OctetView
0x00000…00100 (0, 0, 0) Sector 00894130303839 ┆ A0089A ┆
0x00100…00200 (0, 0, 1) Sector 00000000000000 ┆ ┆
0x00200…00300 (0, 0, 2) Sector ff00c0fffffeff ┆ @ ~ `| ┆
0x00300…00306 (0, 0, 3) WangDocument {d00=0x13, d01=0x65, d02=0x41, ptr=(53,0, 8), d05=0x00}
0x00306…0030c WangDocument {d00=0x13, d01=0x67, d02=0x41, ptr=(40,0, 8), d05=0x00}
0x0030c…00312 WangDocument {d00=0x13, d01=0x69, d02=0x41, ptr=(52,0, 8), d05=0x00}
0x00312…00318 WangDocument {d00=0x13, d01=0x70, d02=0x41, ptr=(51,0, 8), d05=0x00}
0x00318…0031e WangDocument {d00=0x13, d01=0x71, d02=0x41, ptr=(65,0, 8), d05=0x00}
0x0031e…00320 13 71 ┆ q┆
0x00320…00340 41 45 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 ┆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 1e ┆ ┆
0x00400…00500 (0, 0, 4) Sector 00000000000000 ┆ ┆
0x00500…00600 (0, 0, 5) Sector 86312020202020 ┆ 1 8 7 Q? > 7 u N Md| N 2<N d N ~<) 0uH &4'>( 1c5 & & ┆
0x00600…00700 (0, 0, 6) Sector 421c402600415b ┆B @& A[' X% % PO P ; pA} C g x g V W| O 8 :} f ? a 1370A g L < {C < { ; 0 ' h - b bD K : 8 9 ? t xyyyb f X X X ] t ┆
0x00700…00800 (0, 0, 7) Sector 00000000000000 ┆ ┆
[…0x8…]
0x01000…01100 (1, 0, 0) WangDocumentBody
[…0x1…]
0x01200…01300 (1, 0, 2) Sector 01033400136741 ┆ 4 gA +10/-15 % 50 Hz + 30/-10% signal adaption is provided via the Optical Mux/Demux Transceiver module which is a standard CR80S module occupying 1 crate position. 5.2.2.4.3 Mechanical and Electrical Spec. The LTUX-S is a stand┆
0x01300…01400 (1, 0, 3) Sector 00009c00136741 ┆ gA 1 Figure 5.2.2.6-1 The Power Supply LTUX-S + 5 Volt: 3 A + 12 Volt: 0,15 A - 12 Volt: 0,15 A red to the device number, and┆
0x01400…01500 (1, 0, 4) Sector 00000000000000 ┆ ┆
[…0x3…]
0x01800…01900 (1, 0, 8) WangDocumentBody
[…0x16…]
0x02f00…03000 (2, 0, 15) Sector 0200ff00136541 ┆ eA 1 b) Technical Manual This document contains: 1) The Product Specification 2) The Functional Description which contains a detailed functional description 3) Circuit diagr┆
0x03000…03100 (3, 0, 0) WangDocumentBody
[…0x257…]
0x28800…28900 (40, 0, 8) WangDocumentHead {hdr=WangSectHead {next=(40,0, 9), len=0xff, h3=41136741}, f00=»1367A «, f01=»CPS/SDS/001 «, f02=»vhn «, f03=»SRA «, f04=»Kapitel 5.2 «, f05=09-10-81 07:11, f06=» «, f07=»20 «, f08=» 677 «, f09=07-06-82 11:15, f10=» «, f11=»02 «, f12=» 103 «, f13=09-06-82 15:12, f14=19-05-83 05:47, f15=»0089A «, f16=» 50 «, f17=» 1 «, f18=»16 «, f19=» 504 «, f20=» 2336 «, f21=» «, f22=» 0 «, f99=830010000110066610110480aaca1505000000000000003703b200df}
0x28900…28a00 (40, 0, 9) WangDocumentBody
[…0x11…]
0x29b00…29c00 (41, 0, 11) Sector 00008900136941 ┆ iA 5.4.2.1 Standard Hardware, Firmware and Software N.A. 5.4.2.2. External Interfaces VDU and LP at the operator position. is crate is done via a BSM-X module containing the CCA. The BSM-X assigns either the TDX Bus #1, TDX Bus #2 or none ┆
0x29c00…29d00 (41, 0, 12) Sector 290dff00136741 ┆) gA Format ...... 169 5.2.2.2 The TDX CRATE .................... 173 5.2.2.2.1 Electrical Specification of the Motherboard Signals ...... 173 5.2.2.3 The TDX Controller ............... 181 5.2.2.4 The LTUX-S .....┆
0x29d00…29e00 (41, 0, 13) Sector 290eff00136741 ┆) gA.................. 190 5.2.2.4.1 TDX Bus Interface ............ 190 5.2.2.4.2 User I/F ..................... 195 5.2.2.4.3 Mechanical & Electrical Spec.. 195 5.2.2.5 The BSM-X ........................ 197 5.2.2.6 Th┆
