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![]() IBM AS/400e model 730 | |
Also known as | AS/400, AS400 |
---|---|
Manufacturer | IBM |
Type | Midrange computer |
Release date | 1988 |
Discontinued | 2000 |
Operating system | OS/400 |
Predecessor |
IBM System/38, IBM System/36 |
Successor | IBM iSeries |
Related | IBM RS/6000 |
The IBM AS/400 was a midrange computer platform from IBM, sometimes referred to generically by the umbrella term AS/400 or "AS400". The platform was first introduced as the AS/400 (Application System/400) in June 1988, with the operating system being called OS/400. In 2000, IBM introduced the eServer iSeries (with the 400 sometimes added [1]).
The predecessor to AS/400, IBM System/38, was first made available in August 1979 and was marketed as a minicomputer for general business and departmental use. It was sold alongside other product lines, each with a different architecture ( System/3, System/32, System/34, System/36).
Realizing the importance of compatibility with the thousands of programs written in legacy code, IBM launched the AS/400 midrange computer line in 1988. AS stands for "Application System." Great effort was made during development of the AS/400 to enable programs written for the System/34 and System/36 to be moved to the AS/400. Programs on the System/38 were directly compatible with the new AS/400 (after they were 're-encapsulated' by the operating system).
In 2000, in accordance with IBM's eServer initiative, the AS/400 series was rebranded as the eServer iSeries.
The AS/400 operating system was originally named OS/400 (following the pattern begun with OS/360 and followed with OS/2). The operating system has undergone name changes along with the rebranding of IBM's server lineup. The operating system was rebranded as i5/OS to correspond with the introduction of POWER5 processors and the rebranding of the hardware to eServer iSeries. Ultimately, the operating system was replaced by IBM i's 6.1 release.
The operating system is object-based. Features include a RDBMS ( DB2/400), a menu-driven interface, support for multiple users, block-oriented terminal support ( IBM 5250), and printers. IBM i has built-in security, and support for communications, and web-based applications which can be executed inside the optional IBM WebSphere Application Server or as PHP/ MySQL applications inside a native port of the Apache web server. [2]
Unlike the " everything is a file" feature of Unix and its derivatives, on IBM i everything is an object (with built-in persistence and garbage collection). IBM i offers Unix-like file directories using the Integrated File System. [3] Java compatibility is implemented through a native port of the Java virtual machine.
Like IBM's mainframe operating systems, IBM i uses EBCDIC as the inherent encoding. [4]
OS/400 Version 4, Release 4 (V4R4) introduced LPARs (logical partitions) allowing multiple virtual systems to run on a single hardware footprint.
The AS/400 was the continuation of the System/38 database machine architecture (announced by IBM in October 1978 and delivered in August 1979). The AS/400 removed capability-based addressing. [5] The AS/400 added source compatibility with the System/36 combining the two primary computers manufactured by the IBM Rochester plant. The System/36 was IBM's most successful mini-computer but the architecture had reached its limit.
The first AS/400 systems (known by the development code names Silverlake, named for Silver Lake in downtown Rochester, Minnesota, where development of the system took place, and Olympic) were delivered in 1988 under the tag line "Best of Both Worlds" and the product line has been refreshed continually since then. Guy Dehond from Inventive Designers was one of the beta-testers of Silverlake. The programmers who worked on OS/400, the operating system of the AS/400, did not have a UNIX background. Dr Frank Soltis, the chief architect, says that this is the main difference between this and any other operating system.
The AS/400 was one of the first general-purpose computer systems to attain a C2 security rating from the NSA ( Gould UTX/C2, a UNIX-based system was branded in 1986 [6]), and in 1995 was extended to employ a 64-bit processor and operating system.
The 1995 change-over from IMPI, with 48-bit addresses, to PowerAS, with 64-bit addresses, required that all programs be 'observable', i.e. that the debugging information had not been stripped out of the compiled code. This caused problems for those who had bought third-party products that had no source and no observability. In 2008, the replacement of IBM System i with IBM i on Power Systems caused similar problems. [7]
Although announced in 1988, the AS/400 remains IBM's most recent major architectural shift that was developed wholly internally. Since the arrival of Lou Gerstner in 1993, IBM has viewed such colossal internal developments as too risky. Instead, IBM now prefers to make key product strides through acquisition (e.g., the takeovers of Lotus Software and Rational Software) and to support the development of open standards, particularly Linux. After the departure of CEO John Akers in 1993, when IBM looked likely to be split up, Bill Gates commented that the only part of IBM that Microsoft would be interested in was the AS/400 division. (At the time, many of Microsoft's business and financial systems ran on the AS/400 platform, something that ceased to be the case around 1999, with the introduction of Windows 2000. [8] [9] [10])
In 2000, IBM renamed the AS/400 to iSeries, as part of its e-Server branding initiative. At that time, it adopted more PC server-like features, such as PS/2 keyboards and mice and VGA video output, mostly coming from IBM PS/2 and Intel server line (called eServer xSeries), replacing proprietary technologies. In 2001, it switched to the POWER4 processor from the PowerAS processors used by previous generations.
