OctetView
0x00000…00100 (0, 0, 0) Sector 00364130303336 ┆ 6A0036A ┆
0x00100…00200 (0, 0, 1) Sector 00000000000000 ┆ ┆
0x00200…00300 (0, 0, 2) Sector ff00e0fffffe00 ┆ ` ~ x@ | ~ ` ┆
0x00300…00306 (0, 0, 3) WangDocument {d00=0x04, d01=0x80, d02=0x41, ptr=(39,0, 8), d05=0x00}
0x00306…0030c WangDocument {d00=0x05, d01=0x01, d02=0x41, ptr=(62,0, 0), d05=0x00}
0x0030c…00312 WangDocument {d00=0x05, d01=0x09, d02=0x41, ptr=(52,0, 0), d05=0x00}
0x00312…00318 WangDocument {d00=0x05, d01=0x14, d02=0x41, ptr=(71,0, 0), d05=0x00}
0x00318…0031e WangDocument {d00=0x05, d01=0x15, d02=0x41, ptr=(40,0, 0), d05=0x00}
0x0031e…00324 WangDocument {d00=0x05, d01=0x18, d02=0x41, ptr=(71,0, 8), d05=0x00}
0x00324…0032a WangDocument {d00=0x05, d01=0x19, d02=0x41, ptr=(59,0, 0), d05=0x00}
0x0032a…00330 WangDocument {d00=0x05, d01=0x20, d02=0x41, ptr=(64,0, 0), d05=0x00}
0x00330…00340 05 20 41 40 00 00 05 20 41 45 00 00 00 00 00 00 ┆ A@ AE ┆
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 30 ┆ 0┆
0x00400…00500 (0, 0, 4) Sector 00000000000000 ┆ ┆
0x00500…00600 (0, 0, 5) Sector 00364130303336 ┆ 6A0036A ┆
0x00600…00700 (0, 0, 6) Sector 421c402600415b ┆B @& A[' , X% % PO P ; A C h x h V W O : 0517A h | {C < ; 7 ' v ┆
0x00700…00800 (0, 0, 7) Sector 00000000000000 ┆ ┆
0x00800…00900 (0, 0, 8) Sector c3000000090014 ┆C ?C @ s!a " * 6 ~7B! #>J 2 C. 2t 2 2( e!> >aX2> Ioy gx ZX 4H -CO 4H}& -k k G~ + Bc Ig/9 Bu O 7Jn %Bm I! k/=+B .O>J y=B x<B {BIi`/=+B) .O>J" B" }DIk _/=+B? . sy=B7 x<B7 I~ H~ I! 4Ise! ~6 a{Iue[ o& ~MK LQ a<Bx qC%@=2 q{I ┆
0x00900…00a00 (0, 0, 9) Sector c3000003090013 ┆C C!@ !C " {* 6 ~7B! #>J3 > 2 C0 6 C eC @ oy gx ZU 4H -BL I4H}& -k k G~ + B` I DOC ID?1~/! @/w#<B > s gMA g[ 7J fpJz > #B !r wM^ M^ !i " 6 ~7B< #~7Bz +6 ~7BJ :m 2 :n 2 C f O fp1+wI ┆
0x00a00…00b00 (0, 0, 10) Sector c3000003090013 ┆C C!@ C " {* 6 ~7B! #>J3 > 2 C0 6 C oy gx ZU 4H -BL I4H}& -k k G~ + B` I DOC ID?1~/! @/w#<B > s gMA g[ 7J fpJz > #B !r wM^ M^ !i " 6 ~7B< #~7Bz +6 ~7BJ :m 2 :n 2 C f O fp1+wI ┆
0x00b00…00c00 (0, 0, 11) Sector c3000000090014 ┆C C s!a " * 6 ~7B! #>J 2 C. 2t 2 2( e!> >aX2> Ioy gx ZX 4H -CO 4H}& -k k G~ + Bc Ig/9 Bu O 7Jn %Bm I! k/=+B .O>J y=B x<B {BIi`/=+B) .O>J" B" }DIk _/=+B? . sy=B7 x<B7 I~ H~ I! 4Ise! ~6 a{Iue[ o& ~MK LQ a<Bx qC% =2 q{I ┆
0x00c00…00d00 (0, 0, 12) Sector c300000f090000 ┆C C!@ !)@" {[ ~ B( >32 * 6 ~7B- #>J > 2 C< oy gx ZU 4H -BL I4H}& -k k G~ + B` I[ x Ck I: ~QJ ~HJ ~WJ f I> I> I> Iy7r > MJ yf ~ X~ HMJ yv O f H~ J@ CJ > MJ > CJ _ [ f BM o{v _ S Re }v o}S >}S I ┆
0x00d00…00e00 (0, 0, 13) Sector 200e550001008b ┆ U 1 a a a a a a a a a a a a a a a a a a a fbfg fffffff f df dfg dfg dfg dfg dfg dfgdfgdfgdfg dfg dfgdfgdfgdf gdfg dfg dfg dfg dfg dfg dfg dfg dfg dfg gdf df┆
0x00e00…00f00 (0, 0, 14) Sector c3000003090013 ┆C C!@ C " {* 6 ~7B! #>J3 > 2 C0 6 C oy gx ZU 4H -BL I4H}& -k k G~ + B` I DOC ID?1~/! @/w#<B > s gMA g[ 7J fpJz > #B !r wM^ M^ !i " 6 ~7B< #~7Bz +6 ~7BJ :m 2 :n 2 C f O fp1+wI ┆
0x00f00…01000 (0, 0, 15) Sector 00000c45006800 ┆ E h PLM CNVT i PLM TC ┆
0x01000…01100 (1, 0, 0) WangDocumentBody
[…0x2…]
0x01300…01400 (1, 0, 3) Sector 00000000000000 ┆ ┆
[…0x4…]
0x01800…01900 (1, 0, 8) WangDocumentBody
[…0x16…]
0x02f00…03000 (2, 0, 15) Sector 02000c00048141 ┆ Anes. med if any malfunction of the communication line occurs. It is the responsibility of the supervisor to take action to repair the communication. The system will automatically maintain and control the communication between stations by means o┆
0x03000…03100 (3, 0, 0) Sector 0301ff00051741 ┆ A 1 5.2.4.4 Local Print: Field 29 The operator specifies whether or not a local printout is desired. 5.2.5 Validation The operator gives the "next-message" or ENTER command. The ┆
0x03100…03200 (3, 0, 1) Sector 0302ff00051741 ┆ Ainput is validated against the range of values for variables (Table 1). If valid, distribution is made. If not, an error message is returned. 5.2.6 Exit Conditions If the transaction is validated sucessfully and NEXT MESSAGE was depressed, the ┆
0x03200…03300 (3, 0, 2) Sector 0303ff00051741 ┆ Anext message from the queue is presented. 5.3 RETRIEVAL OF MESSAGE FOR DISTRIBUTION - FORMAT 6 5.3.1 The operator retrieves the requested message based upon retrieval keys available under normal retrieval processing. 5.3.2 The operator spec┆
0x03300…03400 (3, 0, 3) Sector 0304b400051741 ┆ 4 Aifies the staff cells for local distribution. 5.3.3 The input is validated and the message, when validated, is distributed. If not, an error message is returned. t Condition The next message will be automatically presented, if NEXT MES┆
0x03400…03500 (3, 0, 4) Sector 0305ff00051741 ┆ A 1 6. SUPERVISOR ENGINEERING FUNCTIONS 6.1 INTRODUCTION The supervisor engineering commands are those engineering functions implemented to work from the supervisor command positi┆
0x03500…03600 (3, 0, 5) Sector 0306e600051741 ┆ f Aon. 6.2 ENGINEERING FUNCTIONS The actual engineering commands relating to engineering functions shall be derived from the hardware and software design and requirement for those functions. These will be defined during sy (See section 3.3) is pre┆
0x03600…03700 (3, 0, 6) Sector 00002100051741 ┆ ! Astem and subsystem design. (Menu 6, figure 5.1-2). An MDCO operator can request messages from the MDCO queue by using the appropriate command. The MDQ procedure services: - incoming messages as defined in section 4 - undeliverable messages -┆
0x03700…03800 (3, 0, 7) Sector 0208ff00048141 ┆ Aal Interfaces The link protocol for CAMPS/NICS TARE interface is described in document: "TARE synchronous channel protocol performance specifications", Doc. no. 177000-600, version F, dated 29 June 1979, updated with DCN G2 of 15 February 1980. ┆
0x03800…03900 (3, 0, 8) Sector 0309ff00051741 ┆ A 1 5.2.4.4 Local Print: Field 29 The operator specifies whether or not a local printout is desired. 5.2.5 Validation The operator gives the "next-message" or ENTER command. The ┆
0x03900…03a00 (3, 0, 9) Sector 030aff00051741 ┆ Ainput is validated against the range of values for variables (Table 1). If valid, distribution is made. If not, an error message is returned. 5.2.6 Exit Conditions If the transaction is validated sucessfully and NEXT MESSAGE was depressed, the ┆
0x03a00…03b00 (3, 0, 10) Sector 030bff00051741 ┆ Anext message from the queue is presented. 5.3 RETRIEVAL OF MESSAGE FOR DISTRIBUTION - FORMAT 6 5.3.1 The operator retrieves the requested message based upon retrieval keys available under normal retrieval processing. 5.3.2 The operator spec┆
0x03b00…03c00 (3, 0, 11) Sector 030cb400051741 ┆ 4 Aifies the staff cells for local distribution. 5.3.3 The input is validated and the message, when validated, is distributed. If not, an error message is returned. t Condition The next message will be automatically presented, if NEXT MES┆
