; UAf Dualized Off-Line Active PU Standby PU Operation Operation IO BUS A enable IO BUS A enable IO BUS A enable IO BUS A enable IO BUS B disable IO BUS B enable IO BUS B dis┆
0x3bb00…3bc00 (59, 0, 11) Sector 3b0cff00135541 ┆; UAable IO BUS B disable Manual enable of: - floppy disk - off-line disk Assumption: IO Bus A is connected to the active PU Table 4.3.2.1.2-1 IO BUS Hardw┆
0x3bc00…3bd00 (59, 0, 12) Sector 3b0d1700135541 ┆; UAare Connections - reconfiguration possibilities for DISK, TDX-bus system, LTU and LTUX equipment. The Configuration Table contains a description of all CAMPS equipment. The SSC in the active PU updates this table, when: - operator commands ┆
0x3bd00…3be00 (59, 0, 13) Sector 3b0eff00135541 ┆; UA 1 4.3.2.1.3 Software Control During on-line operation, the assignment/deassignment of disk drives are performed by the SSC, whereas the volume handling is split: - the mirrored an┆
0x3be00…3bf00 (59, 0, 14) Sector 3b0fff00135541 ┆; UAd the floppy disk volumes are controlled by the SSC via operator commands. - the off-line disk volumes are controlled by the TEP (via supervisor commands). However, during start-up, the PU in question performs assignment and volume handling. D┆
0x3bf00…3c000 (59, 0, 15) Sector 3b00ff00135541 ┆; UAuring off-line operation, the off-line PU performs assign/deassign and mount/dismount. 4.3.2.1.4 Reconfiguration A suspected erroneous disk drive may be connected to the off-line PU. A repaired disk drive can be connected to the active PU. Th┆
0x3c000…3c100 (60, 0, 0) Sector 3c01ff00135541 ┆< UAration A CAMPS site configuration contains: - two mirrored disk drives - one off-line disk drive - one floppy disk drive The mirrored disk drives are always assigned to the active PU, except when a drive is erroneous. The off-line disk dri┆
0x3c100…3c200 (60, 0, 1) Sector 3c02ff00135541 ┆< UAve may be assigned to either the active or the off-line PU. The off-line disk is used in performing the following active PU functions: - retrieval of off-loaded messages - start-up of active operation - back-up of the system parameter file - ┆
0x3c200…3c300 (60, 0, 2) Sector 3c03f600135541 ┆< v UAoff-loading of messages - memory dump and trace information storage - loading of modified application software and for the following standby PU function: - start-up of standby operation and for the following off-line PU functions: , and THP┆
0x3c300…3c400 (60, 0, 3) Sector 3c04ff00135541 ┆< UA 1 - start-up of off-line operation - source for memory dump and trace information print-out - source for load of M&D SW The mirrored and off-line disks are permanently defined at┆
0x3c400…3c500 (60, 0, 4) Sector 3c05ff00135541 ┆< UA start-up time i.e. no interchange between mirrored and off-line disk drives takes place. The floppy disk is used as storage for: - modified application software, which are generated at the CSSI and loaded at CAMPS sites. - M&D and OU programs┆
0x3c500…3c600 (60, 0, 5) Sector 3c06ff00135541 ┆< UA. - memory dump and trace information 4.3.2.1.2 Hardware Control The SSC controls via the watchdog whether all DISKs in common can be accessed from either IO BUS-A or B, or from both A and B, or from none. Access means that the PU "take owner┆
0x3c600…3c700 (60, 0, 6) Sector 3c07ff00135541 ┆< UAship", i.e. executes an IO instruction, which connects an IO BUS device to the PU issuing the command. The command has only effect if the IO BUS in question is not disabled by the watchdog. Via manual switches in the Channel Unit, it is possible to┆
0x3c700…3c800 (60, 0, 7) Sector 3b08ff00135541 ┆; UA override this decision and enable a specific device to be accessed via either of the IO BUSes. The use of the manual facility makes it possible to assign peripherals to the off-line PU and totally shield the off-line operations from those of the ┆
0x3c800…3c900 (60, 0, 8) Sector 3c09ff00135541 ┆< UA 1 a) Close-down and Die-out All input from external lines are stopped, when a complete message is received (Handled by THP). All input from terminals are stopped after a limited ┆
0x3c900…3ca00 (60, 0, 9) Sector 3c0aff00135541 ┆< UAtime (Handled by TEP). Hereafter, the system will slowly die out. When all queues are empty, all processing will be terminated and the PU disabled. b) Close-down and Save Queue Information All input/output to/from external lines are stopped┆
0x3ca00…3cb00 (60, 0, 10) Sector 3c0bff00135541 ┆< UA, when a complete message is received/transmitted (handled by THP). Terminal operators are given a limited time to stop all input. Having completed a transaction (incl. presentation) the terminal position is signed off. (TEP and SSC actions). Al┆
0x3cb00…3cc00 (60, 0, 11) Sector 3c0cff00135541 ┆< UAl remaining packages are commanded to stop execution and the current queue content are saved on disk by the CAMPS system function (CSF) package. 4.3.2 Equipment Resource Handling This section defines the: - modes of operation - hardware and ┆
0x3cc00…3cd00 (60, 0, 12) Sector 3c0dff00135541 ┆< UAsoftware control - reconfiguration possibilities for DISK, TDX-bus system, LTU and LTUX equipment. The Configuration Table contains a description of all CAMPS equipment. The SSC in the active PU updates this table, when: - operator commands ┆
0x3cd00…3ce00 (60, 0, 13) Sector 3c0e7000135541 ┆< p UA or - error fix-up procedures are executed. Device control is implemented via hardware and software. Fig. 4.3.1.5-1 Start-Up of On-Line Operations PS system supports on-line and off-line operations. The on-line modes of operation ┆
0x3ce00…3cf00 (60, 0, 14) Sector 3c0fff00135541 ┆< UA 1 The hardware control connects a device to either of the PUs. Also it ensures that active PU activities will not interfere with off-line PU activities. The hardware control is imp┆
0x3cf00…3d000 (60, 0, 15) Sector 3c00ff00135541 ┆< UAlemented by the SSC, but executed by the watchdog as described in section 4.3.3. The software control is handled by the SSC, which defines access and security rights for the users of the devices. 4.3.2.1 Disk Equipment 4.3.2.1.1 Modes of Ope┆
0x3d000…3d100 (61, 0, 0) Sector 3d013200135541 ┆= 2 UA software can be brought into operation. 4.3.1.4 Switch-Over During dualized operation, a switch-over to the standby PU will take place: - subsequent to a non-recoverable hardware or software error in the active PU (em┆
0x3d100…3d200 (61, 0, 1) Sector 3d02ff00135541 ┆= UA 1 4.3.1.7 Detailed Start-Up of On-Line Operations During start-up of on-line operations the CAMPS operating system (COPSY) is loaded and started at first. COPSY is the parent of al┆