In 1986, System/38 announced support for Distributed Data Management Architecture (DDM). This enabled programs to create, manage, and access record-oriented files on remote System/36, System/38, and IBM mainframe systems running CICS. This support was extended into the AS/400 and its follow-ons. It was enhanced to support additional services that had been defined by DDM and to support AS/400-specific extensions, as allowed by DDM.
In 1990, the AS/400 announced support for Distributed Relational Database Architecture, which is based on DDM.
The IBM System i platform extended the System/38 architecture of an object-based system with an integrated DB2 relational database. Equally important are the virtual machine and single-level storage concepts which established the platform as an advanced business computer.
One feature that has contributed to the longevity of the IBM System i platform is its high-level instruction set (called TIMI for "Technology Independent Machine Interface" by IBM), which allows application programs to take advantage of advances in hardware and software without recompilation. TIMI is a virtual instruction set independent of the underlying machine instruction set of the CPU. User-mode programs contain both TIMI instructions and the machine instructions of the CPU, thus ensuring hardware independence. This is conceptually somewhat similar to the virtual machine architecture of programming environments such as Smalltalk, Java and .NET. The key difference[ citation needed] is that it is embedded so deeply into the AS/400's design as to make applications effectively binary-compatible across different processor families.
Unlike some other virtual-machine architectures in which the virtual instructions are interpreted at run time, TIMI instructions are never interpreted. They constitute an intermediate compile time step and are translated into the processor's instruction set as the final compilation step. The TIMI instructions are stored within the final program object, in addition to the executable machine instructions. This is how application objects compiled on one processor family (e.g., the original CISC AS/400 48-bit processors) could be moved to a new processor (e.g., PowerPC 64-bit) without re-compilation. An application saved from the older 48-bit platform can simply be restored onto the new 64-bit platform where the operating system discards the old machine instructions and re-translates the TIMI instructions into 64-bit instructions for the new processor.
The system's instruction set defines all pointers as 128-bit. This was the original design feature of the System/38 (S/38) in the mid 1970s planning for future use of faster processors, memory and an expanded address space. When at a point in the future 128-bit general purpose processors would appear, IBM i will already be fully 128-bit enabled. The original AS/400 CISC models used the same 48-bit address space as the S/38. The address space was expanded in 1995 when ith the RISC PowerPC RS64 64-bit CPU processor replaced the 48-bit CISC processor.
For 64-bit PowerPC processors, the virtual address resides in the rightmost 64 bits of a pointer while it was 48 bits in the S/38 and CISC AS/400. The 64-bit address space references main memory and disk as a single address set which is the single-level storage concept.
The IBM System i includes an extensive library-based operating system, IBM i, and is also capable of supporting multiple instances of AIX, Linux, Lotus Domino, Microsoft Windows 2000 and Windows Server 2003. While IBM i, AIX, Linux and Lotus Domino are supported on the POWER processors, Windows is supported with either single-processor internal blade servers (IXS) or externally linked multiple-processor servers (IXA and iSCSI). iSCSI also provides support for attachment of IBM Bladecenters. Windows, Linux, and VMware ESX(VI3) are supported on iSCSI attached servers.
LPAR (Logical PARtitioning), a feature introduced from IBM's mainframe computers, facilitates running multiple operating systems simultaneously on one IBM System i unit. A system configured with LPAR can run various operating systems on separate partitions while ensuring that one OS cannot run over the memory or resources of another. Each LPAR is given a portion of system resources (memory, hard disk space, and CPU time) via a system of weights that determines where unused resources are allocated at any given time. The operating systems supported (and commonly used) under the LPAR scheme are IBM i, AIX, and Linux.
Other features include an integrated DB2 database management system, a menu-driven interface, multi-user support, non-programmable terminals ( IBM 5250) and printers, security, communications, client–server and web-based applications. Much of the software necessary to run the IBM System i is included and integrated into the base operating system.
The IBM System i also supports common client–server systems such as ODBC and JDBC for accessing its database from client software such as Java, Microsoft .NET languages and others.
Programming languages available for the AS/400 include RPG, assembly language, C, C++, Pascal, Java, EGL, Perl, Smalltalk, COBOL, SQL, BASIC, Node.js, PHP, PL/I, Python and REXX. Several CASE tools are available: CA Plex (formerly AllFusion Plex) , Synon, IBM Rational Business Developer Extension, Accelerator, LANSA, Uniface and GeneXus.
The ILE ( Integrated Language Environment) programming environment allows programs from ILE compatible languages (C, C++, COBOL, RPG, Fortran, and CL), to be bound into the same executable and call procedures written in any of the other ILE languages.
Commands in the Control Language (CL) are promptable using the keyboard F4 function key, and most provide cursor-sensitive help to make specifying command parameters simpler. All command names and parameter keywords are based upon uniform standardized and mostly 3-letter abbreviations for verbs and subjects, making for easy rendering and interpretation by the application developer, as opposed to other operating systems with often cryptic or inconsistent command names for related functions or command parameter switches. For instance, the parameter keyword to apply a text description to any object to be created or changed is spelled the same way for all such commands.
Examples:
For traditional business programming languages such as RPG, COBOL, and C, the IBM System i provides an interface to the integrated database that allows these languages to treat database tables much like other platforms treat ISAM or VSAM files.