0x03c00…03d00 (3, 0, 12) Sector 030dff00051741 ┆ A 1 6. SUPERVISOR ENGINEERING FUNCTIONS 6.1 INTRODUCTION The supervisor engineering commands are those engineering functions implemented to work from the supervisor command positi┆
0x03d00…03e00 (3, 0, 13) Sector 030ee600051741 ┆ f Aon. 6.2 ENGINEERING FUNCTIONS The actual engineering commands relating to engineering functions shall be derived from the hardware and software design and requirement for those functions. These will be defined during sy (See section 3.3) is pre┆
0x03e00…03f00 (3, 0, 14) Sector 00002100051741 ┆ ! Astem and subsystem design. (Menu 6, figure 5.1-2). An MDCO operator can request messages from the MDCO queue by using the appropriate command. The MDQ procedure services: - incoming messages as defined in section 4 - undeliverable messages -┆
0x03f00…04000 (3, 0, 15) Sector 03008700051741 ┆ A 1 FIGURE 5.2-1 the "X" will appear in this field, and the operator will edit in the RI in its place and possibly amend the PLA. X marke┆
0x04000…04100 (4, 0, 0) Sector 0401e300051741 ┆ c Aibuted locally according to updated message and specified SCDs The MDCO may further retrieve messages for distribution. 5.2 CONTROL OF MESSAGE DISTRIBUTION - FORMAT 31 5.2.1 Obtained by: "Next Message" Command contains precedence and is ┆
0x04100…04200 (4, 0, 1) Sector 04028700051741 ┆ A 1 FIGURE 5.1-1 the line is repeatable, so that the operator can insert RIs as requisite. 4.3.5 ACP127-Format Line 3: Field 9 The ┆
0x04200…04300 (4, 0, 2) Sector 04038700051741 ┆ A 1 FIGURE 5.1-2 (incoming and outgoing). The MSO selected the desired queue by the appropriate command (MSQI or MSQ0). 4.2 CORRECTION┆
0x04300…04400 (4, 0, 3) Sector 0404ff00051741 ┆ A 1 5.2.2 Initial Presentation The operator is presented the message in ACP 127 format protected (format 31, figure 5.2-1). Transaction-type field in the VDU header will display the r┆
0x04400…04500 (4, 0, 4) Sector 0405ff00051741 ┆ Aeason for presentation to the MDCO. The header only of Data Messages will be presented. 5.2.3 Sequence See Sequence A (figure 3.4-3) 5.2.4 Data Entry Fields 5.2.4.1 Annotation: Field 1 This protected field presents the reason for present┆
0x04500…04600 (4, 0, 5) Sector 0406ff00051741 ┆ Aation to the MDCO. 5.2.4.2 Distribution: Fields 2-19 The system supplies the SIC-derived Action and Info SCDs in these unprotected fields. These lines are repeated as necessary to accomodate all SCDs. The MDCO modifies the list as required. L┆
0x04600…04700 (4, 0, 6) Sector 0407ba00051741 ┆ : Aines may be repeated to accomodate all SCDs. 5.2.4.3 Device ID Fields 20-28 The MDCO inserts device IDs of Stand Alone Teleprinters and Paper Tape Punch at his own choice. 19-20 These lines are all treated similarly. The system completes ┆
0x04700…04800 (4, 0, 7) Sector 03088700051741 ┆ A 1 FIGURE 5.2-1 the "X" will appear in this field, and the operator will edit in the RI in its place and possibly amend the PLA. X marke┆
0x04800…04900 (4, 0, 8) WangDocumentBody
[…0x4…]
0x04d00…04e00 (4, 0, 13) Sector 040eff00051841 ┆ A 1 4.3.3.3 Manual Fall-Back If the watchdog fails, it is automatically taken out of service and the objects controlled by the watchdog will remain unchanged. The operator VDU can be┆
0x04e00…04f00 (4, 0, 14) Sector 040feb00051841 ┆ k A directly connected to one of the PUs. This enables continued operator control. However, the watchdog monitoring and control via the configuration bus, is not possible. Monitoring is provided by means of LEDs on the crates. PU enable/disable ┆
0x04f00…05000 (4, 0, 15) Sector 0000cb00051841 ┆ K A Control is provided via manual switches in the crates, which perform the same facilities as those provided via the configuration bus. Also, during installation the manual switches can be used. ocessor. The PU is disabled and the MAP is able to ┆
0x05000…05100 (5, 0, 0) WangDocumentBody
[…0x1…]
0x05200…05300 (5, 0, 2) Sector 0503ff00050141 ┆ Amat together with the MCB. The message will be moved to intermediate store (or deleted) as for an in-message. Appropriate retrieval parameters are derived and stored, and statistics generated. 4.2.6 Viewvs of a Message An ACP127 message is a co┆
0x05300…05400 (5, 0, 3) Sector 0504ff00050141 ┆ Amplex structure of variable length components. Different views of this structure are needed depending upon the use being mode of the message. This section describes the views of a message required by CAMPS with reference to fig. 4.2.6-1. In all case┆
0x05400…05500 (5, 0, 4) Sector 0505ff00050141 ┆ As the SOTF and EOTF sequences are never stored. 4.2.6.1 In-Message a) During Analysis and garble Correction The message has a start and an end and analysis is attempting to define the structure in between. b) Aster Successful Analysi Fo┆
0x05500…05600 (5, 0, 5) Sector 0506ff00050141 ┆ Ar a message in general ACP127 format lines 1 through 11 are identified though some are optional and some are not present in certain types of message. ACP127 page headings may be present within format lines 7 onwards and in the test. If the message ┆
0x05600…05700 (5, 0, 6) Sector 05073c00050141 ┆ < Ahas been re-addressed format lines 5 to 11 re-occur. sification of a message, the corresponding circuit should also suit the classification of the message. If not, the RI allocation according to the PLA table is incorrect. The output process will p┆
0x05700…05800 (5, 0, 7) Sector 04088900050141 ┆ A 1 Fig. 4.2.6-1 able A circuit will be unavailable if all of its channels are closed. This situation would normally require an adju┆
0x05800…05900 (5, 0, 8) WangDocumentBody
[…0x16f…]
0x1c800…1c900 (28, 0, 8) Sector 1c09ff00051741 ┆ Ad PLAs may be deleted. In the case of AIGs, this field will be left blank. Each of these lines will have been repeated by the system as many times as are necessary to accomodate the number of TO, INFO, and XMT addresses. 4.3.10 ACP127-Format Line┆
0x1c900…1ca00 (28, 0, 9) Sector 1c0a9800051741 ┆ A 10: Field 21 The Group Count, where applicable, will have been inserted here. The field is unprotected and the operator is free to edit it. rmally be returned for renewed processing after garble correction, but Mode = Y in this field has the r┆
0x1ca00…1cb00 (28, 0, 10) Sector 1c0bff00051741 ┆ A 1 4.3.11 ACP127-Format Line 11 Onwards: Field 22 The remainder of the message is output. 4.3.12 Validation The operator completes the transaction by giving the command "NEXT-ME┆
0x1cb00…1cc00 (28, 0, 11) Sector 1c0cff00051741 ┆ ASSAGE" or ENTER. Validation checks the values of ACP127 Format Line 2 fields only. An incorrect RI will result in the message being returned with an error code. 4.3.13 Exit Condition The next message will be automatically presented, if NEXT MES┆
0x1cc00…1cd00 (28, 0, 12) Sector 1c0d1d00051741 ┆ ASAGE was depressed. e message is processed. If not, an error message is returned. 4.2.6 Exit Conditions If validation is correct and NEXT MESSAGE was depressed, the next message is presented. 4.3 SERVICE TO OUTGOING MESSAGES - FORMAT 29 ┆