0x3d200…3d300 (61, 0, 2) Sector 3d03ff00135541 ┆= UAl processes and assigns resources (e.g. memory, CPU, lines, access, and security rights) to its children based on a system status table. LTU and LTUX lines are assigned/deassigned by COPSY, whereas THP(LTU-lines), TEP (LTUX terminal lines), and THP┆
0x3d300…3d400 (61, 0, 3) Sector 3d04ff00135541 ┆= UA (LTUX-TRC lines) opens/closes the lines. During assignment, the watchdog is commanded to execute physical connection as described in section 4.3.3. Processes and procedures are given start-up information, which defines the type of start-up. So ┆
0x3d400…3d500 (61, 0, 4) Sector 3d05ff00135541 ┆= UAinitialization and recovery actions are performed decentralized. The mapping of recovery requirements to packages are defined in section 4.7. A description of disk start-up information is given in section 5.10.1.2.1.1. 4.3.1.8 Close-Down of CA┆
0x3d500…3d600 (61, 0, 5) Sector 3d06ff00135541 ┆= UAMPS Modes of Operation The operator can close all CAMPS modes of operation either ordered or non-ordered. During a non-ordered close down, the PU in question is physically isolated (the PU is disabled as described in section 4.3.3). If the acti┆
0x3d600…3d700 (61, 0, 6) Sector 3d07ff00135541 ┆= UAve PU is closed non-ordered an emergency switch-over will take place. During an ordered close down the concerned PU is commanded to stop execution. Having done so, the PU is disabled. For the active PU two types of ordered close-down are handled┆
0x3d700…3d800 (61, 0, 7) Sector 3c080900135541 ┆< UA: top input. Having completed a transaction (inclusive presentation) the terminal position is signed off. All remaining packages are commanded to stop processing and the standby PU is notified to become active. 4.3.1.5 Start-Up of CAMPS Modes ┆
0x3d800…3d900 (61, 0, 8) Sector 3d09ff00135541 ┆= UAof Operation The operator starts all CAMPS modes of operation. At first, the operator defines an initial hardware configuration via operator commands directly to the watchdog: - enable Pu - set PU in normal mode - connect disk to the PU in qu┆
0x3d900…3da00 (61, 0, 9) Sector 3d0aff00135541 ┆= UAestion - issue master clear (Refer to section 4.3.3 for a detailed description of these signals). Hereby a dialogue to a MIA PROM program executed by a CPU is set-up and the PU has access to a disk. The operator specifies a disk drive and the┆
0x3da00…3db00 (61, 0, 10) Sector 3d0bff00135541 ┆= UA above program loads a number of segments into RAM and starts execution. The loaded program performs further loading, which may be: - start-up active PU - start-up standby PU - start-up M&D in off-line PU - start-up OU in off-line PU - start-┆
0x3db00…3dc00 (61, 0, 11) Sector 3d0cff00135541 ┆= UAup SD&T in off-line PU - start-up TG in off-line PU Overleaf in figure 4.3.1.5-1, the start-up modes of on-line operations are illustrated. Prior to a start-up, a memory dump can be performed to the floppy disk or the off-line disk. Via OU softw┆
0x3dc00…3dd00 (61, 0, 12) Sector 3d0d4e00135541 ┆= N UAare, it can later be disassembled and printed at the operator printer. onitors the active and standby PU by the periodic reception of a "keep alive" message. The operator VDU contains a display of the CAMPS system status. The operator printer p┆
0x3dd00…3de00 (61, 0, 13) Sector 3d0eaa00135541 ┆= * UA 1 Fig. 4.3.1.5-1 Start-Up of On-Line Operations PS system supports on-line and off-line operations. The on-line modes of operation ┆
0x3de00…3df00 (61, 0, 14) Sector 3d0fff00135541 ┆= UA 1 4.3.1.6 Load of Modified Software 4.3.1.6.1 Load of Modified Application Software Prepared at the CSSI At the CSSI site new application software is developed and tested. On fl┆
0x3df00…3e000 (61, 0, 15) Sector 3d00ff00135541 ┆= UAoppy disk packs, the modified application software is transported to CAMPS sites, where it is copied to the mirrored disks or the off-line disk. At a subsequent switch-over or a start-up subsequent to an ordered close down, the modified application┆
0x3e000…3e100 (62, 0, 0) Sector 3e01ff00135541 ┆> UA 1 4.3.1.4 Switch-Over During dualized operation, a switch-over to the standby PU will take place: - subsequent to a non-recoverable hardware or software error in the active PU (em┆
0x3e100…3e200 (62, 0, 1) Sector 3e02ff00135541 ┆> UAergency switch-over). - subsequent to an operator switch-over command (ordered switch-over). The error detection is described in section 4.11. A switch-over implies, that: - the active PU is taken off-line by the watchdog. - the watchdog d┆
0x3e200…3e300 (62, 0, 2) Sector 3e03ff00135541 ┆> UAirects the standby PU to capture all peripherals and go into a recovery/restart procedure to restore CAMPS on-line operations. The active PU normally directs the watchdog to perform a switch-over, however, the watchdog executes automatically an em┆
0x3e300…3e400 (62, 0, 3) Sector 3e04ff00135541 ┆> UAergency switch-over, if: - no keep alive message is received from the active PU. - a non-recoverable hardware error (e.g. power down) is detected via the configuration control bus (refer section 4.3.3). 4.3.1.4.1 Emergency Switch-Over The f┆
0x3e400…3e500 (62, 0, 4) Sector 3e05ff00135541 ┆> UAaulty active PU is electrically disconnected from its peripherals and the standby PU is commanded to go active. The standby PU captures all peripherals and loads and starts the application software. The recovery actions based upon received checkpo┆
0x3e500…3e600 (62, 0, 5) Sector 3e062a00135541 ┆> * UAints are defined in section 4.7. Fig. 4.3.1-1 Dualized Operation ration ..................... 168 4.3.2 Equipment Resource Handling ....... 169 4.3.2.1 Disk┆
0x3e600…3e700 (62, 0, 6) Sector 3e07ff00135541 ┆> UA 1 4.3.1.4.2 Ordered Switch-Over All input/output to/from external lines are stopped, when a complete message is received/transmitted. Terminal operators are given a limited time t┆
0x3e700…3e800 (62, 0, 7) Sector 3d08ff00135541 ┆= UAo stop input. Having completed a transaction (inclusive presentation) the terminal position is signed off. All remaining packages are commanded to stop processing and the standby PU is notified to become active. 4.3.1.5 Start-Up of CAMPS Modes ┆
0x3e800…3e900 (62, 0, 8) Sector 3e09ff00135541 ┆> UAare residing on the off-line disk and on the floppy disk. The OU configuration is assigned the floppy disk or the off-line disk. OU programs are operated like M&D Programs. The SD&T and TG configuration (refer figure 4.3.1-3) at the development ┆
0x3e900…3ea00 (62, 0, 9) Sector 3e0aff00135541 ┆> UAsite (CSSI) is assigned VDU and printer on the IO BUS for control of operation and output of results. The SD&T and TG programs are residing on the floppy disk or on the off-line disk. Modified software (incl. M&D software) are generated at a flop┆