Support for 5250 display operations is provided via display files, an interface between workstations, keyboards and displays, and interactive applications, as opposed to batch processing with little or no user interaction. ASCII terminals and PC workstations are equally and well supported, also via internet or LAN network access supplemented by either IBM or non-IBM communication software, for example TELNET or TELNET 5250.
IBM systems may also come with programming and development software like Programming Development Manager.
Version [11] | Release date [12] | End of Program Support [13] |
Documentation Support [14] |
---|---|---|---|
V1 | 1988-08-26 | 1993-05-31 | |
V2R1 | 1991-05-24 | 1994-06-30 | |
V2R1M1 | 1992-03-06 | 1994-06-30 | |
V2R2 | 1992-12-18 | 1995-06-30 | |
V2R3 | 1993-12-17 | 1996-05-31 | |
V3R1 | 1995-06-21 | 1998-10-31 | |
V3R2 | 1996-06-04 | 2000-05-31 | |
V3R6 | 1995-12-22 | 1998-10-31 | |
V3R7 | 1996-11-08 | 1999-06-30 | |
V4R1 | 1997-08-29 | 2000-05-31 | |
V4R2 | 1998-02-27 | 2000-05-31 | |
V4R3 | 1998-09-11 | 2001-01-31 | |
V4R4 | 1999-05-21 | 2001-05-31 | |
V4R5 | 2000-07-28 | 2002-12-31 | |
V5R1 | 2001-05-25 | 2005-09-30 | |
V5R2 | 2002-08-30 | 2007-04-30 | |
V5R3 | 2004-06-03 | 2009-04-30 | V5R3 Documentation |
V5R4 | 2007-04-20 | 2013-09-30 | V5R4 Documentation |
The AS/400 was originally based on a custom IBM CISC CPU which had an instruction set architecture, known as Internal MicroProgrammed Interface (IMPI), similar to that of the IBM System/370. [15] It was later migrated to a POWER-based RISC CPU family eventually known as RS64. [16]
The System i5 used POWER CPUs, which were developed and manufactured by IBM.
CPU | Year | Clock Speed | Server-Models | Exterior | ||||
---|---|---|---|---|---|---|---|---|
Type: | 9401 | 9402 | 9404 | 9406 | ||||
IMPI [note 1] | 1988 | > 22Mhz [note 2] | AS/400 | P01, P02 | Biege cases | |||
P03; 10S | C04, C06
D02, D04, D06 E02, E04, E06 F02, F04, F06 100, 2xx, 3xx [18] 20S, 40S |
B10, B20
C10, C20, C25 D10, D20, D25 E10, E20, E25 F10, F20, F25 135, 140, 30S |
B30, B35, B40, B45, B50, B60, B70
[18]
D35, D45, D50, D60, D70, D80 E35, E45, E50, E60, E70, E80, E90, E95 F35, F45, F50, F60, F70, F80, F90, F95, F97 50S, 53S | |||||
1991 | 200 and
236
400 and 436 |
300, 310, 320 | Black cases | |||||
Cobra (A10) | 1995 | 55 or 75 MHz | 4xx | 510, 520 | Unknown | |||
Muskie (A25/A30) | 1996 | 125 or 154 MHz | 530 | |||||
Apache (RS64) (A35) | 1997 | 125 MHz | AS/400e | 150 | 620, 630, 640 | Black cases with blue accent | ||
Unknown (PowerPC AS?) [19] | 1997 | Unknown | SB1, S10, S20, S30, S40 [20] | Black cases with red accent | ||||
NorthStar (RS64 II) | 1998 | 200, 255 or 262 MHz | 170, 250, 650 [21] | 720, 730, 740 | ||||
Pulsar (RS64 III) | 1999 | 450 MHz | iSeries;System i | 270, | 820 | Black cases with yellow accent | ||
IStar (RS64 III upgraded) | 2000 | 400, 500, 540 or 600 MHz | SB2, SB3 [22] | 820 | 830, 840 [23] | |||
SStar (RS64 IV) | 2000 | 540, 600 or 750 MHz | 270 | 800, 810, 820 | 830, 840 | |||
POWER4 | 2001 | 1.1 or 1.3 GHz | 890 | ?? | ||||
POWER4+ | 2003 | 1.9 GHz | 825 | 870 | ||||
POWER5 | 2004 | 1.5 or 1.9 GHz | i5-520 | i5-550 | i5-570, i5-595 | Black cases with blue accent | ||
POWER5+ | 2005 | 1.5 GHz (2005) 1.9 GHz(2005) 2.2 GHz 2.3 GHz |
i5-520, i5-515, i5-525 |
i5-550 | i5-570 | |||
POWER6 | 2007 | 3.5 GHz 4.2 GHz 4.7 GHz |
BladeCenter JS12, JS22 | |||||
M15 | M25 | i5-570 (MMA)
M50 | ||||||
POWER6+ | since 2009 | 3.6 GHz 3.8 GHz 4.0 GHz 4.2 GHz 4.4 GHz 5.0 GHz |
BladeCenter JS12, JS22, JS23, JS43 Power 520, 550, 560, 570, 575, 595 | |||||
Power; | Black cases with green accent | |||||||
POWER7 | 2010 | 3.3 GHz 3.6 GHz 3.7 GHz 4.2 GHz |
BladeCenter PS700, PS701, PS702 PureSystems compute nodes p260, p460, p24L PowerLinux 7R1, 7R2 Power 710, 720, 730, 740, 750, 755, 760, 770, 780, 795 | |||||