0x1cd00…1ce00 (28, 0, 13) Sector 1c0eff00051741 ┆ A 1 5. MESSAGE DISTRIBUTION CONTROL 5.1 INTRODUCTION The user who at sign on is recognized as having MDCO only capability or who selects the MDCO Function (See section 3.3) is pre┆
0x1ce00…1cf00 (28, 0, 14) Sector 1c0fff00051741 ┆ Asented with the MDCO menu. (Menu 6, figure 5.1-2). An MDCO operator can request messages from the MDCO queue by using the appropriate command. The MDQ procedure services: - incoming messages as defined in section 4 - undeliverable messages -┆
0x1cf00…1d000 (28, 0, 15) Sector 0400ff00051741 ┆ A data messages - messages with encrypted text the service includes: - display of message - specification of SCDs - selection of output of message to PTP - specify if message is printed at MDCO printer - specify if message is to be distr┆
0x1d000…1d100 (29, 0, 0) Sector 1d01ff00051741 ┆ A 1 4.3.3 Annotation Field 1 This protected field describes the reason for queuing for message service. 4.3.4 ACP127-Format Line 2: Fields 2-8 Field 1 contains precedence and is ┆
0x1d100…1d200 (29, 0, 1) Sector 1d02ff00051741 ┆ Aprotected. Fields 2-8 contain RIs, some of which will normally have been supplied by the System. These fields are unprotected and the line is repeatable, so that the operator can insert RIs as requisite. 4.3.5 ACP127-Format Line 3: Field 9 The ┆
0x1d200…1d300 (29, 0, 2) Sector 1d037400051741 ┆ t Arouting indicator of this CAMPS site is inserted by the system if already determined. The field is protected. ues as appropriate (incoming and outgoing). The MSO selected the desired queue by the appropriate command (MSQI or MSQ0). 4.2 CORRECTION┆
0x1d300…1d400 (29, 0, 3) Sector 1d048700051741 ┆ A 1 FIGURE 4.3-1 oming messages else by command MSQI. 4.2.2 Initial Presentation The operator is presented with the message in ACP 1┆
0x1d400…1d500 (29, 0, 4) Sector 1d05ff00051741 ┆ A 1 4.3.6 ACP127-Format Line 4: Fields 10-11 The System inserts Classification/Special Handling into field 10 which is protected. Field 11 is unprotected and the operator is free to i┆
0x1d500…1d600 (29, 0, 5) Sector 1d06ff00051741 ┆ Ansert operating signals. 4.3.7 ACP127-Format Line 5: Fields 12-13 The system inserts Precedence/DTG into field 12 (which is protected). Field 13 is unprotected and the operator is free to insert operating signals. 4.3.8 ACP127-Format Line 6: ┆
0x1d600…1d700 (29, 0, 6) Sector 1d07ff00051741 ┆ AField 14 The system inserts the originating HQ's PLA in this protected field. 4.3.9 ACP - Format Line 7: Fields 15-16 Format Line 8: Fields 17-18 Format Line 9: Fields 19-20 These lines are all treated similarly. The system completes ┆
0x1d700…1d800 (29, 0, 7) Sector 1c08ff00051741 ┆ Athe second field of the line with the PLA, and endeavours to insert RI into the first field. In the case of "X" designated PLAs, the "X" will appear in this field, and the operator will edit in the RI in its place and possibly amend the PLA. X marke┆
0x1d800…1d900 (29, 0, 8) Sector 1d09ff00051741 ┆ A- 8 The operator specifies staff cells for local distribution. This line is repeatable, allowing distribution to more than 6 SCDs. The normal distribution process is by-passed if any of these fields are completed; instead the message is distribute┆
0x1d900…1da00 (29, 0, 9) Sector 1d0aff00051741 ┆ Ad directly. 4.2.4.4 Local Printout: Field 9 The operator specifies local printout if desired. 4.2.4.5 Reject: Field 10 A message will normally be returned for renewed processing after garble correction, but Mode = Y in this field has the r┆
0x1da00…1db00 (29, 0, 10) Sector 1d0b3e00051741 ┆ > Aesult that the message is not returned to the system. 15 Supervisor Engineering Funtions - Menu 4 The supervisor by issuing the command "SENF" is presented with a menu of supervisor engineering functions. (Contents of menu TBD). 3.16 SIGN OFF┆
0x1db00…1dc00 (29, 0, 11) Sector 1d0cff00051741 ┆ A 1 4.2.5 Validation The operator presses the NEXT-MESSAGE key or ENTER. Input in fields 2 - 10 is validated against the range of values associated with the variables (Table 1).If val┆
0x1dc00…1dd00 (29, 0, 12) Sector 1d0dff00051741 ┆ Aidated successfully, the message is processed. If not, an error message is returned. 4.2.6 Exit Conditions If validation is correct and NEXT MESSAGE was depressed, the next message is presented. 4.3 SERVICE TO OUTGOING MESSAGES - FORMAT 29 ┆
0x1dd00…1de00 (29, 0, 13) Sector 1d0eff00051741 ┆ A 4.3.1 Obtained By: Issuing "Next-Message" Command If the MSO is already servicing outgoing messages else by command MSQO. 4.3.2 Initial Presentation The message will be presented in a format similar to ACP127. Both header and text will be a┆
0x1de00…1df00 (29, 0, 14) Sector 1d0fff00051741 ┆ Available (by paging as necessary). All fields will be protected apart from RI fields PLA fields of X-marked PLAs, Operating Signal fields and the Group Count Field. The transaction-type field is the VDU header will display the reason or reasons for ┆
0x1df00…1e000 (29, 0, 15) Sector 1d00b200051741 ┆ 2 Apresentation to the Message Service Operator. No leading text fields are provided by the system since ACP127 provides self-evident Keywords. Format 29 shows an example. cell designators - return of the message for renewed processing The servi┆
0x1e000…1e100 (30, 0, 0) Sector 1e01ff00051741 ┆ Ace to outgoing encrypted messages for group count assignment includes: - display of message - specification of a new group count return of the message for renewed routing determination. The service to outgoing messages for which RI assignment┆
0x1e100…1e200 (30, 0, 1) Sector 1e026600051741 ┆ f A is not possible includes: - display of message - deletion/insertion of RI's in the message th the supervisor menu. 3.14 MDCO CONTROL - FORMAT 8 3.14.1 Obtained by Command: MDCC 3.14.2 Initial Presentation All fields (format 8) conta┆
0x1e200…1e300 (30, 0, 2) Sector 1e03ff00051741 ┆ A 1 MSO Traffic is diverted to one of two queues as appropriate (incoming and outgoing). The MSO selected the desired queue by the appropriate command (MSQI or MSQ0). 4.2 CORRECTION┆
0x1e300…1e400 (30, 0, 3) Sector 1e04ff00051741 ┆ A TO INCOMING GARBLED MESSAGES-FORMAT 28 4.2.1 Obtained by Issuing "Next-Message" Command If the MSO is already servicing incoming messages else by command MSQI. 4.2.2 Initial Presentation The operator is presented with the message in ACP 1┆
0x1e400…1e500 (30, 0, 4) Sector 1e058e00051741 ┆ A27 format. All fields within that format are unprotected to allow modification and correction as required (format 28, figure 4.2-1). Fields The routing of incoming messages for MDCO attention is controlled by the parameters given in the followi┆
0x1e500…1e600 (30, 0, 5) Sector 1e068700051741 ┆ A 1 FIGURE 4.2-1 5 The supervisor may select up to 4 levels of classification by entering the appropriate CLASS. Those classifications┆