0x3ea00…3eb00 (62, 0, 10) Sector 3e0bff00135541 ┆> UApy disk for transportation to CAMPS sites. 4.3.1.3 Watchdog Operation The watchdog is an independent processor, which: - monitors and controls the CAMPS hardware as described in section 4.3.3. - determines and executes switch-over, thereby ┆
0x3eb00…3ec00 (62, 0, 11) Sector 3e0cd600135541 ┆> V UAauthority conflicts between the two processors are avoided. - provides an operator command interface from the operator VDU to both PUs, thereby enabling a software control of all CAMPS modes of operation. d. ed in this section, an outgoing messa┆
0x3ec00…3ed00 (62, 0, 12) Sector 3e0dff00135541 ┆> UA 1 - monitors the active and standby PU by the periodic reception of a "keep alive" message. The operator VDU contains a display of the CAMPS system status. The operator printer p┆
0x3ed00…3ee00 (62, 0, 13) Sector 3e0e5500135541 ┆> U UArovides a hard copy facility for system status print-out (e.g error reports). manual control and monitoring facilities. 4.3.1 CAMPS Modes of Operation The CAMPS system supports on-line and off-line operations. The on-line modes of operation ┆
0x3ee00…3ef00 (62, 0, 14) Sector 3e0fa200135541 ┆> " UA 1 Fig. 4.3.1-2 Degraded Operation (M&D) mode, the non-active processor is used for off-line operations: - software development and┆
0x3ef00…3f000 (62, 0, 15) Sector 3e00a100135541 ┆> ! UA 1 Fig. 4.3.1-3 Degraded Operation SD&T s - print memory dump - print trace records The CAMPS modes of operations are controll┆
0x3f000…3f100 (63, 0, 0) Sector 3f015200135541 ┆? R UAed software- and hardware-wise from the watchdog position, which contains: ┆
0x3f100…3f200 (63, 0, 1) Sector 3f02ff00135541 ┆? UA 1 - the watchdog (WPD) - the operator VDU - the operator printer 4.3.1.1 On-Line Operation CAMPS on-line operations are supported by either a dualized PU configuration or by a┆
0x3f200…3f300 (63, 0, 2) Sector 3f03ff00135541 ┆? UA single PU configuration. The dualized configuration consists of an active PU, which performs on-line functions and a standby PU, which is ready to assume on-line functions, when a switch-over is executed. On an event basis checkpoints (defining ┆
0x3f300…3f400 (63, 0, 3) Sector 3f04ff00135541 ┆? UAe.g. terminal and traffic status) are transferred to the standby processor to assure an acceptable level of data continuity at the time of recovery and restart during a switch-over. The active processor owns all disks, terminals, and external chann┆
0x3f400…3f500 (63, 0, 4) Sector 3f05f200135541 ┆? r UAels, whereas the standby PU has none. The dualized configuration is depicted in figure 4.3.1-1 overleaf. The single PU configuration consists of an active PU, which operates as the active PU above, except for checkpoint generation. I ...........┆
0x3f500…3f600 (63, 0, 5) Sector 3f069c00135541 ┆? UA 1 Fig. 4.3.1-1 Dualized Operation ration ..................... 168 4.3.2 Equipment Resource Handling ....... 169 4.3.2.1 Disk┆
0x3f600…3f700 (63, 0, 6) Sector 3f07ff00135541 ┆? UA 1 4.3.1.2 Off-Line Operation In the M&D configuration (refer to figure 4.3.1-2), the off-line processor may be assigned a number of devices: - the off-line disk or the floppy disk┆
0x3f700…3f800 (63, 0, 7) Sector 3e08ff00135541 ┆> UA for load of M&D SW - two LTUXs on the same DTM-X - one LTU - the off-line disk or an out of service mirrored disk The M&D test programs are operated from the operator VDU, whereas test output is directed to the operator printer. M&D programs ┆
0x3f800…3f900 (63, 0, 8) Sector 3f09cb00135541 ┆? K UA... 174 4.3.2.3.1 Modes of Operation ........ 174 4.3.2.3.2 Hardware Control .......... 175 4.3.2.3.3 Software Control .......... 176 4.3.2.3.4 Re-configuration .......... 176 g=~ JV3C/4!"<6 #6 MB&! =6 !,<6 :]=2'< AMD MB&!,<6 ! ┆
0x3f900…3fa00 (63, 0, 9) Sector 3f0aff00135541 ┆? UA 1 4.3.2.4 LTUX and Attached Terminal Equipment ..................... 176 4.3.2.4.1 Modes of Operation ........ 176 4.3.2.4.2 Hardware Control .......... 176 ┆
0x3fa00…3fb00 (63, 0, 10) Sector 3f0bff00135541 ┆? UA 4.3.2.4.3 Software Control .......... 177 4.3.2.4.4 Re-configuration .......... 177 4.3.3 Watchdog and Manual Supervision Facilities ........................ 178 4.3.3.1 Watchdog Control .............. 178 4.3.3.2 Watchdo┆
0x3fb00…3fc00 (63, 0, 11) Sector 3f0c5400135541 ┆? T UAg Monitoring ........... 180 4.3.3.3 Manual Fallback ............... 182 These are stored and may be retrieved. 4.2.6.6 Automatically Generated Service Messages These are stored and may be retrieved. ed in this section, an outgoing messa┆
0x3fc00…3fd00 (63, 0, 12) Sector 3f0dff00135541 ┆? UA 1 4.3 SYSTEM SUPERVISION System supervision addresses the monitoring and control of the CAMPS modes of operation. The description is separated into three sections: 1) control of┆
0x3fd00…3fe00 (63, 0, 13) Sector 3f0eff00135541 ┆? UA CAMPS modes of operation 2) control of peripheral equipment 3) watchdog and manual control and monitoring facilities. 4.3.1 CAMPS Modes of Operation The CAMPS system supports on-line and off-line operations. The on-line modes of operation ┆
0x3fe00…3ff00 (63, 0, 14) Sector 3f0fff00135541 ┆? UAare: - a dualized mode consisting of an active and a standby processor. - a degraded mode consisting of an active processor unit (PU). In the degraded mode, the non-active processor is used for off-line operations: - software development and┆
0x3ff00…40000 (63, 0, 15) Sector 3f00ff00135541 ┆? UA test (SD&T) at CSSI site - table generation (TG) at CSSI site - maintenance and diagnostics (M&D) at all sites - off-line utilities (OU) at all sites - print memory dump - print trace records The CAMPS modes of operations are controll┆
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0x40100…40200 (64, 0, 1) Sector 40021c00135541 ┆@ UA @ ? ? ? ? ? > > > > > = = = < < < ; ; ; : : : 9 9 9 9 8 DOKUMENTOVERSIGT Dokument nr: Dokumentnavn: Operat]r: Forfatter: Kommentarer: STATISTIK AKTIVITET DATO TID ANV.TID ANSLAG Oprettet / / : : S┆
0x40200…40300 (64, 0, 2) Sector 4003ff00135541 ┆@ UA 1 1 TABLE OF CONTENTS 4.3 SYSTEM SUPERVISION .................. 157 4.3.1 CAMPS Modes of Operation .......┆
0x40300…40400 (64, 0, 3) Sector 4004ff00135541 ┆@ UA... 157 4.3.1.1 On-Line Operation ............. 158 4.3.1.2 Off-Line Operation ............ 160 4.3.1.3 Watchdog Operation ............ 160 4.3.1.4 Switch-Over ................... 164 4.3.1.4.1 Emergency Switch-Over ..... 164 ┆