0x29e00…29f00 (41, 0, 14) Sector 290f2d00136741 ┆) - gAe Power Supply ................. 197 ! "(=6 *(=#"(=6 IM2&! w"2< hMI sM & E 0= 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 ┆
0x29f00…2a000 (41, 0, 15) Sector 2900ff00136741 ┆) gA 1 5.2 THE TDX DESIGN 5.2.1 General The aim of this section is: - to supply documentation and functional description of the TDX (Telecommunication Data Exchange) H/W as implemen┆
0x2a000…2a100 (42, 0, 0) WangDocumentBody
[…0x5…]
0x2a600…2a700 (42, 0, 6) Sector 2a075a00136841 ┆* Z hAinally indicate the centre of each signal element on Circuit 104 (Received data). uit-terminating equipment is conditioned to transmit data on the data channel. The OFF condition indicates that the data circuit-terminating equipment is not prepa┆
0x2a700…2a800 (42, 0, 7) Sector 0000ae00136841 ┆ . hA 1 Figure 5.3.2.5-1 Data Exchange Channel - Category 5 the data circuit-terminating equipment is ready to operate. The ON condition i┆
0x2a800…2a900 (42, 0, 8) WangDocumentBody
[…0x8f…]
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0x33900…33a00 (51, 0, 9) WangDocumentBody
[…0xe…]
0x34800…34900 (52, 0, 8) WangDocumentHead {hdr=WangSectHead {next=(52,0, 9), len=0xff, h3=41136941}, f00=»1369A «, f01=»CPS/SDS/001 «, f02=»vhn «, f03=»BHJ «, f04=»Kapitel 5.4 «, f05=12-10-81 08:50, f06=» «, f07=»04 «, f08=» 150 «, f09=09-06-82 20:28, f10=» «, f11=»00 «, f12=» 13 «, f13=09-06-82 20:29, f14=27-02-84 10:05, f15=»0089A «, f16=» 16 «, f17=» 2 «, f18=»50 «, f19=» 176 «, f20=» 3647 «, f21=» «, f22=» «, f99=610010000110066610110480aaca15050000000000000037033e00df}
0x34900…34a00 (52, 0, 9) WangDocumentBody
[…0xe…]
0x35800…35900 (53, 0, 8) WangDocumentHead {hdr=WangSectHead {next=(53,0, 9), len=0xff, h3=41136541}, f00=»1365A «, f01=»CPS/SDS/001 «, f02=»vhn «, f03=»SRA «, f04=»Kapitel 5 «, f05=09-10-81 07:10, f06=» 1 «, f07=»06 «, f08=» 751 «, f09=28-01-83 16:01, f10=» «, f11=»14 «, f12=» 69 «, f13=28-01-83 15:49, f14=27-02-84 09:52, f15=»0089A «, f16=»117 «, f17=» 4 «, f18=»40 «, f19=» 1472 «, f20=» 6384 «, f21=» «, f22=» «, f99=890010000110062710110280aaca1505000000000000003703e701df}
0x35900…35a00 (53, 0, 9) WangDocumentBody
[…0x7…]
0x36100…36200 (54, 0, 1) Sector 36027500136541 ┆6 u eA] 6 6 5 5 5 4 4 4 4 ┆
0x36200…36300 (54, 0, 2) Sector 3603a500136541 ┆6 % eA 1 CPS/SDS/001 SRA/830128 CAMPS SYSTEM DESIGN SPECIFICATION ISSUE 1.3 CAMPS /=6)M2&*/=MM, > I!e=6 !Z="(=e*$<kas#r 9x2"<! <6 M8)I:^=~ B#.!#<6 ! <6 M&&:!<~ J#.:!<2.=M2┆
0x36300…36400 (54, 0, 3) Sector 3604ff00136541 ┆6 eA 1 1 TABLE OF CONTENTS 5 SUBSYSTEM SPECIFICATION ...................... 3 5.1 CR80D SYSTEM DESIGN ......┆
0x36400…36500 (54, 0, 4) Sector 3605ff00136541 ┆6 eA................ 3 5.1.1 Scope ................................ 3 5.1.2 CR80D Crate Assy. .................... 3 5.1.3 CR80D Buses .......................... 8 5.1.3.1 CR80D Main Buses (DMB) ........... 8 5.1.3.1┆
0x36500…36600 (54, 0, 5) Sector 3606ff00136541 ┆6 eA.1 Functional Description of the CR80D Main Bus (DMB) ......... 11 5.1.3.1.2 Electrical Description of the CR80D Main Bus ............... 22 5.1.3.2 The CR80D Data Channel (DDC)...... 26 5.1.3.2.1 Funct┆
0x36600…36700 (54, 0, 6) Sector 3607ff00136541 ┆6 eAional Description of the DDC .......................... 26 5.1.4 Processor Sub-System (PRS) ........... 33 5.1.4.1 Design & Construction ............ 35 5.1.4.1.1 Functional Description of the CR80D Contr┆
