Fujitsu BS2000-OSD User Manual 2

1 Introduction

The range of BS2000/OSD servers has been extended by the addition of the S130 series. The spectrum of user facilities of the new models lies between the S110 and H130 server series. They are powerful systems for scientiﬁc and commercial applications.

The S130 Business Server (or cluster) has a modular structure and can easily be upgraded on site.

The main memory can be expanded by up to 8 Gbytes. Global stor age (GSP or SSU) can be upgraded to a maximum of 32 Gbytes and if desired can have a battery buffer.

The input/output system consists of 1 or 2 input/output processors. Up to 248 channels can be conﬁgured for connecting peripheral devices with channel interf aces. LAN networking is possible via the 3970-SKP service/console processor, a connection to the TRANSDATA network world via front-end processors.

The service processor (SVP) and the external 3970-SKP service/console processor support common operation, monitoring, diagnosis and maintenance of the computer as well as TELESERVICE.

The models can easily be integrated into a HIPLEX network. Like all computers in the 7.500 system family, the business server uses the BS2000

operating system. This offers the portability and compatibility of BS2000 programs.

1.1 Objectives and target group

This manual provides you with all the inf ormation you require to operate the S130 Business Server via the service/console processor, and is thus intended for operators and system managers.

Knowledge of BS2000 system operation and management as well as basic knowledge of SINIX are required.

Further manuals with information on the operation of BS2000, SINIX and TELESERVICE are listed under “Related publications” at the end of this manual.

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Summary of contents Introduction

1.2 Summary of contents

This operating manual covers the hardware operating functions of the S130 Business Server with the 3970-SKP service/console processor.

The chapters “Overview”, “Controls and indicators” and “Standard processing in SVP mode” provide information on hardware and the operating concept. You should read these chapters ﬁrst.

The chapter entitled “Troubleshooting” provides valuable assistance in recognizing and solving problems.

A keyword inde x at the end of the manual helps y ou to ﬁnd the rele vant inf ormation quickly.

1.3 Notational conventions

Some text passages are marked using the following symbols:

Information that is particularly important for the function of the product.

i

Important instructions, e.g. warnings.

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Reference to the “SINIX-2000 V7.0” [1] manual.

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Ê The input symbol indicates actions which must be carried out (e.g. keyboard input).

Ë This character represents a blank in keyboard input.

[ ... ] References to relevant literature or optional parameters in commands are given in

square brackets.

This typewriter font is used for names, commands and messages (e.g. the

/DETË*CHA(xx) command).

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2 Important instructions

This chapter covers the most important safety instructions. It also includes some manuf acturer instructions and notes on radio interference.

2.1 Safety instructions

This device fulﬁlls the prev ailing safety requirements f or inf ormation technology equipment, including electrical ofﬁce machines.

● In emergencies (e.g. damaged housing, operating elements or network cables, entry of

liquid or foreign objects), switch off the de vice immediately (EMERGENCY STOP) and contact our service department.

EMERGENCY STOP

I

o

S130 Business Server Global storage Battery unit

Figure 1: EMERGENCY STOP switch on the S130 Business Server, global storage and battery unit

● The system must have a direct pow er supply for saf ety reasons. The systems ma y only

be installed by authorized trained personnel.

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Manufacturer instructions Important instructions

● The cables must be laid in such a way that there is no danger of anyone tripping over

them and they cannot be damaged.

● Data transmission lines must not be connected or disconnected during electrical

storms.

● Ensure that no foreign bodies (e.g. necklaces, paperclips etc.) or liquids ﬁnd their way

into the device (danger of electric shock, short circuit).

● Repairs to the device may only be carried out by authorized and trained personnel. All

areas which are secured by locks or can only be opened using tools are maintenance areas and may only be accessed by trained personnel. Unauthorized opening of the maintenance area and improper repairs can be dangerous for the user (electric shock, danger of ﬁre).

2.2 Manufacturer instructions

This product complies with the EC guideline 89/336/EEC "Electronic Compatibility". The product bears the EC certiﬁcate.

2.3 RFI suppression

WARNING:This is a class A equipment. This equipment ma y cause interf erence to

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radio and television reception in a residential installation. If it does cause interference, the user ma y be requested to tak e appropriate correctiv e measures at his

or her own cost. The devices generate and emit high-frequency energy. If the devices are installed and used other than as instructed in the manual, failures in the

devices or other electric systems may occur . If f ailures of this type occur it is the task of the user to carry out measurements and implement measures to solve the problem. Only the cables supplied with the system or recommended by SNI may be used.

All other devices which are connected to the present product must be radio interference suppressed in accordance with BMPT Order No. 1046/84 and Order No. 243/91 or EU Directive 89/336/EEC. Products which satisfy this requirements are pro vided with an appropriate certiﬁcate by the manufacturer and bear the CE mark or the interference suppression symbol.

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3 Overview

This chapter provides information on the conﬁguration levels and the conﬁguration of the S130 Business Server series and the concept of system operation.

S130 Business Server Global storage Battery unit

Figure 2: S130 Business Server, global storage and battery unit

The S130 Business Server comprises two cabinets together with an additional cabinet for channel extensions.

Two global storage units can be connected, each of which is located in a separate cabinet. The battery unit for global storage consists of three cabinets.

3.1 Conﬁguration levels of the S130 Business Server

The S130 Business Server series consists of ﬁve models. Upgrading of the individual models can easily be carried out on site, so that system downtime is not extended due to hardware installation.

All the S130 models have multiple processing units, I/O processors and channel groups. Thus a reconﬁguration is possible for these models if there is a partial failure. If a processing unit fails, the other processors take o ver its tasks during operation (dynamic reconﬁguration).

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Conﬁguration levels of the S130 Business Server Overview

If the HVZ (high-availability f eature) option S130K-1H is available , a defective processor can be replaced with the high-availability processor (the high-av ailability feature is only av ailable for the models S130-C, S130-E and S130-P).

Model Number of processors Performance factor

S130-C 2 processing units 1.0 S130-E 3 processing units 1.4 S130-K 4 processing units 1.9 S130-P 6 processing units 2.6 S130-T 8 processing units 3.1

Printer

SKP

ATOP

Radio-controlled clock/

GTS

TELESERVICE

Figure 3: Hardware overview of the S130 Business Server system with 3970-SKP

I/O channel

LAN

V.24

On/off facility

(optional)

LAN

S130

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Overview Concept of system operation

3.2 Concept of system operation

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“SINIX-2000 V7.0“ [1] manual. The following section lists the most important hardware and software components f or S130

operation.

3.2.1 Hardware

System operation is described in the chapter “Basics of system operation“ of the

Radio-controlled clock/

GTS

ATOP

Secondary

console

serial

Console

SKP

I/O channel

LAN

V.24

S130

CPU

SVP

On/off facility

LAN

The following hardware and software components are important for the operation of S130:

● Service processor (SVP) in the S130 CPU.

This is responsible for the following tasks in the S130 CPU: – initialization – monitoring – controlling – hardware diagnosis

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Concept of system operation Overview

● The service/console processor (3970-SKP) with the SINIX operating system.

Operation of the S130 system takes place via a local PC: the 3970-SKP service/console processor.

S130 and 3970-SKP communicate with one another in three ways: – serial line (V.24)

– type-2 I/O channel (KT2) or type-S I/O channel – LAN connection

The following components can be operated via the local 3970-SKP screen and remote secondary consoles:

– the 3970-SKP itself – the SVP of the S130 – the BS2000 running on the S130

● Consoles can be set up and operated directly for up to 15 VM2000 guest systems.

● Automatic Operator (ATOP).

The ATOP is a device which is connected to the 3970-SKP via a serial line. It makes the following functions possible: – automatic switching on and off of the S130 – automatic operation of the BS2000 system

The customer can program the ATOP to specify which operating functions should

be executed for which conditions.

Examples:

– automatic shutdown of the system in the case of fan failure.

– automatic command entry in reaction to certain BS2000 console messages.

● It is possible to connect a radio-controlled clock or Global Time Server (GTS).

● On/off facility (optional) makes it possible to switch the S130 on and off from the

3970-SKP.

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Overview Concept of system operation

3.2.2 Software

The following software components play an important role in S130 operation:

● Window interface

The SINIX operating system is run on the 3970-SKP. One component of SINIX is the window interface based on the X Window system (see the ”SINIX-2000 V7.0” [1] manual).

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The following system components use the window system: – BS2000 (e.g. CONS0 or EM9750 window, see page 34)

– SVP (e.g. SVPST0 window, see page 34) – SINIX (e.g. SINIX or EVENT window, see page 34)

The system provides preconﬁgured windows for operation which are opened automatically when the 3970-SKP is started up.

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● Console distribution program KVP (German acronym)

The operation of the BS2000 from the 3970-SKP is controlled by the Console Distribution Program. KVP carries out the following tasks:

– authorization controls – distribution of the BS2000 tasks to several consoles – short and long term logging of the console trafﬁc

A brief introduction to the window system can be found in the chapter entitled "Brief introduction to the window system" in the "SINIX-2000 V7.0" [1] manual. Further information can be found in the "SINIX/windows User Environment V3.0" [3] manual.

The number of windows for operating BS2000 and SINIX, the order of the windows on the screen, their size and some other properties can be changed using the relevant conﬁguration functions.

Information on this can be found in the chapter entitled "Conﬁguring the system", in the sections "X screens" and "Virtual screens", in the "SINIX-2000 V7.0" manual.

KVP requires parameters that are stored in the KVP parameter ﬁle of the built-in disk of the 3970-SKP. The KVP parameters are created in SINIX when the system is generated and can be changed with the help of the SINIX conﬁguration.

V7

U25339-J-Z126-1-7600 9

Information on conﬁguring the KVP can be found in the chapter entitled “Conﬁguring

the system”, in the section “KVP”, in the “SINIX-2000 V7.0” manual.

Concept of system operation Overview

3.2.3 Authorization control

The access to operation of the BS2000, SVP and SINIX system components is protected:

● Access to the BS2000 console

If you try to make an entry in a BS2000 control window after the system has been started up for the ﬁrst time, you will be requested to enter a password.

The password is speciﬁed when the system is installed and is identical to the pass word for the corresponding SINIX user ID (e.g. cons0 for the CONS0 console window). For further information, see chapter “Operating the BS2000 console” on page 89.

● Access to the BS2000 system administration

If you want to work as a system administrator in BS2000, you m ust use a type EM9750 window, ﬁll in the welcome screen, and log in by entering a BS2000 user ID (i.a. tsos) and - if agreed - a BS2000 password for BS2000.

● Access to the SINIX system administration

If you want to carry out system administration tasks under SINIX you must log into a SINIX window by entering a SINIX user ID (i.a. admin, root or sysadm) and password.

● Access to the EVENT window

Certain functions can be executed using the EVENT window. If you try to make an entry in this window after the system has been started up for the

ﬁrst time, you will be requested to enter the password for the SINIX user ID.

● Access to the SVP operation

After you have ﬁlled out and sent off the welcome screen in the window for SVP operation, the system requests you to enter the passw ord. The password is speciﬁed at the installation of the system and is identical to the password for the corresponding SINIX user ID (e.g. the ID svpst0 for the SVPST0 window).

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4 Controls and indicators

The following controls and indicators are provided for the S130 Business Server: – control panel on the Business Server cabinet, page 12 – control panel on the global storage cabinet, page 12 – EMERGENCY STOP switch, page 19 The S130 is operated using the operator terminals on the service/console processor.

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Control panel on the Business Server cabinet Controls and indicators

4.1 Control panel on the Business Server cabinet

The control panel is connected with the service processor (SVP) in the S130 Business Server.

The physical structure of the control panel is illustrated in the following diagram:

STATUS

LCD BACK LIGHT

POWER

COMPLETE

Figure 4: Control panel on the cabinet of the S130 Business Server

SYSTEM

CHECK

CANCEL/

ALARM STOP

The function of the indicators and control elements on the control panel is described below .

4.1.1 Function of the indicators

STATUS

The STATUS indicator is an LCD display and can show alphanumeric characters. The codes change when the Business Server and the IMPL are switched on. No P codes should be displayed if POWER ON or IMPL has been run without errors (see next page). If this is not the case, this indicates a malfunction and you should contact the service department.

IMPL

POWER CONTROL

POWER ON

POWER OFF

9999 35

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Controls and indicators Control panel on the Business Server cabinet

Information is displayed on the LCD display in the following format:

STATUS

CC C CCCC

FFFFFFFFFFFFFFFF

T

Pnnn DOWN

CM CE

STOP WAIT

Line 1

Line 2

Displays in line 1

RUN LOAD

FFFFFFFFFFFFFFFF

Meanings:

Line Display ﬁeld Display Meaning Line 1 Maintenance

mode

Test mode none Normal mode

Cluster status Pnnn S130 switched off: P000

Line 2 FLAG code none Normal state

none User mode CE Maintenance mode CM Hot system maintenance mode

T Test mode

DOWN Display for the output of a WRITE-CONSOL

RUN CPUs in RUN status WAIT CPUs in WAIT status STOP CPUs in STOP status LOAD IPL is being executed

FFFFFFFFFFFFFFFF Message or error code:

Displays in line 2

P codes during the switching on and initialization phase as well as when switching off: P001 to P379

message (e.g. SHUTDOWN COMPLETED)

this display is for the purposes of the service department.

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Control panel on the Business Server cabinet Controls and indicators

POWER COMPLETE

This green light illuminates after the system power controller has terminated the switching on sequence without errors. The light is e xtinguished when the POWER OFF key is pressed.

SYSTEM

This green light illuminates when the processing units are active.

CHECK

This yellow light illuminates when the service processor has decoded a machine error or an error in the power supply modules of the Business Server. A b uzzer sounds at the same time. The light also illuminates when a WRITE-CONSOL message is output (e.g. SHUTDOWN COMPLETED) at the operating terminal. Illumination of the CHECK light in this case, the simultaneous display of DOWN on the LCD display, and the sounding of the buzzer can be conﬁgured by the service department.

Potentiometer for volume

This is used to set the volume of the buzzer.

Potentiometer for brightness

This is used to set the brightness of the LCD display.

Operation hours counter

9999*35

The operation hours counter is on the right-hand side of the control panel. The counter has an LCD display. The time is displayed in hours and is accurate to 0.01 hours. The time counter is active if the following two conditions are fulﬁlled: – the system is in user mode – one of the processing units within the system conﬁguration is in the RUN state.

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Controls and indicators Control panel on the Business Server cabinet

4.1.2 Button functions

LCD BACK LIGHT

The LCD display STATUS (background) is illuminated for ﬁve minutes when you press this button. The lights go out immediately when you press this button again.