0x40400…40500 (64, 0, 4) Sector 4005ff00135541 ┆@ UA 4.3.1.4.2 Ordered Switch-Over ....... 165 4.3.1.5 Start-Up of CAMPS Modes ....... 165 4.3.1.6 Load of Modified Software ..... 167 4.3.1.6.1 Load of Modified Applica- tion Software Prepared at the CSSI ...........┆
0x40500…40600 (64, 0, 5) Sector 4006ff00135541 ┆@ UA....... 167 4.3.1.7 Detailed Start-Up of On-Line Operations .................... 168 4.3.1.8 Close Down of CAMPS Modes of Operation ..................... 168 4.3.2 Equipment Resource Handling ....... 169 4.3.2.1 Disk┆
0x40600…40700 (64, 0, 6) Sector 4007ff00135541 ┆@ UA Equipment ................ 170 4.3.2.1.1 Modes of Operation ........ 170 4.3.2.1.2 Hardware Control .......... 171 4.3.2.1.3 Software Control .......... 173 4.3.2.1.4 Reconfiguration ........... 173 4.3.2.2 TDX-Bus System .┆
0x40700…40800 (64, 0, 7) Sector 3f08ff00135541 ┆? UA............... 173 4.3.2.2.1 Modes of Operation ........ 173 4.3.2.2.2 Hardware Control .......... 174 4.3.2.2.3 Software Control .......... 174 4.3.2.2.4 Reconfiguration ........... 174 4.3.2.3 LTU and Attached Lines .....┆
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0x40900…40a00 (64, 0, 9) Sector 400a1300134941 ┆@ IA @ @ # # # DOKUMENTOVERSIGT Dokument nr: Dokumentnavn: Operat]r: Forfatter: Kommentarer: STATISTIK AKTIVITET DATO TID ANV.TID ANSLAG Oprettet / / ┆
0x40a00…40b00 (64, 0, 10) Sector 400ba500134941 ┆@ % IA 1 CPS/SDS/001 KNN/820402 CAMPS SYSTEM DESIGN SPECIFICATION ISSUE 1.2 CAMPS /=6)M2&*/=MM, > I!e=6 !Z="(=e*$<kas#r 9x2"<! <6 M8)I:^=~ B#.!#<6 ! <6 M&&:!<~ J#.:!<2.=M2┆
0x40b00…40c00 (64, 0, 11) Sector 400cff00134941 ┆@ IA 1 1 GENERAL 1.1 PURPOSE The system design specification has the purpose: - to establish the design baseline for all future design and - to provide the operational and dev┆
0x40c00…40d00 (64, 0, 12) Sector 400dff00134941 ┆@ IAelopment personnel with an overall understanding of the product to be developed The purpose of this system design specification is, furthermore, to establish a correspondence between the software and hardware components, functional design, and the┆
0x40d00…40e00 (64, 0, 13) Sector 400eff00134941 ┆@ IA system requirements. The system requirements are expanded to include all important derived software and hardware requirements and those associated with good design practices. A separate Verification Control Document is produced in order to keep┆
0x40e00…40f00 (64, 0, 14) Sector 400fff00134941 ┆@ IA track, that all system requirements have been mapped correctly and completely to the system design and what components they have been associated with. The CPS/SDS/001 must reflect the contents of the CPS/210/SYS/0001. Remote terminals and their┆
0x40f00…41000 (64, 0, 15) Sector 2300f300134941 ┆# s IA connectivity requirements are not part of the original CAMPS-contract (nor of the CPS/210/SYS/0001) and are subject to separate verification. However, being a part of an integral system, they may be mentioned in the CPS/SDS/001 too. ~ B|2> I:A=!┆
0x41000…41100 (65, 0, 0) Sector 4101ff00134841 ┆A HA............. 4-114 4.2.3.1 Incoming ACP127 Message ......... 4-114 4.2.3.2 Outgoing ACP127 Message - Originated by CAMPS ............. 4-114 4.2.3.3 Outgoing ACP127 Message - Prepared Externally ............. 4-114 ┆
0x41100…41200 (65, 0, 1) Sector 4102ff00134841 ┆A HA 4.2.3.4 Comments ........................ 4-114 4.2.3.5 VDU Pages ....................... 4-115 4.2.4 Functional Flow for an In-Message ... 4-115 4.2.4.1 Reception Process (IOC and THP) . 4-115 4.2.4.2 Analysis Process (THP)┆
0x41200…41300 (65, 0, 2) Sector 4103ff00134841 ┆A HA .......... 4-117 4.2.4.3 Use of Tables in Analysis ....... 4-118 4.2.4.4 Reasons for Rejection ........... 4-119 4.2.4.5 Completion of Analysis .......... 4-120 4.2.4.6 Special Actions for All Messages 4-120 4.2.4.7 Messag┆
0x41300…41400 (65, 0, 3) Sector 4104ff00134841 ┆A HAe Types ................... 4-123 4.2.4.8 Message Service Assistance (TEP) 4-124 4.2.4.9 Other Incoming Information ...... 4-126 4.2.4.10 Distribution and Delivery (MDP) . 4-129 4.2.4.11 Relationship between Analysis, Dis┆
0x41400…41500 (65, 0, 4) Sector 4105ff00134841 ┆A HAtribution, and MDCO .......... 4-129 4.2.4.12 MDCO Actions .................... 4-132 4.2.4.13 Final Situation ................. 4-132 4.2.5 Functional Flow for an Out-Message .. 4-133 4.2.5.1 Introduction .................... 4-13┆
0x41500…41600 (65, 0, 5) Sector 4106ff00134841 ┆A HA3 4.2.5.2 Message Preparation ............. 4-138 4.2.5.3 Co-ordination ................... 4-141 4.2.5.4 Release ......................... 4-142 4.2.5.5 ACP127 Synthesis ................ 4-142 4.2.5.6 Route Assignment .....┆
0x41600…41700 (65, 0, 6) Sector 4107b700134841 ┆A 7 HA........... 4-148 4.2.5.7 Output .......................... 4-149 4.2.5.8 Distribution .................... 4-151 4.2.5.9 Final Situation ................. 4-151 S - Paper Tape Reader I/F ... 3-014 3.2.3.4 CAMPS - Lineprinter Int┆
0x41700…41800 (65, 0, 7) Sector 0908ff00134841 ┆ HA 1 4.2.6 Views of a Message .................. 4-151 4.2.6.1 In-Message ...................... 4-151 4.2.6.2 Out-Message ..................... 4-153 4.2.6.3 Re-Trans┆
0x41800…41900 (65, 0, 8) Sector 4109ff00134841 ┆A HA INTERFACES ................... 3-017 3.3.1 Display Formats ..................... 3-017 3.3.2 Print Out Formats ................... 3-018 3.3.3 Paper Tape Punch Format ............. 3-019 3.3.4 Paper Tape Reader Format ............ 3┆
0x41900…41a00 (65, 0, 9) Sector 410aff00134841 ┆A HA-019 3.4 OPERATOR INTERFACES ..................... 3-019 3.4.1 User Procedures ..................... 3-019 3.4.2 MDCO Procedures ..................... 3-020 3.4.3 Message Service Procedures .......... 3-020 3.4.4 Supervisor Comma┆
0x41a00…41b00 (65, 0, 10) Sector 410bff00134841 ┆A HAnds and Procedures .. 3-020 3.4.5 Engineering Terminal Function ....... 3-021 3.5 POWER INTERFACES ........................ 3-021 3.5.1 Power Input Specification ........... 3-021 3.5.2 Power Sources ....................... 3-022 ┆
0x41b00…41c00 (65, 0, 11) Sector 410cff00134841 ┆A HA 3.5.2.1 Power Source Inputs ............. 3-022 3.5.2.2 Required Power Sources .......... 3-022 4 SYSTEM OVERVIEW ............................. 4-002 4.1 CONFIGURATION SUMMARY ................... 4-002 4.1.1 Hardware System Partiti┆
0x41c00…41d00 (65, 0, 12) Sector 410dbb00134841 ┆A ; HAoning ........ 4-002 4.1.1.1 Configuration Elements .......... 4-005 4.1.1.2 Site Equipment Layout ........... 4-017 4.1.1.3 Site Equipment Complement ....... 4-023 004 1.3 TERMS AND ABBREVIATIONS ................. 1-005 1.3.1┆