0x1e600…1e700 (30, 0, 6) Sector 1e07ff00051741 ┆ A 1 4.2.3 Sequence See Sequence A (figure 3.4-3) 4.2.4 Data Entry Fields 4.2.4.1 ACP 127 Message: Field 1 The operator edits header or text as appropriate. The whole Message is┆
0x1e700…1e800 (30, 0, 7) Sector 1d08ff00051741 ┆ A available by paging as necessary. Non-printable characters are replaced by a suitable not-normally used character (e.g #). 4.2.4.2 Annotation: Field 2 The operator may annotate the message as necessary. 4.2.4.3 Local Distribution: Fields 3 ┆
0x1e800…1e900 (30, 0, 8) Sector 1e090b00051741 ┆ A. FIGURE 3.12-2 3.12.4.2 Time of Occurrence (TOC), TOC Window, DTG of Release, SIC and Originating Headquarters: Fields 3-7 If ex┆
0x1e900…1ea00 (30, 0, 9) Sector 1e0aff00051741 ┆ A 1 3.14.6 Exit Conditions After input has been accepted, the Format is cleared from the VDU and the cursor positioned on the Command Line ready for the next command. A NULL command w┆
0x1ea00…1eb00 (30, 0, 10) Sector 1e0bff00051741 ┆ Aill result in the supervisor menu being presented. 3.15 Supervisor Engineering Funtions - Menu 4 The supervisor by issuing the command "SENF" is presented with a menu of supervisor engineering functions. (Contents of menu TBD). 3.16 SIGN OFF┆
0x1eb00…1ec00 (30, 0, 11) Sector 1e0ce700051741 ┆ g A The user may sign off upon the completion of a function or during the execution of a function by issuing the command SIOF. The system will recognize the command and display the message for unattended operation. led by the supervisor us┆
0x1ec00…1ed00 (30, 0, 12) Sector 1e0dff00051741 ┆ A 1 4. MESSAGE SERVICE FUNCTIONS 4.1 INTRODUCTION The user who at sign on is recognized as having message service capability only, or who selects Message Service (See sections 3.3┆
0x1ed00…1ee00 (30, 0, 13) Sector 1e0eff00051741 ┆ A.2 and 3.3.4) is given Message Service Facilities. A message service operator can request messages from the appropriate queue by use of the Next Message Key. Only one message service operator at a time can operate on a given message in a message s┆
0x1ee00…1ef00 (30, 0, 14) Sector 1e0fff00051741 ┆ Aervice queue. The MSQ procedure services - incoming garbled messages - outgoing encrypted messages for group count assignment - outgoing messages for which RI assignment is not possible. The service to garbled incoming messages includes: -┆
0x1ef00…1f000 (30, 0, 15) Sector 1e00ff00051741 ┆ A display of message - corrections of any part of the message - insertion of annotation - local printout - local distribution to message service operator specified staff cell designators - return of the message for renewed processing The servi┆
0x1f000…1f100 (31, 0, 0) Sector 1f01ff00051741 ┆ Awith the allowable range of values for the variables (See Table 1). If acceptable, it causes an update to the ACP 127 parameters. Otherwise it is returned with error message(s). 3.13.6 Exit Conditions If validation positive, the VDU is cleared ┆
0x1f100…1f200 (31, 0, 1) Sector 1f02ff00051741 ┆ Aand the cursor returned to the command line. If command is NULL, the supervisor is presented with the supervisor menu. 3.14 MDCO CONTROL - FORMAT 8 3.14.1 Obtained by Command: MDCC 3.14.2 Initial Presentation All fields (format 8) conta┆
0x1f200…1f300 (31, 0, 2) Sector 1f033a00051741 ┆ : Ain the current parameter-values (figure 3.14-1). nd results in presentation of supervisor menu. uccessful validation, the VDU is cleared and the cursor returned to the command line. If command is NULL, the supervisor is presented with the superv┆
0x1f300…1f400 (31, 0, 3) Sector 1f048800051741 ┆ A 1 FIGURE 3.14-1 mand MSGC Note that this command is invalid unless made in the context of a message currently displayed at the superv┆
0x1f400…1f500 (31, 0, 4) Sector 1f05ff00051741 ┆ A 1 3.14.3 Sequence See Sequence A (figure 3.4-3) 3.14.4 Data Entry Fields The routing of incoming messages for MDCO attention is controlled by the parameters given in the followi┆
0x1f500…1f600 (31, 0, 5) Sector 1f06ff00051741 ┆ Ang fields: 3.14.4.1 All Incoming Messages: Field 1 The supervisor enters MODE. 3.14.4.2 All of Classification: Fields 2 - 5 The supervisor may select up to 4 levels of classification by entering the appropriate CLASS. Those classifications┆
0x1f600…1f700 (31, 0, 6) Sector 1f07ff00051741 ┆ A not selected will result in no messages of that classification being referred to MDCO position 3.14.4.3 All with SIC: Fields 6 - 10 The supervisor may select up to 5 specific SICs by entering the required SICs 3.14.5 Validation The superv┆
0x1f700…1f800 (31, 0, 7) Sector 1e08ff00051741 ┆ Aisor presses the ENTER key. The supervisor's input is validated in accordance with the allowable range of values for the variables (See table 1). If acceptable, it causes an update to the MDCO parameters. Otherwise it is returned with error messages┆
0x1f800…1f900 (31, 0, 8) Sector 1f098800051741 ┆ A 1 FIGURE 3.12-2 3.12.4.2 Time of Occurrence (TOC), TOC Window, DTG of Release, SIC and Originating Headquarters: Fields 3-7 If ex┆
0x1f900…1fa00 (31, 0, 9) Sector 1f0aef00051741 ┆ o A 1 3.13 ACP 127 Parameters - Format 7 3.13.1 Obtained by Command ACPP 3.13.2 Initial Presentation. All Fields (Format 7) Contain the current parameter values. on of keys is in┆
0x1fa00…1fb00 (31, 0, 10) Sector 1f0b8800051741 ┆ A 1 FIGURE 3.13-1 Identification and Channel Serial Number: Fields 8-11 If retrieval is required on Format line 1 information, this co┆
0x1fb00…1fc00 (31, 0, 11) Sector 1f0cff00051741 ┆ A 1 3.13.3 Sequence See Sequence A (Figure 3.4-3) 3.13.4 Data Entry Fields ACP 127 message format parameters for incoming and outgoing messages are controlled by the supervisor us┆
0x1fc00…1fd00 (31, 0, 12) Sector 1f0dff00051741 ┆ Aing this format (Figure 3.13-1) 3.13.4.1 Exercise Indicator: Field 1 The supervisor enters MODE for detection. 3.13.4.2 Insert: Field 2 The supervisor enters MODE for insertion of indication. 3.13.4.3 Format Line 1: Field 3. The super┆
0x1fd00…1fe00 (31, 0, 13) Sector 1f0eff00051741 ┆ Avisor specifies number of spaces to be used. 3.13.4.4 Format Line 2: Field 4 The supervisor specifies precedence warning. 3.13.4.5 Format Line 3: Field 5 The supervisor specifies separation of R and U type RI's. 3.13.4.6 Format Line 4: F┆
0x1fe00…1ff00 (31, 0, 14) Sector 1f0f7000051741 ┆ p Aields 6-7 The supervisor specifies requirement for FLASH receipt and insertion of operating signals. selected in this format. 3.12.4.6 Message Control: Field 19 If the supervisor wishes to further process or control the message he has ret┆
0x1ff00…20000 (31, 0, 15) Sector 1f00ff00051741 ┆ A 1 3.13.4.7 Format Line 5: Fields 8-9. The supervisor specifies year and time zone. 3.13.5 Validation The supervisor presses the ENTER key. The input is validated in accordance ┆