POWER ON

When this button is pressed, the power supply of the entire system is switched on sequentially. The order is predetermined. It begins with the Business Server system components and ends with the peripheral devices connected to the PCI (P ower Control Interface). Then an IMPL is carried out. The system is ready for operation when the display of P codes on the LCD display is extinguished. If POWER ON IPL is conﬁgured, the operating systems is subsequently loaded (see LOAD PRESET1-Frame on page 70).

POWER OFF

This is the button for s witching off the power supply for the entire system. The sequence begins with the peripheral devices connected to the PCI and ends with the Business Server system components. The button is protected by a ﬂap so that the system cannot be switched off unintentionally.

CANCEL / ALARM STOP

When this button is pressed, the buzzer in the control panel is stopped and the CHECK light is extinguished (same function as the key in SVP console window). If another malfunction occurs after the light is extinguished, e.g. a machine error or a malfunction in the power supply, the buzzer and the CHECK light are reactivated.

F3

IMPL

When this button is pressed twice, the IMPL is executed and conﬁrmed. The S130 is initialized and the ﬁrmware is loaded in the individual components (CPU, IOP). Furthermore, the IORSF selected in the IORSF Control Frame is activated. After the IMPL is terminated, the P codes in the LCD display are extinguished. Afterwards an IPL (Initial Program Load) of the BS2000 can be executed on the SKP. If POWER ON IPL is conﬁgured, the operating system is loaded automatically (see LOAD PRESET1-Frame on page 70).

This button loads another conﬁguration or activates another IORSF.

The system will crash if an IMPL is executed during operation.

!

After you press the IMPL button f or the ﬁrst time the questionARE YOU SURE? is displayed on the LCD display.

–Ifno IMPL is to be executed, the CANCEL / ALARM STOP button must be

pressed.

– If the IMPL is to be started, the IMPL button must be pressed a second time.

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Control panel on the global storage cabinet Controls and indicators

4.2 Control panel on the global storage cabinet

The control panel is connected to the service processor in global storage. The physical structure of the control panel is illustrated in the following diagram:

STATUS

LCD BACK LIGHT

POWER

COMPLETE

ALARM STOP

Figure 5: Control panel on the global storage cabinet

CHECK

CANCEL/

SSU

The functions of the indicators and control elements are described in the control panel.

4.2.1 Function of the indicators

STATUS

The STATUS indicator is an LCD display and can show alphanumeric characters. The codes change when global storage and the IMPL are switched on. No P codes should be displayed if PO WER ON or IMPL has been e x ecuted without errors. If this is not the case, this indicates a malfunction and you should contact the service department.

BATTERY STATUS

BS

BBON BI

DI DS

BE BF

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Controls and indicators Control panel on the global storage cabinet

The information is shown on the LCD display in the following format:

STATUS

CC C CCCC

FFFFFFFFFFFFFFFF

T

Pnnn Bnnn

CM CE

CHK CNCT

FFFFFFFFFFFFFFFF

Meanings:

Line Display ﬁeld Display Meaning Line 1 Maintenance

mode

Test mode none Normal mode

SSU status Pnnn SSU switched off, battery not active: P000

Line 2 FLAG Code none Normal state

none User mode CE Maintenance mode CM Hot system maintenance mode

T Test mode

Bnnn nnn shows the time in hours since the backup

CHK SSU in check stop state CNCT SSU connected to a cluster

FFFFFFFFFFFFFFFF Message or error code:

Line 1

Line 2

Displays in line 1

Displays in line 2

SSU switched off, battery active: P001 P codes during the switching on and initial-

ization phase as well as when switching off: P002 to P379

battery became active after the network failure.

this display is for the purposes of the service department.

U25339-J-Z126-1-7600 17

Control panel on the global storage cabinet Controls and indicators

POWER COMPLETE

This green light is lit up after the system power controller has terminated the switching on sequence without any errors. The light is extinguished when the PO WER OFF button is pressed.

SSU CHECK

The display illuminates if there is an error in global storage. The buzzer sounds at the same time.

BATTERY STATUS

These indicators indicate the state of the backup battery:

Name Color Meaning Measure BS green Backup battery is installed BBON green Backup battery is active BI green Backup battery is not available DI green Data in the global memory are invalid DS green Indicator is not in use BE yellow Error in backup battery operation Call service dept. BF yellow Error in the backup battery Call service dept.

Potentiometer for volume

This is used to set the volume of the buzzer.

Potentiometer for brightness

This is used to set the brightness of the LCD display.

4.2.2 Button functions

LCD BACK LIGHT

The LCD display STATUS (background) is illuminated for ﬁve minutes when you press this button. The lights go out immediately when you press this button again.

CANCEL / ALARM STOP

When this button is pressed, the buzzer in the control panel is stopped and the SSU CHECK light is extinguished. If another malfunction occurs after the light is extinguished, e.g. a machine error or a malfunction in the power supply, the buzzer and the SSU CHECK light are reactivated.

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Controls and indicators EMERGENCY STOP switch

4.3 EMERGENCY STOP switch

Not only the Business Server cabinet, but also the global storage and battery cabinets each have an EMERGENCY STOP switch.

If the EMERGENCY STOP s witch on the S130 is pressed, global storage is also switched off. If you wish to cut power to the entire system, the EMERGENCY STOP switch on the battery cabinet must also be pressed.

EMERGENCY STOP

I

o

S130 Business Server Global storage Battery unit

Figure 6: EMERGENCY STOP switch on the Business Server cabinet, global storage and battery unit

This switch should only be used in emergencies. It can only be reset by the service

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department.

The system can only be switched back on after the switch has been reset.

The system data is not saved when the switch is pressed.

Use the EMERGENCY STOP switch as follows:

Ê Open the transparent switch cover and press the red switch downwards to the O

position.

U25339-J-Z126-1-7600 19

Eine Dokuschablone von Frank Flachenecker

5 Switching the S130 Business Server on and off

This chapter describes the various technical options for switching the S130 Business Server on and off, depending on the hardware.

5.1 Switching the S130 on and off using the control panel

Console

SKP

If the SKP is not linked to the S130 via the on/off facility (optional), the S130 must be switched on and off using the control panel.

Switching on

T o s witch on the entire system via the control panel, the SKP must ﬁrst be switched on using the on/off button (see also the operating instructions for the SKP [2]). Afterwards the S130 can be switched on by pressing the POWER ON on the control panel of the S130.

U25339-J-Z126-1-7600 21

I/O channel

LAN

S130

SVP

Switching the S130 on and off using the control panel

When both systems are ready , i.e. all windows on the 3970-SKP ha ve been opened and the LCD display on the S130 no longer shows any P codes, you can log in on the SVP (see page 34ff) and start the BS2000 system via PROGRAM LOAD FRAME: DETAIL-1 (see page 51). If a POWER ON IPL is conﬁgured, the system is loaded automatically (see page 70 AUXILIARY FRAME: LOAD PRESET1).

Switching off

After BS2000 has been shut down, the S130 can be switched off by pressing the POWER OFF button on the S130 control panel (see page 15) or by selecting the menu item POWER OFF in AUXILIARY FRAME: P-OFF/IMPL (see page 69).

The SKP is switched off as follows: There are three options for terminating the SINIX system of the SKP: a) You call the basic menu of your window administration program by clicking on the gray

window background using the right mouse button. This menu contains the item “Exit system”. Selecting this item allows you to initiate the termination of the system. As a result of this selection, “<computer name>: shut down” is output. Then carry out the following actions:

Ê Activate the root password ﬁeld using the left mouse b utton and enter the password

for the user ID root.

Ê Select the Init status by

Ê positioning the cursor over the “Shut down” button,

Ê pressing the <BSelect> mouse button (by default the left-hand mouse button),

Ê holding the mouse button down, positioning the cursor on the desired entry of

the opened menu (“Shut down” or “Restart”) and

Ê releasing the mouse button.

Ê Carry out the desired function by clicking the “Start” button.

b) You can also terminate the SINIX system by

Ê logging in as the system administrator, Ê entering the shell command shutdown (for shutting down the system) or Ê the shutdown -i6 command (for shutting down and restarting the system).

22 U25339-J-Z126-1-7600

Switching the S130 on and off from the SKP

c) Y ou can also terminate the SINIX system using the on/off button on the SKP. Ho we v er,

please make note of the following:

If the SKP is switched off using the button, it sends the command /shutdown or a

self-deﬁned /run xxxx command to any running BS2000 system before it switches

!

itself off after a certain wait time has expired.

V7

You can deﬁne the shutdown command and the length of the wait period using the

sysadm forms.

Ê Select the menu item “sinix_2000 - System Administration SINIX-2000“ on the

UNIX System V, Administration menu.

Ê Select the menu item “up_down - Startup/shutdown settings“ on the SINIX-2000

system administration menu.

You will ﬁnd a detailed description of how to conﬁgure time-controlled startup/shutdown in the section “up_down” of the “SINIX-2000 V7.0” manual.

5.2 Switching the S130 on and off from the SKP

Console

SKP

Channel type 2

S130

LAN V.24

COM2

On/off facility

LAN

To switch the S130 on and off from the SKP, it must have the optional on/off facility. The on/off facility is linked to the SKP via the COM2 V.24 interface.

U25339-J-Z126-1-7600 23

SVP

Switching the S130 on and off from the SKP

You access the “Switching on / off the host” form via the sysadm menu:

Ê Select or open a SINIX screen Ê Login: root or sysadm Ê Enter password Ê For login with root: enter sysadm

The SINIX system administration window is displayed.

Ê Select the menu item “sinix_2000” on UNIX System V, Administration menu:

24 U25339-J-Z126-1-7600

Ê Select the menu item “host”:

Switching the S130 on and off from the SKP

Ê Select the menu item “host - The Power ON/OFF of the Host”:

U25339-J-Z126-1-7600 25

Switching the S130 on and off from the SKP

The “Switching on / off the host” form is displayed:

V7

By entering YES for one of the two questions at the bottom of the form follo w ed b y the ately. Press the (SAVE) key after ﬁlling out the form.

On no account should both questions be answered with YES. If a direct s witching action is initiated by the reply YES, another message appears, which should again be conﬁrmed with YES:

26 U25339-J-Z126-1-7600

Information on operation of the FMLI interfaces can be f ound in the “SINIX-2000 V7.0” manual [1].

P2

(CHOICES) key, you can specify whether the S130 can be switched on or off immedi-

P3

Switching the S130 on and off from the SKP

The switching operating is performed after you press the (SAVE) key.

U25339-J-Z126-1-7600 27

P3

Automatic switching on/off of the S130 via the SKP

5.3 Automatic switching on/off of the S130 via the SKP

Console

SKP

COM2

Type-2 channel

LAN

V.24

On/off facility

LAN

S130

SVP

To switch the S130 on and off from the SKP, it must have the optional on/off facility. The on/off facility is linked to the SKP via the V.24 interface COM2. Y ou access the “Switching on / off the host” f orm for switching on or off via the sysadm f orms

(see also the “SINIX-2000 V7.0“ [1] manual).

Ê Select the menu item “sinix_2000” on the UNIX System V, Administration menu. Ê Select the menu item “host” on the System Administration SINIX-2000 menu.

28 U25339-J-Z126-1-7600

Automatic switching on/off of the S130 via the SKP

The “Switching on / off the host” form is displayed:´

By entering YES for the two questions at the top of the window , you can specify whether the S130 should be switched on automatically if the 3970-SKP is switched on or SINIX is started on the 3970-SKP, and whether the S130 should be automatically switched off if the SINIX system is shut down or the 3970-SKP is switched off.

However, it is only switched off automatically if the SINIX system is shut down using shutdown. If it is shut down and restarted using shutdown -i6, no switching action is carried out.

U25339-J-Z126-1-7600 29

Time-driven switching on and off of the SKP and S130

5.4 Time-driven switching on and off of the SKP and S130

The SKP can switch itself and the S130 on and off at a certain time.

V7

In order to switch the S130 on or off from the SKP, you must ha v e the optional on/off f acility. Furthermore, the S130 must be conﬁgured to switch on and off automatically as part of the starting and shutting down procedure for the SKP.

The SKP switches the S130 on. After the IMPL, the BS2000 system is started by the POWER ON IPL function of the SVP.

When the SKP and S130 are switched off, the shutdown command is sent to the system. You must ensure that the system has completed all its task. BS2000 can terminate during the wait period before the S130 is switched off . Once this wait period has expired, the S130 is switched off, the SINIX system is shut down, and the SKP is switched off.

Deﬁnition of the time at which the SKP and the S130 are to be switched on/off, a

shutdown command, and the length of the wait time before the SKP and S130 are

switched off can be speciﬁed using the sysadm forms.

Ê Select the menu item “sinix_2000 - System Administration SINIX-2000“ on the

UNIX System V, Administration menu.

Ê Select the menu item “up_down - Startup/shutdown settings“ on the SINIX-2000

system administration menu.

You will ﬁnd a detailed description of how to conﬁgure time-controlled startup/shutdown in the section “up_down” of the “SINIX-2000 V7.0” manual.

30 U25339-J-Z126-1-7600

Switching the SKP and S130 on and off using ATOP 3914

5.5 Switching the SKP and S130 on and off using ATOP 3914

Console

ATOP

SKP

COM2

Type-2 channel

LAN V.24

On/off facility

LAN

S130

SVP

The S130 can also be switched on automatically using the SKP in conjunction with the ATOP 3914. The optional on/off facility is required for this. Furthermore, the S130 must be conﬁgured to switch on and off automatically as part of the starting and shutting down procedure for the SKP.

The ATOP switches the SKP on via its remote switching interface. The SKP switches the S130 on. After the IMPL, the BS2000 system is started using the POWER ON IPL function of the SVP or using the ATOP menu.

The BS2000 system can be operated both via the ATOP and manually by the operator. To switch off the system, BS2000 must ﬁrst of all be exited (ATOP/operator). The S130 is

switched off by the SKP when the SKP is switched off by the ATOP. You will ﬁnd information on operating and programming the ATOP in the ATOP operating

instructions enclosed.

U25339-J-Z126-1-7600 31

Switching the S130 on and off from a remote system

5.6 Switching the S130 on and off from a remote system

DCU 8323

or

Console

DCU 8323

Telephone network

Modem

ATOP

SKP

Switching on and off can be carried out from a remote system using a modem/DCU. Information on operating the DCU can be found in the data sheet “8323 Data Communication Unit“ [5].

The optional on/off facility is required. In addition, automatic switching on/off of the S130 must be conﬁgured as part of the starting and shutting down procedure for the SKP. The SKP switches the S130 on. After the IMPL, the BS2000 system is started using the POWER ON IPL function of the SVP.