0x41d00…41e00 (65, 0, 13) Sector 410eff00134841 ┆A HA 1 4.1.2 Software Configuration .............. 4-088 4.1.2.1 Software Subsystems ............. 4-088 4.1.2.2 Software Packages ............... 4-088 4.1.2.3 System S┆
0x41e00…41f00 (65, 0, 14) Sector 410fff00134841 ┆A HAoftware Subsystem ....... 4-090 4.1.2.4 Applications Software Subsystem . 4-093 4.1.2.5 Support Software Subsystem ...... 4-096 4.1.3 Mapping of Software onto Hardware ... 4-097 4.2 FUNCTIONAL FLOW ......................... 4-107 ┆
0x41f00…42000 (65, 0, 15) Sector 4100ff00134841 ┆A HA 4.2.1 Introduction ........................ 4-107 4.2.2 Package Inter-Relationship .......... 4-107 4.2.2.1 Basic Relationship .............. 4-107 4.2.2.2 Processes and Transactions ...... 4-111 4.2.3 Message Transactions ...┆
0x42000…42100 (66, 0, 0) Sector 4201ff00134841 ┆B HA010 2.3 CHARACTERISTICS ......................... 2-011 2.4 DESIGN AND CONSTRUCTION (HW) ............ 2-011 2.5 DESIGN AND CONSTRUCTION (SW) ............ 2-011 2.6 DOCUMENTATION ........................... 2-012 3 ENVIRONMENTS ......┆
0x42100…42200 (66, 0, 1) Sector 4202ff00134841 ┆B HA.......................... 3-003 3.1 PHYSICAL ENVIRONMENTS ................... 3-003 3.1.1 Access Dimension .................... 3-003 3.1.2 Space ............................... 3-003 3.1.3 Weight .............................. 3-00┆
0x42200…42300 (66, 0, 2) Sector 4203ff00134841 ┆B HA4 3.1.4 Ambient Temperature ................. 3-004 3.1.5 Humidity ............................ 3-005 3.1.6 Dust, Fumes ......................... 3-005 3.1.6.1 Air Cleanness ................... 3-005 3.1.6.2 Fumes .............┆
0x42300…42400 (66, 0, 3) Sector 42048900134841 ┆B HA.............. 3-005 3.1.7 Shock and Vibration ................. 3-006 3.1.8 Altitude ............................ 3-006 rer) Inds`t hvilket? Slette hvilket? Flytte hvilket? Kopiere hvilket? Bytte hvilket? Bytte med? S]ge hvilket? ┆
0x42400…42500 (66, 0, 4) Sector 4205ff00134841 ┆B HA 1 3.2 EXTERNAL INTERFACE DEFINITION ........... 3-007 3.2.1 CAMPS - SCARS Interface ............. 3-007 3.2.1.1 Physical Interface .............. 3-007 3.2.1.2 Functi┆
0x42500…42600 (66, 0, 5) Sector 4206ff00134841 ┆B HAonal Interface ............ 3-009 3.2.1.3 CAMPS Point-to-Point Connections 3-010 3.2.2 Non-Telegraphic Systems ............. 3-011 3.2.2.1 CAMPS-SCARS II Interface......... 3-011 3.2.2.2 CAMPS-CCIS Interface ............ 3-012 ┆
0x42600…42700 (66, 0, 6) Sector 4207ff00134841 ┆B HA 3.2.3 Auxiliary Terminal Device ........... 3-013 3.2.3.1 CAMPS - OCR Interface ........... 3-013 3.2.3.2 CAMPS - Paper Tape Punch I/F .... 3-014 3.2.3.3 CAMPS - Paper Tape Reader I/F ... 3-014 3.2.3.4 CAMPS - Lineprinter Int┆
0x42700…42800 (66, 0, 7) Sector 4108ff00134841 ┆A HAerface ... 3-015 3.2.4 Terminal Device ..................... 3-015 3.2.4.1 CAMPS - VDU Interface ........... 3-015 3.2.4.2 CAMPS - Medium Speed Printer I/F 3-016 4.2.4.2 CAMPS - Low Speed Teleprinter I/F 3-017 3.3 PROCEDURAL┆
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0x42900…42a00 (66, 0, 9) Sector 420a1200134841 ┆B HA B B B A A DOKUMENTOVERSIGT Dokument nr: Dokumentnavn: Operat]r: Forfatter: Kommentarer: STATISTIK AKTIVITET DATO TID ANV.TID ANSLAG Oprettet / / : : ┆
0x42a00…42b00 (66, 0, 10) Sector 420ba100134841 ┆B ! HA 1 CPS/SDS/001 820402 CAMPS SYSTEM DESIGN SPECIFICATION ISSUE 1.2 CAMPS C*-!/=6)M2&*/=MM, > I!e=6 !Z="(=e*$<kas#r 9x2"<! <6 M8)I:^=~ B#.!#<6 ! <6 M&&:!<~ J#.:!<2.=M2┆
0x42b00…42c00 (66, 0, 11) Sector 420cff00134841 ┆B HA 1 1 TABLE OF CONTENTS 1 GENERAL ..................................... 1-001 1.1 PURPOSE ..................┆
0x42c00…42d00 (66, 0, 12) Sector 420dff00134841 ┆B HA............... 1-001 1.2 PROJECT REFERENCES ...................... 1-002 1.2.1 Applicable Documents ................ 1-002 1.2.2 Reference Documents ................. 1-004 1.3 TERMS AND ABBREVIATIONS ................. 1-005 1.3.1┆
0x42d00…42e00 (66, 0, 13) Sector 420eff00134841 ┆B HA Terms ............................... 1-005 1.3.2 Abbreviations ....................... 1-015 2 SUMMARY OF REQUIREMENTS ..................... 2-002 2.1 SYSTEM DESCRIPTION ...................... 2-002 2.2 SYSTEM FUNCTIONS ............┆
0x42e00…42f00 (66, 0, 14) Sector 420fff00134841 ┆B HA............ 2-006 2.2.1 CAMPS Interfaces .................... 2-006 2.2.1.1 Man-Machine Interface (General) . 2-006 2.2.1.2 Man-Machine Interface (COMMCEN) . 2-008 2.2.1.3 Externally Prepared Messages .... 2-009 2.2.1.4 Tele┆
0x42f00…43000 (66, 0, 15) Sector 4200ff00134841 ┆B HAgraph Interface ............. 2-009 2.2.2 In-Message Synthesis ................ 2-010 2.2.3 Out-Message Synthesis ............... 2-010 2.2.4 Distribution ........................ 2-010 2.2.5 Miscellaneous ....................... 2-┆
0x43000…43100 (67, 0, 0) Sector 4301ad00135241 ┆C - RA 1 Fig. 4.1.1.2-2 CR80D Processor Unit/Channel Unit ed for the exchange of on and off-line diagnostic and control information. The tw┆
0x43100…43200 (67, 0, 1) Sector 4302a200135241 ┆C " RA 1 Fig. 4.1.1.2-3 CR80D Watchdog Unit cs and the applications of each category are shown on fig. 4.1.1-2. Each channel is connect┆
0x43200…43300 (67, 0, 2) Sector 4303a400135241 ┆C $ RA 1 Fig. 4.1.1.2-4 Typical S-Crate Assembly Units (PUs), see fig. 4.1.1-5. The two PUs are placed in redundant elements in the config┆
0x43300…43400 (67, 0, 3) Sector 4304ff00135241 ┆C RA 1 4.1.1.2.2 Equipment Matrix The design of the equipment supplied for each site is identical. In some details the site equipment will be identical and in some parts the site equipm┆
0x43400…43500 (67, 0, 4) Sector 4305ff00135241 ┆C RAent will differ due to differences in the connectivity of each site. The Equipment Matrix, fig. 4.1.1.2-5 shows the items to be supplied to each site. The matrix does not contain standard items for complete assembly of each site equipment, i.e. ┆
0x43500…43600 (67, 0, 5) Sector 4306ff00135241 ┆C RAsignal cables, power cables, mechanical parts. The connectivity of each site is presented in section 4.1.1.3.2. 4.1.1.3 Site Equipment Complement The equipment of a typical CAMPS room is shown on fig. 4.1.1.3-1. All sites are equipped with:┆
0x43600…43700 (67, 0, 6) Sector 4307ff00135241 ┆C RA a) two 3 bay rack assemblies, the computer racks (rack A, B, C) and the line termination racks (rack D, E, F). b) Engineering Position Equipment. 1) 1 VDU with keyboard, 1 paper tape reader/paper tape puncher and a printer as free-standing u┆
0x43700…43800 (67, 0, 7) Sector 2208e500135241 ┆" e RAnits 2) 1 dual Floppy Disk station placed in the computer racks. c) 1 storage cabinet. d) A number of supervisor position equipment, each composed of 1 Visual Display Unit with keyboard and 1 Medium Speed Printer. the front magazine are acc┆