0x36700…36800 (54, 0, 7) Sector 3508ff00136541 ┆5 eAol Bus (DCB) ...... 35 5.1.4.1.2 Electrical Description of the DCB .......................... 42 5.1.4.1.3 Central Processing Unit and CACHE Memory (CPU/CACHE) ..... 43 5.1.4.1.3.1 The CPU ............┆
0x36800…36900 (54, 0, 8) WangDocumentBody
[…0xaf…]
0x41800…41900 (65, 0, 8) WangDocumentHead {hdr=WangSectHead {next=(65,0, 9), len=0xff, h3=41137141}, f00=»1371A «, f01=»CPS/SDS/001 «, f02=»vhn «, f03=»OKH «, f04=»Kapitel 5.6 «, f05=12-10-81 08:53, f06=» «, f07=»19 «, f08=» 172 «, f09=20-03-84 14:48, f10=» «, f11=»02 «, f12=» 39 «, f13=16-10-81 13:23, f14=21-03-84 09:09, f15=»0089A «, f16=» 37 «, f17=» «, f18=»21 «, f19=» 584 «, f20=» 211 «, f21=» «, f22=» 0 «, f99=430010000110066610110480aaca1505000000000000003703b900df}
0x41900…41a00 (65, 0, 9) WangDocumentBody
[…0x6…]
0x42000…42100 (66, 0, 0) Sector 42019100137141 ┆B qA section 5.6.1.2.4. In CAMPS, the operating system functions are performed by SSC, having responsibility for all resource management. The process exchanges data with the environmental files and lines. It does not need to recognize other proces┆
0x42100…42200 (66, 0, 1) Sector 4202ff00137141 ┆B qA 1 5.6.1.2.1.1 Access to Objects There are three ways for a process to gain access to an object: a) Creation The process which originally created the object has capabilities whi┆
0x42200…42300 (66, 0, 2) Sector 4203ff00137141 ┆B qAch it specified itself at creation time. At that time Directory Functions checked if the specified capabilities were compatible with security rules. b) Inheritance A child may at creation time inherit specified objects with specified capabiliti┆
0x42300…42400 (66, 0, 3) Sector 4204ff00137141 ┆B qAes from the parent. The capabilities versus a given object can only be a subset of those possessed by the parent. The capabilities of the child can never be changed. Directory functions check at creation time if the capabilities are consistent with ┆
0x42400…42500 (66, 0, 4) Sector 4205ff00137141 ┆B qAsecurity rules. c) Cataloguing Directory functions have a directory, where objects may be catalogued. Each catalogue entry consists of an object identifier and an access control list. Each entry of the access control list specifies the capabili┆
0x42500…42600 (66, 0, 5) Sector 4206ff00137141 ┆B qAties of a user group to the object. When a process wants access to a particular object, it calls the directory function Lookup Object, which then checks if the user group of the process has any capabilities to the object and if the access is consist┆
0x42600…42700 (66, 0, 6) Sector 4207ff00137141 ┆B qAent with security rules. 5.6.1.2.2 Security KERNEL contains tools which may be used by SSC to enforce very rigid limitations upon the information exchange between processes, and access to objects by processes. As described in section 4.8, these┆
0x42700…42800 (66, 0, 7) Sector 41085000137141 ┆A P qA tools are used as the second level in a two level checking mechanism. ent creation, deletion, transfer, and mapping 10. Set Time 11. Read Time, Schedule and Cancel Time Signal 12. Time Signal 13. Timer Interrupt 14. Error Report to Calling ┆
0x42800…42900 (66, 0, 8) Sector 42094c00137141 ┆B L qAProcess 15. Error Report to Parent FIGURE 5.6.1.1.4-1 (CONT.) sequence of machine instructions. The data associated with a process are called the process data. The instructions for manipulating the process data are collected in the assoc┆
0x42900…42a00 (66, 0, 9) Sector 420a4a00137141 ┆B J qA 1 tions (non privileged hardware instructions) together with the system commands provided by KER, SFM and IOC. Program and process data reside in completely separate parts of memory┆