5.7 Switching global storage on and off

COM2

Type-2 channel

LAN V.24

On/off facility

LAN

S130

SVP

The service processor in global storage is linked via the SPC (System Power Controller) interface to the service processor in the S130.

Global storage is automatically switched on or off with the S130, regardless of whether this is performed manually, automatically or using the ATOP.

A battery backup can be installed in the global storage cabinet, which ensures data saving even in the event of a power failure.

32 U25339-J-Z126-1-7600

6 Standard processing in SVP mode

Jobs are assigned to the service processor via special SVP menus, so-called SVP frames. All the information you require as an operator working with SVP frames can be f ound in this chapter. You will ﬁnd instructions on the use of all user frames in the original “GS8600 MODEL GROUP OPERATORS GUIDE” (FJ-No. C112-E015-01EN).

After switching on the S130 and 3970-SKP, BS2000 operation must be prepared, i.e. the BS2000 operating system must be loaded (IPL = Initial Program Load). The f ollowing activities may be required for the IPL:

– select the IORSF (Input/Output Resource File) and start the IMPL (Initial Micro Program

Load) This is only necessary if you want to load another IORSF.

– specify the operating mode (Native/VM2000)

This is only necessary if you want to change the mode setting.

– start IPL using PROGRAM LOAD FRAME

To do this you may have to redeﬁne device parameters in the DETAIL-1 frame. – conﬁgure an automatic IPL (POWER ON IPL) The following sections provide examples of standard processing relevant to loading

BS2000. There is also an description of how to select a particular conﬁguration and how to re-initialize the SVP.

Standard processing at the SKP operator terminal at a glance: – selecting IORSF

– re-initializing SVP – setting up PROGRAM LOAD FRAME: PRESET-1 – setting up PROGRAM LOAD FRAME: PRESET-2 – selecting the SSU conﬁguration – setting the operating mode using PROGRAM LOAD FRAME: DETAIL-2 for loading

BS2000 / VM2000 – executing IPL in PROGRAM LOAD FRAME: DETAIL-1

All standard processing is carried out at the SKP operating terminal via the X window system, SVPST0 #1 (computer name) window.

Ê Select the SVP window by clicking with the left mouse mouse button

(see chapter “Operating the X window system” in the “SINIX-2000 V7.0” [1] manual).

U25339-J-Z126-1-7600 33

Invoking an SVP frame Standard processing in SVP mode

6.1 Invoking an SVP frame

By default, an SVP window is conﬁgured with the label “SVPST0 #1 (computer name)” to operate the SVP.

Figure 7: Overview of the X window system windows (example)

You can enter into SVP operator mode at the operating terminal by clicking on the SVPST0 #1 (computer name) window with the left mouse button.

34 U25339-J-Z126-1-7600

Standard processing in SVP mode Invoking an SVP frame

Figure 8: SVPST0 #1 window

Ê Select the “Standard partner ($KVPHV0)” function by pressing the key or

“Last connection ($KVPHV0)” by pressing the key.

Conﬁrm with the key.

U25339-J-Z126-1-7600 35

ENTER

C

S

Invoking an SVP frame Standard processing in SVP mode

The password entry window is displayed:

Figure 9: SVPST0 #1 window (password entry)

Ê Enter the password for the speciﬁed user ID and press . If the correct password has been entered, the f ollowing window appears after a short pause: – after starting the S130: the MODE SELECTION FRAME (see page 47) – after closing and reopening the “SVPST0 #1” window or

opening another SVP window on the secondary console: the last frame shown in the

“SVPST0 #1” window.

If the “SVPST0 #1” window or another SVP window on the secondary console is

!

opened, the contents of the window are not output completely. Press the key. This causes the screen to be refreshed, i.e. the frame that was last output is displayed again in its entirety.

36 U25339-J-Z126-1-7600

ENTER

K2

Standard processing in SVP mode General frame structure

6.2 General frame structure

---- FRAME XXXXXX: YYYYYY ----

Line

1-21

Display area

22-23

24

25

Figure 10: General structure of an SVP frame

Each SVP frame is divided into different areas: Lines 1 - 21 This is the display area of a frame. Here the functions and parameters that

Line 22 + 23 System status messages and SVP messages are displayed here. Line 24 Commands can be entered here. Information on the hardware status is

Line 25 This line is used for the status displays of the emulated operating terminal.

System status messages SVP messages

Command entry Status displays at the operating terminal

Column: 50 51

may be selected or output are displayed. Hardware-related information is also output.

shown as of column 51.

Hardware status

U25339-J-Z126-1-7600 37

General frame structure Standard processing in SVP mode

6.2.1 System status messages in line 22

12345678

.... + .... 0 .... + .... 0 .... + .... 0 .... + .... 0 .... + .... 0 .... + .... 0 .... + .... 0 .... + .... 0

Cluster ID

HOST/GUEST

CL-n

HOST GUEST

Target CPU

CPU-n

CHP-n

CLKSTP I-STEP H-STOP

SYS-DOWN CL-STOP CHK-STOP COMP-STOP STOP PSW-LOOP WAIT RUN LOAD

PSW = xxxxxxxx xxxxxxxx

PSW contents

Target CHP

System states

Rate control

Figure 11: Format of the status display in line 22

Meaning of the status information in line 22:

Column Symbol Meaning

16 - 19 CL -n Cluster ID of the S130; normally CL - 0 22 - 27 none

HOST

GUEST 28 - 32 CPU - n Display of the selected CPU (n = 0 - 7); selection with key. 33 - 37 CHP - n Display of the selected channel processor; display is usually CHP - 0. 40 -45 none

CLKSTP

I-STEP

H-STOP

The system is operated in BS2000-NATIVE mode. The selected CPU is occupied by the VM2000 monitor system. The selected CPU is occupied by a VM2000 guest system.

P16

The system is in the normal state. The system is in the clock-stop state. The system is in the instruction step state. The system is in the hardware stop state.

38 U25339-J-Z126-1-7600

Standard processing in SVP mode General frame structure

Column Symbol Meaning

46 - 55 SYS-DOWN

CL-STOP

CHK-STOP

COMP-STOP

STOP

PSW-LOOP

WAIT

RUN

LOAD 58 -72 none

PSW =

The system may be in the system down state. This display can also appear when Write-Console messages are output (e.g. SHUTDOWN COMPLETED) and can be deleted with the key.

F3

In multiple-cluster operation, the selected cluster is in the stop state. The selected CPU is in the CHECK stop state. The address comparison stop mode is active and the selected CPU is in the address comparison stop state. The selected CPU is in the stop state. An address loop was determined in the system. The selected CPU is in the wait state. The selected CPU is in the run state. An IPL is executed via the selected CPU.

The system is in the run state. The system is in the stop state on the PSW address (PSW=Program Status Word).

U25339-J-Z126-1-7600 39

General frame structure Standard processing in SVP mode

6.2.2 System status messages in line 23

The following picture shows the extended area of the system status messages in line 23:

12345678

.... + .... 0 .... + .... 0 .... + .... 0 .... + .... 0 .... + .... 0 .... + .... 0 .... + .... 0 .... + .... 0

AUTO

MO

CMCEFDHDTEST PW CHK

M@

SUSP

D@

CLCM

E@ X@

AUTO mode ARMSS mode Maintenance mode Hard disk/ﬂoppy disk Test mode Power alarm System check

Figure 12: Format of the extended area of the status display in line 23

Meaning of the status messages in line 23:

Column Symbol Meaning

55 - 58 AUTO

This display does not occur with BS2000 or VM2000. SUSP CLCM

60 - 61 none

M MO

ARMSS-Teleservice not permitted.

ARMSS-Teleservice is possible.

An ARMSS connection to the SKP and ARMSS center is established or termi-

nated. M@ D@ E@ X@

63 - 64 none

CE CM

66 - 67 HD

FD

70 - 74 none

TEST

ARMSS is active.

ARMSS is in the remote operation state. The control is at the center.

ARMSS is in the remote operation state. The control is with the SKP and SVP.

ARMSS is possible, line connection is prevented.

The system is in the user state.

The system is in the maintenance state.

The system is in the hot system maintenance state.

Hard disk 2 is online.

A ﬂoppy disk is active in the FD drive.

The system is not in the test state.

The system is in the test state.

40 U25339-J-Z126-1-7600

Standard processing in SVP mode General frame structure

Column Symbol Meaning

74 - 75 none

PW

78 - 80 none

CHK

The power supply is okay.

(Power Warning) An error has occurred in the power supply of the S130.

No CHK (machine check).

A CHK occurred in S130.

6.2.3 Hardware status display in line 24

The following diagram shows the format of the hardware status display in line 24:

FLAG CODE = FFFFFFFF FFFFFFFFcccc ................................... cccc

LTG TAST

Figure 13: Format of the status display in lines 24 and 25

Meaning of the status information in line 24:

Column Symbol Meaning

1 - 50 cccccccc Command input area 51 - 80 FFFFFFFF FFFFFFFF FLAG code

The FLAG code represents a message or error code which can be evaluated by service department personnel. The display appears according to the severity of the FLAG code . As a rule, the last is shown.

6.2.4 Status displays in line 25

Displays of the emulated terminal 9750 and their meaning:

LTG Line activated SAN Send request DUE Data transfer BEL Signal TAST Keyboard connected FEHL Invalid input

U25339-J-Z126-1-7600 41

Using frames Standard processing in SVP mode

6.3 Using frames

You assign a job to the SVP by invoking the relevant frame, selecting the desired function, and specifying the required parameters. To select a function or specify a parameter, you must enter the alphanumeric characters shown in the frame in the input ﬁelds marked by an arrow (=>). The input ﬁelds can be selected with the tab key . Once you have entered all the functions and parameters assigned to a job, press the key. In several frames, functions can also be initiated with the SVP function keys.

Instead of selecting a function, you can also enter a command in the command input line in all frames (screen line 24) and assign a job to the SVP in this way. Frames can also be selected using the FRËFrame-ID, e.g.FR ML (to switch to the MODE SELECTION FRAME). A command entered in line 24 takes priority over a selected frame function.

General notes on frame operation:

The input is disturbed by the output of messages in line 23 (e.g. SET TIME COMMAND

COMPLETED

). The key suppresses output of the message f or one minute. In this time the

K1

frame can be ﬁlled out and dispatched with .

6.3.1 SVP function keys

ENTER

An EMDS keyboard mask, which must be ordered separately, is used to operate the

i

SVP frames: Order number: U20076-J-Z148-1

EMDS (SINIX Open Desktop) as of V2.1 for DSS 97801-5xx: Keyboard masks - 6 strips

The following diagram shows the position and labelling of the SVP function keys on the EMDS keyboard mask:

P11 P12 P13 P14 P15 P16 P17 P18 P19 P20

P1 P2 P3 P4 P5 P6 P7 P8 P9 P10

You can activate various functions on the SVP frames with the help of the P keys to , the keys to and to .

K1 K3 F1 F3

F1 F2 F3

K1 K2 K3

P1 P20

42 U25339-J-Z126-1-7600

Standard processing in SVP mode Using frames

Overview of the SVP function keys

The following ov erview shows the k eys and their functions as v alid for most SVP fr ames. In some SVP frames keys can ha ve another function. This is then shown in the corresponding SVP frame description.

Some of the keys shown here only ha ve a function in CE mode (see inf ormation below) and are used exclusively by the service department.

CE=Customer Engineer; the CE mode on the S130 can only be switched on and off

i

by the service department using a key switch on the inside of the maintenance panel.

The designations of the SVP function keys are different on the screen from those on the EMDS keyboard mask. Column 1 of the f ollowing table contains the designation of the SVP function keys on the screen (e xample: PF4), column 2 contains the corresponding ke ys on the EMDS keyboard mask.

PF . . P . . Name Function

PF1 Help Help functions PF 2 Index PF 3 Return Switches to the previous frame. PF 4 Frame-speciﬁc function is executed. PF 5 Frame-speciﬁc function is executed. PF 6 Cancel/Erase Input Command or input is erased. PF 7 Page up The previous screen contents are displayed. PF 8 Page down The next screen contents are displayed. PF 9 Frame-speciﬁc function is executed. PF 10 Frame-speciﬁc function is executed. PF 11 Frame-speciﬁc function is executed. PF 12 Frame-speciﬁc function is executed. PF 13 Recall Previous SVP commands are displayed in the

PF 14 Frame-speciﬁc function is executed. PF 15 Frame-speciﬁc function is executed. PF 16 Change CPU Selects the CPU for which the following commands

PF 17 not assigned.

P1

P2

P3 P4 P5 P6 P7 P8

P9 P10 P11 P12 P13

P14 P15 P16

P17

Only in CE mode : switches to the index frame

command line; they can then be executed again with changed operands.

are valid. This CPU is then logically connected to the SVP.

U25339-J-Z126-1-7600 43

Using frames Standard processing in SVP mode

PF . . P . . Name Function

PF 18 Step Executes the next command if the S130 is in Single

PF 19 ARMSS control Changes the user rights of an existing ARMSS

PF 20 Stop PF 21 Start Starts the selected CPU PF 22 not assigned PF 23 Mode Select – Switches to the MODE SELECTION FRAME.

PF 24 Mode Change Switches back and forth between FJ-PROGRAM

K . . Name Function

K1

K2

P18

P19

P20

F1

F2

F3

K3

Lock message output

Refresh / Clear

Cycle Instruction Mode.

connection. only in CE mode : stops the selected CPU

– Erases WRITE-CONSOL message on the screen

(e.g. SHUTDOWN COMPLETED). – Erases BEL display in screen line 25 – Switches off buzzer on SKP and maintenance

panel of the S130.

FRAME and SVP FRAME.

The output (e.g. SET TIME COMMAND COMPLETED) for the SVP console is delayed f or 60 seconds. Each time the ke y is pressed again, the lock is prolonged by another 60 seconds. There is no indication of the lock time.

The last displayed frame is re-displayed. All other previous inputs in the current frame are reset.

44 U25339-J-Z126-1-7600

Standard processing in SVP mode Using frames

6.3.2 Switching between user frames

A switch between the user frames is only possible within a speciﬁed scheme or via an FR command.

The possible switches between the frames are illustrated below:

FR command

Figure 14: Switching between the frames

ML MODE SELECTION FRAME

LD PROGRAM LOAD FRAME ST STATUS DISPLAY FRAME MA MANUAL OPERATION FRAME AD ALTER/DISPLAY FRAME ME MASSAGE FRAME

CH CH/SUBCH STATUS DISPLAY FRAME

AU AUXILIARY FRAME: MENU

1 REAL CLOCK 2 IORSF CONTROL 3 RELATED SCB’S 4 P-OFF/IMPL 5 LOAD PRESET1 7 SSU-CLUSTER CONFIGURATION

MF MAINTENANCE SUPPORT FRAME PA PERFORMANCE ANALYZER

Explanation of ﬁgure 14

The frames are represented by this symbol:

PF23 / F3

PF3 / P3

MODE SELECTION FRAME

ML

Frame ID

Frame name

Each frame has an ID consisting of two letters derived from the frame name. In the above example the MODE SELECTION FRAME is also shown with the ID ML.