0x43800…43900 (67, 0, 8) Sector 4309ff00135241 ┆C RAessing the upper bus, the lower bus and the external connections. Modules on the CAMPS site equipment diagram, fig. 4.1.1.2-1 in the Processor/Channel Units placed between the buses are Front modules, while the modules terminating the buses and t┆
0x43900…43a00 (67, 0, 9) Sector 430a4800135241 ┆C H RAhe modules placed below the lower bus are rear modules/adapters. r modules are positioned in the Channel Unit (CU) and are connected to the two I/O Buses A and B, see fig. 4.1.1-6. I/O Bus A is connected to the Buses of Processor Unit #1 (PU #1) ┆
0x43a00…43b00 (67, 0, 10) Sector 430ba500135241 ┆C % RA 1 Fig. 4.1.1.2-1 Drawing 1-151 (Format A1) eing claimed through the Bus. A Disk assembly is thus switched to one of the buses at a t┆
0x43b00…43c00 (67, 0, 11) Sector 430cff00135241 ┆C RA 1 Rear crate modules/adaptors support the external connections of the unit, i.e. signal and power cabling. Front and rear-crate modules are interconnected by flat cables. b) Fi┆
0x43c00…43d00 (67, 0, 12) Sector 430dff00135241 ┆C RAg. 4.1.1.2-3 shows the crating of the WD Processor. The CR80D minicrate is used. The concept is as described in a) above. The CR80D minicrate is used for smaller configurations. Power regulation and ventilation are integrated in the crate assemb┆
0x43d00…43e00 (67, 0, 13) Sector 430eff00135241 ┆C RAly. c) Fig. 4.1.1.2-4 shows the crating of the TDX modules. The height of the crate is half the height of the normal CR80D crate. The modules of the S crate are connected through a Printed Circuit Board (PCB) with 1 row of connectors. Exter┆
0x43e00…43f00 (67, 0, 14) Sector 430fff00135241 ┆C RAnal connection of power and signal lines may be performed both by connection to front mounted modules and to rear mounted modules. The CAMPS Main Site equipment shown on fig. 4.1.1.2-1 is separated in two by the horizontal V24-IDF-line. Equipment┆
0x43f00…44000 (67, 0, 15) Sector 4300a900135241 ┆C ) RA above the IDF line is placed within the CAMPS Main Site Racks. Equipment below the V24-IDF-line is placed in the surrounding CAMPS installation as appropriate. xecute the switching functions, which are communicated from the WDPU in order to perfo┆
0x44000…44100 (68, 0, 0) Sector 4401ff00135241 ┆D RArm configuration control. The Control adaptors communicate with the WDPU by Configuration Control Bus (CCB). In addition to the CCB, two WD control channels are used for the exchange of on and off-line diagnostic and control information. The tw┆
0x44100…44200 (68, 0, 1) Sector 44029f00135241 ┆D RAo WD control channels connect the WDP with PU #1 and PU #2. The VDU and Printer of the CAMPS Main Site Engineering position are connected to the WDP. stics and the applications of each category are shown on fig. 4.1.1-2. Each channel is connect┆
0x44200…44300 (68, 0, 2) Sector 44039900135241 ┆D RA 1 Fig. 4.1.1-7 Watchdog System l Processor Units (PUs), see fig. 4.1.1-5. The two PUs are placed in redundant elements in the config┆
0x44300…44400 (68, 0, 3) Sector 4404ff00135241 ┆D RA 1 4.1.1.2 Site Equipment Layout 4.1.1.2.1 Principle Diagram The complete site equipment layout of the CAMPS Main Site equipment is shown on fig. 4.1.1.2-1 (drawing 1-151). The ┆
0x44400…44500 (68, 0, 4) Sector 4405ff00135241 ┆D RAfunctional aspects of the individual configuration elements are described in section 4.1.1.1. The minor boxes shown on fig. 4.1.1.2-1 represent functional modules as well as mechanical modules. The modules are placed in mechanical assemblies name┆
0x44500…44600 (68, 0, 5) Sector 4406ff00135241 ┆D RAd crates or crate assemblies. The crate allocation of each module is indicated on fig. 4.1.1.2-1. The crates are designed for mounting in standard 19 inch racks. Some configuration elements on fig. 4.1.1.2-1 are not placed in crates. These are ┆
0x44600…44700 (68, 0, 6) Sector 4407ff00135241 ┆D RAselfstanding subsystem assemblies and are mounted in the TEMPEST 19 inch racks (e.g. disk drives) or are free standing (e.g. terminal equipment). Two families of modules are used for the CR80 modules, the D modules and the S modules. The D modul┆
0x44700…44800 (68, 0, 7) Sector 4308ff00135241 ┆C RAe concept is presented on fig. 4.1.1.2-2 and 3. The S module concept is presented on fig. 4.1.1.2-4. a) Fig. 4.1.1.2-2 shows the crating of the CR80D Processor and Channel Unit. The three rows of connectors visible in the front magazine are acc┆
0x44800…44900 (68, 0, 8) Sector 4409ff00135241 ┆D RA 1 4.1.1.1.5 Mass Storage Disks Three disk assemblies are included in the CAMPS Main Site equipment. Each assembly is composed of a disk drive unit including a disk pack, a Disk Co┆
0x44900…44a00 (68, 0, 9) Sector 440aff00135241 ┆D RAntroller Adaptor (DCA) and a Disk Controller. The Disk Controller modules are positioned in the Channel Unit (CU) and are connected to the two I/O Buses A and B, see fig. 4.1.1-6. I/O Bus A is connected to the Buses of Processor Unit #1 (PU #1) ┆
0x44a00…44b00 (68, 0, 10) Sector 440bff00135241 ┆D RAby the Data Channel link A. I/O Bus B is connected to PU #2 by the Data Channel link B. The Disk controller is switched to one of the two I/O Buses A/B by being claimed through the Bus. A Disk assembly is thus switched to one of the buses at a t┆
0x44b00…44c00 (68, 0, 11) Sector 440cef00135241 ┆D o RAime. The Power Buses of I/O Bus A and B are added together on the Disk CTRL module. Normally, the load is shared by the two power buses, but one power bus is able to supply the total current for the modules connected to the bus. exchange channel┆
0x44c00…44d00 (68, 0, 12) Sector 440d8800135241 ┆D RA 1 Fig. 4.1.1-5 channels dependent on channel specifications. The position of the LTUs in the CAMPS Main Site Equipment is shown on f┆
0x44d00…44e00 (68, 0, 13) Sector 440e8900135241 ┆D RA 1 FIGURE 4.1.1-6 ed to the Buses of Processor Unit #1 (PU #1) by the Data Channel link A. I/O Bus B is connected to PU #2 by the Data ┆
0x44e00…44f00 (68, 0, 14) Sector 440fff00135241 ┆D RA 1 4.1.1.1.6 Watchdog The Watchdog is composed of a Watchdog processor (WDP) and a set of control adaptors, see fig. 4.1.1-7. The WDP is contained in a self standing Crate Assembly┆
0x44f00…45000 (68, 0, 15) Sector 4400ff00135241 ┆D RA. Each control adaptor is placed in the unit/crate under control. The Control adapter collects the status monitoring signals of the Unit/Crate and is able to execute the switching functions, which are communicated from the WDPU in order to perfo┆