0x42a00…42b00 (66, 0, 10) Sector 420bff00137141 ┆B qA 1 5.6.1.2 Functions 5.6.1.2.1 Directory Functions Directory Functions are KERNEL tools for resource allocation. Examples of system resources, from here on called objects, are m┆
0x42b00…42c00 (66, 0, 11) Sector 420cff00137141 ┆B qAemory segments, processes, CPU's and synchronization elements. Objects are dynamically created and removed by processes, and exchanged between processes. KERNEL controls, that whenever a process has obtained access to an object, either by creating┆
0x42c00…42d00 (66, 0, 12) Sector 420dff00137141 ┆B qA it or by obtaining it from another process, the process can not access or manipulate the object beyond a limit defined at creation time or time of granting the access. This limit is called the capabilities of the process with respect to the object.┆
0x42d00…42e00 (66, 0, 13) Sector 420eff00137141 ┆B qA For each object a process can only grant a subset of the capabilities that it has got itself. The ability of a process to create new objects is further limited by a socalled claim on each type of resource. A process can never create more instance┆
0x42e00…42f00 (66, 0, 14) Sector 420fff00137141 ┆B qAs of a specific object type than defined by its claim for that object type. Even if KERNEL contains tools for limiting access to existing objects and limits ability to create new objects, it does not take any high level decisions about distributio┆
0x42f00…43000 (66, 0, 15) Sector 4200ff00137141 ┆B qAn of available resources between processes and the dynamic behaviour of the system in terms of creation and removal of objects. These decisions must be taken by special processes playing the role of operating systems. This is further described in┆
0x43000…43100 (67, 0, 0) Sector 4301ff00137141 ┆C qAonment looks as if the process is executed within a monoprogrammed machine with a CPU, a memory and a set of peripheral files and/or lines. The process exchanges data with the environmental files and lines. It does not need to recognize other proces┆
0x43100…43200 (67, 0, 1) Sector 4302ff00137141 ┆C qAses except that they may cause a slow down of the CPU. Processes may, however, cooperate in performing a specific task. They do so by exchanging data and synchronizing their activities. This is done by the process communication tools provided by K┆
0x43200…43300 (67, 0, 2) Sector 4303ff00137141 ┆C qAERNEL. Synchronization and data exchange between processes is done by means of synchronization elements as described in 5.6.1.2.6. Based upon synchronization elements, the I/O system implements special tools for data exchange with SFM and IOC. ┆
0x43300…43400 (67, 0, 3) Sector 4304ff00137141 ┆C qA 5.6.1.1.4 Interfaces KERNEL interfaces to hardware and to all other CAMPS software packages. Three packages are of special interest: a) SSC Takes all high level decisions concerning resource allocation and resource sharing. b) SFM Contr┆
0x43400…43500 (67, 0, 4) Sector 43058300137141 ┆C qAols all disk storage. c) IOC Controls all communication lines. The main interfaces are shown on the diagram overleaf. cal communication lines. In a rather crude model, the relations between KERNEL, SFM, IOC and the rest of CAMPS software is┆
0x43500…43600 (67, 0, 5) Sector 43069c00137141 ┆C qA 1 Figure 5.6.1.1.4-1 KERNEL Interfaces 2.1.1 Access to Objects ........ 285 5.6.1.2.2 Security ..................... 285 5┆