Arrows and program function keys show where and with which key or combination of keys you can switch to a frame.

U25339-J-Z126-1-7600 45

User frames Standard processing in SVP mode

6.3.3 Options for switching between frames on the SKP operating terminal

The following table sho ws the options for switching to another frame on the SKP oper ating terminal.

Operation Effect

P2

P3 F3

Frame selection Enter a frame code in the MODE SELECTION FRAME

Change to subframes

FR command It is possible to switch to any frame with the FR command. The command is

Only in CE mode : by pressing this key y ou s witch from any frame directly to the index frame. The selection of the desired frame can then be made by entering the frame ID in the index frame.

Pressing this key (return key) switches back to the previous frame. This key switches from any frame to the MODE SELECTION FRAME.

(e.g. ST, AU, AU5) You can change to a subframe by selecting it from the main frame or from a

subframe that has already been invoked. This can be done: – with program function keys.

The keys are shown in the corresponding frame or subframe.

– by selecting a function with or without entering a parameter.

entered in the command line (screen line 24) of a frame. It has the following format:

FR XX (XX is the code of the desired frame; see ﬁgure 14 on page 45)

6.4 User frames and subframes

The user frames are used by the operator for sending jobs to the SVP and for receiving replies from the SVP.

Some frames have up to ﬁve subframes. The subframes contain other, more detailed functions and information which does not ﬁt in the main frame.

This manual only describes the user frames required by the user.

i

46 U25339-J-Z126-1-7600

Standard processing in SVP mode User frames

6.4.1 (ML) MODE SELECTION FRAME

----- MODE SELECTION FRAME ----- E02L01F FUNCTION=>

- EXECUTION - - SELECTION - CPU SELECT=> ( 0 1 ) *1 CPU STOP *LD PROGRAM LOAD *ST STATUS DISPLAY *2 INTERRUPT *MA MANUAL OPERATION STOP/START MODE=> *AD ALTER/DISPLAY *3 TOD ENABLE *ME MESSAGE *1 ALL CPU *CH CH/SUBCH STATUS >2 TARGET CPU *4 SYSTEM RESET *AU AUXILIARY *MF MSF *5 SYSTEM RESET CLEAR *PA PERFORMANCE ANALYZER

*6 STORE STATUS

*7 RESTART

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 15: MODE SELECTION FRAME screen

By making entries in this frame and pressing , you can switch to other frames or

ENTER

execute various basic functions.

FUNCTION => permits either the entry of a number listed in the EXECUTION column

or a letter combination listed in the SELECTION column.

SELECTION After entering the appropriate letter combination you can switch to the

following SVP FRAMEs:

LD PROGRAM LOAD Load BS2000......................................................50

ST STATUS DISPLAY Display status .....................................................55

MA MANUAL OPERATION Manual operations..............................................57

AD ALTER/DISPLAY Alter/display register...........................................59

ME MESSAGE Display message ................................................62

CH CH/SUBCH STATUS Display channel/subchannel...............................63

AU AUXILIARY Auxiliary controls ................................................65

MF MSF Display ﬂag codes ..............................................74

PA PERORMANCE ANALYZER

Performance analysis .........................................76

U25339-J-Z126-1-7600 47

User frames Standard processing in SVP mode

EXECUTION The following functions are executed after the appropriate number is

entered in the input ﬁelds:

The functions are executed according to the entries in the CPU SELECT and

!

STOP/START MODE ﬁelds (see table on next page)!

1 CPU STOP stops either the CPU selected in the CPU SELECT

and STOP/START MODE ﬁelds or all CPUs

2 INTERRUPT creates an external interrupt for the CPU(s) selected

in the ﬁelds CPU SELECT and STOP/START MODE

3 TOD ENABLE time entry is enabled 4 SYSTEM RESET all CPUs, IOPs, channels and controllers are reset 5 SYSTEM RESET CLEAR as 4; in addition, the working memory is erased 6 STORE STATUS selected CPU is stopped, the status is stored 7 RESTART restarts selected CPU

CPU SELECT => A particular CPU, displayed in the ne xt frame line, can be selected here

for the functions in the EXECUTION selection menu (see above).

0 ... 7 Selection of a particular CPU

STOP/START MODE =>

This can be used to indicate whether the functions in the EXECUTION selection menu (see above) are to be carried out f or all CPUs or only for the CPU in the CPU SELECT ﬁeld.

1 ALL CPU all CPUs are selected 2 TARGET CPU only the CPU in the CPU SELECT ﬁeld is selected

48 U25339-J-Z126-1-7600

Standard processing in SVP mode User frames

Note

The following table shows all the functions that can be meaningfully combined:

Function CPU SELECT STOP/START

MODE

CPU STOP - 1 All CPU all CPUs

0 ... 7 2 TARGET CPU selected CPU

INTERRUPT STORE STATUS RESTART

TOD ENABLE SYSTEM RESET SYSTEM RESET CLEAR

- : unusable

0 ... 7 2 TARGET CPU selected CPU

--all CPUs

Effect on:

U25339-J-Z126-1-7600 49

User frames Standard processing in SVP mode

6.4.2 (LD) PROGRAM LOAD FRAME: BASIC

----- PROGRAM LOAD FRAME: BASIC ----- E02L01F

-LOAD FUNCTION ==> *1 START AUTO *2 START FAST *3 START DIAL *4 START *5 SYSTEM DUMP

*ENTER EXECUTE *PF7 GO TO DETAIL-1 *FR AU5 GO TO PRESET(AU5 FRAME)

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 16: PROGRAM LOAD FRAME: BASIC screen

An IPL is executed b y entering a load function and pressing the key . The predeﬁned

ENTER

parameters in (AU5) AUXILIARY FRAME: LOAD PRESET are used.

LOAD FUNCTION =>

The following functions are executed after the corresponding number has been entered:

1 START AUTO executes IPL: automatic startup 2 START FAST executes IPL: fast startup 3 START DIAL executes IPL: dialog startup 4 START not used 5 SYSTEM DUMP executes SLED

Special key functions

ENTER

P7

FR AU5 Enters the frame command in line 24:

Executes IPL / SYSTEM DUMP Switches to the PROGRAM LOAD FRAME: DETAIL-1 (page 51)

Switches to the AUXILIARY FRAME: LOAD PRESET1 (page 70)

50 U25339-J-Z126-1-7600

Standard processing in SVP mode User frames

6.4.2.1 (LD) PROGRAM LOAD FRAME: DETAIL-1

----- PROGRAM LOAD FRAME: DETAIL-1 ----- E02L01F

-LOAD FUNCTION- -IPL DEVICE ==> ==> 2 *1 START AUTO *1 PRESET GROUP ------------------+ *2 START FAST >*2 CURRENT GROUP --------+ | *3 START DIAL *3 UNIT ADDRESS -+ + + *4 START FDE0 FDE0 0214 *5 SYSTEM DUMP XXXX 00B0 *6 LOAD CLEAR -----+ XXXX XXXX *7 LOAD NON CLEAR -+ XXXX XXXX | +MT CONTROL- --- DETAIL-2 STATUS -- PARMS=> 1 ==> 1 VM MODE : EMOS.AVM/EX >*1 NL EXA MODE : ENABLE *2 SL IPL EXEC : ENABLE *3 NL-REWIND *4 SL-REWIND *ENTER EXECUTE *PF3 GO TO BASIC FRAME *PF9 GO TO DETAIL-2

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 17: PROGRAM LOAD FRAME: DETAIL-1 screen

By making entries in this screen and pressing the key y ou can control the execution

ENTER

of an IPL.

LOAD FUNCTION =>

The following functions are executed after the corresponding number has been entered:

1 START AUTO executes IPL: automatic startup 2 START FAST executes IPL: fast startup 3 START DIAL executes IPL: dialog startup 4 START not used 5 SYSTEM DUMP executes SLED 6 LOAD CLEAR clears main memory before IPL 7 LOAD NON CLEAR does not clear main memory before IPL

IPL DEVICE => By making an entry in this ﬁeld you can specify from which device an

IPL is to be executed.

1 PRESET GROUP The ﬁrst device address in this column is the device

from which an IPL is to be executed. The order and number has been speciﬁed previously in (AU5) AUXILIARY FRAME: LOAD PRESET-1.

U25339-J-Z126-1-7600 51

User frames Standard processing in SVP mode

If IPL is terminated normally, the de vice address list is transferred from the PRESET GROUP to the CURRENT GROUP. If the IPL is unsuccessful, the next device address from the PRESET GROUP is reloaded. If this loading is terminated normally, this device address heads the CURRENT GROUP.

2 CURRENT GROUP The ﬁrst device address in this column is the device

from which the last IPL was executed. If the loading from this device is unsuccessful, the IPL is repeated with the next device address. If it is terminated normally, this address then heads the CURRENT GROUP.

3 UNIT ADDRESS A new device address from which the operating

system is to be loaded can be entered here. If the IPL is terminated normally, this device address is put in ﬁrst position of the CURRENT GROUP. If the IPL is unsuccessful, the loading is not repeated.

PARMS => A maximum of 8 characters can be entered in this ﬁeld. Their position

and meaning are listed below:

Position 1 Ë1load BS2000

load VM2000

Position 2 - 5 mn mnemonic for Write/Read console,

if C2C3 is not generated by default. Position 6 - 7 not used Position 8 Ë1no function

automatic restart function

MT CONTROL => IPL from tape:

1 NL from current tape position 2 SL skip label then load 3 NL-REWIND rewind then load 4 SL-REWIND rewind, skip label then load

52 U25339-J-Z126-1-7600

Standard processing in SVP mode User frames

DETAIL-2 STATUS

In this position the current settings of the PROGRAM LOAD FRAME: DETAIL-2 are displayed.

Check the settings. If they are correct, execute the IPL by pressing . If not, press the

P9

key to correct the entries in PROGRAM LOAD FRAME: DETAIL-2.

ENTER

Special key functions

ENTER

Executes IPL After selecting this function and pressing , the following prompt will appear

*********************************** * * * ARE YOU SURE ? (ENTER Y OR N) N * * * ***********************************

ENTER

The IPL must not be ex ecuted during system operation! If this instruction is

!

is not heeded, BS2000 will be shut down abruptly!

Ê Press and then to execute the IPL, or and then to

Y

ENTER

N

ENTER

cancel the procedure.

P3

Switches to PROGRAM LOAD FRAME: BASIC (page 50)

P9

Switches to the PROGRAM LOAD FRAME: DETAIL-2 (page 54) and stores the parameters entered.

U25339-J-Z126-1-7600 53

User frames Standard processing in SVP mode

6.4.2.2 (LD) PROGRAM LOAD FRAME: DETAIL-2

----- PROGRAM LOAD FRAME: DETAIL-2 ----- E02L01F

-VM MODE- -EXA MODE- -IPL EXECUTION ==> 3 ==> 1 ==> 1 *1 NATIVE >*1 ENABLE >*1 ENABLE *2 EMOS *2 DISABLE *2 DISABLE >*3 AVM/EX

*ENTER EXECUTE *PF3 GO TO BASIC FRAME *PF9 GO TO DETAIL-1

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 18: PROGRAM LOAD FRAME: DETAIL-2 screen

By making an entry in this frame and pressing , you can set the operating mode.

ENTER

VM MODE => Selection of the ﬁrmware to be loaded from SVP

1 NATIVE for BS2000 operation 2 EMOS not used 3 AVM/EX for VM2000 operation

EXA MODE => Selection of addressing mode

1 ENABLE extended XA mode 2 DISABLE not used

IPL EXECUTION => IPL execution

1 ENABLE executes IPL 2 DISABLE does not execute IPL

If there are changes to the VM MODE and IPL EXECUTION => 2, only the other ﬁrmware is loaded and no IPL is executed.

54 U25339-J-Z126-1-7600

Standard processing in SVP mode User frames

Special key functions

ENTER

Sets operating mode. If a loading function has previously been stored in PR OGRAM LOAD FRAME: DETAIL-1 with the key, an IPL with the set parameters is

P9

executed.

P3

Switches to PROGRAM LOAD FRAME: BASIC (page 50)

P9

Switches to PROGRAM LOAD FRAME: DETAIL-1 (page 51)

With the exception of the load function, the parameters entered in the subframes are retained when switching between DETAIL-1 and DETAIL-2-FRAME with the key.

6.4.3 (ST) STATUS DISPLAY FRAME: CLUSTER

----- STATUS DISPLAY FRAME: CLUSTER ----- E02L01F

CPU0 (#0) ONL RUN CHBP0 PON CPU1 (#1) ONL RUN MSU0 ONL MSU1 ONL SPC SCI SVP SYS PON MCU0 CHP0 ONL

CHP2 ONL SYSTEM INFORMATION MEMORY 3 GB MODE EXA FTOPS2 ENABLE

*PF8 SSU FRAME

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

P9

Figure 19: STATUS DISPLAY FRAME: CLUSTER screen

This frame displays inf ormation on the current status of the S130 and its individual components (Power on/off, online/ofﬂine, normal/maintenance state etc.). Unmounted components are not displayed. The memory size, operating system mode (BS2000 or VM2000), and availability of the SKP (FTOPS2 ENABLE) are important displays.

Special key functions

P8

Switches to the SSU FRAME (see next page)

U25339-J-Z126-1-7600 55

User frames Standard processing in SVP mode

----- STATUS DISPLAY FRAME: SSU ----- E02L01F

SS0 (SSU0) 512MB BS SS1 (SSU1) 512MB BS

SSU0 PON ONL CNCT 512MB BS SSU1 PON ONL CNCT 512MB BS

*PF7 CLUSTER FRAME

CL-0 CPU-0 CHP-0 RUN M ssu0 FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 20: STATUS DISPLAY FRAME: SSU screen

This displays information on the status of the connected global storage. Memory size, battery status, power status, online status, and connect status are displayed.