POWER7+ | 2012 | 3.7 GHz 4.2 GHz 4.4 GHz |
BladeCenter PS703, PS704 PureSystems compute nodes p260, p460, p24L PowerLinux 7R1, 7R2 Power 710, 720, 730, 740, 750, 755, 760, 770, 780, 795 | |||||
POWER8 | 2014 | 2.5 GHz to 5.0 GHz | Power S812L, S814, S822, S822L, S824, S824L, S812LC, S821LC, S822LC Power E850, E870, E880 | |||||
POWER9 | 2017 | 4 GHz | Power AC922, L922, S914, S922, S924, H922, H924, E950, E980 | |||||
Model | Year | CPU Group | Base - CPW |
---|---|---|---|
B10, B20, B30, B35, B40, B45, B50, B60, B70 | 1988, 1989 | P10, P20 | 2,9 - 20 |
C04, C06, C10, C20, C25 | 1990 | P10 | 3,1 - 6,1 |
D02, D04, D06, D10, D20, D25, D35, D45, D50, D60, D70, D80 | 1991 | P10, P20, P30 | 3,8 - 56,6 |
E02, E04, E06, E10, E20, E25, E35, E45, E50, E60, E70, E80, E90, E95 | 1992 | P10, P20, P30, P40 | 4,5 - 116,6 |
F02, F04, F06, F10, F20, F25, F35, F45, F50, F60, F70, F80, F90, F95, F97 | 1993 | P05, P10, P20, P30, P40 | 5,5 - 177,4 |
P01, P02, P03 | 1993-1995 | P05 | 7,3 - 16,8 |
150 | 1996 | P05 | 10,9 - 35,0 |
S10, S20, S30, S40 | 1997 | P05, P10, P20, P30, P40, P50 | 45,4 - 4550 |
SB1, SB2, SB3 | 1997, 2000 | P30, P40 | 1794 - 16500 |
10S, 100, 135, 140 | 1993-1995 | P05, P10, P20 | 17,1 - 65,6 |
170 | 1998 | P05, P10, P20 | 30 - 1090 |
200, 20S, 236 | 1994 | P05, P10 | 7,3 - 17,1 |
250 | 2000 | P05 | 50 - 75 |
270 | 2000 | P05, P10, P20 | 50 - 2350 |
300, 30S, 310 | 1994 | P10, P20, P30, P40 | 11,6 - 177,4 |
400, 40S, 436 | 1995 | P05, P10 | 13,8 - 91,0 |
500, 50S, 510, 530, 53S | 1995 | P10, P20, P30, P40 | 18,7 - 650 |
600, 620, 640, 650 | 1997 | P05, P10, P20, P30, P40, P50 | 22,7 - 4550 |
720 | 1999 | P10, P20, P30 | 240 - 1600 |
730 | 1999 | P20, P30, P40 | 560 - 2890 |
740 | 1999 | P40, P50 | 3660 - 4550 |
800 | 2003 | P05, P10 | 300 - 950 |
810 | 2003 | P10, P20 | 750 - 2700 |
820 | 2000, 2001 | P05, P10, P20, P30, P40 | 100 - 3700 |
825 | 2003 | P30 | 3600 - 6600 |
830 | 2000, 2002 | P20, P30, P40, P50 | 1850 - 7350 |
840 | 2000-2002 | P40, P50 | 10000 - 20200 |
870 | 2002 | P40, P50 | 7700 - 20000 |
890 | 2002 | P50, P60 | 20000 - 37400 |
520 | 2004–2006 | P05, P10, P20 | 500 - 7100 |
550 | 2004–2006 | P20 | 3300 - 14000 |
570 | 2004–2006 | P30, P40 | 3300 - 58500 |
595 | 2004–2006 | P50, P60 | 24500 - 216000 |
515 | 2007 | P05 | 3800 - 7100 |
525 | 2007 | P10 | 3800 - 7100 |
570 | 2007 | P40 | 16700 - 58500 |
MMA (9406) | 2007 | P30 | 5500 - 76900 |
M15 | 2008 | P05 | 4300 |
M25 | 2008 | P10 | 4300 - 8300 |
M50 | 2008 | P20 | 4800 - 18000 |
MMA | 2008 | P30 | 8150 - 76900 |
JS12 | 2008 | P05 | 7100 |
JS22 | 2008 | P10 | 13800 |
JS23 | 2008 | ||
JS43 | 2008 | ||
570 (9117) | 2008 | P30 | 104800 |
595 (9119) | 2008 | P60 | 294700 |
{{
cite web}}
: CS1 maint: url-status (
link)
Category:AS/400 System i Category:Computer-related introductions in 1988
![]() | This is a
draft article. It is a work in progress
open to editing by
anyone. Please ensure
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free images ·
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Last edited by
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Update) |
![]() IBM AS/400e model 730 | |
Also known as | AS/400, AS400 |
---|---|
Manufacturer | IBM |
Type | Midrange computer |
Release date | 1988 |
Discontinued | 2000 |
Operating system | OS/400 |
Predecessor |
IBM System/38, IBM System/36 |
Successor | IBM iSeries |
Related | IBM RS/6000 |
The IBM AS/400 was a midrange computer platform from IBM, sometimes referred to generically by the umbrella term AS/400 or "AS400". The platform was first introduced as the AS/400 (Application System/400) in June 1988, with the operating system being called OS/400. In 2000, IBM introduced the eServer iSeries (with the 400 sometimes added [1]).