0x20000…20100 (32, 0, 0) Sector 2001ff00051741 ┆ A 3.12.5 Validation The user presses the ENTER key. Input is validated against the acceptable range of values for the variables (Table 1). If accepted, the parameters will cause the message/comment referenced to be retrieved. If not, an error messa┆
0x20100…20200 (32, 0, 1) Sector 2002ff00051741 ┆ Age will be returned. 3.12.6 Continue If after review of the message, the supervisor wishes to further control he will issue the command described below and be presented the message control menu. If not, he presses ENTER Key and VDU is cleared ┆
0x20200…20300 (32, 0, 2) Sector 20036900051741 ┆ i Aand cursor returned to the command line. NULL command results in presentation of supervisor menu. uccessful validation, the VDU is cleared and the cursor returned to the command line. If command is NULL, the supervisor is presented with the superv┆
0x20300…20400 (32, 0, 3) Sector 2004ff00051741 ┆ A 1 3.12.7 Message Control - Format 30 3.12.7.1 Obtained by Command MSGC Note that this command is invalid unless made in the context of a message currently displayed at the superv┆
0x20400…20500 (32, 0, 4) Sector 2005ff00051741 ┆ Aisor VDU. 3.12.7.2 Initial Presentation Format 30, figure 3.13-2, is presented with all fields blank. 3.12.7.3 Control Selection (fields 1-3) The supervisor enters MODE "Y" for the desired Control action. "DELETE" may only be given on its ┆
0x20500…20600 (32, 0, 5) Sector 2006ff00051741 ┆ Aown, and for released messages only, "RE-DISTRIBUTE" and "RE-TRANSMIT" may be given together, Re-transmit is only valid for messages where transmission has been started. Redistribute is valid for incoming messages and for released outgoing messages.┆
0x20600…20700 (32, 0, 6) Sector 2007ff00051741 ┆ A For "RE-DISTRIBUTE" and "RE-TRANSMIT" shall the retrieve key be the channel id. 3.12.7.4 Validation The supervisor presses the ENTER key. The command is validated and the appropriate notification is issued signifying completion of the requeste┆
0x20700…20800 (32, 0, 7) Sector 1f08ac00051741 ┆ , Ad action. 3.12.7.5 Exit Conditions Upon validation, the VDU is cleared and the cursor returned to the command line. NULL command returns to retrieve format. of Release, Originating Headquarters Fields 1-2 If DTG of Release is known, the ┆
0x20800…20900 (32, 0, 8) Sector 2009ff00051741 ┆ Asupervisor may specifiy this key. Originating headquarters is optional, if not another key or combination of keys may be selected. 3.12.4.2 Time of Occurrence (TOC), TOC Window, DTG of Release, SIC and Originating Headquarters: Fields 3-7 If ex┆
0x20900…20a00 (32, 0, 9) Sector 200aff00051741 ┆ Aact time of occurrence is known, the supervisor specifies this. If not the time of occurrence window must be utilized. DTG of release, SIC, and originating headquarters are optional (at least one must be specified). If this combination of keys is in┆
0x20a00…20b00 (32, 0, 10) Sector 200bff00051741 ┆ Asufficient the supervisor can use other combinations available in this format. 3.12.4.3 Time of Occurrence, TOC Window, Channel Identification and Channel Serial Number: Fields 8-11 If retrieval is required on Format line 1 information, this co┆
0x20b00…20c00 (32, 0, 11) Sector 200c8a00051741 ┆ Ambination is used. The supervisor must indicate TOC or TOC window and channel identification. Channel Serial number is optional. message preparation the supervisor envokes his user capability. 3.11.1 Obtained by Command ASMG 3.11.2 Initial ┆
0x20c00…20d00 (32, 0, 12) Sector 200dff00051741 ┆ A 1 3.12.4.4 Time of Occurrence, TOC Window, Station Identification, Station Serial Number and Filing Time: Fields 12-16 If retrieval is required on Format line 3 information, this co┆
0x20d00…20e00 (32, 0, 13) Sector 200eff00051741 ┆ Ambination is used. The supervisor must specify time of occurrence or TOC window plus station identification and serial number. Filing time is optional. 3.12.4.5 TOC, Item Reference ID: Fields 17-18 The supervisor may also retrieve by internal r┆
0x20e00…20f00 (32, 0, 14) Sector 200fff00051741 ┆ Aeferences of time stamps and item reference identification if no other key or combination thereof has been selected in this format. 3.12.4.6 Message Control: Field 19 If the supervisor wishes to further process or control the message he has ret┆
0x20f00…21000 (32, 0, 15) Sector 2000ff00051741 ┆ Arieved, he can issue the command for message control. This command will cause the message control format to be presented, and carries with it the Context of the message which has just been retrieved. (Does not apply to comments and notifications) ┆
0x21000…21100 (33, 0, 0) Sector 2101ff00051741 ┆! Alassification: Field 13 The supervisor enters classification. 3.11.4.4 Format Line 12; Free Text: Field 14 The supervisor enters free text as necessary. Lines are repeating. 3.11.5 Validation The user presses the ENTER key. The input is ┆
0x21100…21200 (33, 0, 1) Sector 2102d400051741 ┆! T Avalidated in accordance with the allowable range of values for the variables (Table 1). If acceptable, the service message is ready for transmission. If not, the service message is displayed for editing. 4 ]M, C 4:>=2A=Ms!:g=~ Jr4Mj2:g=~ B}4C75! ┆
0x21200…21300 (33, 0, 2) Sector 2103ff00051741 ┆! A 1 3.11.6 Exit Conditions Upon successful validation, the VDU is cleared and the cursor returned to the command line. If command is NULL, the supervisor is presented with the superv┆
0x21300…21400 (33, 0, 3) Sector 2104ff00051741 ┆! Aisor menu. 3.12 RETRIEVAL - FORMAT 6, Figure 3.12-1 The supervisor has a variety of keys or combinations thereof by which he may retrieve an item. Certain keys or combinations are mandatory. The supervisor is either presented with the item or w┆
0x21400…21500 (33, 0, 4) Sector 2105b500051741 ┆! 5 Aith a catalog of information. If the exact item is identified within the catalog, it can be retrieved without selecting additional keys. 3.12.1 Obtained by Command RETV t Fundet I brug nu Allerede p> systemdiskette ┆
0x21500…21600 (33, 0, 5) Sector 21068800051741 ┆! A 1 FIGURE 3.12-1 ┆
0x21600…21700 (33, 0, 6) Sector 2107ff00051741 ┆! A 1 3.12.2 Initial Presentation All fields (Format 6) are presented as blank fields. 3.12.3 Sequence See Sequence A (figure 3.4-3) 3.12.4 Data Entry Fields The supervisor can┆
0x21700…21800 (33, 0, 7) Sector 2008ff00051741 ┆ A retrieve based on the retrieval keys available within this format and can access a format to control the message/comment retrieved. (Figure 3.13-1). 3.12.4.1 DTG of Release, Originating Headquarters Fields 1-2 If DTG of Release is known, the ┆
0x21800…21900 (33, 0, 8) WangDocumentBody
[…0x5f…]