Special key functions

P7

Switches to the CLUSTER FRAME (see previous page)

56 U25339-J-Z126-1-7600

Standard processing in SVP mode User frames

6.4.4 (MA) MANUAL OPERATION FRAME

----- MANUAL OPERATION FRAME ----- E02L01F FUNCTION=> ADDRESS COMPARE STOP ADRS TYPE=> *1 RATE CONTROL RATE CONTROL=> *1 ABSOLUTE *1 PROCESS *2 LOGICAL *2 ADRS COMPARE STOP *2 I-STEP ADRS COMP SELECT=> *3 FIRMWARE DUMP *1 ANY *2 OPERAND FETCH(OFETCH) *X EXECUTE *3 OPERAND STORE(OSTORE) UNIT ADRS=> 0000 *4 INSTRUCTION ADRS(IA) *5 IA & OFETCH *6 OFETCH & OSTORE

ADRS SET=> XXXX => XXXXXXXX

ADRS COMP MODE=> *1 RESET *2 SET *3 NORMAL CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 21: MANUAL OPERATION FRAME screen

By making an entry in this frame and pressing , you can execute various manual

ENTER

operations. Instructions on this frame are only executed when the CPU has been stopped

(see message in frame line 23). The CPU status is displayed in line 22.

1. Selection of a CPU with the key.

P16

2. Stopping of the selected CPU (see (ML) MODE SELECTION FRAME page 47)

FUNCTION => The following functions are executed after the corresponding number

has been entered and the key pressed:

ENTER

1 RATE CONTROL deﬁnes program operation 2 ADRS COMPARE STOP sets mode for compare address stop 3 FIRMWARE DUMP executes ﬁrmware dump X EXECUTE executes functions 1 - 3

U25339-J-Z126-1-7600 57

User frames Standard processing in SVP mode

The following table shows the additional entries required for each of the three main functions in other input ﬁelds:

Input ﬁeld

Function RATE

CONTROL

1 RATE CONTROL o x x x x x 2 ADRS COMP STOP x x o o o o 3 FIRM DUMP x o x x x x o: entry required

x: entry not required

UNIT

ADRS

TYPE

ADRS

COMP

SELECT

ADRS

SET

ADRS COMP MODE

RATE CONTROL => Deﬁnes program operation

1 PROCESS continual program operation 2 I-STEP step-by-step command execution

ADRS TYPE => Entry for address compare stop:

entry under ADRS SET is

1 ABSOLUTE an absolute address 2 LOGICAL a logical address

ADRS COMP SELECT => Address compare stop if compare stop address is same as

1 ANY any address 2 OPERAND FETCH(OFETCH) operand read address 3 OPERAND(OSTORE) operands write address 4 INSTRUCTION ADRS(IA) instruction address 5 IA & OFETCH instruction and operand read address 6 OFETCH & OSTORE operand read and write address

UNIT ADRS => Device address for ﬁrmware dump

ADRS SET => Compare stop address

XXXX Address area larger than 32 bits (not yet used) XXXXXXXX 32-bit address

58 U25339-J-Z126-1-7600

Standard processing in SVP mode User frames

ADRS COMP MODE => Address compare stop mode

1 RESET Switches off address compare stop and resets

address compare stop conditions in the ﬁelds ADRS TYPE, ADRS COMP SELECT and ADRS SET

2 SET Switches on address compare stop 3 NORMAL Switches off address compare stop

6.4.5 (AD) ALTER/DISPLAY FRAME

----- ALTER/DISPLAY FRAME ---- E02L01F FUNCTION => *A ALTER *D DISPLAY FACILITY =>

-- MEMORY - *L LOGICAL *R REAL *P P-VIRTUAL *S S-VIRTUAL *ABS *KEY *V A-VIRTUAL *I H-VIRTUAL *SS SS-REAL *SV SS-VRTL

ADRS=> =>

*PF9 CHANGE FACILITY CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 22: ALTER/DISPLAY FRAME screen

Y ou can use this fr ame to display and change the contents of the main memory , the memory protect key and global storage. It is a requirement that the selected CPU ( key) is

P16

stopped beforehand (see “(ML) MODE SELECTION FRAME” on page 47). FUNCTION => The following functions are executed after the appropriate letter is

entered and is pressed:

ENTER

A ALTER change and modify memory contents D DISPLAY display memory contents

U25339-J-Z126-1-7600 59

User frames Standard processing in SVP mode

FACILITY => Possible displays of memory areas with various addres-

ses:

L LOGICAL logical storage address R REAL real storage address P P-VIRTUAL primary virtual storage address S S-VIRTUAL secondary virtual storage address ABS absolute address KEY memory protect key V A-VIRTUAL address areas virtual address I H-VIRTUAL basic address area´s virtual address SS SS-REAL SSU real address SV SS-VRTL SSU virtual address

ADRS => Memory address

XXXX address area larger than 32 bits (not yet used) XXXXXXXX 32-bit address

Special key functions

P9

When you press this key, the following subframe is displayed:

----- ALTER/DISPLAY FRAME ---- E02L01F FUNCTION => *A ALTER *D DISPLAY FACILITY =>

-- REGISTER - *GR *PSW *CR *FCR *FPR *PRX *AR

*XCR *GSR *EX EPRX

ADRS=> =>

*PF9 CHANGE FACILITY CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 23: ALTER/DISPLAY FRAME screen

You can use this frame to change and display the contents of important CPU registers. It is a requirement that the selected CPU ( key) is stopped beforehand (see “(ML) MODE

P16

SELECTION FRAME” on page 47).

60 U25339-J-Z126-1-7600

Standard processing in SVP mode User frames

FUNCTION => The following functions are executed after the appropriate letter is

entered and is pressed:

ENTER

A ALTER change and modify register contents D DISPLAY display register contents

FACILITY => Possible displays of registers:

GR General register PSW Program status word CR Control register FCR Feature control register FPR Floating-point register PRX Preﬁx register AR Access register XCR Extended control register GSR Global scope register EX EPRX Extended preﬁx register

ADRS => no input required

Special key functions

P9

returns to the frame for memory display

U25339-J-Z126-1-7600 61

User frames Standard processing in SVP mode

6.4.6 (ME) MESSAGE FRAME

----- MESSAGE FRAME ----- E02L01F NEWEST LINE = 0776 LINE ID MESSAGE MM/DD HH:MM:SS 0759 01 X2LA9 FUNCTION: ST 05/21 14:47:23 0760 01 X2SA9 SSU0 05/21 14:48:56 0761 01 E2SA1 COMMAND NOT FOUND 05/21 14:48:56 0762 01 X2SA9 PF 8 05/21 14:49:14 0763 01 X2SA9 PF 3 05/21 14:50:30 0764 01 X2LA9 FUNCTION: MA 05/21 14:50:35 0765 01 E2M31 CPU NOT IN STOPPED STATE 05/21 14:50:35 0766 01 X2MA9 PF 2 05/21 14:51:47 0767 01 E2MA2 UNSUPPORTED PF KEY 05/21 14:51:47 0768 01 X2MA9 PF 3 05/21 14:51:56 0769 01 X2LA9 FUNCTION: AD 05/21 14:52:10 0770 01 E2B31 CPU0 NOT IN STOPPED STATE 05/21 14:52:11 0771 01 X2BA9 PF 9 05/21 14:53:48 0772 01 X2B00 COMMAND COMPLETED 05/21 14:53:48 0773 01 X2BA9 PF 2 05/21 14:54:49 0774 01 E2BA2 UNSUPPORTED PF KEY 05/21 14:54:49 0775 01 X2BA9 PF 3 05/21 14:55:15 0776 01 X2LA9 FUNCTION: ME 05/21 14:55:20 CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 24: MESSAGE FRAME screen

All SVP messages and commands to the SVP are stored in a message ﬁle and can be viewed in the MESSAGE FRAME.

Special key functions

P8

one page forwards, in the direction of the newer entries

P7

one page backwards, in the direction of the older entries

Entering a line command in line 24 permits you to display a certain entry in the uppermost line.

Example: L 0800

62 U25339-J-Z126-1-7600

Standard processing in SVP mode User frames

6.4.7 (CH) CH/SUBCH STATUS DISPLAY FRAME: CHANNEL

----- CH/SUBCH STATUS DISPLAY FRAME: CHANNEL ----- E02L01F CHP 0

PCHAD 0000000000000000 1111111111111111 2222222222222222 3333333333333333 0123456789ABCDEF 0123456789ABCDEF 0123456789ABCDEF 0123456789ABCDEF

CHPID 0000000000000000 1111111111111111 2222222222222222 3333333333333333 0123456789ABCDEF 0123456789ABCDEF 0123456789ABCDEF 0123456789ABCDEF

INSTALLED ****....****.... ****....****.... ****....****.... ****************

OP ****....**.*.... ****....**.*.... ****....****.... ***.****........

ON-LINE ****....**.*.... ****....**.*.... ****....****.... ***..***........

CH-TYPE BBBB....BBBB.... BBBB....BBBB.... BBBB....BBBB.... BBBBBBBBBBBBBBBB

IF-TYPE EEEE....EE.E.... EEEE....EE.E.... EEEE....EEEE.... CCC.CCCC........

NNN NNNN

FUNCTION => 1 CH STATUS CHP NO.=> 2 SUBCH STATUS CHPID => LCHADR=> LINKADR=> LCUADR=> 3 LINK STATUS PCHAD => *PF11 DISPLAY CHP2 CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 25: CH/SUBCH STATUS DISPLAY FRAME: CHANNEL screen

By making entries in the input ﬁelds and pressing , you can display the status of the

ENTER

I/O system. Further subframes are supplied in connection with FUNCTION 2 and 3. FUNCTION => The following information is displayed on the screen after the corre-

sponding number has been entered:

1 CH STATUS channel status

(additional input in CHP NO ﬁeld)

2 SUBCH STATUS subchannel status

(additional input in the ﬁeld CHPID or LINKADR)

3 LINK STATUS LINK status of a type-S channel

(additional input in PCHAD ﬁeld)

CHP NO => channel processor

0 ... 3

CHPID => channel path number

00 ... FF

LCHADR => logical channel address

no input required

U25339-J-Z126-1-7600 63

User frames Standard processing in SVP mode

LINKADR => link address for type-S channel

01 without director

with director:

00 ... FE output port address = link address

LCUADR => logische control unit address

no input required

PCHAD => physical channel address

00 ... FF

Special key functions

P10

P11

Display of channel processor with next lower number. Display of channel processor with next higher number.

64 U25339-J-Z126-1-7600

Standard processing in SVP mode User frames

6.4.8 (AU) AUXILIARY FRAME: MENU

----- AUXILIARY FRAME: MENU ----- E02L01F

SELECTION=>

*1 REAL CLOCK

*2 IORSF CONTROL

*3 RELATED SCB

*4 P-OFF/IMPL

*5 LOAD PRESET

*7 CONFIGURATION

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 26: AUXILIARY FRAME: MENU screen

You can move to other frames by making entries in this menu frame and pressing .

ENTER

SELECTION => The following subframes are displayed on the screen by entering the

appropriate number:

1 REAL CLOCK displaying/setting SVP clock ..............................66

2 IORSF CONTROL displaying/editing IORSF....................................67

3 RELATED SCB memory size for related SCBs............................68

4 P-OFF/IMPL executing POWER OFF or IMPL........................69

5 LOAD PRESET presetting LOAD FRAME....................................70

7 CONFIGURATION displaying/setting SSU conﬁguration .................72

U25339-J-Z126-1-7600 65

User frames Standard processing in SVP mode

6.4.8.1 (AU1) AUXILIARY FRAME: REAL CLOCK

----- AUXILIARY FRAME: REAL CLOCK ----- E02L01F

YYYY MM DD HH MM SS

1997.05.21 15:26:47

*PF6 CANCEL *PF12 TIMER SET

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 27: AUXILIARY FRAME: REAL CLOCK screen

When the screen is invoked, the current date and time of the SVP are displayed. Press the

K1

key before making an entry.

Corrections can be entered in the line below. These corrections take effect when the

P12

key is pressed.

The SKP cyclically synchronizes the SVP clock with the SINIX time (message:SET

i

TIME COMMAND COMPLETED

).

Special key functions

P6

Delete input

P12

Corrections are carried out by the SVP

66 U25339-J-Z126-1-7600

Standard processing in SVP mode User frames

6.4.8.2 (AU2) AUXILIARY FRAME: IORSF CONTROL

----- AUXILIARY FRAME: IORSF CONTROL ----- E02L01F

NO. COMMENT 0 S130TA1 // \UGENDATA.HW.S130.TA1.OSD.S130TA1 / 07.05.97 DATE 1997.04.30 TIME 16:00 1 S130TA1X // \UGENDATA.HW.S130.TA1.OSD.S130TA1X / 07.05.97 DATE 1997.04.30 TIME 16:07 P 2 S130TA1 // \UGENDATA.HW.S130.TA1.OSD.S130TA1 / 20.05.97 DATE 1997.05.14 TIME 15:20 P 3 S130TA1X // \UGENDATA.HW.S130.TA1.OSD.S130TA1X / 20.05.97 DATE 1997.05.14 TIME 15:43

FUNCTION=> CURRENT NO. = 3 *1 SET NO NEXT POWER ON RESET NO. => 3 *2 PROTECT SPECIFY P(PROTECT) OR U(UNPROTECT) *3 SWAP SPECIFY SWAP NO. <=> *PF8 NEXT PAGE

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 28: AUXILIARY FRAME: IORSF CONTROL screen

The IORSF ﬁles are displayed in this ﬁle. The ﬁle n umber of the current IORSF is display ed in the CURRENT NO. = ﬁeld.

When you select a function and press the key , parameters are required in the other input ﬁelds. Once you have entered the parameters and pressed the key, the

ENTER

functions for the IORSF ﬁles are executed. FUNCTION => The following functions are executed when the appropriate number is

entered:

1 SET NO activates an IORSF. Entry of the set number in the

NEXT POWER ON RESET NO. => ﬁeld. An IMPL is then

required (see AU4 frame on page 69).

2 PROTECT engages/disengages IORSF protection from being

overwritten: enter P or U before the appropriate number

3 SWAP swaps two IORSFs: enter the numbers in the

SPECIFY SWAP NO ﬁelds.

NEXT POWER ON RESET NO. =>

Enter the number of the IORSF ﬁle which is to be activated after the ne xt IMPL. You can only make an entry if you select function 1 beforehand.

U25339-J-Z126-1-7600 67

User frames Standard processing in SVP mode

SPECIFY SWAP NO. <=>

Enter two ﬁle numbers which are to be swapped. You can only make entries if you select function 1 beforehand.

Special key functions

P8

Sets 4 to 7 are displayed

P7

Sets 0 to 3 are displayed

6.4.8.3 (AU3) AUXILIARY FRAME: RELATED SCB’S

This frame is intended exclusively for use by the service department.

i

----- AUXILIARY FRAME: RELATED SCB'S ----- E02L01F

NUMBER OF RELATED SCB'S => 04 K

NUMBER OF OCLINK-CNC LOGICAL PATH'S => 00000

*PF6 CANCEL *PF12 CATALOG

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 29: AUXILIARY FRAME: RELATED SCB’S screen

An entry in this frame sets the memory size for related SCBs (related Subchannel Control Block). Values from 01 to 16 are possible.