The predecessor to AS/400, IBM System/38, was first made available in August 1979 and was marketed as a minicomputer for general business and departmental use. It was sold alongside other product lines, each with a different architecture ( System/3, System/32, System/34, System/36).
Realizing the importance of compatibility with the thousands of programs written in legacy code, IBM launched the AS/400 midrange computer line in 1988. AS stands for "Application System." Great effort was made during development of the AS/400 to enable programs written for the System/34 and System/36 to be moved to the AS/400. Programs on the System/38 were directly compatible with the new AS/400 (after they were 're-encapsulated' by the operating system).
In 2000, in accordance with IBM's eServer initiative, the AS/400 series was rebranded as the eServer iSeries.
The AS/400 operating system was originally named OS/400 (following the pattern begun with OS/360 and followed with OS/2). The operating system has undergone name changes along with the rebranding of IBM's server lineup. The operating system was rebranded as i5/OS to correspond with the introduction of POWER5 processors and the rebranding of the hardware to eServer iSeries. Ultimately, the operating system was replaced by IBM i's 6.1 release.
The operating system is object-based. Features include a RDBMS ( DB2/400), a menu-driven interface, support for multiple users, block-oriented terminal support ( IBM 5250), and printers. IBM i has built-in security, and support for communications, and web-based applications which can be executed inside the optional IBM WebSphere Application Server or as PHP/ MySQL applications inside a native port of the Apache web server. [2]
Unlike the " everything is a file" feature of Unix and its derivatives, on IBM i everything is an object (with built-in persistence and garbage collection). IBM i offers Unix-like file directories using the Integrated File System. [3] Java compatibility is implemented through a native port of the Java virtual machine.
Like IBM's mainframe operating systems, IBM i uses EBCDIC as the inherent encoding. [4]
OS/400 Version 4, Release 4 (V4R4) introduced LPARs (logical partitions) allowing multiple virtual systems to run on a single hardware footprint.
The AS/400 was the continuation of the System/38 database machine architecture (announced by IBM in October 1978 and delivered in August 1979). The AS/400 removed capability-based addressing. [5] The AS/400 added source compatibility with the System/36 combining the two primary computers manufactured by the IBM Rochester plant. The System/36 was IBM's most successful mini-computer but the architecture had reached its limit.
The first AS/400 systems (known by the development code names Silverlake, named for Silver Lake in downtown Rochester, Minnesota, where development of the system took place, and Olympic) were delivered in 1988 under the tag line "Best of Both Worlds" and the product line has been refreshed continually since then. Guy Dehond from Inventive Designers was one of the beta-testers of Silverlake. The programmers who worked on OS/400, the operating system of the AS/400, did not have a UNIX background. Dr Frank Soltis, the chief architect, says that this is the main difference between this and any other operating system.
The AS/400 was one of the first general-purpose computer systems to attain a C2 security rating from the NSA ( Gould UTX/C2, a UNIX-based system was branded in 1986 [6]), and in 1995 was extended to employ a 64-bit processor and operating system.
The 1995 change-over from IMPI, with 48-bit addresses, to PowerAS, with 64-bit addresses, required that all programs be 'observable', i.e. that the debugging information had not been stripped out of the compiled code. This caused problems for those who had bought third-party products that had no source and no observability. In 2008, the replacement of IBM System i with IBM i on Power Systems caused similar problems. [7]
Although announced in 1988, the AS/400 remains IBM's most recent major architectural shift that was developed wholly internally. Since the arrival of Lou Gerstner in 1993, IBM has viewed such colossal internal developments as too risky. Instead, IBM now prefers to make key product strides through acquisition (e.g., the takeovers of Lotus Software and Rational Software) and to support the development of open standards, particularly Linux. After the departure of CEO John Akers in 1993, when IBM looked likely to be split up, Bill Gates commented that the only part of IBM that Microsoft would be interested in was the AS/400 division. (At the time, many of Microsoft's business and financial systems ran on the AS/400 platform, something that ceased to be the case around 1999, with the introduction of Windows 2000. [8] [9] [10])
In 2000, IBM renamed the AS/400 to iSeries, as part of its e-Server branding initiative. At that time, it adopted more PC server-like features, such as PS/2 keyboards and mice and VGA video output, mostly coming from IBM PS/2 and Intel server line (called eServer xSeries), replacing proprietary technologies. In 2001, it switched to the POWER4 processor from the PowerAS processors used by previous generations.