0x27800…27900 (39, 0, 8) WangDocumentHead {hdr=WangSectHead {next=(39,0, 9), len=0xff, h3=41048041}, f00=»0480A «, f01=»CPS/SDS/001 «, f02=»vhn, sdv «, f03=»SRA «, f04=»Kap 5. + 5.1 «, f05=08-01-81 15:57, f06=» 16 «, f07=»56 «, f08=» 75867 «, f09=15-01-81 12:28, f10=» «, f11=»32 «, f12=» 618 «, f13=15-01-81 13:32, f14=20-02-81 13:11, f15=»0036A «, f16=» 90 «, f17=» 23 «, f18=»57 «, f19=» 1660 «, f20=» 82300 «, f21=» «, f22=» «, f99=180010000110056610a10a80aaca1505000000000000003803a501df}
0x27900…27a00 (39, 0, 9) WangDocumentBody
[…0x6…]
0x28000…28100 (40, 0, 0) WangDocumentHead {hdr=WangSectHead {next=(40,0, 1), len=0xff, h3=41051541}, f00=»0515A «, f01=»CPS/SDS/001 system design «, f02=»am] «, f03=»KNN «, f04=»kap. 4.12 «, f05=15-01-81 15:19, f06=» «, f07=»07 «, f08=» 642 «, f09=15-01-81 19:12, f10=» «, f11=»00 «, f12=» 13 «, f13=15-01-81 19:13, f14=20-02-81 13:11, f15=»0036A «, f16=» 1 «, f17=» «, f18=»07 «, f19=» 12 «, f20=» 655 «, f21=» «, f22=» «, f99=020010000110056610a10a80aaca15050000000000000038030600df}
0x28100…28200 (40, 0, 1) WangDocumentBody
[…0x4…]
0x28600…28700 (40, 0, 6) Sector 2807ff00048041 ┆( AR80D Control Bus (DCB) ...... 5.1.4.1.2 Electrical Description of the DCB .......................... 5.1.4.1.3 Central Processing Unit and CACHE Memory (CPU/CACHE) ..... 5.1.4.1.3.1 The CPU ..┆
0x28700…28800 (40, 0, 7) Sector 2708ff00048041 ┆' A................ 5.1.4.1.3.2 The CACHE Memory CTRL .... 5.1.4.1.3.3 Mechanical & Electrical Specifications ........... 5.1.4.1.4 The MAP and Map Interface Adapter (MIA) ....................┆
0x28800…28900 (40, 0, 8) WangDocumentBody
[…0x76…]
0x2ff00…30000 (47, 0, 15) Sector 00000000000000 ┆ ┆
0x30000…30100 (48, 0, 0) WangDocumentBody
[…0x3f…]
0x34000…34100 (52, 0, 0) WangDocumentHead {hdr=WangSectHead {next=(52,0, 1), len=0xff, h3=41050941}, f00=»0509A «, f01=»CAMSP SYS DES. SPEC «, f02=»sdv «, f03=»RG «, f04=»CPS/SYS/001, 4.1.2 «, f05=15-01-81 10:26, f06=» 5 «, f07=»32 «, f08=» 17409 «, f09=28-01-81 08:19, f10=» «, f11=»01 «, f12=» 4 «, f13=15-01-81 20:55, f14=20-02-81 12:07, f15=»0036A «, f16=» 20 «, f17=» 5 «, f18=»45 «, f19=» 232 «, f20=» 17956 «, f21=» «, f22=» «, f99=020010000110056610a10a80aaca15050000000000000038034f00df}
0x34100…34200 (52, 0, 1) WangDocumentBody
[…0x6e…]
0x3b000…3b100 (59, 0, 0) WangDocumentHead {hdr=WangSectHead {next=(59,0, 1), len=0xff, h3=41051941}, f00=»0519A «, f01=»CPS/SDS/001 «, f02=»am] «, f03=»FH «, f04=»kap. 4.10 «, f05=15-01-81 16:24, f06=» 1 «, f07=»35 «, f08=» 7522 «, f09=16-01-81 00:42, f10=» «, f11=»03 «, f12=» 39 «, f13=16-01-81 00:45, f14=20-02-81 13:11, f15=»0036A «, f16=» 8 «, f17=» 1 «, f18=»46 «, f19=» 144 «, f20=» 7748 «, f21=» «, f22=» «, f99=020010000110056610a10a80aaca15050000000000000038032700df}
0x3b100…3b200 (59, 0, 1) WangDocumentBody
[…0x9…]
0x3bb00…3bc00 (59, 0, 11) Sector 3b0cff00051941 ┆; A 1 TABLE OF CONTENTS 4.10 AVAILABILITY, MAINTAINABILITY AND INTEGRITY OF OPERATION .............................. 4.10.1 Availability ........................ ┆
0x3bc00…3bd00 (59, 0, 12) Sector 3b0dff00051941 ┆; A 4.10.1.1 Definitions ..................... 4.10.1.2 Requirements and Verification ... 4.10.1.3 Unavailability and Switch-over Time ............................ 4.10.2 Maintainability ................┆
0x3bd00…3be00 (59, 0, 13) Sector 3b0eff00051941 ┆; A..... 4.10.2.1 Definitions ..................... 4.10.2.2 Requirements and Verification ... 4.10.3 Integrity of Operation .............. 4.10.3.1 Definitions ..................... 4.10.3.2 Requiremen┆
0x3be00…3bf00 (59, 0, 14) Sector 3b0f5800051941 ┆; X Ats .................... 4.10.3.3 Verification .................... u M% :^=~ Bl1{M40sI:^=~ J 1!"<6;!#<6 !&<6 ! "$<! <6 {M;(s! 9"c=! "(= Z=q#p!"<6 !&<6 ! "$<!#<6 ! <6 {M)(sC I! <6 ! "(= <q#p!"<6 !#<6 ! "$<!&<6$`i6 {M)(sM &M7 ┆
0x3bf00…3c000 (59, 0, 15) Sector 3b00ff00051941 ┆; A 1 4.10.1 Availability 4.10.1.1 Availability Definitions a) Availability. The probability of finding an item in a functioning condition at a given time. b) Mean time between Fai┆
0x3c000…3c100 (60, 0, 0) WangDocumentBody
[…0x1f…]
0x3e000…3e100 (62, 0, 0) WangDocumentHead {hdr=WangSectHead {next=(62,0, 1), len=0xff, h3=41050141}, f00=»0501A «, f01=»CPS/SDS/001 «, f02=»pc «, f03=»RG «, f04=»Kap. 4.2.5 «, f05=13-01-81 14:30, f06=» 5 «, f07=»01 «, f08=» 31882 «, f09=20-02-81 11:59, f10=» «, f11=»01 «, f12=» 5 «, f13=19-01-81 12:47, f14=20-02-81 12:07, f15=»0036A «, f16=» 24 «, f17=» 5 «, f18=»17 «, f19=» 448 «, f20=» 32350 «, f21=» «, f22=» «, f99=020010000110056610a10a80aaca15050000000000000038038a00df}
0x3e100…3e200 (62, 0, 1) WangDocumentBody
[…0x1e…]
0x40000…40100 (64, 0, 0) WangDocumentHead {hdr=WangSectHead {next=(64,0, 1), len=0xff, h3=41052041}, f00=»0520A «, f01=»CPS/SDS/001 «, f02=»vhn «, f03=»SRA «, f04=»KAP. 5.3 «, f05=15-01-81 17:48, f06=» 2 «, f07=»20 «, f08=» 11563 «, f09=15-01-81 22:32, f10=» «, f11=»13 «, f12=» 301 «, f13=15-01-81 22:46, f14=20-02-81 13:12, f15=»0036A «, f16=» 18 «, f17=» 2 «, f18=»33 «, f19=» 212 «, f20=» 11864 «, f21=» «, f22=» «, f99=020010000110056610a10a80aaca15050000000000000038034300df}
0x40100…40200 (64, 0, 1) WangDocumentBody
[…0x6…]
0x40800…40900 (64, 0, 8) WangDocumentHead {hdr=WangSectHead {next=(64,0, 9), len=0xff, h3=41051741}, f00=»0517A «, f01=»CPS/230/ICD/0002 «, f02=»vhn «, f03=»HKI «, f04=»Fra kap. 3.11-6 «, f05=15-01-81 15:37, f06=» «, f07=»09 «, f08=» 451 «, f09=10-06-81 13:25, f10=» «, f11=»02 «, f12=» 122 «, f13=10-06-81 13:28, f14=10-06-81 14:57, f15=»0036A «, f16=» 32 «, f17=» 1 «, f18=»23 «, f19=» 280 «, f20=» 2601 «, f21=» «, f22=» «, f99=800010000110056610110480aaca15050000000000000038036700df}
0x40900…40a00 (64, 0, 9) Sector 400a2000051741 ┆@ A @ @ @ @ ! ! ! DOKUMENTOVERSIGT Dokument nr: Dokumentnavn: Operat]r: Forfatter: Kommentarer: STATISTIK AKTIVITET DATO TID ANV.TID ANSLAG Oprettet / / : : : : : : : : ┆
0x40a00…40b00 (64, 0, 10) Sector 400baa00051741 ┆@ * A 1 CPS/230/ICD/0002 810610 SUPERVISOR COMMANDS AND PROCEDURES ISSUE 2.1 CAMPS 2&*/=MM, > I!e=6 !Z="(=e*$<kas#r 9x2"<! <6 M8)I:^=~ B#.!#<6 ! <6 M&&:!<~ J#.:!<2.=M2┆
0x40b00…40c00 (64, 0, 11) Sector 400cff00051741 ┆@ A 1 3.11 ABBREVIATED SERVICE MESSAGES - FORMAT 5 For full service message preparation the supervisor envokes his user capability. 3.11.1 Obtained by Command ASMG 3.11.2 Initial ┆
0x40c00…40d00 (64, 0, 12) Sector 400d9300051741 ┆@ APresentation All fields (Format 5) are presented as blanks (initial preparation) or with current values if for editing (figure 3.11-1). Mj'! "(=~ R*/!/=6jM (*(=~ R;/!/=6nM (*(=~ RM/!/=6iM (*(=~ R`/!/=6WM (*(=~ Rt/!/=6lM (*(=~ R ┆
0x40d00…40e00 (64, 0, 13) Sector 400e8800051741 ┆@ A 1 FIGURE 3.11-1 0C 0! <6 M1' Z 0CR0Mc&!.=6 ! <6 M1' R40C.1! <6 M1' RC0C.1! <6 M1' RR0C.1!$<5CQ0!$<6 !&<6 Mc&! "(=6 E '<M% ! "2<┆
0x40e00…40f00 (64, 0, 14) Sector 400fff00051741 ┆@ A 1 3.11.3 Sequence. See Sequence A (Figure 3.4-3) 3.11.4 Data Entry Fields The supervisor specifies Format line 2, 3, 4 and 12 information. 3.11.4.1 Format Line 2; Precedence a┆