0x43600…43700 (67, 0, 6) Sector 4307ff00137141 ┆C qA 1 1. I/O Activation 2. I/O Completion Notification 3. I/O Instruction 4. Device Interrupt 5. Process creation, deletion, activation, and deactivation 6. Timer Interrupt ┆
0x43700…43800 (67, 0, 7) Sector 4208ff00137141 ┆B qA 7. Send, Await and I/O System Functions 8. Page Fault Interrupt 9. Segment creation, deletion, transfer, and mapping 10. Set Time 11. Read Time, Schedule and Cancel Time Signal 12. Time Signal 13. Timer Interrupt 14. Error Report to Calling ┆
0x43800…43900 (67, 0, 8) Sector 4309ff00137141 ┆C qAy the execution of an associated program. A program is defined as a sequence of machine instructions. The data associated with a process are called the process data. The instructions for manipulating the process data are collected in the assoc┆
0x43900…43a00 (67, 0, 9) Sector 430aff00137141 ┆C qAiated program. The available instructions are the CR80D user instructions (non privileged hardware instructions) together with the system commands provided by KER, SFM and IOC. Program and process data reside in completely separate parts of memory┆
0x43a00…43b00 (67, 0, 10) Sector 430bff00137141 ┆C qA, and the same program may well be executed by several processes. Execution of processes may be truly parallel if the machine contains more than one CPU. Otherwise execution is pseudo-parallel, meaning that execution of the running process may at ┆
0x43b00…43c00 (67, 0, 11) Sector 430cff00137141 ┆C qAany place in the program be interrupted and another process may then resume execution from a point in the program where it was previously interrupted. Process data and program associated with a given process are specified by two sets of Memory Tra┆
0x43c00…43d00 (67, 0, 12) Sector 430dff00137141 ┆C qAnslation Tables belonging to the process. They are loaded into the map module each time the process resumes execution. (See figure 5.6.1.1.1-1) 5.6.1.1.2 Security Security is closely related to the process concept in that all system resources ┆
0x43d00…43e00 (67, 0, 13) Sector 430ebc00137141 ┆C < qAare allocated to and exchanged between processes. So security actually amounts to controlling the access to system resources, including information carrying resources, by processes. ..... 310 5.6.2.2 External Interfaces .............. 310 ┆
0x43e00…43f00 (67, 0, 14) Sector 430f9c00137141 ┆C qA 1 Fig. 5.6.1.1.1-1 Relations between HW and SW packages 16 10 81 13 23 07 04 82 13 24 0089A 37 19 604 172 0 C f *J 7 9 _┆
0x43f00…44000 (67, 0, 15) Sector 4300ff00137141 ┆C qA 1 KERNEL implements the basic tools for protection of resources as described in more detail in section 5.6.1.2.2. 5.6.1.1.3 Process Environment From "within" a process the envir┆
0x44000…44100 (68, 0, 0) Sector 4401ff00137141 ┆D qAvel hardware objects, such as CPUs, memory modules, memory mapping module, I/O busses, I/O devices, and a set of operations on those objects by means of the CR80D instruction set. The main purpose of most pieces of system software is to hide certa┆
0x44100…44200 (68, 0, 1) Sector 4402ff00137141 ┆D qAin hardware features, replacing them with a new set of features, which are more suitable for the application area at hand. This can be viewed as an abstraction of the actual physical machine into a virtual machine, which will be the only one accessi┆