In 1986, System/38 announced support for Distributed Data Management Architecture (DDM). This enabled programs to create, manage, and access record-oriented files on remote System/36, System/38, and IBM mainframe systems running CICS. This support was extended into the AS/400 and its follow-ons. It was enhanced to support additional services that had been defined by DDM and to support AS/400-specific extensions, as allowed by DDM.
In 1990, the AS/400 announced support for Distributed Relational Database Architecture, which is based on DDM.
The IBM System i platform extended the System/38 architecture of an object-based system with an integrated DB2 relational database. Equally important are the virtual machine and single-level storage concepts which established the platform as an advanced business computer.
One feature that has contributed to the longevity of the IBM System i platform is its high-level instruction set (called TIMI for "Technology Independent Machine Interface" by IBM), which allows application programs to take advantage of advances in hardware and software without recompilation. TIMI is a virtual instruction set independent of the underlying machine instruction set of the CPU. User-mode programs contain both TIMI instructions and the machine instructions of the CPU, thus ensuring hardware independence. This is conceptually somewhat similar to the virtual machine architecture of programming environments such as Smalltalk, Java and .NET. The key difference[ citation needed] is that it is embedded so deeply into the AS/400's design as to make applications effectively binary-compatible across different processor families.
Unlike some other virtual-machine architectures in which the virtual instructions are interpreted at run time, TIMI instructions are never interpreted. They constitute an intermediate compile time step and are translated into the processor's instruction set as the final compilation step. The TIMI instructions are stored within the final program object, in addition to the executable machine instructions. This is how application objects compiled on one processor family (e.g., the original CISC AS/400 48-bit processors) could be moved to a new processor (e.g., PowerPC 64-bit) without re-compilation. An application saved from the older 48-bit platform can simply be restored onto the new 64-bit platform where the operating system discards the old machine instructions and re-translates the TIMI instructions into 64-bit instructions for the new processor.
The system's instruction set defines all pointers as 128-bit. This was the original design feature of the System/38 (S/38) in the mid 1970s planning for future use of faster processors, memory and an expanded address space. When at a point in the future 128-bit general purpose processors would appear, IBM i will already be fully 128-bit enabled. The original AS/400 CISC models used the same 48-bit address space as the S/38. The address space was expanded in 1995 when ith the RISC PowerPC RS64 64-bit CPU processor replaced the 48-bit CISC processor.
For 64-bit PowerPC processors, the virtual address resides in the rightmost 64 bits of a pointer while it was 48 bits in the S/38 and CISC AS/400. The 64-bit address space references main memory and disk as a single address set which is the single-level storage concept.
The IBM System i includes an extensive library-based operating system, IBM i, and is also capable of supporting multiple instances of AIX, Linux, Lotus Domino, Microsoft Windows 2000 and Windows Server 2003. While IBM i, AIX, Linux and Lotus Domino are supported on the POWER processors, Windows is supported with either single-processor internal blade servers (IXS) or externally linked multiple-processor servers (IXA and iSCSI). iSCSI also provides support for attachment of IBM Bladecenters. Windows, Linux, and VMware ESX(VI3) are supported on iSCSI attached servers.
LPAR (Logical PARtitioning), a feature introduced from IBM's mainframe computers, facilitates running multiple operating systems simultaneously on one IBM System i unit. A system configured with LPAR can run various operating systems on separate partitions while ensuring that one OS cannot run over the memory or resources of another. Each LPAR is given a portion of system resources (memory, hard disk space, and CPU time) via a system of weights that determines where unused resources are allocated at any given time. The operating systems supported (and commonly used) under the LPAR scheme are IBM i, AIX, and Linux.
Other features include an integrated DB2 database management system, a menu-driven interface, multi-user support, non-programmable terminals ( IBM 5250) and printers, security, communications, client–server and web-based applications. Much of the software necessary to run the IBM System i is included and integrated into the base operating system.
The IBM System i also supports common client–server systems such as ODBC and JDBC for accessing its database from client software such as Java, Microsoft .NET languages and others.
Programming languages available for the AS/400 include RPG, assembly language, C, C++, Pascal, Java, EGL, Perl, Smalltalk, COBOL, SQL, BASIC, Node.js, PHP, PL/I, Python and REXX. Several CASE tools are available: CA Plex (formerly AllFusion Plex) , Synon, IBM Rational Business Developer Extension, Accelerator, LANSA, Uniface and GeneXus.
The ILE ( Integrated Language Environment) programming environment allows programs from ILE compatible languages (C, C++, COBOL, RPG, Fortran, and CL), to be bound into the same executable and call procedures written in any of the other ILE languages.
Commands in the Control Language (CL) are promptable using the keyboard F4 function key, and most provide cursor-sensitive help to make specifying command parameters simpler. All command names and parameter keywords are based upon uniform standardized and mostly 3-letter abbreviations for verbs and subjects, making for easy rendering and interpretation by the application developer, as opposed to other operating systems with often cryptic or inconsistent command names for related functions or command parameter switches. For instance, the parameter keyword to apply a text description to any object to be created or changed is spelled the same way for all such commands.