Special key functions

P6

erase input

P12

save input in SVP

68 U25339-J-Z126-1-7600

Standard processing in SVP mode User frames

6.4.8.4 (AU4) AUXILIARY FRAME: P-OFF/IMPL

----- AUXILIARY FRAME: P-OFF/IMPL ----- E02L01F

FUNCTION=>

*1 POWER OFF

*2 IMPL

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 30: AUXILIARY FRAME: P-OFF/IMPL screen

By making an entry in this frame and pressing , you can switch the S130 off or re-

ENTER

initialize it. FUNCTION => The following functions are executed when the appropriate number is

entered:

1 POWER OFF switches S130 off, order: ﬁrst devices connectec to

the PCI (Pow er Control Interface), then CPU (further information on this can be found on page 15 and page 22)

2 IMPL executes IMPL

After you have selected a function and pressed , the following prompt will

ENTER

appear:

*********************************** * * * ARE YOU SURE ? (ENTER Y OR N) N * * * ***********************************

The IMPL or POWER OFF must not be e x ecuted during system operation!

!

If this instruction is not heeded, BS2000 will be terminated abruptly!

Ê Press and to switch off the system or to execute an IMPL, or

and to cancel the procedure.

U25339-J-Z126-1-7600 69

Y

ENTER

N

User frames Standard processing in SVP mode

6.4.8.5 (AU5) AUXILIARY FRAME: LOAD PRESET1

----- AUXILIARY FRAME: LOAD PRESET1 ----- E02L01F

-START MODE- -IPL DEVICE ==> 1 *1 START AUTO 1 PRESET GROUP -----------------+ *2 START FAST 2 CURRENT GROUP --------+ | >3 START DIAL 3 UNIT ADDRESS -+ + + *4 START 08F7 08F7 0214 XXXX 00B0 XXXX XXXX XXXX XXXX

-POWER ON IPL ==> 2 *1 ENABLE >2 DISABLE

-INITIAL FRAME ==> 2 *1 LOAD FRAME(BASIC) *PF12 CATALOG >2 LOAD FRAME(DETAIL) *PF9 GO TO LOAD PRESET-2

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 31: AUXILIARY FRAME: LOAD PRESET1 screen

You can predeﬁne the execution of an IPL by making an entry in this frame and pressing

ENTER

:

START MODE => Predeﬁne the loading mode by entering the appropriate number and

comment for the BS2000 loading mode:

1 START AUTO for automatic startup 2 START FAST for fast startup 3 START DIAL for dialog startup 4 START not used

IPL DEVICE => Entries in this ﬁeld specify from which device an IPL should be

executed.

1 PRESET GROUP Up to four unit addresses can be entered in the input

ﬁeld for PRESET GROUP. The operating system is loaded from the ﬁrst device (IPL). In the case of an error, the IPL is executed by the next device listed.

POWER ON IPL =>

Here you determine the behavior of the SVP after an IMPL.

70 U25339-J-Z126-1-7600

Standard processing in SVP mode User frames

1 ENABLE automatically executes IPL after IMPL 2 DISABLE does not execute IPL, i.e. IPL must be triggered

manually using PROGRAM LOAD FRAME: BASIC or PROGRAM LOAD FRAME: DETAIL-1.

INITIAL FRAME =>

Here you can set the display form of the PROGRAM LOAD FRAME.

1 LOAD FRAME (BASIC) PROGRAM LOAD FRAME: BASIC (see page 50) 2 LOAD FRAME (DETAIL) PROGRAM LOAD FRAME: DETAIL-1 (see page

51)

Special key functions

P12

----- AUXILIARY FRAME: LOAD PRESET2 ----- E02L01F

-VM MODE- -EXA MODE ==> 1 ==> 1 >1 NATIVE >1 ENABLE *2 EMOS *2 DISABLE *3 AVM/EX

-START IPL NO ==> 1 *1 FIX(1) >2 CURRENT

*PF12 CATALOG *PF9 GO TO LOAD PRESET-1

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 32: AUXILIARY FRAME: LOAD PRESET2 screen

You can set the operation mode by making an entry in this frame and pressing the key.

catalog settings

P9

switches to LOAD PRESET2 screen

P12

VM MODE => Selection of the ﬁrmware to be loaded from SVP

1 NATIVE for BS2000 operation 2 EMOS not used on the S130 Business Server 3 AVM/EX for VM2000 operation

U25339-J-Z126-1-7600 71

User frames Standard processing in SVP mode

EXA MODE => Selection of addressing mode

1 ENABLE extended XA mode 2 DISABLE not used on the S130 Business Server

START IPL NO => Selection of the IPL Start Mode number

1 FIX(1) Start Mode number 1 (automatic start) 2 CURRENT Start Mode number of most recently executed IPL.

Special key functions

P12

catalogs settings

P9

switches to the LOAD PRESET-1 screen

6.4.8.6 (AU7) AUXILIARY FRAME: SSU-CLUSTER CONFIGURATION

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 33: AUXILIARY FRAME: SSU-CLUSTER CONFIGURATION screen

This frame shows the status of the connected global storage (only if SSU is connected). By making entries in the input ﬁelds and pressing , you can display and select conﬁg-

ENTER

urations.

72 U25339-J-Z126-1-7600

Standard processing in SVP mode User frames

FUNCTION => The following functions are carried out by entering the appropriate

number:

1 DISPLAY CFR displays current conﬁguration 2 INIT CFR FILE NO. activates selected FILE after IMPL, enter a number

in the INIT CFR FILE NO. => ﬁeld

3 DISPLA Y FILE displays conﬁguration ﬁle, enter a n umber in theCFR

FILE NO. =>

ﬁeld

X EXECUTE executes the last function entered

INIT CFR FILE NO. => Selection of a conﬁguration ﬁle for function 2

CFR FILE NO. => Selection of a conﬁguration ﬁle for function 3

0 CL0-SS0, CL1-SS1 conﬁguration ﬁle 0 with comments 1 CL0-2SSU conﬁguration ﬁle 1 with comments 2 CL1-2SSU conﬁguration ﬁle 2 with comments 3 2CL-2SSU conﬁguration ﬁle 3 with comments

“Comment” refers to the contents of the conﬁguration ﬁle. This is entered b y the service department.

The service department can deﬁne conﬁguration ﬁles in which links between two S130s (Cluster 0 and 1) and two SSUs (SSU0 and SSU1) can be conﬁgured on ONL (online Y or N).

A connection (CNCT C) is either set by the service department and IMPL (for OSD V1 and V2) or (as of OSD V3) by operating system commands. ﬁgure 33 shows a conﬁguration with which a computer connection can be achieved via global storage (SCMP).

U25339-J-Z126-1-7600 73

User frames Standard processing in SVP mode

6.4.9 (MF) MSF FRAME

----- MSF FRAME: FLAG CODE LOG DISPLAY ----- E02L01F

INITIALIZED 1997.02.13 10:26:19 LAST SEQ 3751 NODE:SELF 1/ 9 SEQ UNIT FLAG CODE DATE TIME CT KIND LINK INFORMATION *3751 ICC A6 7151 10 091D1F00 05.21 15:16:21 ATTN HC29 SP1 *3750 ICC A6 7151 10 091C1F00 05.21 15:16:10 ATTN HC28 SP4 *3749 ICC A6 7151 10 091B1F00 05.21 15:15:59 ATTN HC27 SP3 *3748 ICC A6 7151 10 091A1F00 05.21 15:15:48 ATTN HC26 SP2 *3747 ICC A6 7A13 10 08401F00 05.21 15:14:24 ATTN HC25 *3746 ICC A6 7A13 10 49A01F00 05.21 15:14:13 ATTN HC24 *3745 ICC A6 7A13 10 18111F00 05.21 15:14:02 ATTN HC23 *3744 ICC A6 7A13 10 49941F00 05.21 15:13:51 ATTN HC22 *3743 ICC A6 7A13 10 18281F00 05.21 15:13:40 ATTN HC21 *3742 ICC A6 7A13 10 49831F00 05.21 15:13:29 ATTN HC20 3741 ICC A6 7151 10 09111F00 05.21 15:13:17 ATTN HC19 3740 ICC A6 7A13 10 49811F00 05.21 15:13:06 ATTN HC18 3739 ICC A6 7151 10 09101F00 05.21 15:12:55 ATTN HC17 3738 ICC A6 7A13 10 49801F00 05.21 15:12:44 ATTN HC16 PF1:HELP PF7:PREV PAGE PF8:NEXT PAGE CL-0 CPU-0 CHP-0 RUN M FLAG CODE = A6715110 091D1F00 LTG TAST

Figure 34: MSF FRAME screen

The SVP logs all FLAG codes, whereby the most recent code is gener ally shown in line 24.

Special key functions

P7

one page backwards, in the direction of the newer entries

P8

one page forwards, in the direction of the older entries

74 U25339-J-Z126-1-7600

Standard processing in SVP mode User frames

Frame line 24:

You can switch to FLAG code entries of other components by making the f ollo wing entries in line 24:

ssu0: FLAG code entries of SSU0 ssu1: FLAG code entries of SSU1 self: back to the FLAG code entries of the cluster

----- MSF FRAME: FLAG CODE LOG DISPLAY ----- E02L01F

INITIALIZED 1997.02.13 09:56:29 LAST SEQ 0055 NODE:SSU0 1/ 2 SEQ UNIT FLAG CODE DATE TIME CT KIND LINK INFORMATION 0055 FD 7150 00 01001E00 05.12 16:33:09 005 SVP

05.21 14:01:21 0054 F6 C0A0 00 00001E00 05.12 10:48:28 004 SVP

05.12 10:50:35 0053 80 8010 20 00560E00 05.05 13:42:40 MCK 0052 FD 7150 00 01001E00 04.24 16:41:57 003 SVP

04.28 15:38:50 0051 F0 4098 00 01021E00 04.24 08:25:17 SVP 0050 F0 4098 00 00011E00 04.24 08:17:15 SVP 0049 FD 7150 00 01001E00 04.14 10:45:47 003 SVP

04.23 14:40:57 0048 E0 400C 00 00001E00 04.11 06:33:39 SVP 0047 F0 4098 00 01021E00 04.11 06:19:13 SVP

PF1:HELP PF7:PREV PAGE PF8:NEXT PAGE CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

U25339-J-Z126-1-7600 75

User frames Standard processing in SVP mode

6.4.10 (PA) PERFORMANCE ANALYZER

---- PERFORMANCE ANALYZER FRAME ---- E02L01F

FUNCTION => STATUS DISABLE / STOP 1 ENABLE & ITEM SELECT LOGGING STOP 2 DISABLE 3 START & DISPLAY -- CHP BUSY LEVEL ----------- 4 START & CH BUSY 0 < GREEN < 30 (%) 5 STOP 31 < WHITE < 100 (%) 6 LOGGING START 7 LOGGING STOP -- INTERVAL TIME ----------- 8 CPU LOG DISPLAY SAMPLING ==> 2 SEC 9 CH LOG DISPLAY LOGGING ==> 1 MIN

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 35: PERFORMANCE ANALYZER FRAME screen

The PA frame is not intended for use.

76 U25339-J-Z126-1-7600

Standard processing in SVP mode Selecting IORSF

6.5 Examples of standard processing in SVP mode

6.5.1 Selecting IORSF

The steps listed below are conditions for the loading of a particular IORSF at the next IMPL or the next time the system is switched on.

In the following example the IORSF is selected with Level 2.

Conditions

You must have selected the “SVPST0 #1 (computer name)” window, created a link to the $KVPHV0, and entered the correct password.

The MODE SELECTION FRAME is displayed:

----- MODE SELECTION FRAME ----- E02L01F FUNCTION=>

- EXECUTION - - SELECTION - CPU SELECT=> ( 0 1 ) *1 CPU STOP *LD PROGRAM LOAD *ST STATUS DISPLAY *2 INTERRUPT *MA MANUAL OPERATION STOP/START MODE=> *AD ALTER/DISPLAY *3 TOD ENABLE *ME MESSAGE *1 ALL CPU *CH CH/SUBCH STATUS >2 TARGET CPU *4 SYSTEM RESET *AU AUXILIARY *MF MSF *5 SYSTEM RESET CLEAR *PA PERFORMANCE ANALYZER

*6 STORE STATUS

*7 RESTART

CL-0 CPU-0 CHP-0 RUN

FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 36: MODE SELECTION FRAME screen

M

Invoking AUXILIARY FRAME: MENU screen

Ê Enter AU in the FUNCTION=> ﬁeld and press

ENTER

or

Ê Enter the FR AU command in line 24 and press .

U25339-J-Z126-1-7600 77

ENTER

Selecting IORSF Standard processing in SVP mode

The AUXILIARY FRAME: MENU screen is displayed

----- AUXILIARY FRAME: MENU ----- E02L01F

SELECTION=>

*1 REAL CLOCK

*2 IORSF CONTROL

*3 RELATED SCB

*4 P-OFF/IMPL

*5 LOAD PRESET

*7 CONFIGURATION

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 37: AUXILIARY FRAME: MENU screen

Invoking IORSF Control Frame

Ê Enter 2 in the SELECTION=> ﬁeld. Press .

ENTER

If the frame code AU2 is entered in the MODE SELECTION FRAME or the FR AU2

i

command is entered in line 24, the following frame is displayed.

78 U25339-J-Z126-1-7600

Standard processing in SVP mode Selecting IORSF

The AUXILIARY FRAME: IORSF CONTROL screen is displayed:

----- AUXILIARY FRAME: IORSF CONTROL ----- E02L01F

NO. COMMENT 0 S130TA1 // \UGENDATA.HW.S130.TA1.OSD.S130TA1 / 07.05.97 DATE 1997.04.30 TIME 16:00 1 S130TA1X // \UGENDATA.HW.S130.TA1.OSD.S130TA1X / 07.05.97 DATE 1997.04.30 TIME 16:07 P 2 S130TA1 // \UGENDATA.HW.S130.TA1.OSD.S130TA1 / 20.05.97 DATE 1997.05.14 TIME 15:20 P 3 S130TA1X // \UGENDATA.HW.S130.TA1.OSD.S130TA1X / 20.05.97 DATE 1997.05.14 TIME 15:43

FUNCTION=> CURRENT NO. = 3 *1 SET NO NEXT POWER ON RESET NO. => 3 *2 PROTECT SPECIFY P(PROTECT) OR U(UNPROTECT) *3 SWAP SPECIFY SWAP NO. <=> *PF8 NEXT PAGE

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 38: AUXILIARY FRAME: IORSF CONTROL screen

The ﬁrst four IORSF are display ed in the upper portion of the screen. You can switch to the next four with the key, and back with the key.