0x40f00…41000 (64, 0, 15) Sector 2100ff00051741 ┆! And Routing Indicator(s): Fields 1 - 11. The supervisor specifies the precedence and routing indicator(s). 3.11.4.2 Format Line 3; DE: Field 12 The supervisor specifies the routing indicator of the sending station. 3.11.4.3 Format Line 4; C┆
0x41000…41100 (65, 0, 0) WangDocumentBody
[…0x5f…]
0x47000…47100 (71, 0, 0) WangDocumentHead {hdr=WangSectHead {next=(71,0, 1), len=0xff, h3=41051441}, f00=»0514A «, f01=»CPS/SDS/001 system design «, f02=»vhn «, f03=» «, f04=»indholdsfortegnelse «, f05=15-01-81 14:33, f06=» «, f07=»27 «, f08=» 2902 «, f09=29-01-81 08:43, f10=» «, f11=»01 «, f12=» 15 «, f13=29-01-81 08:44, f14=20-02-81 11:08, f15=»0036A «, f16=» 14 «, f17=» 7 «, f18=»39 «, f19=» 568 «, f20=» 19622 «, f21=» «, f22=» «, f99=300010000110056610a10a80aaca15050000000000000038038300df}
0x47100…47200 (71, 0, 1) WangDocumentBody
[…0x6…]
0x47800…47900 (71, 0, 8) WangDocumentHead {hdr=WangSectHead {next=(71,0, 9), len=0xff, h3=41051841}, f00=»0518A «, f01=»CAMPS SYS DES SPEC «, f02=»sdv «, f03=»FH «, f04=»CPS/SYS/001, 4.3 «, f05=15-01-81 16:12, f06=» 4 «, f07=»11 «, f08=» 25449 «, f09=22-01-81 09:23, f10=» «, f11=»11 «, f12=» 38 «, f13=22-01-81 09:41, f14=20-02-81 12:07, f15=»0036A «, f16=» 24 «, f17=» 4 «, f18=»59 «, f19=» 376 «, f20=» 26962 «, f21=» «, f22=» «, f99=320010000110056610a10a80aaca15050000000000000038037800df}
0x47900…47a00 (71, 0, 9) WangDocumentBody
[…0x6…]
0x48000…48100 (72, 0, 0) Sector 4801ff00051441 ┆H A18 2.6.1 Software Documentation ............... 18 3 ENVIRONMENTS ................................. 19 to 38 3.1 PHYSICAL ENVIRONMENTS .................... 20 3.1.1 Access Dimension ..................... 20 3.1.2 Space ..┆
0x48100…48200 (72, 0, 1) Sector 4802ff00051441 ┆H A.............................. 20 3.1.3 Weight ............................... 20 3.1.4 Ambient Temperature .................. 21 3.1.5 Humidity ............................. 21 3.1.6 Dust, Fumes .......................... 2┆
0x48200…48300 (72, 0, 2) Sector 4803e100051441 ┆H a A2 3.1.6.1 Air Cleanness .................... 22 3.1.6.2 Fumes ............................ 22 3.1.7 Shock and Vibration .................. 22 3.1.8 Altitude ............................. 23 ┆
0x48300…48400 (72, 0, 3) Sector 4804ff00051441 ┆H A 1 3.2 EXTERNAL INTERFACE DEFINITION ............ 25 3.2.1 CAMPS - SCARS Interface .............. 25 3.2.1.1 Physical Interface ............... 25 3.2.1.2 Functi┆
0x48400…48500 (72, 0, 4) Sector 4805ff00051441 ┆H Aonal Interface ............. 25 3.2.2 CAMPS - CCIS Interface ............... 26 3.2.2.1 Physical Interface ............... 26 3.2.2.2 Functional Interface ............. 27 3.2.3 CAMPS - NICS TARE Interface .......... 27 ┆
0x48500…48600 (72, 0, 5) Sector 4806ff00051441 ┆H A 3.2.3.1 Physical Interface ............... 27 3.2.3.2 Functional Interfaces ............ 27 3.2.4 CAMPS - TRC Interface ................ 28 3.2.4.1 Physical Interface ............... 28 3.2.4.2 Functional Interface ┆
0x48600…48700 (72, 0, 6) Sector 4807ff00051441 ┆H A............. 29 3.2.5 CAMPS - OCR Interface ................ 29 3.2.5.1 Physical Interface ............... 30 3.2.5.2 Functional Interface ............. 30 3.2.6 CAMPS - Low Speed Teleprinter Interface ...........┆
0x48700…48800 (72, 0, 7) Sector 4708ff00051441 ┆G A................. 30 3.2.6.1 Physical Interface ............... 30 3.2.6.2 Functional Interface ............. 31 3.3 PROCEDURAL INTERFACES .................... 32 3.3.1 Display Formats ...................... 32 3.3.2 ┆
0x48800…48900 (72, 0, 8) WangDocumentHead {hdr=WangSectHead {next=(72,0, 9), len=0xff, h3=41051441}, f00=»0514A «, f01=»CPS/SDS/001 system design «, f02=»vhn «, f03=» «, f04=»indholdsfortegnelse «, f05=15-01-81 14:33, f06=» «, f07=»27 «, f08=» 2902 «, f09=29-01-81 08:43, f10=» «, f11=»01 «, f12=» 15 «, f13=29-01-81 08:44, f14=29-01-81 10:32, f15=»0036A «, f16=» 14 «, f17=» 7 «, f18=»39 «, f19=» 568 «, f20=» 19622 «, f21=» «, f22=» «, f99=300010000110056610a10a80aaca15050000000000000038038400df}
0x48900…48a00 (72, 0, 9) Sector 480a0e00051441 ┆H A H H H G G F E E D D C C B A A DOKUMENTOVERSIGT Dokument nr: Dokumentnavn: Operat]r: Forfatter: Kommentarer: STATISTIK AKTIVITET DATO TID ANV.TID ANSLAG Oprett┆
0x48a00…48b00 (72, 0, 10) Sector 480b9b00051441 ┆H A 1 CPS/SDS/001 810115 CAMPS SYSTEM 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┆
0x48b00…48c00 (72, 0, 11) Sector 480cff00051441 ┆H A 1 TABLE OF CONTENTS 1 GENERAL ...................................... 1 to 6 1.1 PURPOSE .................................. 1 1.2 PROJECT REFERENCES ...............┆
0x48c00…48d00 (72, 0, 12) Sector 480dff00051441 ┆H A........ 2 1.2.1 Applicable Documents ................. 2 1.2.2 Reference Documents .................. 3 1.3 TERMS AND ABBREVIATIONS .................. 4 1.3.1 Terms ................................ 4 1.3.2 Abbrevi┆
0x48d00…48e00 (72, 0, 13) Sector 480eff00051441 ┆H Aations ........................ 5 2 SUMMARY OF REQUIREMENTS ...................... 7 to 18 2.1 SYSTEM DESCRIPTION ....................... 8 2.1.2 Overview of CAMPS Functions .......... 12 2.1.2.1 CAMPS Interfaces .........┆
0x48e00…48f00 (72, 0, 14) Sector 480fff00051441 ┆H A........ 12 2.1.2.2 In-Message Analysis .............. 15 2.1.2.3 Out-Message Synthesis ............ 15 2.1.2.4 Distribution ..................... 16 2.1.2.5 Miscellaneous .................... 16 2.2 SYSTEM FUNCTION┆
0x48f00…49000 (72, 0, 15) Sector 4800ff00051441 ┆H AS ......................... 16 2.3 CHARACTERISTICS .......................... 16 2.4 DESIGN AND CONSTRUCTION (HW) ............. 17 2.5 DESIGN AND CONSTRUCTION (SW) ............. 17 2.6 DOCUMENTATION ............................ ┆
0x49000…49100 (73, 0, 0) Sector 1b01b40000000d ┆ 4 1 EDIT GLOSSARY ( not available at present version ) ( please strike execute to proceed ) ITIALIZE ARCHIVE DISKETTE DUPLICATE FLOPPY DISKETTE MERGE PRINT C┆
0x49100…49200 (73, 0, 1) Sector 00415243484956 ┆ ARCHIVE DISK. DOCUMENT IS DAMAGED.!z q#p,s#r.y~V HCA ICV I!t ~V B; I!1 ~f V Je $.y6# ` %.8^,VM# !9 4.1~f V J $.y6# %.8^,VM# !9 4I> S !y 6# ) %.8^,VM# !9 4$.x6 !x ~V J? M7 !x wV J# > S C# I!8 6 #6a$.y6 L %.8^,VM# !8 ~,FV Ox^ -q#w$.x6 > !x Z *8 6 !8 4┆
0x49200…49300 (73, 0, 2) Sector 242ef834c2ee03 ┆$.x4Bn C IM; 6 M; ,~V D@ I!y 6# & %.8^,VM# !9 4M I!z 6 .v6;,6 ,6 #6 .t6 M; ,~V D@ !y 6 ; M# !y 6 ; M# C I!6 6 . Nq!7 ~. ZD M; ,~V D@ !z 6 !0 N!w q! N,F!x q#p.t6 ! N,F! " ! 4B I!: ~,FV Ox^ 1H. 6 .76 .:N,F- ~#F! w#pMv *: +": CE IM7 .6~┆
0x49300…49400 (73, 0, 3) Sector d600c22c05242e ┆V B, $.lN,F%.:q#pME M; $. ~V J, !0 N!w q.t6 !p ~ \ M M4 I!u ~V BQ !1 ~!w 6!1 wI.wN Bl !y 6# I %.8^,VM# C} !y 6# l %.8^,VM# !9 4Mz I!y 6 %.8^,VM# !9 4Mz I> !: ,O> \; !x ~,FV Ox^ 1L; I! 6 ! N ! > "t ~#FV Ox^ 1Bf ! ~F wCB ! N,F*t q#p! ~F wI! ~ \┆