0x45000…45100 (69, 0, 0) Sector 4501b700135241 ┆E 7 RAon on the data exchange channels. Received data blocks are stored in the LTU. The PU transfers data from the LTUs governed by the interrupt requests delivered from the LTUs. termined by the channel application. The distribution equipment is prov┆
0x45100…45200 (69, 0, 1) Sector 45028e00135241 ┆E RA 1 Fig. 4.1.1-4 LTUs The characteristics and the applications of each category are shown on fig. 4.1.1-2. Each channel is connect┆
0x45200…45300 (69, 0, 2) Sector 4503ff00135241 ┆E RA 1 4.1.1.1.4 Processor Units The CAMPS Main Site equipment contains two identical Processor Units (PUs), see fig. 4.1.1-5. The two PUs are placed in redundant elements in the config┆
0x45300…45400 (69, 0, 3) Sector 4504ff00135241 ┆E RAuration. One set of redundant elements is composed of PU #1, Data Channel A, the Channel Interface Adapter (CIA-A) and I/O Bus A (included the connected Power module). The other set of redundant elements is PU#2, Data Channel B, CIA-B and I/O-Bus┆
0x45400…45500 (69, 0, 4) Sector 4505ff00135241 ┆E RA B. Each Processor Unit is composed of: - 3 Central Processing Units (CPUs) for parallel program execution. - 2 Random Access Memories (RAMs) forming 256K words of working storage. - 1 Supra-TDX Bus Interface (STI) interfacing the PU to two ┆
0x45500…45600 (69, 0, 5) Sector 4506ff00135241 ┆E RATDX Bus Interface Adapters (TIAs) - 1 Memory Mapping Unit (MAP) which together with 1 Map Interface Adapter (MIA) performs different central functions in the PU, such as: 1) Logical to Physical Address translation 2) Interfacing the PU to th┆
0x45600…45700 (69, 0, 6) Sector 4507ff00135241 ┆E RAe CU via the Data Channel 3) Generating timing signals and servicing of interrupts to the CPUs 4) Controlling a V24/V28 communication port to which the Operator Console is connected. 5) System Boot Load - 2 TDX Bus Interface Adapters (TIA┆
0x45700…45800 (69, 0, 7) Sector 44083600135241 ┆D 6 RAs) interfacing the STI to the two TDX Buses. by a TDX-outlet on each bus. A TDX Bus links together all the functional elements of the TDX System. The Multiplexing Scheme of the TDX Bus is driven and controlled by the TDX controller. All the c┆
0x45800…45900 (69, 0, 8) Sector 4509ff00135241 ┆E RAonnected data exchange channels of the LTUXs are polled and incoming/outgoing data are transferred to/from the Processor Units by the TDX Interface Adapters (TIAs) and the Supra/TDX Interface Modules (STI) placed in the Processor Units. The TDX co┆
0x45900…45a00 (69, 0, 9) Sector 450adf00135241 ┆E _ RAntroller of a TDX Bus is placed in one of the Connected TDX Crate assemblies. The Processor TDX I/F is able to communicate with the two TDX Buses through the two TIAs. The two TDX Buses are thus fully redundant. ltiplexing scheme for interconne┆
0x45a00…45b00 (69, 0, 10) Sector 450b9400135241 ┆E RA 1 Fig. 4.1.1-3 TDX System Us (Line Termination Units) of the Channel Unit interconnect part of the data exchange channels with the Pr┆
0x45b00…45c00 (69, 0, 11) Sector 450cff00135241 ┆E RA 1 4.1.1.1.3 LTUs The LTUs are front-end modules used for interconnection of individual data exchange channels with the Processor Units. The interfaces of the data exchange channel┆
0x45c00…45d00 (69, 0, 12) Sector 450dff00135241 ┆E RAs in the LTUs are as recommended by CCITT in the V24/V28 standards. Each LTU module is able to interface 1,2 or 4 data exchange channels dependent on channel specifications. The position of the LTUs in the CAMPS Main Site Equipment is shown on f┆
0x45d00…45e00 (69, 0, 13) Sector 450eff00135241 ┆E RAig. 4.1.1-4. An LTU module is positioned in the Channel Unit and is connected to the two I/O Buses A and B. I/O Bus A is connected to the Buses of Processor Unit #1 (PU #1) by the Data Channel link A. I/O Bus B is connected to PU #2 by the Data ┆
0x45e00…45f00 (69, 0, 14) Sector 450fff00135241 ┆E RAChannel link B. The LTU is switched to one of the two I/O Buses A or B by being claimed through the Bus. An LTU is thus switched to one of the buses at a time. Each LTU has dual Power Input, as power is supplied by the power supplies of both I/O┆
0x45f00…46000 (69, 0, 15) Sector 4500ff00135241 ┆E RA-bus A and I/O-bus B. Normally, the load is shared by the two power buses, but one power bus is able to supply the total current to the modules connected to the bus. The LTU's buffer blocks data transferred from the PU and conducts the transmissi┆
0x46000…46100 (70, 0, 0) Sector 4601ff00135241 ┆F RAdual terminals/external circuits are named Data Exchange Channels. The individual channels are transmitted to a terminal or an external circuit using distribution equipment determined by the channel application. The distribution equipment is prov┆
0x46100…46200 (70, 0, 1) Sector 4602ff00135241 ┆F RAiding the adaption necessary for the transmission of each data channel. The distribution systems can be categorized into 5 categories. The characteristics and the applications of each category are shown on fig. 4.1.1-2. Each channel is connect┆
0x46200…46300 (70, 0, 2) Sector 4603c200135241 ┆F B RAed in the Main site at the Standard CCITT V24/V28 interface of the LTUs/LTUXs. As indicated on the figure 4.1.1-2 part of the distribution equipment is placed in the MAIN SITE racks. CAMPS is an integral part of a total system concept which als┆
0x46300…46400 (70, 0, 3) Sector 46049f00135241 ┆F RA 1 Fig. 4.1.1-2 Distribution Equipment vide the optimum implementation of the CAMPS systems. The allocation of functions between syst┆
0x46400…46500 (70, 0, 4) Sector 4605ff00135241 ┆F RA 1 4.1.1.1.2 Telecommunication Data Exchange (TDX) The TDX equipment is used for interconnection of individual data exchange channels with the Processor Units. The interfaces of th┆
0x46500…46600 (70, 0, 5) Sector 4606ff00135241 ┆F RAe data exchange channels in the TDX-system are standard CCITT V24/V28 circuits of the LTUX modules, see fig. 4.1.1-3. Each LTUX module is able to interface 1, 2 or 4 data exchange channels dependent on channel specifications, and each TDX Crate as┆
0x46600…46700 (70, 0, 6) Sector 4607ff00135241 ┆F RAsembly contains max. 2 LTUX modules. Each TDX Crate assembly is switched to one of the two TDX Buses. The switching is controlled by the Watchdog Processor through the Configuration Control Bus (CCB). The switching is performed by the BSM-X-modul┆
0x46700…46800 (70, 0, 7) Sector 4508ff00135241 ┆E RAe and the interconnection to the buses are done by a TDX-outlet on each bus. A TDX Bus links together all the functional elements of the TDX System. The Multiplexing Scheme of the TDX Bus is driven and controlled by the TDX controller. All the c┆