0x44200…44300 (68, 0, 2) Sector 4403ff00137141 ┆D qAble by application software. Actually this abstraction process is repeated a number of times and gives rise to several layers of system software. Each layer transforms the underlying virtual machine into a new one, which is then provided to upper la┆
0x44300…44400 (68, 0, 3) Sector 4404ff00137141 ┆D qAyers. KERNEL constitutes the lowest level of system software in this sense. The next level of abstraction above the KERNEL is constituted by SFM and IOC respectively: - SFM transforms each disk device (controller) into a set of disk units, each ┆
0x44400…44500 (68, 0, 4) Sector 4405ff00137141 ┆D qAconsisting of a number of disk files. - IOC transforms each line termination device (LTU or TDX Host IF) into a set of logical communication lines. In a rather crude model, the relations between KERNEL, SFM, IOC and the rest of CAMPS software is┆
0x44500…44600 (68, 0, 5) Sector 44062a00137141 ┆D * qA shown on the diagram 5.6.1.1-1. 5.6.1.2 Functions ........................ 284 5.6.1.2.1 Directory Functions .......... 284 5.6.1.2.1.1 Access to Objects ........ 285 5.6.1.2.2 Security ..................... 285 5┆
0x44600…44700 (68, 0, 6) Sector 44078400137141 ┆D qA 1 5.6.1.1-1 urity .......... 289 5.6.1.2.4 Process Management ........... 289 5.6.1.2.4.1 Process Hierarchy ........ 2┆
0x44700…44800 (68, 0, 7) Sector 4308ff00137141 ┆C qA 1 5.6.1.1.1 Process Concept The most important new concept introduced by KERNEL is that of a process. A process is defined as the transformation of a given set of data performed b┆
0x44800…44900 (68, 0, 8) Sector 4409ff00137141 ┆D qA 5.6.1.2.5.2 Time Slicing ............. 294 5.6.1.2.5.3 Process Scheduling Interfaces ............... 294 5.6.1.2.6 Process Communication ........ 294 5.6.1.2.6.1 Synchronization Elements . 294 5.6.1.2┆
0x44900…44a00 (68, 0, 9) Sector 440aff00137141 ┆D qA.6.2 Basic Process Communication Functions ................ 295 5.6.1.2.6.3 IO System ................ 296 5.6.1.2.7 Page Management .............. 300 5.6.1.2.7.1 Page Manager Concepts .... 301 5.6.1.2.7.┆
0x44a00…44b00 (68, 0, 10) Sector 440bb400137141 ┆D 4 qA2 Page Manager Functions ... 304 5.6.1.2.7.3 Page Manager Security Aspects .................. 307 5.6.1.2.8 Timer Management ............. 307 ┆
0x44b00…44c00 (68, 0, 11) Sector 440cff00137141 ┆D qA 1 5.6.1.3 Kernel Control ................... 308 5.6.1.3.1 Parameter Control ............ 308 5.6.1.3.2 Initialization ............... 309 5.6.1.3.3 Error Ha┆
0x44c00…44d00 (68, 0, 12) Sector 440dff00137141 ┆D qAndling ............... 309 5.6.1.4 Characteristics .................. 309 5.6.1.4.1 Availability ................. 310 5.6.1.4.2 Security ..................... 310 5.6.1.5 Design and Construction .......... 310 5.6.1┆
0x44d00…44e00 (68, 0, 13) Sector 440eff00137141 ┆D qA.6 Documentation ..................... 310 5.6.2 Environment .......................... 310 5.6.2.1 Standard Hardware, Firmware and Software ......................... 310 5.6.2.2 External Interfaces .............. 310 ┆
0x44e00…44f00 (68, 0, 14) Sector 440f3800137141 ┆D 8 qA 5.6.2.3 Subsystem Interfaces ............. 310 OKH Kapitel 5.6 12 10 81 08 53 19 172 16 10 81 13 23 07 04 82 13 24 0089A 37 19 604 172 0 C f *J 7 9 _┆
0x44f00…45000 (68, 0, 15) Sector 4400ff00137141 ┆D qA 1 5.6 KERNEL 5.6.1 Summary of Requirements 5.6.1.1 General Description KERNEL is the interface between CAMPS software and hardware. The CR80D hardware provides a set of low le┆
