JPS63178353A - Multiplex virtual space system - Google Patents

Abstract

PURPOSE:To expand virtual spaces by forming the virtual spaces in respective running levels of a program and forming an area common to respective virtual spaces. CONSTITUTION:The virtual spaces, i.e. a virtual space (d) in case of S=0 and a virtual space (c) in case of S=1, are formed in respective running levels of the prescribed program in a computer and control table (a), (b) having bits indicating the area common to respective virtual spaces (c), (d) (for spaces S=0, S=1). Consequently, the virtual spaces can be comparatively easily multiplexed (expanded), the trough-put of an application program can be improved and an OS area can be also expanded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Summary] A multiple virtual space system in a computer, in virtual space management using a virtual memory system, O5 (O
In order to solve the problem that the user application space is reduced due to the expansion of the capacity of perating systems, a virtual space is provided for each program running level, and each virtual space has a common area, so that the virtual space can be expanded. It becomes possible to achieve this goal.

[Industrial application field]

The present invention relates to a multiple virtual space system in a computer.

In a computer that executes processing based on software, an operating system (OS) is installed between the hardware and the user or user program to automate the processing of the computer, improve overall performance, and make it easier to use.
rating systems) are used.

A user using a computer uses the hardware inside the computer via the OS. This O3 is a collection of program modules, and consists of (1) control programs that manage resources, tasks, jobs, etc., and (2) service programs consisting of system editing, linkage editing programs, and service aids. There is.

On the other hand, due to functional expansion of recent OSes, O3 occupies a larger proportion of the virtual storage space, and the application program area in which user programs and the like run is becoming smaller.

When the application program area becomes smaller, problems such as poor application program throughput and inability to run large application programs occur.

Therefore, it is desired to expand the virtual space so that the area of the application program can be arbitrarily occupied.

[Conventional technology]

FIG. 3 shows a diagram illustrating a conventional example. FIG. 3 shows the constituent areas of a predetermined space capacity (16 MB in this example), which areas include O3 areas labeled "1" and "2", and O3 areas labeled "3".
It consists of an application program area and an end runt program area numbered "4".

Among the O3 areas with codes “1” and “2”, code “1” is a program area in supervisor mode (S=1),
The code "2" is a program area in proprem mode (S=O).

Further, the glue end runt program numbered "4" contains programs commonly used by various programs such as application programs.

In this example, as described above, two program running levels are applied: supervisor mode (S=1) and proprem mode (S=O).

In the conventional example shown in FIG. 3, each of these program areas is configured in one virtual space, and the driving level bit (
In this example, the S bit is specified, that is, S=1 is specified when running in supervisor mode, and S=0 is specified when running in propreum mode.

[Problem that the invention seeks to solve]

In the above-mentioned virtual space system, as the proportion occupied by O3 areas "1" and "2" increases due to the functional expansion of O3, the proportion occupied by application program area "3" becomes relatively small.

If the application program area "3" becomes smaller, there are problems such as the throughput of the application program deteriorates and application programs having large steps cannot run.

[Means for solving problems]

FIG. 1 shows a detailed illustration of the invention.

The principle diagram of the present invention shown in FIG. 1 shows the configuration of the virtual space,
This is a virtual space for each running level of a predetermined program within the computer.
That is, a virtual space d when S=O and a virtual space C when S=1 are provided, and each virtual space c, d (S=
0. Management tables a and b having bits indicating common areas in the virtual space (S=1 space) are provided as means for realizing expansion (multiplexing) of the virtual space of the present invention.

[Effect]

Virtual spaces c and d are provided for each running level of the program S=O, S=1, and management tables a and b each have a common area for each virtual space and a bit indicating the common area. By configuring to manage c and d, it becomes possible to easily multiplex virtual spaces.

〔Example〕

The gist of the present invention will be specifically explained below with reference to an embodiment shown in FIG.

FIG. 2 shows a detailed illustration of the invention.

Note that the same reference numerals indicate the same objects throughout all the teeth.

The virtual space can be expanded by simply increasing the number of addresses, or by increasing the space in multiple ways while keeping the number of addresses the same.

The method of increasing the number of addresses requires a major review of the computer's architecture, whereas the method of increasing the number of addresses multiplexed requires less architectural review than the former method.

Therefore, since the latter can be expanded more easily, in this embodiment, the number of addresses remains unchanged and the space is increased by multiplexing.

Also, in this embodiment, there are two program modes, supervisor mode and proprem mode, as described above, and this designation is part of the program status word (shown in FIG. 2 (B)). It is assumed that it is indicated by 5Bits.

That is, when 5Bit is S=1, it is supervisor mode, S
When = 0, it is proprem mode. Furthermore, this S Bi
It is assumed that the setting of t is performed by exchanging program status words and using a certain privileged instruction.

The virtual space shown in FIG. 2(A) has two virtual spaces corresponding to these two running levels, supervisor mode and proprem mode, and corresponding management tables a and b are provided at predetermined positions. ing.

Note that areas "1", "2" to "4" have the same content as the previously described program area, and are area "O".

"O'" is a newly provided area.

Region "O" is part of supervisor mode (s=1) space, and region "O'" is part of propreum mode (S=0) space. This area “O”.

Since the C'Bit in management tables a and b is C'=1 indicating a common area in both Or n, they contain the same contents.

That is, management tables a and b are for each space (supervisor mode (S=1) space, proprem mode (S=0) space)
This is a management table in which a C' Bit area is provided, and when C'=1, it indicates a common area, and when c'=o, it indicates an independent area.

Management using this C' Bit makes it possible for each virtual space C2d to have a common M area. Also, this C'
The common area when = 1 is supervisor mode ('S =
1) Space and proprem mode (S=O) Used as a communication area or data area for programs in space.

In this way, by widening and managing only the area with the code "1" (O5jI area) as a separate space, it becomes possible to make the application program area "3" wider as well.

〔Effect of the invention〕

According to the present invention as described above, virtual spaces can be multiplexed (expanded) relatively easily, the throughput of application programs can be improved, and the O8 area can also be expanded.

[Brief explanation of the drawing]

FIG. 1 is a diagram explaining the present invention in detail, FIG. 2 is a diagram explaining the present invention in detail, and FIG. 3 is a diagram explaining a conventional example. In the figure, a and b are management tables, c and d are virtual spaces, and “0”
, "0'" indicates a common area, "1" and "2" indicate an OS area, "3" indicates an application program area, and "4" indicates an endrunt program area. (S=1ノ (s-o) “F SensafJ Tsuki no Genri Gosake Sorigatsu name G] Mine 1 Figure (S-1) (S-0) Guangshan Dynasty (17) As an example to wheat Nitto glares at him 2. Sermons with a big orgasm 40. Hana 3.

Claims (1)

[Claims] In a computer using a virtual memory system, a bit indicating a virtual space (c, d) for each running level of a predetermined program in the computer, and an area common to the plurality of virtual spaces (c, d). A management table (a, b) having the following information is provided, and a common area and a non-common area in each of the virtual spaces (c, d) are specified and managed by the management table (a, b). Multiple virtual space method.