0x49400…49500 (73, 0, 4) Sector bd05242ef17e0f ┆= $.q~ X* ~#FV Ox^ 1B !% ~ X! N,F. q#p-N,F* q#pI!z 6 !0 N!w q.t6 M; ,~V JT !q 6 !u 6 I !n ^,Vz7 W{ _ Bb k#"l !n ^,V{ _z W Bz / O> R *l #"l > !l ,O> R' .q6 I*: #": M4 !q ~ Z` %.:N,F- k!x N,Fy x !: ~,F$.l ,Ox Z' I*: +": ME I*, #", ! 4. N,F! "┆
0x49500…49600 (73, 0, 5) Sector 981b219b1b7ed6 ┆ ! ~V B .:N,F- ~#F! w#p*: +": Mz M; ,~V D; !z 6 !0 N!w q! N,F!x q#p! N,FH!v qM !t 6 ! N,F. q#p. 6 . ~,FV Ox^-1B -6 #65C -6 #6-C Mz ! N,F! " / <! ,Ox R0 -6 #6-I!5 ~ X$.v6 #6 ! ~,FV Ox^ Gy!v ,Ox Z M; ,~V D; !z 6 !/ N!w q!v N,F! ~#F!x ┆
0x49600…49700 (73, 0, 6) Sector 7723702ef43602 ┆w#p.t6 !v N,F! "v C? I!q ~ X>C ! ,Ox \ ! N,F- k* ~#F x * #" ** #"* IM * ~#Ff Oxfx!r q#w-~,F! ,Ox 1B . 6 #6 C !r ~,F! ,Ox 1B ,6 #6%C ,~,FV Ox^ 1B= -6 #6%!r N,F! q#pCO -6 #6 !r N,F! q#pM; ,~V D; !z 6 !/ N!w q!r N,F!x q#p$. N,FH%.vqM ┆
0x49700…49800 (73, 0, 7) Sector 21f41136802a0a ┆!t 6 * ~#F!r ,Ox -q#w! ~,FV Ox^ 1B4 *r " C> %*r " I!% ~ Rb 6 * "" * "t ~!$ w> .$ R ."N,F$.tq#p*t ~V B ! 6 !) ~ R 6 * "& !( 6 $.x6 !$ ~V B- ,6 .(~V B8 ,6 .%~.)6 Z| .$~V O> .( Z] .$~V $.xwCd > $.xw%.$~$.x %.$w$.x~%.( wC! !x N┆
0x49800…49900 (73, 0, 8) Sector 2c71252ea24e2c ┆,q%."N,F.&^,VM# !x N *" "" !x N *& "& !y 6 ! N,F! ^,VM# * "t !$ N*t q * "t !( N*t qIM; ,~V D; /! R+ N!z q!0 N!w q! N,F!x q#p! N,FH!v qM !t 6 M; ,~V D; I!~ q#p.x6 > !x Za *~ ~!x ^ %.2 O~ D *~ #"~ !x 4B6 I!t 6 #6=%. 6 #6-$.v6 #6 > !v┆
0x49900…49a00 (73, 0, 9) Sector 1c962c4f789eda ┆ ,Ox Z4 * ~*t O~ D; *t #"t * #" !v N,F! "v Cz IMP M; ,~V D; ! N,F. q#p * kKBM, * ~#FV Ox^ 1B5 * " M1 ! 6 #6 !* 6 #6 I!t 6 & 6 #6 t *t q#p!u 6 ,6 .x6 #6 ,6 .~6 ,6 $. 6 #6 ! 6 #6 ,6 #6 ,6 #6%! 6 ,6 . 6 #6=. 6 .,6 #6 .*6 #6 . 6 #6-$.q6 %┆
0x49a00…49b00 (73, 0, 10) Sector 2ea936012ea536 ┆.)6 .%6 .56 ,6 .:6 #6 $.l6 #6 %.16 $.p6 ! 6 #6 !n 6 #6 .v6 #6 > !v ,Ox Zj -*v "t 6 !v N,F! "v C? %.86 #6m!t 6 #67! ##k*t ~#F x !t 6 #67*t ~!0 w$.t6 #67*t ~!/ w$.t6 #67*t ~! w!x 6 > !x Zy N ! 7 "t !x N !{ k*t ~ !x N %.2 k*t ~ !x 4B? ! ##" ┆
0x49b00…49c00 (73, 0, 11) Sector 122103127ed602 ┆ ! ~V B !5 6 !/ ~V V ,O~V V 1 R* $.p6 ! ~V B9 M5 C1 N BQ !0 N!w q { M, !t 6 M; ,~V B` 6 CQ ~V J !y 6 %.8^,VM# !9 4$.q6 C .xN,F!& q#p & ! q#p!/ N.(q.0N-qM5 M; ,~V D; { M, !t 6 M; ,~V JJ 6 M !( N./q! ##" !q 6 MP M; ,~V D; !q 6 } * "t * ┆
0x49c00…49d00 (73, 0, 12) Sector 09eb4b42cdac0a ┆ kKBM, *t ~#F!n w#p-~,FV Ox^ 1L MZ !q ~ RC .y6# %.8^,VM# !9 4C %.:N,F- ~#F!x w#p!0 N!w q { M, !t 6 M; ,~V J !y 6# %.8^,VM# !9 4$.q6 !u 6 ME !q ~ R* M; !/ N!w qCy !: N,F- ~#F! w#p*: +": ! k! N,Fy x -N,F. q#p!$ 6 > !$ Zx MP M; ,~V D; ! N,F┆
0x49d00…49e00 (73, 0, 13) Sector 2e0a7123700104 ┆. q#p * kKBM, !y 6 ! N,F! ^,VM# * "" * "& !y 6y%."N,F.&^,VM# * kKBM, ! N,F! " Mz ! 6 #6>.$4Bd ! N ! > " ~#FV Ox^ 1B ! ~F wCx ! 6 #6/MP M; ,~V D; C` M? !% ~ R5 * ~#FV Ox^ 1BW !) 6 C5 !t ~V JW * kKBM, * "t * ~#FV O┆
0x49e00…49f00 (73, 0, 14) Sector 78de00b1c21510 ┆x^ 1B !) 6 *t ~V L *t ~O> R5 * "t ~V B5 !) 6 !) ~ RH Mk $.q~ Z * ~#FV Ox^ 1B` !% ~ Z !% ~ R ! N,F. q#p * kKBM, * ~#FV Ox^ 1J4 MP C4 Mc !* ~,F$.n ,Ox 1D } ! = "t !, N,F*t q#pM; ,~V D; !z 6 !0 N!w q $. ~#F!x w#p =H.vq.t6 M; ,~V D; -┆
0x49f00…4a000 (73, 0, 15) Sector 4821f611712ef4 ┆H!v q.t6 M; ,~V D; Mb %.76 . 4Mv ME * " M9 ?~~ {z v C^6 Cn"b v# X Cj6| $2"Ch"l <"Ch"l v X}, B $}, "C`6 Cn"b v# X Ch"l v X}, C`8| 8 ]b}, T"H]b}, Cb8| 86 h vlCj"l L7 ┆
0x4a000…4a100 (74, 0, 0) Sector 00000000000000 ┆ ┆
[…0x1f…]
0x4c000…4c100 (76, 0, 0) Sector c33b44553a2030 ┆C;DU: 00 P:T: 00 S:B: 00 MEMORY DISPLAYSECTORBAD DISKENTER T ENTER S ENTER U ENTER P ENTER B RUNNING PRINTING!jK~V0R{@> I~V:R @/I~VaR @> I>f R @> I~V w/I*ZK~fpF *dKwO>9 R6@~F w*dK#"dK*ZK~f F0*dKwO>9 RT@~F w*dK#"dKI! Kq[ f Z`@! K~S I!xK6 !oK~.x Z A*Z┆
0x4c100…4c200 (76, 0, 1) Sector 4b7e2ae44b7723 ┆K~*dKw#"dK*ZK#"ZK!xK4Bt@I!dK6B#6`.o6 Mo@I!ZKN,F.vq#p.u~V BGA _K.Zq#pCOA rK.Zq#pM @ vK!ZKq#pM @!vKN,F.Zq#pI!xK6 > !xK Z AM @*ZK#"ZK!xK4BoAI!xK6 > !xK Z_A.d~,FV Ox^ ,q#w*fK6 [ !jKwV J,A*fK6 !jK~V JQAMo@ Z'AN*dKq*dK#"dK!xK4B AI*dK~V0!jKw*dK~O>9 R|A!jK~V w!jK~┆
0x4c200…4c300 (76, 0, 2) Sector 0f0f0f0f2ada4b ┆ *ZKw*dK#"dK~V0!jKw*dK~O>9 R(B!jK~V w*ZK~!jK6*ZKwI!dKN,F.`q#p.ZN,F.bq#p.uN B[B.Z6 #6@CbB.Z6)#6@.d6 #6`.o6 Mo@.d6 #6b.Z6 #6N.{6 > !{K ZbBM)A *dK "dK!yK6 > !yK ZQB,6 > !zK ZCBMjA*dK#"dK!zK4B)B*dK#"dK!yK4B B 0 *dK "dK!{K4B B.d6 #6k.Z6 #6N.{6 > !{K ZXCM)A┆
0x4c300…4c400 (76, 0, 3) Sector 0102002ae44b09 ┆ *dK "dK!oK6 .y6 > !yK ZGC,6 > !zK Z9CMo@*dK#"dK!zK4B C*dK#"dK!yK4B C 0 *dK "dK!{K4BtB.`N,F.dq#p.bN,F.Zq#pI>L!dK R C.Z~V H.e4-6 4.^N J*C-~n wN H.Z4~f V @.d4.Z~f V @.d4I.Z4~f V @.d4.Z~f V @.d4I!dK~V RWC.Z~V H.e5-6P5.^N J C-~n wV H.Z5~f V @.d5.Z~f V @.d5I.┆
0x4c400…4c500 (76, 0, 4) Sector da357ee607d607 ┆Z5~f V @.d5.Z~f V @.d5I!^KN J-D.e~ViH4.Z~F wI.e~VnH4.Z~F@wI[ !jKw.h6 #6 *hK~!mKw*hK6 /S !lK~V B E6 .|6 #6 .p6 #6 .k6 .s6 ,6 ._6 .r6 .d6 #6`.x6 > !xK ZED,6 >P!yK Z4D*dK6 #"dK!yK4B D 0 *dK "dK!xK4B D.d6 #6`.Z6 #6@.o6 Mo@.d6 #6`.Z6 #6@.o6 Mo@.d60#6`.Z6 #6@.o6┆
0x4c500…4c600 (76, 0, 5) Sector 08cdef402ee436 ┆ Mo@.d6 #6`.Z6 #6@.o6 Mo@CDJ.`N,F.dq#p.bN,F.Zq#p.j~V H.d~,FV Ox^ ,q#w*fK6 !jK~VfJhI~VeJXF~V J FN JaJ~V J J~V J/I~V JUI~V B E.tN yf wC|I~V B E.tN yf wC|I~V JsI~V J>F~VpJ G~V J H~V J F~V BBEM DCGG~V!BNEMmCCGG~V J F~V J F~V ByE.x6 > !xK ZvEMBC.x4BdECGG~V B F.┆
0x4c600…4c700 (76, 0, 6) Sector f836013e0821f8 ┆x6 > !xK Z FMmC.x4B FCGG> ZGG~V ZGG/ k.d ,Ox ZgF.j~V JyFMo@ ZGGN*dKq!]KN BZF*dK+"dKM`ACdFM`A*dK+"dKCvF.jN*dKq!jKN*ZKqM5BMmCCGGMBCCGG.^N J,F.e~VbJGG5.Z~V wCGG/ k!dK ,Ox R4F.e~VkJGG5.Z~V@wCGG.^N BPF.Z~f@F@wC F.Z~f`F w!dK6 #6b.^6 .Z~7 BiF.xw.Z~f .yw wC!G!┆
0x4c700…4c800 (76, 0, 7) Sector e44b36062336eb ┆dK6 #6k.^6 .Z~7 B G.xw.Z~f?.yw.Z6 .]6 /!xK R8G5M DC)G/!yK RGG5MmCC8G!dK~,FV Ox^ ,q#w*fK6 !dKN,F.`q#p.ZN,F.bq#p,63#6` bK.Zq#pM @!ZK6_#6@M A!mKN*hKq!mK~S I.u~V B H *|K k!sKNy *|K k!tKNy *|K 6 *|K 6 *|K 6N*|K6 *|K~V B`G*|K#~V J H!ZK6/#6@M AC ┆
0x4c800…4c900 (76, 0, 8) Sector 47c347472ee436 ┆GCGG.d6 #6N.Z6 .k~V J"H.r~v .[wC(H.rN.[q.x6 > !xK ZkH*hK6 /S *dK~!nKw.kN*hKq!kK~S .nN*ZKq#"ZK*dK#"dK!xK4B,H*hK6 /S !bKN,F.Zq#pCGG.Z6g#6@M A M\@ M\@!dK6 #6`.x6 >'!xK Z@H*dK~OM\@*dK#"dK!xK4B!H M\@ M\@ M\@!dK6 #6b.{6 > !{K Z`I-6 >P!zK ZJI*dK~V J(I*dK~V Z┆
0x4c900…4ca00 (76, 0, 9) Sector 30492ae44b7ed6 ┆0I*dK~V Z I*dK~V Z0I*dK~V J0I*dK~!jKwC5I!jK6 C5I!jK6.!jKNM\@*dK#"dK!zK4BgH 0 *dK "dK M\@!{K4B[H M\@C G.u~V J|ICDJ.Z6W#6@M A.d63#6`M A.d63#6` bK.Zq#pM`A!bKN,F.Zq#p.^~V JXFC F.Z67#6@M A.d6 #6`M A.d6 #6` sK.Zq#pM`A!ZK6?#6@M A.d6 #6`M A.d6 #6` tK.Zq#pM`A!uK6┆
0x4ca00…4cb00 (76, 0, 10) Sector 000104002afc4b ┆ *|K k!sKNy *|K k!tKNy *|K 6 *|K 6 *|K 6N*|K6 *|K~V B=J*|K#~V J^J!ZK6/#6@M AC GC4K!ZK6G#6@M A.d6 #6`M A.d6 #6` kK.Zq#pM`A> !kK ZaJ!ZK6O#6@M A.d6 #6`M A.d6 #6`*dK~O>7 Z J rK!ZKq#pM`A!uK6 .^6 .k~V J`J.r~v .[wCfJ.rN.[q-6 .d6 #6N.x6 > !xK Z4K.kN┆
0x4cb00…4cc00 (76, 0, 11) Sector 2ae84b7121eb4b ┆*hKq!kK~S *ZK~!nKw*hK6 /S !nKN*dKq#"dK*ZK#"ZK!xK4BtJM5B kK-q#p.d6 #6`M @ rK!ZKq#p.d6 #6`M @ sK!ZKq#p.d6 #6`M @ tK!ZKq#p.d6 #6`M @!dK6 #6b.]6 ,6 .Z6 #6NCGGM;DC K{v ┆
0x4cc00…4cd00 (76, 0, 12) Sector 00000000000000 ┆ ┆
[…0x3…]