P8 P7

In this example the IORSF with the number 3 is active. Display: CURRENT NO. = 3 Now you want to activate the IORSF with the number 2:

Ê Enter 1 in the FUNCTION=> ﬁeld. Press . Ê Enter 2 in the NEXT POWER ON RESET NO.=> ﬁeld and press .

U25339-J-Z126-1-7600 79

ENTER

Activating IORSF Standard processing in SVP mode

6.5.2 Activating IORSF

The set IORSF must be activated with a IMPL:

Conditions

You must be in the AUXILIARY FRAME: IORSF CONTROL screen.

Ê Press to switch back to the AUXILIARY FRAME: MENU. Ê Enter 4 in the SELECTION=> ﬁeld. Press .

P3

ENTER

The AUXILIARY FRAME: P-OFF/IMPL screen is displayed:

----- AUXILIARY FRAME: P-OFF/IMPL ----- E02L01F

FUNCTION=>

*1 POWER OFF

*2 IMPL

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 39: AUXILIARY FRAME : P-OFF/IMPL screen

Ê Enter 2 in the FUNCTION=> ﬁeld to execute an IMPL. Then press .

ENTER

The following prompt appears:

*********************************** * * * ARE YOU SURE ? (ENTER Y OR N) N * * * ***********************************

The IMPL must not be executed during system operation!

!

Ê Press to execute the IMPL or , to cancel the procedure. Conﬁrm your entry with

80 U25339-J-Z126-1-7600

Y N

ENTER

.

Standard processing in SVP mode PROGRAM LOAD FRAME PRESET1

6.5.3 Setting up PROGRAM LOAD FRAME PRESET1

In this example, you specify:

● LOAD function 1 with the name AUT O (A UTO=A utomatic Startup) for a POWER ON IPL

● Device number of the IPL device to be used for a POWER ON IPL (current: 0108)

● Automatic IPL after a POWER ON

● The LOAD FRAME should always be displa yed as PROGRAM LO AD FRAME: DETAIL-

1.

Conditions

You must have selected the “SVPST0 #1 (computer name)”’ window, created a link to the $KVPHV0, and entered the correct password.

The MODE SELECTION FRAME is displayed on the screen (see page 77).

Invoke AUXILIARY FRAME: LOAD PRESET1 screen

Ê Enter AU in the FUNCTION=> ﬁeld and then press ,

ENTER

or

Ê enter the FR AU command in line 24 and press .

ENTER

The AUXILIARY FRAME: MENU screen is displayed (see page 78).

Ê Enter 5 in the SELECTION=> ﬁeld. Press .

ENTER

U25339-J-Z126-1-7600 81

PROGRAM LOAD FRAME PRESET1 Standard processing in SVP mode

The AUXILIARY FRAME: LOAD PRESET1 screen is displayed:

----- AUXILIARY FRAME: LOAD PRESET1 ----- E02L01F

-START MODE- -IPL DEVICE ==> 1 *1 START AUTO 1 PRESET GROUP -----------------+ *2 START FAST 2 CURRENT GROUP --------+ | >3 START DIAL 3 UNIT ADDRESS -+ + + *4 START A108 A108 0108 XXXX XXXX XXXX XXXX XXXX XXXX

-POWER ON IPL ==> 1 *1 ENABLE >2 DISABLE

-INITIAL FRAME ==> 2 *1 LOAD FRAME(BASIC) *PF12 CATALOG >2 LOAD FRAME(DETAIL) *PF9 GO TO LOAD PRESET-2

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 40: AUXILIARY FRAME : LOAD PRESET1 screen

You can reach this screen directly from the MODE SELECTION FRAME by

i

entering the frame code AU5 in the FUNCTION=> ﬁeld or the command FR AU5 in line 24 and pressing .

ENTER

START MODE => Enter 1 for automatic start of the BS2000. IPL DEVICE PRESET GROUP A unit address from which the operating system is

loaded (IPL) must be entered in the input ﬁeld for

PRESET GROUP. A maximum of three further

addresses can be entered. Entry in our example: 0108.

POWER ON IPL => Enter 1 for automatic IPL after POWER ON. INITIAL FRAME => Enter 2 for a detailed display of the LOAD FRAME.

Catalog parameters

Ê Press the key.

P12

The values entered are saved and thus made known to the SVP. These settings are accessed for each IPL.

82 U25339-J-Z126-1-7600

Standard processing in SVP mode PROGRAM LOAD FRAME PRESET2

6.5.4 Setting up PROGRAM LOAD FRAME PRESET2

In the PROGRAM LOAD FRAME PRESET2 you specify which oper ating mode is to be set after the S130 system is switched on.

The following are speciﬁed in the example below:

● VM2000 operating mode

● EXA mode

● Automatic startup of the operating system

Conditions

You must be in the AUXILIARY FRAME: LOAD PRESET1 screen.

Invoke AUXILIARY FRAME: LOAD PRESET2 screen

Ê Press the key in the AUXILIARY FRAME: LOAD PRESET1 screen

P9

The AUXILIARY FRAME: LOAD PRESET2 screen is displayed:

----- AUXILIARY FRAME: LOAD PRESET2 ----- E02L01F

-VM MODE- -EXA MODE ==> 3 ==> 1 >1 NATIVE >1 ENABLE *2 EMOS *2 DISABLE *3 AVM/EX

-START IPL NO ==> 1 *1 FIX(1) >2 CURRENT

*PF12 CATALOG *PF9 GO TO LOAD PRESET-1

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 41: AUXILIARY FRAME: LOAD PRESET2 screen

VM MODE => Enter 3 for VM2000 operation. EXA MODE => Always enter 1. START IPL NO => Enter 1.

U25339-J-Z126-1-7600 83

IPL in PROGRAM LOAD FRAME: DETAIL-1 Standard processing in SVP mode

Catalog parameters

Ê Press the key.

P12

The values entered are saved and thus made known to the SVP. These settings are accessed for each IPL.

6.5.5 Executing IPL in PROGRAM LOAD FRAME: DETAIL-1

The IPL can be executed manually 1according to the setting using PROGRAM LOAD FRAME DETAIL-1.

The following are speciﬁed in the example below:

● loading VM2000

● dialog startup

● IPL device is speciﬁed manually by the entry of the unit address

(here: loading the BS2000 from a device with the unit address A108)

Conditions

You must be in the AUXILIARY FRAME: LOAD PRESET2 screen.

Invoking the PROGRAM LOAD FRAME: DETAIL-1 screen

Ê Press the key to return to the MODE SELECTION FRAME. Ê Enter the frame code LD and press .

Or enter the FR LD command in line 24 and press .

F3

ENTER

After entering LD or FR LD in the MODE SELECTION FRAME, either the

i

PROGRAM LOAD FRAME: DETAIL-1 or the PROGRAM LOAD FRAME: BASIC screen is displayed, depending on the INITIAL FRAME setting in the AUXILIARY FRAME: LOAD PRESET1 screen (see page 82).

84 U25339-J-Z126-1-7600

Standard processing in SVP mode IPL in PROGRAM LOAD FRAME: DETAIL-1

In this example, the PROGRAM LOAD FRAME: DETAIL-1 screen is displayed:

----- PROGRAM LOAD FRAME: DETAIL-1 ----- E02L01F

-LOAD FUNCTION- -IPL DEVICE ==> 3 ==> 3 *1 START AUTO *1 PRESET GROUP ------------------+ *2 START FAST >*2 CURRENT GROUP --------+ | *3 START DIAL *3 UNIT ADDRESS -+ + + *4 START A108 A108 0108 *5 SYSTEM DUMP XXXX XXXX *6 LOAD CLEAR -----+ XXXX XXXX *7 LOAD NON CLEAR -+ XXXX XXXX | +MT CONTROL- --- DETAIL-2 STATUS -- PARMS=> 1 ==> 1 VM MODE : NATIVE >*1 NL EXA MODE : ENABLE *2 SL IPL EXEC : ENABLE *3 NL-REWIND *4 SL-REWIND *ENTER EXECUTE *PF3 GO TO BASIC FRAME *PF9 GO TO DETAIL-2

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 42: PROGRAM LOAD FRAME: DETAIL-1 screen

LOAD FUNCTION => Enter 3 for dialog startup. IPL DEVICE => Enter 3. UNIT ADDRESS => Enter the device address of the load device.

In this example, the previous IPL was executed successfully from the current device with device address A108. Thus the desired address is already in the UNIT ADDRESS ﬁeld. It was also entered in the

CURRENT GROUP ﬁeld by the SVP. Entering a 2 in the IPL DEVICE ﬁeld loads the operating system from

the desired device.

PARMS => Enter 1 in the ﬁrst position of the ﬁeld to load

VM2000.

MT CONTROL => 1 is preset. This parameter is only important for

loading from tape.

U25339-J-Z126-1-7600 85

IPL in PROGRAM LOAD FRAME: DETAIL-1 Standard processing in SVP mode

DETAIL-2 STATUS The settings in DETAIL-2 FRAME are displayed in

detail. Check the settings. If they are correct, execute the

IPL (see below), if not, correct the entries in DETAIL-2 FRAME (see section “Setting operating mode via PROGRAM LOAD FRAME: DETAIL-2” on page 87).

In our example VM MODE: NATIVE, i.e. the ﬁrmware for the BS2000 operation is loaded. This setting must be changed in DETAIL-2 FRAME for this example.

Swap to PROGRAM LOAD FRAME: DETAIL-2

Ê Press the key.

P9

This saves the entries in DETAIL-1 FRAME in the SVP and opens the DETAIL-2 FRAME.

Execute IPL

Ê Press after you have checked all the settings.

ENTER

The following prompt appears on the screen:

*********************************** * * * ARE YOU SURE ? (ENTER Y OR N) N * * * ***********************************

Press to execute the IPL, or to cancel the procedure. Conﬁrm your entry with

Y N

ENTER

.

86 U25339-J-Z126-1-7600

Standard processing in SVP mode Setting operating mode

6.5.6 Setting operating mode via PROGRAM LOAD FRAME: DETAIL-2

The operating mode can be reset using the PROGRAM LOAD FRAME: DETAIL-2. This selects the appropriate ﬁrmware for running BS2000 or VM2000.

The following are speciﬁed in the example below:

● VM2000 operating mode

● executing IPL after reloading the ﬁrmware

Conditions

You must be in the PROGRAM LOAD FRAME: DETAIL-1 screen.

Invoke PROGRAM LOAD FRAME: DETAIL-2 screen

Ê Press the key.

P9

The PROGRAM LOAD FRAME: DETAIL-2 screen appears:

----- PROGRAM LOAD FRAME: DETAIL-2 ----- E02L01F

-VM MODE- -EXA MODE- -IPL EXECUTION ==> 3 ==> 1 ==> 1 *1 NATIVE >*1 ENABLE >*1 ENABLE *2 EMOS *2 DISABLE *2 DISABLE >*3 AVM/EX

*ENTER EXECUTE *PF3 GO TO BASIC FRAME *PF9 GO TO DETAIL-1

CL-0 CPU-0 CHP-0 RUN M FLAG CODE = F6C0C100 00000F00 LTG TAST

Figure 43: PROGRAM LOAD FRAME: DETAIL-2 screen

VM MODE => Enter 3 for VM2000 operation. EXA MODE => Always enter 1. IPL EXECUTION => Enter 1.

U25339-J-Z126-1-7600 87

Setting operating mode Standard processing in SVP mode

Activating settings

Ê After you have checked all the settings, press .

ENTER

The following prompt appears:

*********************************** * * * ARE YOU SURE ? (ENTER Y OR N) N * * * ***********************************

Press to execute the IPL or to cancel the procedure. Conﬁrm your input with

Y N

ENTER

.

88 U25339-J-Z126-1-7600

7 Operating the BS2000 console

Selecting the console window

At the operator terminal, you enter system operating mode by clicking the window CONS0 #1<computer name> with the left mouse button.

System operation

When the BS2000 console window is opened, no input is permitted. If you attempt to make an entry, you are prompted to release the window by entering the valid password. You do this using the MENU function.

Press the key to display the main KVP function menu.

1 Main KVP Function Menu

1 - Permit Input (On)

2 - Inhibit Input (Off) 3 - Change Password 4 - View Last Messages 5 - Programmable Function Keys 6 - KVP Administrative Functions 7 - Exit

Use the keys , and to select and start the functions provided on the main KVP

MENU

ENTER

function menu. Ê Select function 1 and enter the password for the cons0 user ID. Conﬁrm your input by

pressing the key.

ENTER

You can then enter BS2000 commands or respond to queries from the BS2000 system. Your input is transferred to BS2000 when you press the key.

ENTER

You will ﬁnd further information on the functionality of the main KVP function menu

V7

and on using special key functions in “BS2000 CONSOLE mode” in the “SINIX2000 V7.0“ [1] manual.

U25339-J-Z126-1-7600 89

Eine Dokuschablone von Frank Flachenecker

8 Troubleshooting

This chapter describes what to do out in case of malfunction. Problems with the S130 page 91

Displays if there is a hardware error page 92 Carrying out a system dump page 93 Measures to take if there is an I/O processor failure page 93 Measures to take if there is a processing computer failure page 94

Problems with the service/console processor (SKP) page 97

8.1 Problems with the S130

In the case of a problem with the S130, contact the service department and discuss the steps to be taken. Depending on the outcome of this discussion, you may be required to carry out the following tasks:

– Take a system dump in the case of an inexplicable system failure. – Disable defective I/O processors if several I/O processors are available.

You can continue processing with the rest of the system.

– Disable defective processing units, if several are available.

You can continue processing with the rest of the system.

– If one of the MCU, SVP, SCI, SPC, or PCI system components is defective, contact the

service department.

The next section explains how the S130 informs you of hardware errors.

U25339-J-Z126-1-7600 91

Problems with the S130 Troubleshooting

8.1.1 Displays in the case of a hardware error

The S130 informs you of hardware errors in the following manner:

● On the S130 control panel

If the yellow CHECK light illuminates, there may be a hardware error. At the same time, the FLAG code appears on the LCD displa y . This can indicate anerror in the service processor or a machine error.