0x46800…46900 (70, 0, 8) Sector 4609ff00135241 ┆F RAed terminal/external circuit. The different types are based on different transmission media, transmission concepts, and the interface in the main site equipment. b) The Telecommunication Data Exchange (TDX) system performs the interconnection o┆
0x46900…46a00 (70, 0, 9) Sector 460aff00135241 ┆F RAf part of the data exchange channels with the Processor Units. The LTUXs (Line Termination Unit, TDX) are placed in TDX-crates. Each TDX-crate contains LTUXs interfacing max. 8 channels. The two TDX Buses run a multiplexing scheme for interconne┆
0x46a00…46b00 (70, 0, 10) Sector 460bff00135241 ┆F RAction of the LTUX Crates with either of the 2 Processor Units. An LTUX Crate is switched to one of the two redundant TDX Buses. c) The LTUs (Line Termination Units) of the Channel Unit interconnect part of the data exchange channels with the Pr┆
0x46b00…46c00 (70, 0, 11) Sector 460cff00135241 ┆F RAocessor Units. Each LTU interfaces max. 4 data exchange channels. An LTU is switched to one of the two redundant data channels. Each data channel is connected to a Processor Unit. d) The Processor System is composed of a dual set of processor┆
0x46c00…46d00 (70, 0, 12) Sector 460dff00135241 ┆F RA units, capable of independent operation. Each Processor Unit contains multiple CPUs, main memory modules and bus interfaces. e) The Mass Storage Disks are shared by the two processor units. Each of the 3 disks is individually switched to one ┆
0x46d00…46e00 (70, 0, 13) Sector 460eda00135241 ┆F Z RAof the two data channels. f) The Watchdog System coordinates the configuration control of the main site equipment. Status polling and switching control are performed via the Configuration Control Bus (CCB). Principle Diagram .......... 17 ┆
0x46e00…46f00 (70, 0, 14) Sector 460fff00135241 ┆F RA 1 Data are transmitted by the two data channels connected to the Processor Units. The console terminals of the engineering positions are connected to the Watchdog Processor. 4┆
0x46f00…47000 (70, 0, 15) Sector 4600ff00135241 ┆F RA.1.1.1 Configuration Elements This section gives a more detailed specification of the six configuration elements as defined in sect. 4.1.1. 4.1.1.1.1 Distribution Equipment The data channels connecting the CAMPS Main Equipment with the indivi┆
0x47000…47100 (71, 0, 0) Sector 4701ff00135241 ┆G RA........... 50 4.1.1.3.2.3 Standard Connected Peripherals ................. 70 4.1.2 Software Configuration ............ 88 4.1.2.1 Software Subsystems ........... 88 4.1.2.2 Software Packages ............. 88 4.┆
0x47100…47200 (71, 0, 1) Sector 4702c200135241 ┆G B RA1.2.3 System Software Subsystem ..... 90 4.1.2.4 Applications Software Subsystem 93 4.1.2.5 Support Software Subsystem .... 96 4.1.3 Mapping of Software onto Hardware . 97 V u:A=!>= AH1 R^4 ]M, C 4:>=2A=Ms!:g=~ Jr4Mj2:g=~ B}4C75! ┆
0x47200…47300 (71, 0, 2) Sector 4703ff00135241 ┆G RA 1 4 SYSTEM OVERVIEW 4.1 CONFIGURATION SUMMARY 4.1.1 Hardware System Partitioning The hardware configuration for CAMPS is an integral part of a total system concept which als┆
0x47300…47400 (71, 0, 3) Sector 4704ff00135241 ┆G RAo includes software and operational procedures. The system functions are allocated between hardware, software, and firmware and partitioned so as to provide the optimum implementation of the CAMPS systems. The allocation of functions between syst┆
0x47400…47500 (71, 0, 4) Sector 4705ff00135241 ┆G RAem elements has resulted in the hardware configuration described in this section. This configuration has been further partitioned into well-defined sub-systems or sub-assemblies. Fig. 4.1.1-1 shows the CAMPS Hardware Configuration for the Main Si┆
0x47500…47600 (71, 0, 5) Sector 4706d200135241 ┆G R RAte equipment. The major elements of the configuration are: a) Distribution equipment b) TDX-systems c) LTUs (Channel Unit) d) Processor Units e) Disk Systems (Channel Unit) f) Watchdog Processor nnel DEV Development DMA Direct Memory Acce┆
0x47600…47700 (71, 0, 6) Sector 4707a100135241 ┆G ! RA 1 Fig. 4.1.1-1 CAMPS H/W Configuration 15 04 82 10 13 15 04 82 10 23 0087A 47 4 48 596 9105 @ T f *J 7 F _┆
0x47700…47800 (71, 0, 7) Sector 4608ff00135241 ┆F RA 1 a) The Distribution Equipment consists of different types of equipment used for transfer of the individual data exchange channels from the main site to the location of each connect┆
0x47800…47900 (71, 0, 8) WangDocumentHead {hdr=WangSectHead {next=(71,0, 9), len=0xff, h3=41135241}, f00=»1352A «, f01=»CPS/SDS/001 «, f02=»vhn «, f03=»BHB «, f04=»Kapitel 4 «, f05=09-10-81 06:01, f06=» «, f07=»34 «, f08=» 311 «, f09=15-04-82 10:09, f10=» «, f11=»03 «, f12=» 188 «, f13=15-04-82 10:13, f14=15-04-82 10:23, f15=»0087A «, f16=» 47 «, f17=» 4 «, f18=»48 «, f19=» 596 «, f20=» 9105 «, f21=» «, f22=» @ «, f99=540000000110066610110480aaca1505000000000000013703ba00df}
0x47900…47a00 (71, 0, 9) Sector 470a2f00135241 ┆G / RA G G G G G F F F E E E E D D D D D D C C C C C C " " " " " " " " ! ! atter: Kommentarer: STATISTIK AKTIVITET DATO TID ANV.TID ANSLAG Oprettet / / / Oprettet / / / / Oprettet / / / Oprettet / / ┆
0x47a00…47b00 (71, 0, 10) Sector 470ba500135241 ┆G % RA 1 CPS/SDS/001 BHB/820402 CAMPS SYSTEM DESIGN SPECIFICATION ISSUE 1.2 CAMPS /=6)M2&*/=MM, > I!e=6 !Z="(=e*$<kas#r 9x2"<! <6 M8)I:^=~ B#.!#<6 ! <6 M&&:!<~ J#.:!<2.=M2┆
0x47b00…47c00 (71, 0, 11) Sector 470cff00135241 ┆G RA 1 1 TABLE OF CONTENTS 4 SYSTEM OVERVIEW .......................... 2 4.1 CONFIGURATION SUMMARY ..........┆
0x47c00…47d00 (71, 0, 12) Sector 470dff00135241 ┆G RA...... 2 4.1.1 Hardware System Partitioning ..... 2 4.1.1.1 Configuration Elements ........ 5 4.1.1.1.1 Distribution Equipment ..... 5 4.1.1.1.2 TDX Systems ................ 7 4.1.1.1.3 LTUs ....................... ┆
0x47d00…47e00 (71, 0, 13) Sector 470eff00135241 ┆G RA 9 4.1.1.1.4 Processor Units ............ 11 4.1.1.1.5 Mass Storage Disks ......... 13 4.1.1.1.6 Watchdog ................... 15 4.1.1.2 Site Equipment Layout .......... 17 4.1.1.2.1 Principle Diagram .......... 17 ┆
0x47e00…47f00 (71, 0, 14) Sector 470fff00135241 ┆G RA4.1.1.2.2 Equipment Matrix ........... 23 4.1.1.3 Site Equipment Complement ...... 23 4.1.1.3.1 Main Rack Design ........... 27 4.1.1.3.2 Connectivity ............... 30 4.1.1.3.2.1 VDUs and Medium Speed Printers ┆
0x47f00…48000 (71, 0, 15) Sector 4700ff00135241 ┆G RAAssigned for Users, Paper Tape Reader/Puncher and OCR ..................... 30 4.1.1.3.2.2 External Circuits: CCIS, SCARS, TARE. Terminals: VDU and Printer for S/W Development in the CSSI Site .┆
0x48000…48100 (72, 0, 0) Sector 00000000000000 ┆ ┆
[…0x4f…]