Examples:
For traditional business programming languages such as RPG, COBOL, and C, the IBM System i provides an interface to the integrated database that allows these languages to treat database tables much like other platforms treat ISAM or VSAM files.
Support for 5250 display operations is provided via display files, an interface between workstations, keyboards and displays, and interactive applications, as opposed to batch processing with little or no user interaction. ASCII terminals and PC workstations are equally and well supported, also via internet or LAN network access supplemented by either IBM or non-IBM communication software, for example TELNET or TELNET 5250.
IBM systems may also come with programming and development software like Programming Development Manager.
Version [11] | Release date [12] | End of Program Support [13] |
Documentation Support [14] |
---|---|---|---|
V1 | 1988-08-26 | 1993-05-31 | |
V2R1 | 1991-05-24 | 1994-06-30 | |
V2R1M1 | 1992-03-06 | 1994-06-30 | |
V2R2 | 1992-12-18 | 1995-06-30 | |
V2R3 | 1993-12-17 | 1996-05-31 | |
V3R1 | 1995-06-21 | 1998-10-31 | |
V3R2 | 1996-06-04 | 2000-05-31 | |
V3R6 | 1995-12-22 | 1998-10-31 | |
V3R7 | 1996-11-08 | 1999-06-30 | |
V4R1 | 1997-08-29 | 2000-05-31 | |
V4R2 | 1998-02-27 | 2000-05-31 | |
V4R3 | 1998-09-11 | 2001-01-31 | |
V4R4 | 1999-05-21 | 2001-05-31 | |
V4R5 | 2000-07-28 | 2002-12-31 | |
V5R1 | 2001-05-25 | 2005-09-30 | |
V5R2 | 2002-08-30 | 2007-04-30 | |
V5R3 | 2004-06-03 | 2009-04-30 | V5R3 Documentation |
V5R4 | 2007-04-20 | 2013-09-30 | V5R4 Documentation |
The AS/400 was originally based on a custom IBM CISC CPU which had an instruction set architecture, known as Internal MicroProgrammed Interface (IMPI), similar to that of the IBM System/370. [15] It was later migrated to a POWER-based RISC CPU family eventually known as RS64. [16]
The System i5 used POWER CPUs, which were developed and manufactured by IBM.
CPU | Year | Clock Speed | Server-Models | Exterior | ||||
---|---|---|---|---|---|---|---|---|
Type: | 9401 | 9402 | 9404 | 9406 | ||||
IMPI [note 1] | 1988 | > 22Mhz [note 2] | AS/400 | P01, P02 | Biege cases | |||
P03; 10S | C04, C06
D02, D04, D06 E02, E04, E06 F02, F04, F06 100, 2xx, 3xx [18] 20S, 40S |
B10, B20
C10, C20, C25 D10, D20, D25 E10, E20, E25 F10, F20, F25 135, 140, 30S |
B30, B35, B40, B45, B50, B60, B70
[18]
D35, D45, D50, D60, D70, D80 E35, E45, E50, E60, E70, E80, E90, E95 F35, F45, F50, F60, F70, F80, F90, F95, F97 50S, 53S | |||||
1991 | 200 and
236
400 and 436 |
300, 310, 320 | Black cases | |||||
Cobra (A10) | 1995 | 55 or 75 MHz | 4xx | 510, 520 | Unknown | |||
Muskie (A25/A30) | 1996 | 125 or 154 MHz | 530 | |||||
Apache (RS64) (A35) | 1997 | 125 MHz | AS/400e | 150 | 620, 630, 640 | Black cases with blue accent | ||
Unknown (PowerPC AS?) [19] | 1997 | Unknown | SB1, S10, S20, S30, S40 [20] | Black cases with red accent | ||||
NorthStar (RS64 II) | 1998 | 200, 255 or 262 MHz | 170, 250, 650 [21] | 720, 730, 740 | ||||
Pulsar (RS64 III) | 1999 | 450 MHz | iSeries;System i | 270, | 820 | Black cases with yellow accent | ||
IStar (RS64 III upgraded) | 2000 | 400, 500, 540 or 600 MHz | SB2, SB3 [22] | 820 | 830, 840 [23] | |||
SStar (RS64 IV) | 2000 | 540, 600 or 750 MHz | 270 | 800, 810, 820 | 830, 840 | |||
POWER4 | 2001 | 1.1 or 1.3 GHz | 890 | ?? | ||||
POWER4+ | 2003 | 1.9 GHz | 825 | 870 | ||||
POWER5 | 2004 | 1.5 or 1.9 GHz | i5-520 | i5-550 | i5-570, i5-595 | Black cases with blue accent | ||