● On the screen of the SKP console in the SVPST0 window

On the SKP console, displays in line 24 in the SVPST0 window of the SVP frame can indicate a hardware error. Evaluation of the FLAG code is carried out by the service department. The following diagram shows the format of the error display:

FLAG CODE = FFFFFFFF FFFFFFFF

LTG TAST

Figure 44: FLAG code display in line 24 of the SVPST0 screen

The FLAG code FF . . . FF can have different meanings and can therefore require different measures:

– A WRITE-CONSOL message is displayed. It can be deleted with the key . This

F3

does not delete the FLAG code display.

– A warning is issued, e.g. if the room temperature is too high. The cause of the error

must be eradicated. System operation can continue in the meantime.

– An error has occurred in the S130 or on the interface to the peripheral devices which

was automatically corrected by the hardware. In this case, system operation can also be continued.

– An error has occurred which does not permit system operation to be continued. In the last case, you can take the following measures: If the system is down, execute an IMPL. If this does not solve the problem, contact the

service department and discuss what steps should be taken.

92 U25339-J-Z126-1-7600

Troubleshooting Problems with the S130

8.1.2 Carrying out a system dump

Conditions:

1. Select the SVPST0 window

2. Select LD PROGRAM LOAD FRAME

3. Select LOAD FUNCTION => 5 (SYSTEM DUMP) The system dump stored on hard disk or cassette by the DUMP program is required for

error diagnosis. Afterwards, the BS2000/VM2000 system must be reloaded with the IPL.

Information on SLED operation can be found in the “Introductory Guide to Systems

i

Support“ [6] manual.

8.1.3 Measures to take in the case of defective I/O channels or I/O processors

If an S130 channel or an added secondary I/O processor is defective, you can perf orm the following after consulting the service department:

Ê Disable defective I/O channel during operation.

If an I/O channel has failed due to a hardware f ailure, it is automatically disab led. If not, you can disable it using the BS2000 command DETË*CHA(XX).

Ê Disable defective I/O processor during operation.

If an I/O processor has failed due to a hardware failure, it is automatically disabled. If not, you can disable it using the BS2000 command

/DETË*CHA(XX,YY)

when doing so, you should enter a list of channels CHPIDxx ,...,CHPIDyy; or enter a range of channels from CHPIDxx to CHPIDyy using

/DETË*CHA-R(XX,YY)

You can continue processing with the other I/O processors until the repairs are carried out by the service department. This is only possible if you can reach the peripheral devices required for your work via non-defective I/O processors.

U25339-J-Z126-1-7600 93

Problems with the S130 Troubleshooting

List of I/O channels: IOP0 (channel processor CHP 0 and 1) channel range 00 to 7F IOP1 (channel processor CHP 2 and 3) channel range 80 to FF If the ﬁrst I/O processor (IOP0) fails, system operation is no longer possible due to the

lack of a console. If a logical console which works via the front-end processor and a functioning channel exists, the system can still be used.

Ê Execute IMPL and IPL after system crash with the defective I/O processor disabled by

the SVP.

8.1.4 Measures to take in the case of processing unit failure

If the CPU is defective, you must contact the service department.

!

A high-availability module (HVZ), S130K-1H, is available for the S130 as a chargeable option.

S130 without the high availability module

If a CPU is defective for any S130 model without the high av ailability module and the CPU has not caused a system crash, the CPU is automatically disabled. If not, you can disable it with the BS2000 command /DETË*CPU(xx).

xx = number of the CPU: 00 to 07

You can then continue processing with reduced system performance without the defective CPU until the service department carries out the repairs.

A defective CPU can only be made available to the system via IMPL or IPL after repairs have been performed.

S130 with the high availability module

If the high availability module is installed on your S130-C, S130-E or S130-P, you can replace the defective CPU with the high-availability CPU.

A high-availability CPU can not be activated during system operation.

!

Please request support from the service department if you want the high-availability CPU generated. They will then activate the high-availability CPU as described below.

Ê Terminate your system with /SHUTDOWN.

94 U25339-J-Z126-1-7600

Troubleshooting Problems with the S130

Ê Once the message SHUTDOWN COMPLETED is displayed, switch the S130 to CE mode by

switching the CE ke y on the inside of the maintenance panel of the S130 to the position “Maintenance Mode On”.

The CE mode is indicated by the display CE on the control panel of the S130 (see page 12f) and in line 23 of the SVPST0 window on the SKP operating terminal (see page 40).

Ê Select the SVPST0 window on the SKP operating terminal (see page 36). Ê Press the key. It switches to CE mode in the Index Frame. Ê Select the Generation Fr ame by entering the frame codeGE and press the key.

P2

ENTER

Ê Enter 1 in the input ﬁeld SETUP ITEM => to select the SYSTEM FEA TURE and press the

ENTER

key.

The following frame is displayed:

----- GENERATION FRAME: SYSTEM ----- E02L01F-01Q+013

--- SYSTEM FEATURE -- MODEL => GS8600 FVC => 60 FMODEL => 8600 TYPE => /40 IVC => 00 IMODEL => 3090

--- INSTALLATION (Y/N) -- CPU0 => Y CPU1 => Y CPU2 => N CPU3 => N CPU4 => N CPU5 => N CPU6 => N CPU7 => N MSU0 => Y MSU1 => Y CHP0 => Y CHP1 => N CHP2 => Y CHP3 => N IOPA0=> Y IOPA1=> Y IOPA2=> N IOPA3=> N IOPA4=> Y IOPA5=> N IOPA6=> N IOPA7=> N

--- MULTI CLUSTER FEATURE -- DOMAIN SSU CAPACITY => 00000000 (MB) GSIGP I/O RESET TIME-OUT => 30 (SEC)

UPDATE => N (Y/N) PF3:RETURN PF6:CANCEL PF7:PAGE UP PF8:PAGE DOWN CL-0 CPU-0 CHP-0 RUN M CE TEST

LTG TAST

Figure 45: GENERATION FRAME: SYSTEM screen

Ê Enter Y in the ﬁeld UPDATE => to modify the generation. Conﬁrm your input by pressing

ENTER

the key.

Ê Enter N for the defective CPU and Y for the next available CPU. Conﬁrm your input by

pressing the key.

Ê Press the key.

ENTER

P3

Ê Respond to the question DO YOU WANT TO SAVE SETUP DATA: ? in the subsequent frame

with Y. Conﬁrm your input by pressing the key.

U25339-J-Z126-1-7600 95

ENTER

Problems with the S130 Troubleshooting

Ê Press the key to return to the Index Frame. Ê Select the frame AU4 by entering the frame code AU4 and press the key.

P2

ENTER

Ê Select the IMPL function by entering 2 (IMPL activates the new setting) and conﬁrm

your input by pressing the key. Respond to the following prompt with Y and conﬁrm by pressing the key.

*********************************** * * * ARE YOU SURE ? (ENTER Y OR N) N * * * ***********************************

ENTER

Ê After IMPL has terminated (display of the MODE SELECTION frame in the SVPST0 #1

window), execute a IPL of the BS2000/VM2000 (see page 84).

Return the CE key to the position “Maintenance Mode Off“.

8.1.5 Measures to take in the case of defective MCU, SVP, SCI, PCI system components

When the MCU (Memory Control Unit), SVP, SCI (System Control Interface) or PCI (Power Control Interface) system component fails, processing cannot be continued with the S130.

If the failure of one of these components causes a complete system failure, you can carry out the following actions after consultation with the service department:

Ê execute an IMPL (AU4-FRAME)

or Ê switch off the S130 (AU4-FRAME) and then restart it (control panel, SKP menu). If the shutdown and subsequent IMPL occur without failures, the IPL can be restarted with

the BS2000/VM2000.

96 U25339-J-Z126-1-7600

Troubleshooting Problems with the service/console processor (SKP)

8.2 Problems with the service/console processor (SKP)

If you have problems with the SKP, contact the service department and discuss the steps to be taken.

Depending the outcome of this discussion, you may be required to do the following:

1. Reboot the SINIX system.

Make sure that applications under SINIX, e.g. sysadm, have been terminated.

Log in to SINIX under the ID root,

enter the password,

shutdown -i6

or select “Exit system“ from the main menu of the window administration program, enter

the password, select “Restart” and “Start” (see also page 22).

If this is not possible:

Switch off SKP with the OFF switch and then switch it on again.

A /shutdown command is sent to BS2000 and it may be terminated (see also

!

page 22f and the section entitled “up_down” in the “SINIX-2000 V7.0“ [1] manual).

2. After termination of the SINIX loading process, select the screen CONS0 #1 <computer

name> again and log in with the password.

3. If the BS2000/VM2000 is still in operation, an automatic reconnect to the BS2000

console screen CONS0 is executed. You can now continue to use BS2000 as described on page 89.

U25339-J-Z126-1-7600 97

Important key combinations Troubleshooting

8.3 Important key combinations

If your mouse is not working, you can use the keys + to move between the

ALT TAB

windows of the X-Windows window system. The following key combinations make your work easier:

CTRL CTRL

ALT ALT ALT ALT

SysRq

+ Switch from the window system to the SINIX login screen

SysRq

+ Return to the window system

SysRq

+ Invoke login screen on console

SysRq

+ Invoke SINIX-Windows

SysRq

+ Invoke SINIX login screen

CTRL DEL

+ + Reboot command (SINIX not yet loaded)

h

u h P1 P2

98 U25339-J-Z126-1-7600

Related publications

Please apply to your local ofﬁce for ordering the manuals.

[1] SINIX-2000 V7.0

Installation, Operation and Administration

User Guide

Target group

This manual is intended for privileged users (operators, system administrators) of the service/console processor 3970-SKP, the channel adapter 3970-KAx, and the business servers C80-2 and SR2000.

Contents

The manual contains all the information required to ensure that the systems service/ console processor 3970-SKP/S110 and 3970-SKP/S130, channel adapter 3970-KAx and business servers C80-2 and SR2000 are ready for use. This includes helpful inf ormation on conﬁguring the systems and a description of important functions for system operation and administration.

[2] 3970-SKP / 3970-KAx

Operating Manual

Target group

The manual addresses privileged users (operators, system administrators).

Contents

The manual contains all the information required to operate the hardware of the Service/ Console Processor SKP 3970 and the 3970-KAx Channel Adapter.

[3] SINIX/windows User Environment V3.0

Introduction to Handling and Conﬁguration (SINIX Desktop) User Guide

Target group

Users familiar with the basics of SINIX

Contents

The manual presents the components of the SINIX/windows desktop and shows how to operate the elements of the interface and interactively conﬁgure the desktop.

U25339-J-Z126-1-7600 99

Related publications

[4] TELESERVICE - TSB2000 (BS2000/OSD Server)

User Guide

Target group

The manual addresses the operating personnel of the C50, C70, C80, H100, S110, S130 and SR2000 mainframes. Knowledge of BS2000 and basic SINIX knowledge are required to operate TELESERVICE.

Contents

Service technicians use TELESERVICE to support, maintain and perform fault diagnostics on customer systems from the TELESERVICE center. TELESERVICE permits rapid support by specialists, independent of geographic location and is the fastest method of response when problems occur . The TELESERVICE TSB component is the interf ace of the BS2000 system to the TELESERVICE center.

[5] 8323 Data Communication Unit

SINIX Data Sheet

Contents

The 8323 Data Communication Unit (DCU) makes it possible to interconnect display terminals, printers or computers with asynchronous interfaces via dialup telephone connections anywhere in the world.

[6] BS2000/OSD-BC

Introductory Guide to Systems Support User Guide

Target group

This manual is addressed to BS2000/OSD systems support staff and operators.

Contents

The manual covers the following topics relating to the management and monitoring of the BS2000/OSD basic conﬁguration: system initialization, parameter service, job and task control, memory/device/user/ﬁle management, assignment of privileges, accounting and operator functions.

100 U25339-J-Z126-1-7600

Fujitsu BS2000-OSD User Manual 2

Specifications and Main Features

Frequently Asked Questions

User Manual

1 Introduction

1.1 Objectives and target group

Summary of contents Introduction

1.3 Notational conventions

2 Important instructions

2.1 Safety instructions

Manufacturer instructions Important instructions

2.3 RFI suppression

3 Overview

Overview Concept of system operation

3.2.1 Hardware

3.2.2 Software

3.2.3 Authorization control

4 Controls and indicators

Control panel on the Business Server cabinet Controls and indicators

4.1.1 Function of the indicators

4.1.2 Button functions

Control panel on the global storage cabinet Controls and indicators

4.2.1 Function of the indicators

4.2.2 Button functions

Controls and indicators EMERGENCY STOP switch

5 Switching the S130 Business Server on and off

Switching the S130 on and off from the SKP

5.7 Switching global storage on and off

6 Standard processing in SVP mode

Invoking an SVP frame Standard processing in SVP mode

Standard processing in SVP mode General frame structure

6.2.1 System status messages in line 22

6.2.2 System status messages in line 23

6.2.3 Hardware status display in line 24

6.2.4 Status displays in line 25

Using frames Standard processing in SVP mode

6.3.1 SVP function keys

6.3.2 Switching between user frames

6.4 User frames and subframes

6.4.1 (ML) MODE SELECTION FRAME

6.4.2 (LD) PROGRAM LOAD FRAME: BASIC

6.4.2.1 (LD) PROGRAM LOAD FRAME: DETAIL-1

6.4.2.2 (LD) PROGRAM LOAD FRAME: DETAIL-2

6.4.3 (ST) STATUS DISPLAY FRAME: CLUSTER

6.4.4 (MA) MANUAL OPERATION FRAME

6.4.5 (AD) ALTER/DISPLAY FRAME

6.4.6 (ME) MESSAGE FRAME

6.4.7 (CH) CH/SUBCH STATUS DISPLAY FRAME: CHANNEL

6.4.8 (AU) AUXILIARY FRAME: MENU

6.4.8.1 (AU1) AUXILIARY FRAME: REAL CLOCK

6.4.8.2 (AU2) AUXILIARY FRAME: IORSF CONTROL

6.4.8.3 (AU3) AUXILIARY FRAME: RELATED SCB’S

6.4.8.4 (AU4) AUXILIARY FRAME: P-OFF/IMPL

6.4.8.5 (AU5) AUXILIARY FRAME: LOAD PRESET1

6.4.9 (MF) MSF FRAME

6.4.10 (PA) PERFORMANCE ANALYZER

Standard processing in SVP mode Selecting IORSF

6.5 Examples of standard processing in SVP mode

Activating IORSF Standard processing in SVP mode

6.5.3 Setting up PROGRAM LOAD FRAME PRESET1

6.5.4 Setting up PROGRAM LOAD FRAME PRESET2

7 Operating the BS2000 console

8 Troubleshooting

8.1 Problems with the S130

8.1.1 Displays in the case of a hardware error

8.1.2 Carrying out a system dump

Important key combinations Troubleshooting

Related publications