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0x45100…45200 (69, 0, 1) Sector 45022500137141 ┆E % qA E E D D D D C C C C B B B A A A @ @ @ @ ? ? ? > > > > = = = < < ; ; ; : : : OKUMENTOVERSIGT Dokument nr: Dokumentnavn: Operat]r: Forfatter: Kommentarer: STATISTIK AKTIVITET DATO TID ANV.TID ANSLAG Oprettet / / : : S┆
0x45200…45300 (69, 0, 2) Sector 4503a500137141 ┆E % qA 1 CPS/SDS/001 OKH/811020 CAMPS SYSTEM DESIGN SPECIFICATION ISSUE 1.1 CAMPS /=6)M2&*/=MM, > I!e=6 !Z="(=e*$<kas#r 9x2"<! <6 M8)I:^=~ B#.!#<6 ! <6 M&&:!<~ J#.:!<2.=M2┆
0x45300…45400 (69, 0, 3) Sector 4504ff00137141 ┆E qA 1 1 TABLE OF CONTENTS 5.6 KERNEL ..................................... 277 5.6.1 Summary of Requirements ┆
0x45400…45500 (69, 0, 4) Sector 4505ff00137141 ┆E qA.............. 277 5.6.1.1 General Description .............. 277 5.6.1.1.1 Process Concept .............. 279 5.6.1.1.2 Security ..................... 279 5.6.1.1.3 Process Environment .......... 281 5.6.1.1.4 Inte┆
0x45500…45600 (69, 0, 5) Sector 4506ff00137141 ┆E qArfaces ................... 281 5.6.1.2 Functions ........................ 284 5.6.1.2.1 Directory Functions .......... 284 5.6.1.2.1.1 Access to Objects ........ 285 5.6.1.2.2 Security ..................... 285 5┆
0x45600…45700 (69, 0, 6) Sector 4507ff00137141 ┆E qA.6.1.2.2.1 Access Authorization ..... 286 5.6.1.2.3 Device Management ............ 287 5.6.1.2.3.1 Device Security .......... 289 5.6.1.2.4 Process Management ........... 289 5.6.1.2.4.1 Process Hierarchy ........ 2┆
0x45700…45800 (69, 0, 7) Sector 4408ff00137141 ┆D qA90 5.6.1.2.4.2 Process Attributes ....... 292 5.6.1.2.4.3 Process Management Functions ................ 292 5.6.1.2.5 Process Scheduling ........... 293 5.6.1.2.5.1 Priorities ............... 293 ┆
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0x45900…45a00 (69, 0, 9) Sector 450a1800136841 ┆E hA E E E / / / / / . . . . . - - - - , , , + + + * * DOKUMENTOVERSIGT Dokument nr: Dokumentnavn: Operat]r: Forfatter: Kommentarer: STATISTIK AKTIVITET DATO TID ANV.TID ANSLAG Oprettet / / : : : : : : : ┆
0x45a00…45b00 (69, 0, 10) Sector 450ba500136841 ┆E % hA 1 CPS/SDS/001 SRA/811020 CAMPS SYSTEM DESIGN SPECIFICATION ISSUE 1.1 CAMPS /=6)M2&*/=MM, > I!e=6 !Z="(=e*$<kas#r 9x2"<! <6 M8)I:^=~ B#.!#<6 ! <6 M&&:!<~ J#.:!<2.=M2┆
0x45b00…45c00 (69, 0, 11) Sector 450cff00136841 ┆E hA 1 1 TABLE OF CONTENTS 5.3 DISTRIBUTION, MONITORING & TEST (DM&T) DESIGN ................................┆
0x45c00…45d00 (69, 0, 12) Sector 450dff00136841 ┆E hA... 201 5.3.1 General .............................. 201 5.3.2 Distribution & Monitoring Equipment/ Facilities ........................... 201 5.3.2.1 DEC - Category 1 ................. 209 5.3.2.2 DEC - Category 2 .....┆
0x45d00…45e00 (69, 0, 13) Sector 450eff00136841 ┆E hA............ 211 5.3.2.3 DEC - Category 3 ................. 213 5.3.2.4 DEC - Category 4 ................. 215 5.3.2.5 DEC - Category 5 ................. 217 5.3.3 Test of Distribution Equipment ....... 217 5.3.4 Appendi┆
0x45e00…45f00 (69, 0, 14) Sector 450f2c00136841 ┆E , hAx A ........................... 217 I! "(=6 *(=#"(=6 IM2&! w"2< hMI sM & E 0= u M% :^=~ Bl1{M40sI:^=~ J 1!"<6;!#<6 !&<6 ! "$<! <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 ┆
0x45f00…46000 (69, 0, 15) Sector 2f08ff00136841 ┆/ hA 1 5.3 DISTRIBUTION, MONITORING & TEST (DM&T) DESIGN 5.3.1 General The aim of this section is to explain the design of the DM&T equipment/facilities as implemented in the present ┆