POWER5+ | 2005 | 1.5 GHz (2005) 1.9 GHz(2005) 2.2 GHz 2.3 GHz |
i5-520, i5-515, i5-525 |
i5-550 | i5-570 | |||
POWER6 | 2007 | 3.5 GHz 4.2 GHz 4.7 GHz |
BladeCenter JS12, JS22 | |||||
M15 | M25 | i5-570 (MMA)
M50 | ||||||
POWER6+ | since 2009 | 3.6 GHz 3.8 GHz 4.0 GHz 4.2 GHz 4.4 GHz 5.0 GHz |
BladeCenter JS12, JS22, JS23, JS43 Power 520, 550, 560, 570, 575, 595 | |||||
Power; | Black cases with green accent | |||||||
POWER7 | 2010 | 3.3 GHz 3.6 GHz 3.7 GHz 4.2 GHz |
BladeCenter PS700, PS701, PS702 PureSystems compute nodes p260, p460, p24L PowerLinux 7R1, 7R2 Power 710, 720, 730, 740, 750, 755, 760, 770, 780, 795 | |||||
POWER7+ | 2012 | 3.7 GHz 4.2 GHz 4.4 GHz |
BladeCenter PS703, PS704 PureSystems compute nodes p260, p460, p24L PowerLinux 7R1, 7R2 Power 710, 720, 730, 740, 750, 755, 760, 770, 780, 795 | |||||
POWER8 | 2014 | 2.5 GHz to 5.0 GHz | Power S812L, S814, S822, S822L, S824, S824L, S812LC, S821LC, S822LC Power E850, E870, E880 | |||||
POWER9 | 2017 | 4 GHz | Power AC922, L922, S914, S922, S924, H922, H924, E950, E980 | |||||
Model | Year | CPU Group | Base - CPW |
---|---|---|---|
B10, B20, B30, B35, B40, B45, B50, B60, B70 | 1988, 1989 | P10, P20 | 2,9 - 20 |
C04, C06, C10, C20, C25 | 1990 | P10 | 3,1 - 6,1 |
D02, D04, D06, D10, D20, D25, D35, D45, D50, D60, D70, D80 | 1991 | P10, P20, P30 | 3,8 - 56,6 |
E02, E04, E06, E10, E20, E25, E35, E45, E50, E60, E70, E80, E90, E95 | 1992 | P10, P20, P30, P40 | 4,5 - 116,6 |
F02, F04, F06, F10, F20, F25, F35, F45, F50, F60, F70, F80, F90, F95, F97 | 1993 | P05, P10, P20, P30, P40 | 5,5 - 177,4 |
P01, P02, P03 | 1993-1995 | P05 | 7,3 - 16,8 |
150 | 1996 | P05 | 10,9 - 35,0 |
S10, S20, S30, S40 | 1997 | P05, P10, P20, P30, P40, P50 | 45,4 - 4550 |
SB1, SB2, SB3 | 1997, 2000 | P30, P40 | 1794 - 16500 |
10S, 100, 135, 140 | 1993-1995 | P05, P10, P20 | 17,1 - 65,6 |
170 | 1998 | P05, P10, P20 | 30 - 1090 |
200, 20S, 236 | 1994 | P05, P10 | 7,3 - 17,1 |
250 | 2000 | P05 | 50 - 75 |
270 | 2000 | P05, P10, P20 | 50 - 2350 |
300, 30S, 310 | 1994 | P10, P20, P30, P40 | 11,6 - 177,4 |
400, 40S, 436 | 1995 | P05, P10 | 13,8 - 91,0 |
500, 50S, 510, 530, 53S | 1995 | P10, P20, P30, P40 | 18,7 - 650 |
600, 620, 640, 650 | 1997 | P05, P10, P20, P30, P40, P50 | 22,7 - 4550 |
720 | 1999 | P10, P20, P30 | 240 - 1600 |
730 | 1999 | P20, P30, P40 | 560 - 2890 |
740 | 1999 | P40, P50 | 3660 - 4550 |
800 | 2003 | P05, P10 | 300 - 950 |
810 | 2003 | P10, P20 | 750 - 2700 |
820 | 2000, 2001 | P05, P10, P20, P30, P40 | 100 - 3700 |
825 | 2003 | P30 | 3600 - 6600 |
830 | 2000, 2002 | P20, P30, P40, P50 | 1850 - 7350 |
840 | 2000-2002 | P40, P50 | 10000 - 20200 |
870 | 2002 | P40, P50 | 7700 - 20000 |
890 | 2002 | P50, P60 | 20000 - 37400 |
520 | 2004–2006 | P05, P10, P20 | 500 - 7100 |
550 | 2004–2006 | P20 | 3300 - 14000 |
570 | 2004–2006 | P30, P40 | 3300 - 58500 |
595 | 2004–2006 | P50, P60 | 24500 - 216000 |
515 | 2007 | P05 | 3800 - 7100 |
525 | 2007 | P10 | 3800 - 7100 |
570 | 2007 | P40 | 16700 - 58500 |
MMA (9406) | 2007 | P30 | 5500 - 76900 |
M15 | 2008 | P05 | 4300 |
M25 | 2008 | P10 | 4300 - 8300 |
M50 | 2008 | P20 | 4800 - 18000 |
MMA | 2008 | P30 | 8150 - 76900 |
JS12 | 2008 | P05 | 7100 |
JS22 | 2008 | P10 | 13800 |
JS23 | 2008 | ||
JS43 | 2008 | ||
570 (9117) | 2008 | P30 | 104800 |
595 (9119) | 2008 | P60 | 294700 |
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Category:AS/400 System i Category:Computer-related introductions in 1988