0x46000…46100 (70, 0, 0) Sector 4601ff00136541 ┆F eA...... 43 5.1.4.1.3.2 The CACHE Memory CTRL .... 47 5.1.4.1.3.3 Mechanical & Electrical Specifications ........... 53 5.1.4.1.4 The MAP and Map Interface Adapter (MIA) ........................ 54 ┆
0x46100…46200 (70, 0, 1) Sector 4602ff00136541 ┆F eA 5.1.4.1.4.1 The MAP Module ........... 56 5.1.4.1.4.2 The MIA Module ........... 75 5.1.4.1.4.3 Mechanical & Electrical Specifications ........... 89 5.1.4.1.5 Intentionally Left Blank ..... 93 5┆
0x46200…46300 (70, 0, 2) Sector 46038d00136541 ┆F eA.1.4.1.6 The RAM Module ............... 94 5.1.4.1.6.1 Mechanical & Electrical Specifications ........... 97 > S C_* ┆
0x46300…46400 (70, 0, 3) Sector 4604ff00136541 ┆F eA 1 5.1.4.1.7 The STI/TIA Modules .......... 98 5.1.4.1.7.1 The TIA .................. 100 5.1.4.1.7.2 The STI .................. 104 5.1.4.1.7.3 Mechanic┆
0x46400…46500 (70, 0, 4) Sector 4605ff00136541 ┆F eAal & Electrical Specifications ........... 109 5.1.4.1.8 The CCA Module ............... 110 5.1.4.1.9 The Power Supply ............. 110 5.1.4.2 Documentation .................... 110 5.1.4.3 Environment ....┆
0x46500…46600 (70, 0, 5) Sector 4606ff00136541 ┆F eA.................. 110 5.1.5 I/O Sub-System ....................... 111 5.1.5.1 Design & Construction ............ 113 5.1.5.1.1 The CIA Module ............... 114 5.1.5.1.1.1 Mechanical & Electrical Specifica┆
0x46600…46700 (70, 0, 6) Sector 4607ff00136541 ┆F eAtions ........... 121 5.1.5.1.2 The Disk CTRL & DCA .......... 122 5.1.5.1.2.1 The Disk CTRL ............ 122 5.1.5.1.2.2 The DCA .................. 135 5.1.5.1.2.3 Mechanical & Electrical Specifications┆
0x46700…46800 (70, 0, 7) Sector 3908ff00136541 ┆9 eA ........... 138 5.1.5.1.3 The LTU & Adapter ............ 141 5.1.5.1.3.1 The LTU .................. 141 5.1.5.1.3.2 The LIA-N ................ 149 5.1.5.1.3.3 Mechanical & Electrical Specification ......┆
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0x46900…46a00 (70, 0, 9) Sector 460a7500136541 ┆F u eA] F F F 9 9 ┆
0x46a00…46b00 (70, 0, 10) Sector 460ba500136541 ┆F % eA 1 CPS/SDS/001 SRA/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┆
0x46b00…46c00 (70, 0, 11) Sector 460cff00136541 ┆F eA 1 1 TABLE OF CONTENTS 5 SUBSYSTEM SPECIFICATION ...................... 3 5.1 CR80D SYSTEM DESIGN ......┆
0x46c00…46d00 (70, 0, 12) Sector 460dff00136541 ┆F eA................ 3 5.1.1 Scope ................................ 3 5.1.2 CR80D Crate Assy. .................... 3 5.1.3 CR80D Buses .......................... 8 5.1.3.1 CR80D Main Buses (DMB) ........... 8 5.1.3.1┆
0x46d00…46e00 (70, 0, 13) Sector 460eff00136541 ┆F eA.1 Functional Description of the CR80D Main Bus (DMB) ......... 11 5.1.3.1.2 Electrical Description of the CR80D Main Bus ............... 22 5.1.3.2 The CR80D Data Channel (DDC)...... 26 5.1.3.2.1 Funct┆
0x46e00…46f00 (70, 0, 14) Sector 460fff00136541 ┆F eAional Description of the DDC .......................... 26 5.1.4 Processor Sub-System (PRS) ........... 33 5.1.4.1 Design & Construction ............ 35 5.1.4.1.1 Functional Description of the CR80D Contr┆
0x46f00…47000 (70, 0, 15) Sector 4600ff00136541 ┆F eAol Bus (DCB) ...... 35 5.1.4.1.2 Electrical Description of the DCB .......................... 42 5.1.4.1.3 Central Processing Unit and CACHE Memory (CPU/CACHE) ..... 43 5.1.4.1.3.1 The CPU ............┆
0x47000…47100 (71, 0, 0) Sector 00000000000000 ┆ ┆
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